From db77e6eca87219133bf50e507040f2d75dfad37f Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Tue, 30 Jul 2024 10:47:51 +0100 Subject: [PATCH 01/39] Bump scitools/workflows from 2024.07.5 to 2024.07.6 (#6099) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.07.5 to 2024.07.6. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.07.5...2024.07.6) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index 12691f8536..b0c85425af 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.07.5 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.07.6 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index b0cbe14054..2aa2e82d44 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.07.5 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.07.6 secrets: inherit From 133570cb8f8c16cce08d361176e782a2d4aec651 Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Tue, 30 Jul 2024 10:58:50 +0100 Subject: [PATCH 02/39] Update cf_table v85 (#6100) * update cf_table * add whatsnew * Update docs/src/whatsnew/latest.rst Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> --------- Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> --- docs/src/whatsnew/latest.rst | 3 + etc/cf-standard-name-table.xml | 1434 ++++++++++++++++++++++++++------ 2 files changed, 1169 insertions(+), 268 deletions(-) diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index 8b7fbf5864..4343b02f6e 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -48,6 +48,9 @@ This document explains the changes made to Iris for this release #. `@HGWright`_ added the `monthly` and `yearly` options to the :meth:`~iris.coords.guess_bounds` method. (:issue:`4864`, :pull:`6090`) +#. `@HGWright`_ updated to the latest CF Standard Names Table v85 + (30 July 2024). (:pull:`6100`) + 🐛 Bugs Fixed ============= diff --git a/etc/cf-standard-name-table.xml b/etc/cf-standard-name-table.xml index ef05fde69a..c5405e2dca 100644 --- a/etc/cf-standard-name-table.xml +++ b/etc/cf-standard-name-table.xml @@ -1,10 +1,11 @@ - - 84 - 2024-01-19T15:55:10Z + + 85 + CF-StandardNameTable-85 + 2024-05-21T15:55:10Z + 2024-05-21T15:55:10Z Centre for Environmental Data Analysis support@ceda.ac.uk - 1 @@ -94,21 +95,21 @@ K - The "equivalent potential temperature" is a thermodynamic quantity, with its natural logarithm proportional to the entropy of moist air, that is conserved in a reversible moist adiabatic process. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_potential_temperature. It is the temperature of a parcel of air if all the moisture contained in it were first condensed, releasing latent heat, before moving the parcel dry adiabatically to a standard pressure, typically representative of mean sea level pressure. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with standard name reference_pressure. + The "equivalent potential temperature" is a thermodynamic quantity, with its natural logarithm proportional to the entropy of moist air, that is conserved in a reversible moist adiabatic process. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_potential_temperature. It is the temperature of a parcel of air if all the moisture contained in it were first condensed, releasing latent heat, before moving the parcel dry adiabatically to a standard pressure, typically representative of mean sea level pressure. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with standard name reference_pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The equivalent temperature is the temperature that an air parcel would have if all water vapor were condensed at contstant pressure and the enthalpy released from the vapor used to heat the air. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_temperature. It is the isobaric equivalent temperature and not the adiabatic equivalent temperature, also known as pseudoequivalent temperature, which has the standard name air_pseudo_equivalent_temperature. + The equivalent temperature is the temperature that an air parcel would have if all water vapor were condensed at contstant pressure and the enthalpy released from the vapor used to heat the air. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_temperature. It is the isobaric equivalent temperature and not the adiabatic equivalent temperature, also known as pseudoequivalent temperature, which has the standard name air_pseudo_equivalent_temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K 13 theta - Air potential temperature is the temperature a parcel of air would have if moved dry adiabatically to a standard pressure, typically representative of mean sea level pressure. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with standard name reference_pressure. + Air potential temperature is the temperature a parcel of air would have if moved dry adiabatically to a standard pressure, typically representative of mean sea level pressure. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with standard name reference_pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -178,56 +179,56 @@ K 14 - The pseudoequivalent potential temperature is the temperature a parcel of air would have if it is expanded by a pseudoadiabatic (irreversible moist-adiabatic) process to zero pressure and afterwards compressed by a dry-adiabatic process to a standard pressure, typically representative of mean sea level pressure. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Pseudoequivalent_potential_temperature. A pseudoadiabatic process means that the liquid water that condenses is assumed to be removed as soon as it is formed. Reference: AMS Glossary http:/glossary.ametsoc.org/wiki/Pseudoadiabatic_process. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with the standard name reference_pressure. + The pseudoequivalent potential temperature is the temperature a parcel of air would have if it is expanded by a pseudoadiabatic (irreversible moist-adiabatic) process to zero pressure and afterwards compressed by a dry-adiabatic process to a standard pressure, typically representative of mean sea level pressure. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Pseudoequivalent_potential_temperature. A pseudoadiabatic process means that the liquid water that condenses is assumed to be removed as soon as it is formed. Reference: AMS Glossary http:/glossary.ametsoc.org/wiki/Pseudoadiabatic_process. To specify the standard pressure to which the quantity applies, provide a scalar coordinate variable with the standard name reference_pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The pseudoequivalent temperature is also known as the adiabatic equivalent temperature. It is the temperature that an air parcel would have after undergoing the following process: dry-adiabatic expansion until saturated; pseudoadiabatic expansion until all moisture is precipitated out; dry-adiabatic compression to the initial pressure. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_temperature. This quantity is distinct from the isobaric equivalent temperature, also known as equivalent temperature, which has the standard name air_equivalent_temperature. + The pseudoequivalent temperature is also known as the adiabatic equivalent temperature. It is the temperature that an air parcel would have after undergoing the following process: dry-adiabatic expansion until saturated; pseudoadiabatic expansion until all moisture is precipitated out; dry-adiabatic compression to the initial pressure. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Equivalent_temperature. This quantity is distinct from the isobaric equivalent temperature, also known as equivalent temperature, which has the standard name air_equivalent_temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K 11 E130 ta - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K 25 - "anomaly" means difference from climatology. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The term "anomaly" means difference from climatology. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - cloud_top refers to the top of the highest cloud. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + cloud_top refers to the top of the highest cloud. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The "effective cloud top defined by infrared radiation" is (approximately) the geometric height above the surface that is one optical depth at infrared wavelengths (in the region of 11 micrometers) below the cloud top that would be detected by visible and lidar techniques. Reference: Minnis, P. et al 2011 CERES Edition-2 Cloud Property Retrievals Using TRMM VIRS and Terra and Aqua MODIS Data x2014; Part I: Algorithms IEEE Transactions on Geoscience and Remote Sensing, 49(11), 4374-4400. doi: http://dx.doi.org/10.1109/TGRS.2011.2144601. + The "effective cloud top defined by infrared radiation" is (approximately) the geometric height above the surface that is one optical depth at infrared wavelengths (in the region of 11 micrometers) below the cloud top that would be detected by visible and lidar techniques. Reference: Minnis, P. et al 2011 CERES Edition-2 Cloud Property Retrievals Using TRMM VIRS and Terra and Aqua MODIS Data x2014; Part I: Algorithms IEEE Transactions on Geoscience and Remote Sensing, 49(11), 4374-4400. doi: http://dx.doi.org/10.1109/TGRS.2011.2144601. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K m-1 19 - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. A lapse rate is the negative derivative of a quantity with respect to increasing height above the surface, or the (positive) derivative with respect to increasing depth. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. A lapse rate is the negative derivative of a quantity with respect to increasing height above the surface, or the (positive) derivative with respect to increasing depth. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. Air temperature excess and deficit are calculated relative to the air temperature threshold. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. Air temperature excess and deficit are calculated relative to the air temperature threshold. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: on-scale", meaning that the temperature is relative to the origin of the scale indicated by the units, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -353,7 +354,7 @@ K - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name apparent_air_temperature is the perceived air temperature derived from either a combination of temperature and wind (which has standard name wind_chill_of_air_temperature) or temperature and humidity (which has standard name heat_index_of_air_temperature) for the hour indicated by the time coordinate variable. When the air temperature falls to 283.15 K or below, wind chill is used for the apparent_air_temperature. When the air temperature rises above 299.817 K, the heat index is used for apparent_air_temperature. For temperatures above 283.15 and below 299.817K, the apparent_air_temperature is the ambient air temperature (which has standard name air_temperature). References: https://digital.weather.gov/staticpages/definitions.php; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/_0-0-21. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name apparent_air_temperature is the perceived air temperature derived from either a combination of temperature and wind (which has standard name wind_chill_of_air_temperature) or temperature and humidity (which has standard name heat_index_of_air_temperature) for the hour indicated by the time coordinate variable. When the air temperature falls to 283.15 K or below, wind chill is used for the apparent_air_temperature. When the air temperature rises above 299.817 K, the heat index is used for apparent_air_temperature. For temperatures above 283.15 and below 299.817K, the apparent_air_temperature is the ambient air temperature (which has standard name air_temperature). References: https://digital.weather.gov/staticpages/definitions.php; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/_0-0-21. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2383,21 +2384,21 @@ K - The atmosphere_stability_k_index is an index that indicates the potential of severe convection and is often referred to a simply the k index. The index is derived from the difference in air temperature between 850 and 500 hPa, the dew point temperature at 850 hPa, and the difference between the air temperature and the dew point temperature at 700 hPa. + The atmosphere_stability_k_index is an index that indicates the potential of severe convection and is often referred to as simply the k index. The index is calculated as A + B - C, where A is the difference in air temperature between 850 and 500 hPa, B is the dew point temperature at 850 hPa, and C is the dew point depression (i.e. the amount by which the air temperature exceeds its dew point temperature) at 700 hPa. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The atmosphere_stability_showalter_index is an index used to determine convective and thunderstorm potential and is often referred to as simply the showalter index. The index is defined as the temperature difference between a parcel of air lifted from 850 to 500 hPa (wet adiabatically) and the ambient air temperature at 500 hPa. + The atmosphere_stability_showalter_index is an index used to determine convective and thunderstorm potential and is often referred to as simply the showalter index. The index is defined as the temperature difference between a parcel of air lifted from 850 to 500 hPa (wet adiabatically) and the ambient air temperature at 500 hPa. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The atmosphere_stability_total_totals_index indicates thelikelihood of severe convection and is often referred to as simply thetotal totals index. The index is derived from the difference in airtemperature between 850 and 500 hPa (the vertical totals) and thedifference between the dew point temperature at 850 hPa and the airtemperature at 500 hPa (the cross totals). The vertical totals and crosstotals are summed to obtain the index. + The atmosphere_stability_total_totals_index indicates thelikelihood of severe convection and is often referred to as simply thetotal totals index. The index is derived from the difference in airtemperature between 850 and 500 hPa (the vertical totals) and thedifference between the dew point temperature at 850 hPa and the airtemperature at 500 hPa (the cross totals). The vertical totals and crosstotals are summed to obtain the index. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2554,6 +2555,13 @@ The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Altitude is the (geometric) height above the geoid, which is the reference geopotential surface. The geoid is similar to mean sea level. "Bedrock" is the solid Earth surface beneath land ice, ocean water or soil. The zero of bedrock altitude change is arbitrary. Isostatic adjustment is the vertical movement of the lithosphere due to changing surface ice and water loads. + + m + + + The bedrock_depth_below_ground_level is the vertical distance between the ground and the bedrock. "Bedrock" refers to the surface of the consolidated rock, beneath any unconsolidated rock, sediment, soil, water or land ice. "Ground level" means the level of the solid surface in land areas without permanent inland water, beneath any snow, ice or surface water. + + @@ -2586,21 +2594,21 @@ K 118 - The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. + The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units).. K - The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. "anomaly" means difference from climatology. + The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. "anomaly" means difference from climatology. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - cloud_top refers to the top of the highest cloud. brightness_temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. A coordinate variable of radiation_wavelength, sensor_band_central_radiation_wavelength, or radiation_frequency may be specified to indicate that the brightness temperature applies at specific wavelengths or frequencies. + cloud_top refers to the top of the highest cloud. brightness_temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. A coordinate variable of radiation_wavelength, sensor_band_central_radiation_wavelength, or radiation_frequency may be specified to indicate that the brightness temperature applies at specific wavelengths or frequencies. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2670,7 +2678,7 @@ K - "Canopy temperature" is the bulk temperature of the canopy, not the surface (skin) temperature. "Canopy" means the vegetative covering over a surface. The canopy is often considered to be the outer surfaces of the vegetation. Plant height and the distribution, orientation and shape of plant leaves within a canopy influence the atmospheric environment and many plant processes within the canopy. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Canopy. + "Canopy temperature" is the bulk temperature of the canopy, not the surface (skin) temperature. "Canopy" means the vegetative covering over a surface. The canopy is often considered to be the outer surfaces of the vegetation. Plant height and the distribution, orientation and shape of plant leaves within a canopy influence the atmospheric environment and many plant processes within the canopy. Reference: AMS Glossary http://glossary.ametsoc.org/wiki/Canopy. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2838,7 +2846,7 @@ K - "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. + The phrase "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2866,7 +2874,7 @@ K - Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate. + Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The phrase "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -2901,7 +2909,7 @@ K - "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate.Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature applies use a vertical coordinate variable or scalar coordinate variable. There are standard names for sea_surface_temperature, sea_surface_skin_temperature, sea_surface_subskin_temperature and sea_surface_foundation_temperature which can be used to describe data located at the specified surfaces. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "change_over_time_in_X" means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate.Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature applies use a vertical coordinate variable or scalar coordinate variable. There are standard names for sea_surface_temperature, sea_surface_skin_temperature, sea_surface_subskin_temperature and sea_surface_foundation_temperature which can be used to describe data located at the specified surfaces. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -3174,7 +3182,7 @@ K m s-1 - Covariance refers to the sample covariance rather than the population covariance. The quantity with standard name covariance_over_longitude_of_northward_wind_and_air_temperature is the covariance of the deviations of meridional air velocity and air temperature about their respective zonal mean values. The data variable must be accompanied by a vertical coordinate variable or scalar coordinate variable and is calculated on an isosurface of that vertical coordinate. "Northward" indicates a vector component which is positive when directed northward (negative southward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name "upward_air_velocity"). Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + Covariance refers to the sample covariance rather than the population covariance. The quantity with standard name covariance_over_longitude_of_northward_wind_and_air_temperature is the covariance of the deviations of meridional air velocity and air temperature about their respective zonal mean values. The data variable must be accompanied by a vertical coordinate variable or scalar coordinate variable and is calculated on an isosurface of that vertical coordinate. "Northward" indicates a vector component which is positive when directed northward (negative southward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name "upward_air_velocity"). Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -3258,14 +3266,14 @@ K 18 - Dew point depression is also called dew point deficit. It is the amount by which the air temperature exceeds its dew point temperature. Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity. + Dew point depression is also called dew point deficit. It is the amount by which the air temperature exceeds its dew point temperature. Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K 17 - Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity. + Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -3300,7 +3308,7 @@ K - Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any), not the skin or interface temperature, whose standard names are sea_surface_skin_temperature and surface_temperature, respectively. For the temperature of sea water at a particular depth or layer, a data variable of "sea_water_temperature" with a vertical coordinate axis should be used. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any), not the skin or interface temperature, whose standard names are sea_surface_skin_temperature and surface_temperature, respectively. For the temperature of sea water at a particular depth or layer, a data variable of "sea_water_temperature" with a vertical coordinate axis should be used. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -3576,6 +3584,20 @@ Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 sr-1 @@ -3730,6 +3752,20 @@ Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -3772,13 +3808,6 @@ The quantity with standard name drainage_amount_through_base_of_soil_model is the amount of water that drains through the bottom of a soil column extending from the surface to a specified depth. "Drainage" is the process of removal of excess water from soil by gravitational flow. "Amount" means mass per unit area. A vertical coordinate variable or scalar coordinate with standard name "depth" should be used to specify the depth to which the soil column extends. - - kg m-2 - - - “Drainage” is the process of removal of excess water from soil by gravitational flow. "Amount" means mass per unit area. The vertical drainage amount in soil is the amount of water that drains through the bottom of a soil column extending from the surface to a specified depth. - - 1 @@ -3839,7 +3868,7 @@ K - The dynamical tropopause used in interpreting the dynamics of the upper troposphere and lower stratosphere. There are various definitions of dynamical tropopause in the scientific literature. + The dynamical tropopause used in interpreting the dynamics of the upper troposphere and lower stratosphere. There are various definitions of dynamical tropopause in the scientific literature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4182,7 +4211,7 @@ K m2 kg-1 s-1 vorpot - The Ertel potential vorticity is the scalar product of the atmospheric absolute vorticity vector and the gradient of potential temperature. It is a conserved quantity in the absence of friction and heat sources [AMS Glossary, http://glossary.ametsoc.org/wiki/Ertel_potential_vorticity]. A frequently used simplification of the general Ertel potential vorticity considers the Earth rotation vector to have only a vertical component. Then, only the vertical contribution of the scalar product is calculated. + The Ertel potential vorticity is the scalar product of the atmospheric absolute vorticity vector and the gradient of potential temperature. It is a conserved quantity in the absence of friction and heat sources [AMS Glossary, http://glossary.ametsoc.org/wiki/Ertel_potential_vorticity]. A frequently used simplification of the general Ertel potential vorticity considers the Earth rotation vector to have only a vertical component. Then, only the vertical contribution of the scalar product is calculated. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4217,7 +4246,7 @@ K - The overall temperature of a fire area due to contributions from smoldering and flaming biomass. A data variable containing the area affected by fire should be given the standard name fire_area. + The overall temperature of a fire area due to contributions from smoldering and flaming biomass. A data variable containing the area affected by fire should be given the standard name fire_area. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4700,7 +4729,7 @@ K - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name heat_index_of_air_temperature is the perceived air temperature when relative humidity is taken into consideration (which makes it feel hotter than the actual air temperature). Heat index is only defined when the ambient air temperature is at or above 299.817 K. References: https://www.weather.gov/safety/heat-index; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/_0-0-12. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name heat_index_of_air_temperature is the perceived air temperature when relative humidity is taken into consideration (which makes it feel hotter than the actual air temperature). Heat index is only defined when the ambient air temperature is at or above 299.817 K. References: https://www.weather.gov/safety/heat-index; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/_0-0-12. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4847,14 +4876,14 @@ kg degree_C m-2 - The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. The phrase "wrt" means "with respect to". Depth is the vertical distance below the surface. The phrase "product_of_X_and_Y" means X*Y. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. Sea water density is the in-situ density (not the potential density). For Boussinesq models, density is the constant Boussinesq reference density, a quantity which has the standard name reference_sea_water_density_for_boussinesq_approximation. + The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. The phrase "wrt" means "with respect to". Depth is the vertical distance below the surface. The phrase "product_of_X_and_Y" means X*Y. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. Sea water density is the in-situ density (not the potential density). For Boussinesq models, density is the constant Boussinesq reference density, a quantity which has the standard name reference_sea_water_density_for_boussinesq_approximation. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). kg degree_C m-2 - The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. The phrase "wrt" means "with respect to". The phrase "product_of_X_and_Y" means X*Y. Depth is the vertical distance below the surface. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. Sea water density is the in-situ density (not the potential density). For Boussinesq models, density is the constant Boussinesq reference density, a quantity which has the standard name reference_sea_water_density_for_boussinesq_approximation. + The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. The phrase "wrt" means "with respect to". The phrase "product_of_X_and_Y" means X*Y. Depth is the vertical distance below the surface. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. Sea water density is the in-situ density (not the potential density). For Boussinesq models, density is the constant Boussinesq reference density, a quantity which has the standard name reference_sea_water_density_for_boussinesq_approximation. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4875,7 +4904,7 @@ K m - The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. "wrt" means with respect to. Depth is the vertical distance below the surface. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "integral_wrt_X_of_Y" means int Y dX. To specify the limits of the integral the data variable should have an axis for X and associated coordinate bounds. If no axis for X is associated with the data variable, or no coordinate bounds are specified, it is assumed that the integral is calculated over the entire vertical extent of the medium, e.g, if the medium is air the integral is assumed to be calculated over the full depth of the atmosphere. "wrt" means with respect to. Depth is the vertical distance below the surface. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -4924,14 +4953,14 @@ K s - The phrase "integral_wrt_X_of_Y" means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. "wrt" means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature deficit is the air temperature threshold minus the air temperature, where only positive values are included in the integral. Its integral with respect to time is often called after its units of "degree-days". The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold. + The phrase "integral_wrt_X_of_Y" means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. "wrt" means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature deficit is the air temperature threshold minus the air temperature, where only positive values are included in the integral. Its integral with respect to time is often called after its units of "degree-days". The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s - The phrase "integral_wrt_X_of_Y" means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. "wrt" means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature excess is the air temperature minus the air temperature threshold, where only positive values are included in the integral. Its integral with respect to time is often called after its units of "degree-days". The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold. + The phrase "integral_wrt_X_of_Y" means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. "wrt" means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature excess is the air temperature minus the air temperature threshold, where only positive values are included in the integral. Its integral with respect to time is often called after its units of "degree-days". The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -7717,7 +7746,7 @@ K - "Land ice" means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. The standard name land_ice_basal_temperature means the temperature of the land ice at its lower boundary. + "Land ice" means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. The standard name land_ice_basal_temperature means the temperature of the land ice at its lower boundary. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -7857,7 +7886,7 @@ K - "Land ice" means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. + "Land ice" means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -7937,6 +7966,20 @@ "Content" indicates a quantity per unit area. + + 1 + + + Left singular vectors of the matrix representing the logarithmic scale remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (fractional changes of methane in the retrieved atmosphere relative to the fractional changes of methane in the true atmosphere, Rodgers 2000; Keppens et al., 2015). + + + + 1 + + + Left singular vectors of the matrix representing the remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + J kg-1 @@ -12557,6 +12600,34 @@ Mole concentration means number of moles per unit volume, also called "molarity", and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". The phrase "expressed_as" is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. Picophytoplankton are phytoplankton of less than 2 micrometers in size. Phytoplankton are algae that grow where there is sufficient light to support photosynthesis. + + mol m-3 + + + "Mole concentration" means the number of moles per unit volume, also called "molarity", and is used in the construction "mole_concentration_of_X_in_Y", where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". "Dissolved inorganic carbon-13" is the sum of CO3_13C, HCO3_13C and H2CO3_13C. The subduction and subsequent transport of surface water carry into the interior ocean considerable quantities of dissolved inorganic carbon-13, which is entirely independent of biological activity (such as organic decomposition and oxidation) after the water leaves the sea surface. Such dissolved inorganic carbon-13 is termed “preformed” dissolved inorganic carbon-13 (Redfield,1942). + + + + mol m-3 + + + "Mole concentration" means the number of moles per unit volume, also called "molarity", and is used in the construction "mole_concentration_of_X_in_Y", where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". "Dissolved inorganic carbon" is the sum of CO3, HCO3 and H2CO3. The subduction and subsequent transport of surface water carry into the interior ocean considerable quantities of dissolved inorganic carbon, which is entirely independent of biological activity (such as organic decomposition and oxidation) after the water leaves the sea surface. Such dissolved inorganic carbon is termed “preformed” dissolved inorganic carbon (Redfield,1942). + + + + mol m-3 + + + "Mole concentration" means the number of moles per unit volume, also called "molarity", and is used in the construction "mole_concentration_of_X_in_Y", where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". "Dissolved inorganic phosphorus" means the sum of all inorganic phosphorus in solution (including phosphate, hydrogen phosphate, dihydrogen phosphate, and phosphoric acid). The subduction and subsequent transport of surface water carry into the interior ocean considerable quantities of nutrients, which are entirely independent of biological activity (such as organic decomposition and oxidation) after the water leaves the sea surface. Such nutrients are termed “preformed” nutrients (Redfield,1942). + + + + mol m-3 + + + "Mole concentration" means the number of moles per unit volume, also called "molarity", and is used in the construction "mole_concentration_of_X_in_Y", where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". The subduction and subsequent transport of surface water carry into the interior ocean considerable quantities of dissolved oxygen, which are entirely independent of biological activity (such as organic decomposition and oxidation) after the water leaves the sea surface. Such dissolved oxygen is termed “preformed” dissolved oxygen (Redfield,1942). + + mol m-3 @@ -15313,7 +15384,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. degree_C - Perceived temperature (PT) is an equivalent air temperature of the actual thermal condition. It is the air temperature of a reference condition causing the same thermal perception in a human body considering air temperature, wind speed, humidity, solar and thermal radiation as well as clothing and activity level. It is not the perceived air temperature, that derives either from wind chill and heat index and has the standard_name apparent_air_temperature. + Perceived temperature (PT) is an equivalent air temperature of the actual thermal condition. It is the air temperature of a reference condition causing the same thermal perception in a human body considering air temperature, wind speed, humidity, solar and thermal radiation as well as clothing and activity level. It is not the perceived air temperature, that derives either from wind chill and heat index and has the standard_name apparent_air_temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15383,7 +15454,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. degree_C - Physiological equivalent temperature (PET) is an equivalent air temperature of the actual thermal condition. It is the air temperature of a reference condition without wind and solar radiation at which the heat budget of the human body is balanced with the same core and skin temperature. Note that PET here is not potential evapotranspiration. + Physiological equivalent temperature (PET) is an equivalent air temperature of the actual thermal condition. It is the air temperature of a reference condition without wind and solar radiation at which the heat budget of the human body is balanced with the same core and skin temperature. Note that PET here is not potential evapotranspiration. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15803,7 +15874,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - "product_of_X_and_Y" means X*Y. "specific" means per unit mass. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. Specific humidity is the mass fraction of water vapor in (moist) air. + The phrase "product_of_X_and_Y" means X*Y. "specific" means per unit mass. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. Specific humidity is the mass fraction of water vapor in (moist) air. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15817,14 +15888,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K m s-1 - "product_of_X_and_Y" means X*Y. A velocity is a vector quantity. "Eastward" indicates a vector component which is positive when directed eastward (negative westward). + The phrase "product_of_X_and_Y" means X*Y. A velocity is a vector quantity. "Eastward" indicates a vector component which is positive when directed eastward (negative westward). It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K m s-1 - "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. "Eastward" indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) + The phrase "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. "Eastward" indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15866,7 +15937,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K Pa s-1 mpwapta - The phrase "product_of_X_and_Y" means X*Y. The phrase "tendency_of_X" means derivative of X with respect to time. The Lagrangian tendency of a quantity is its rate of change following the motion of the fluid, also called the "material derivative" or "convective derivative". The Lagrangian tendency of air pressure, often called "omega", plays the role of the upward component of air velocity when air pressure is being used as the vertical coordinate. If the vertical air velocity is upwards, it is negative when expressed as a tendency of air pressure; downwards is positive. Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The phrase "product_of_X_and_Y" means X*Y. The phrase "tendency_of_X" means derivative of X with respect to time. The Lagrangian tendency of a quantity is its rate of change following the motion of the fluid, also called the "material derivative" or "convective derivative". The Lagrangian tendency of air pressure, often called "omega", plays the role of the upward component of air velocity when air pressure is being used as the vertical coordinate. If the vertical air velocity is upwards, it is negative when expressed as a tendency of air pressure; downwards is positive. Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15894,14 +15965,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K m s-1 - "product_of_X_and_Y" means X*Y. A velocity is a vector quantity. "Northward" indicates a vector component which is positive when directed northward (negative southward). + The phrase "product_of_X_and_Y" means X*Y. A velocity is a vector quantity. "Northward" indicates a vector component which is positive when directed northward (negative southward). It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K m s-1 mpvta - "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. "Northward" indicates a vector component which is positive when directed northward (negative southward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) + The phrase "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. "Northward" indicates a vector component which is positive when directed northward (negative southward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -15936,7 +16007,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K m s-1 - "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. A velocity is a vector quantity. "Upward" indicates a vector component which is positive when directed upward (negative downward). Upward air velocity is the vertical component of the 3D air velocity vector. + The phrase "product_of_X_and_Y" means X*Y. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. A velocity is a vector quantity. "Upward" indicates a vector component which is positive when directed upward (negative downward). Upward air velocity is the vertical component of the 3D air velocity vector. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -18575,7 +18646,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. s - The quantity with standard name radio_signal_roundtrip_travel_time_in_air is the time taken for an electromagnetic signal to propagate from an emitting instrument such as a radar or lidar to a reflecting volume and back again. The signal returned to the instrument is the sum of all scattering from a given volume of air regardless of mechanism (examples are scattering by aerosols, hydrometeors and refractive index irregularities, or whatever else the instrument detects). + Time it takes for a radio wave, that was transmitted by an instrument to propagate through the air to the volume of air where it is scattered and return back to an instrument. The "instrument" (examples are radar and lidar) is the device used to make the observation. The "scatterers" are what causes the transmitted signal to be returned to the instrument (examples are aerosols, hydrometeors and refractive index irregularities in the air). A standard name referring to time taken for a radio signal to propagate from the emitting instrument to a scattering volume and back to an instrument. @@ -18620,6 +18691,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. + + 1 + + + Rank of the matrix representing the logarithmic scale remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (fractional changes of methane in the retrieved atmosphere relative to the fractional changes of methane in the true atmosphere, Rodgers 2000; Keppens et al., 2015). + + + + 1 + + + Rank the matrix representing the remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + 1 @@ -18645,7 +18730,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K s-1 - The quantity with standard name ratio_of_sea_water_potential_temperature_anomaly_to_relaxation_timescale is a correction term applied to modelled sea water potential temperature. The term is estimated as the deviation of model local sea water potential temperature from an observation-based climatology (e.g. World Ocean Database) weighted by a user-specified relaxation coefficient in s-1 (1/(relaxation timescale)). Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The phrase "ratio_of_X_to_Y" means X/Y. The term "anomaly" means difference from climatology. + The quantity with standard name ratio_of_sea_water_potential_temperature_anomaly_to_relaxation_timescale is a correction term applied to modelled sea water potential temperature. The term is estimated as the deviation of model local sea water potential temperature from an observation-based climatology (e.g. World Ocean Database) weighted by a user-specified relaxation coefficient in s-1 (1/(relaxation timescale)). Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The phrase "ratio_of_X_to_Y" means X/Y. The term "anomaly" means difference from climatology. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -18687,7 +18772,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. W - The quantity with standard name received_power_of_radio_wave_in_air_scattered_by_air refers to the received power of the signal at an instrument such as a radar or lidar. The signal returned to the instrument is the sum of all scattering from a given volume of air regardless of mechanism (examples are scattering by aerosols, hydrometeors and refractive index irregularities, or whatever else the instrument detects). + Power of a radio wave, that was transmitted by an instrument and propagates in the air where it's scattered by the air due to which its properties change, and it is received again by an instrument. The "instrument" (examples are radar and lidar) is the device used to make the observation. The "scatterers" are what causes the transmitted signal to be returned to the instrument (examples are aerosols, hydrometeors and refractive index irregularities in the air). A standard name referring to the received power of the signal at the instrument. @@ -18704,6 +18789,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The period of time over which a parameter has been summarised (usually by averaging) in order to provide a reference (baseline) against which data has been compared. When a coordinate, scalar coordinate, or auxiliary coordinate variable with this standard name has bounds, then the bounds specify the beginning and end of the time period over which the reference was determined. If the reference represents an instant in time, rather than a period, then bounds may be omitted. It is not the time for which the actual measurements are valid; the standard name of time should be used for that. + + mol/mol + + + This ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y. + + Pa @@ -18753,6 +18845,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. relative_sensor_azimuth_angle is the difference between the viewing geometries from two different sensors over the same observation target. It is the difference between the values of two quantities with standard name sensor_azimuth_angle. There is no standardized sign convention for relative_sensor_azimuth_angle. "Observation target" means a location on the Earth defined by the sensor performing the observations. A standard name also exists for relative_platform_azimuth_angle, where "platform" refers to the vehicle from which observations are made e.g. aeroplane, ship, or satellite. For some viewing geometries the sensor and the platform cannot be assumed to be close enough to neglect the difference in calculated azimuth angle. + + 1 + + + Logarithmic scale averaging kernels of the methane mole fractions obtained by a remote sensing observation (Rodgers, 2020). These kernels are also called fractional averaging kernels (Keppens et al., 2015) They represent the fractional changes of methane in the retrieved atmosphere relative to the fractional changes of methane in the true atmosphere. + + + + 1 + + + Averaging kernels of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + 1 @@ -18760,6 +18866,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Richardson number is a measure of dynamic stability and can be used to diagnose the existence of turbulent flow. It is defined as the ratio of the buoyant suppression of turbulence (i.e. how statically stable or unstable the conditions are) to the kinetic energy available to generate turbulence in a shear flow. + + 1 + + + Right singular vectors of the matrix representing the logarithmic scale remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000; Keppens et al., 2015). + + + + 1 + + + Right singular vectors of the matrix representing the remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + m @@ -18967,7 +19087,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. The standard name sea_ice_basal_temperature means the temperature of the sea ice at its lower boundary. + "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. The standard name sea_ice_basal_temperature means the temperature of the sea ice at its lower boundary. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19044,14 +19164,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The surface temperature is the (skin) temperature at the interface, not the bulk temperature of the medium above or below. "Sea ice surface temperature" is the temperature that exists at the interface of sea ice and an overlying medium which may be air or snow. In areas of snow covered sea ice, sea_ice_surface_temperature is not the same as the quantity with standard name surface_temperature. "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. + The surface temperature is the (skin) temperature at the interface, not the bulk temperature of the medium above or below. "Sea ice surface temperature" is the temperature that exists at the interface of sea ice and an overlying medium which may be air or snow. In areas of snow covered sea ice, sea_ice_surface_temperature is not the same as the quantity with standard name surface_temperature. "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Sea ice temperature is the bulk temperature of the sea ice, not the surface (skin) temperature. "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. + Sea ice temperature is the bulk temperature of the sea ice, not the surface (skin) temperature. "Sea ice" means all ice floating in the sea which has formed from freezing sea water, rather than by other processes such as calving of land ice to form icebergs. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19191,7 +19311,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The sea surface foundation temperature is the water temperature that is not influenced by a thermally stratified layer of diurnal temperature variability (either by daytime warming or nocturnal cooling). The foundation temperature is named to indicate that it is the temperature from which the growth of the diurnal thermocline develops each day, noting that on some occasions with a deep mixed layer there is no clear foundation temperature in the surface layer. In general, sea surface foundation temperature will be similar to a night time minimum or pre-dawn value at depths of between approximately 1 and 5 meters. In the absence of any diurnal signal, the foundation temperature is considered equivalent to the quantity with standard name sea_surface_subskin_temperature. The sea surface foundation temperature defines a level in the upper water column that varies in depth, space, and time depending on the local balance between thermal stratification and turbulent energy and is expected to change slowly over the course of a day. If possible, a data variable with the standard name sea_surface_foundation_temperature should be used with a scalar vertical coordinate variable to specify the depth of the foundation level. Sea surface foundation temperature is measured at the base of the diurnal thermocline or as close to the water surface as possible in the absence of thermal stratification. Only in situ contact thermometry is able to measure the sea surface foundation temperature. Analysis procedures must be used to estimate sea surface foundation temperature value from radiometric satellite measurements of the quantities with standard names sea_surface_skin_temperature and sea_surface_subskin_temperature. Sea surface foundation temperature provides a connection with the historical concept of a "bulk" sea surface temperature considered representative of the oceanic mixed layer temperature that is typically represented by any sea temperature measurement within the upper ocean over a depth range of 1 to approximately 20 meters. The general term, "bulk" sea surface temperature, has the standard name sea_surface_temperature with no associated vertical coordinate axis. Sea surface foundation temperature provides a more precise, well defined quantity than "bulk" sea surface temperature and, consequently, is more representative of the mixed layer temperature. The temperature of sea water at a particular depth (other than the foundation level) should be reported using the standard name sea_water_temperature and, wherever possible, supplying a vertical coordinate axis or scalar coordinate variable. + The sea surface foundation temperature is the water temperature that is not influenced by a thermally stratified layer of diurnal temperature variability (either by daytime warming or nocturnal cooling). The foundation temperature is named to indicate that it is the temperature from which the growth of the diurnal thermocline develops each day, noting that on some occasions with a deep mixed layer there is no clear foundation temperature in the surface layer. In general, sea surface foundation temperature will be similar to a night time minimum or pre-dawn value at depths of between approximately 1 and 5 meters. In the absence of any diurnal signal, the foundation temperature is considered equivalent to the quantity with standard name sea_surface_subskin_temperature. The sea surface foundation temperature defines a level in the upper water column that varies in depth, space, and time depending on the local balance between thermal stratification and turbulent energy and is expected to change slowly over the course of a day. If possible, a data variable with the standard name sea_surface_foundation_temperature should be used with a scalar vertical coordinate variable to specify the depth of the foundation level. Sea surface foundation temperature is measured at the base of the diurnal thermocline or as close to the water surface as possible in the absence of thermal stratification. Only in situ contact thermometry is able to measure the sea surface foundation temperature. Analysis procedures must be used to estimate sea surface foundation temperature value from radiometric satellite measurements of the quantities with standard names sea_surface_skin_temperature and sea_surface_subskin_temperature. Sea surface foundation temperature provides a connection with the historical concept of a "bulk" sea surface temperature considered representative of the oceanic mixed layer temperature that is typically represented by any sea temperature measurement within the upper ocean over a depth range of 1 to approximately 20 meters. The general term, "bulk" sea surface temperature, has the standard name sea_surface_temperature with no associated vertical coordinate axis. Sea surface foundation temperature provides a more precise, well defined quantity than "bulk" sea surface temperature and, consequently, is more representative of the mixed layer temperature. The temperature of sea water at a particular depth (other than the foundation level) should be reported using the standard name sea_water_temperature and, wherever possible, supplying a vertical coordinate axis or scalar coordinate variable. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19415,14 +19535,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The sea surface skin temperature is the temperature measured by an infrared radiometer typically operating at wavelengths in the range 3.7 - 12 micrometers. It represents the temperature within the conductive diffusion-dominated sub-layer at a depth of approximately 10 - 20 micrometers below the air-sea interface. Measurements of this quantity are subject to a large potential diurnal cycle including cool skin layer effects (especially at night under clear skies and low wind speed conditions) and warm layer effects in the daytime. + The sea surface skin temperature is the temperature measured by an infrared radiometer typically operating at wavelengths in the range 3.7 - 12 micrometers. It represents the temperature within the conductive diffusion-dominated sub-layer at a depth of approximately 10 - 20 micrometers below the air-sea interface. Measurements of this quantity are subject to a large potential diurnal cycle including cool skin layer effects (especially at night under clear skies and low wind speed conditions) and warm layer effects in the daytime. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The sea surface subskin temperature is the temperature at the base of the conductive laminar sub-layer of the ocean surface, that is, at a depth of approximately 1 - 1.5 millimeters below the air-sea interface. For practical purposes, this quantity can be well approximated to the measurement of surface temperature by a microwave radiometer operating in the 6 - 11 gigahertz frequency range, but the relationship is neither direct nor invariant to changing physical conditions or to the specific geometry of the microwave measurements. Measurements of this quantity are subject to a large potential diurnal cycle due to thermal stratification of the upper ocean layer in low wind speed high solar irradiance conditions. + The sea surface subskin temperature is the temperature at the base of the conductive laminar sub-layer of the ocean surface, that is, at a depth of approximately 1 - 1.5 millimeters below the air-sea interface. For practical purposes, this quantity can be well approximated to the measurement of surface temperature by a microwave radiometer operating in the 6 - 11 gigahertz frequency range, but the relationship is neither direct nor invariant to changing physical conditions or to the specific geometry of the microwave measurements. Measurements of this quantity are subject to a large potential diurnal cycle due to thermal stratification of the upper ocean layer in low wind speed high solar irradiance conditions. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19506,7 +19626,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any). More specific terms, namely sea_surface_skin_temperature, sea_surface_subskin_temperature, and surface_temperature are available for the skin, subskin, and interface temperature. respectively. For the temperature of sea water at a particular depth or layer, a data variable of sea_water_temperature with a vertical coordinate axis should be used. + Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any). More specific terms, namely sea_surface_skin_temperature, sea_surface_subskin_temperature, and surface_temperature are available for the skin, subskin, and interface temperature. respectively. For the temperature of sea water at a particular depth or layer, a data variable of sea_water_temperature with a vertical coordinate axis should be used. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19586,6 +19706,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The wave directional spectrum can be written as a five dimensional function S(t,x,y,f,theta) where t is time, x and y are horizontal coordinates (such as longitude and latitude), f is frequency and theta is direction. S has the standard name sea_surface_wave_directional_variance_spectral_density. S can be integrated over direction to give S1= integral(S dtheta) and this quantity has the standard name sea_surface_wave_variance_spectral_density. The quantity with standard name sea_surface_wave_energy_at_variance_spectral_density_maximum, sometimes called peak wave energy, is the maximum value of the variance spectral density (max(S1)). + + W m-1 + + + Wave energy flux, or wave power, is the average rate of transfer of wave energy through a vertical plane of unit width perpendicular to the direction of wave propagation. It should be understood as omnidirectional, or as the sum of all wave power components regardless of direction. In deep water conditions, the wave energy flux can be obtained with the water density, the wave significant height and the energy period. + + s-1 @@ -19642,6 +19769,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The trough is the lowest point of a wave. Trough depth is the vertical distance between the trough and the calm sea surface. Maximum trough depth is the maximum value measured during the observation period. + + degrees + + + The wave direction in each frequency band, calculated from the first-order components of the wave directional spectrum. The full directional wave spectrum is described as a Fourier series: S = a0/2 + a1cos(theta) + b1sin(theta) + a2cos(2theta) + b2sin(2theta). The Fourier coefficients a1, b1, a2, & b2 can be converted to polar coordinates as follows: R1 = (SQRT(a1a1+b1b1))/a0, R2 = (SQRT(a2a2+b2b2))/a0, ALPHA1 = 270.0-ARCTAN(b1,a1), ALPHA2 = 270.0-(0.5*ARCTAN(b2,a2)+{0 or 180, whichever minimizes the difference between ALPHA1 and ALPHA2}). ALPHA1 is the mean wave direction, which is determined from the first-order Fourier coefficients. This spectral parameter is a separate quantity from the bulk parameter (MWDIR), which has the standard name sea_surface_wave_from_direction_at_variance_spectral_density_maximum. The phrase "from_direction" is used in the construction X_from_direction and indicates the direction from which the velocity vector of X is coming. The direction is a bearing in the usual geographical sense, measured positive clockwise from due north. + + m @@ -19740,6 +19874,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Wave period of the highest wave is the period determined from wave crests corresponding to the greatest vertical distance above mean level during the observation period. A period is an interval of time, or the time-period of an oscillation. Wave period is the interval of time between repeated features on the waveform such as crests, troughs or upward passes through the mean level. + + degrees + + + The wave direction in each frequency band, calculated from the second-order components of the wave directional spectrum. Since there is an ambiguity of 180 degrees in the calculation of Alpha2 (i.e. 90 degrees and 270 degrees result in equivalent spectra), the value closer to Alpha1 is selected. The full directional wave spectrum is described as a Fourier series: S = a0/2 + a1cos(theta) + b1sin(theta) + a2cos(2theta) + b2sin(2theta). The Fourier coefficients a1, b1, a2, & b2 can be converted to polar coordinates as follows: R1 = (SQRT(a1a1+b1b1))/a0, R2 = (SQRT(a2a2+b2b2))/a0, ALPHA1 = 270.0-ARCTAN(b1,a1), ALPHA2 = 270.0-(0.5*ARCTAN(b2,a2)+{0 or 180, whichever minimizes the difference between ALPHA1 and ALPHA2}). ALPHA2 is the principal wave direction, which is determined from the second-order Fourier coefficients. This spectral parameter is a separate quantity from the bulk parameter (MWDIR), which has the standard name sea_surface_wave_from_direction_at_variance_spectral_density_maximum. The phrase "from_direction" is used in the construction X_from_direction and indicates the direction from which the velocity vector of X is coming. The direction is a bearing in the usual geographical sense, measured positive clockwise from due north. + + m 100 @@ -19926,14 +20067,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. degree_C - The quantity with standard name sea_water_added_conservative_temperature is a passive tracer in an ocean model whose surface flux does not come from the atmosphere but is imposed externally upon the simulated climate system. The surface flux is expressed as a heat flux and converted to a passive tracer increment as if it were a heat flux being added to conservative temperature. The passive tracer is transported within the ocean as if it were conservative temperature. The passive tracer is zero in the control climate of the model. The passive tracer records added heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. + The quantity with standard name sea_water_added_conservative_temperature is a passive tracer in an ocean model whose surface flux does not come from the atmosphere but is imposed externally upon the simulated climate system. The surface flux is expressed as a heat flux and converted to a passive tracer increment as if it were a heat flux being added to conservative temperature. The passive tracer is transported within the ocean as if it were conservative temperature. The passive tracer is zero in the control climate of the model. The passive tracer records added heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). degree_C - The quantity with standard name sea_water_added_potential_temperature is a passive tracer in an ocean model whose surface flux does not come from the atmosphere but is imposed externally upon the simulated climate system. The surface flux is expressed as a heat flux and converted to a passive tracer increment as if it were a heat flux being added to potential temperature. The passive tracer is transported within the ocean as if it were potential temperature. The passive tracer is zero in the control climate of the model. The passive tracer records added heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. + The quantity with standard name sea_water_added_potential_temperature is a passive tracer in an ocean model whose surface flux does not come from the atmosphere but is imposed externally upon the simulated climate system. The surface flux is expressed as a heat flux and converted to a passive tracer increment as if it were a heat flux being added to potential temperature. The passive tracer is transported within the ocean as if it were potential temperature. The passive tracer is zero in the control climate of the model. The passive tracer records added heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -19968,7 +20109,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. + Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -20066,14 +20207,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - Sea water potential temperature is the temperature a parcel of sea water would have if moved adiabatically to sea level pressure. + Sea water potential temperature is the temperature a parcel of sea water would have if moved adiabatically to sea level pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The potential temperature at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. + Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The potential temperature at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -20097,6 +20238,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The practical salinity at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. Practical Salinity, S_P, is a determination of the salinity of sea water, based on its electrical conductance. The measured conductance, corrected for temperature and pressure, is compared to the conductance of a standard potassium chloride solution, producing a value on the Practical Salinity Scale of 1978 (PSS-78). This name should not be used to describe salinity observations made before 1978, or ones not based on conductance measurements. Conversion of Practical Salinity to other precisely defined salinity measures should use the appropriate formulas specified by TEOS-10. Salinity quantities that do not match any of the precise definitions should be given the more general standard name of sea_water_salinity_at_sea_floor. Reference: www.teos-10.org; Lewis, 1980 doi:10.1109/JOE.1980.1145448. + + mol m-3 + + + "Mole concentration" means the number of moles per unit volume, also called "molarity", and is used in the construction "mole_concentration_of_X_in_Y", where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as "nitrogen" or a phrase such as "nox_expressed_as_nitrogen". "Alkalinity" refers to total alkalinity equivalent concentration, including carbonate, borate, phosphorus, silicon, and nitrogen components. The subduction and subsequent transport of surface water carry into the interior ocean considerable quantities of alkalinity, which is entirely independent of biological activity (such as organic decomposition and oxidation) after the water leaves the sea surface. Such alkalinity is termed “preformed” alkalinity (Redfield,1942). + + g kg-1 @@ -20136,14 +20284,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. degree_C - The quantity with standard name sea_water_redistributed_conservative_temperature is a passive tracer in an ocean model which is subject to an externally imposed perturbative surface heat flux. The passive tracer is initialised to the conservative temperature in the control climate before the perturbation is imposed. Its surface flux is the heat flux from the atmosphere, not including the imposed perturbation, and is converted to a passive tracer increment as if it were being added to conservative temperature. The passive tracer is transported within the ocean as if it were conservative temperature. The passive tracer records redistributed heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. + The quantity with standard name sea_water_redistributed_conservative_temperature is a passive tracer in an ocean model which is subject to an externally imposed perturbative surface heat flux. The passive tracer is initialised to the conservative temperature in the control climate before the perturbation is imposed. Its surface flux is the heat flux from the atmosphere, not including the imposed perturbation, and is converted to a passive tracer increment as if it were being added to conservative temperature. The passive tracer is transported within the ocean as if it were conservative temperature. The passive tracer records redistributed heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the "heat content" of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033<0945:PEACOV>2.0.CO;2. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). degree_C - The quantity with standard name sea_water_redistributed_potential_temperature is a passive tracer in an ocean model which is subject to an externally imposed perturbative surface heat flux. The passive tracer is initialised to the potential temperature in the control climate before the perturbation is imposed. Its surface flux is the heat flux from the atmosphere, not including the imposed perturbation, and is converted to a passive tracer increment as if it were being added to potential temperature. The passive tracer is transported within the ocean as if it were potential temperature. The passive tracer records redistributed heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. + The quantity with standard name sea_water_redistributed_potential_temperature is a passive tracer in an ocean model which is subject to an externally imposed perturbative surface heat flux. The passive tracer is initialised to the potential temperature in the control climate before the perturbation is imposed. Its surface flux is the heat flux from the atmosphere, not including the imposed perturbation, and is converted to a passive tracer increment as if it were being added to potential temperature. The passive tracer is transported within the ocean as if it were potential temperature. The passive tracer records redistributed heat, as described for the CMIP6 FAFMIP experiment (doi:10.5194/gmd-9-3993-2016), following earlier ideas. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -20216,6 +20364,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Speed is the magnitude of velocity. The speed at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. + + m s-1 + + + Speed is the magnitude of velocity. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Ekman drift" is the movement of a layer of water (the Ekman layer) due to the combination of wind stress at the sea surface and the Coriolis effect. Ekman drift is to the right of the wind direction in the Northern Hemisphere and the left in the Southern Hemisphere. Reference: https://www.open.edu/openlearn/science-maths-technology/the-oceans/content-section-4.3. + + m s-1 @@ -20234,28 +20389,28 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K 80 to - Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature applies use a vertical coordinate variable or scalar coordinate variable. There are standard names for sea_surface_temperature, sea_surface_skin_temperature, sea_surface_subskin_temperature and sea_surface_foundation_temperature which can be used to describe data located at the specified surfaces. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature applies use a vertical coordinate variable or scalar coordinate variable. There are standard names for sea_surface_temperature, sea_surface_skin_temperature, sea_surface_subskin_temperature and sea_surface_foundation_temperature which can be used to describe data located at the specified surfaces. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The term "anomaly" means difference from climatology. Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature anomaly applies, use a vertical coordinate variable or scalar coordinate variable. + The term "anomaly" means difference from climatology. Sea water temperature is the in situ temperature of the sea water. To specify the depth at which the temperature anomaly applies, use a vertical coordinate variable or scalar coordinate variable. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Sea water temperature is the in situ temperature of the sea water. The temperature at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. + Sea water temperature is the in situ temperature of the sea water. The temperature at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Sea water temperature is the in situ temperature of the sea water. + Sea water temperature is the in situ temperature of the sea water. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -20293,6 +20448,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. A velocity is a vector quantity. The phrase "to_direction" is used in the construction X_to_direction and indicates the direction towards which the velocity vector of X is headed. The direction is a bearing in the usual geographical sense, measured positive clockwise from due north. The direction at the sea floor is that adjacent to the ocean bottom, which would be the deepest grid cell in an ocean model and within the benthic boundary layer for measurements. + + degree + + + A velocity is a vector quantity. The phrase "to_direction" is used in the construction X_to_direction and indicates the direction towards which the velocity vector of X is headed. The direction is a bearing in the usual geographical sense, measured positive clockwise from due north. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Ekman drift" is the movement of a layer of water (the Ekman layer) due to the combination of wind stress at the sea surface and the Coriolis effect. Ekman drift is to the right of the wind direction in the Northern Hemisphere and the left in the Southern Hemisphere. Reference: https://www.open.edu/openlearn/science-maths-technology/the-oceans/content-section-4.3. + + degree @@ -20454,6 +20616,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. "Single scattering albedo" is the fraction of radiation in an incident light beam scattered by the particles of an aerosol reference volume for a given wavelength. It is the ratio of the scattering and the extinction coefficients of the aerosol particles in the reference volume. A coordinate variable with a standard name of radiation_wavelength or radiation_frequency should be included to specify either the wavelength or frequency. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of "relative_humidity" and "air_temperature". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + 1 + + + Singular values of the matrix representing the remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + + + 1 + + + Singular values of the matrix representing the remote sensing averaging kernels (Weber 2019; Schneider et al., 2022) of the methane mole fractions obtained by a remote sensing observation (changes of methane in the retrieved atmosphere relative to the changes of methane in the true atmosphere, Rodgers 2000). + + kg m-2 s-1 @@ -20710,21 +20886,21 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K 85 - Soil temperature is the bulk temperature of the soil, not the surface (skin) temperature. "Soil" means the near-surface layer where plants sink their roots. For subsurface temperatures that extend beneath the soil layer or in areas where there is no surface soil layer, the standard name temperature_in_ground should be used. + Soil temperature is the bulk temperature of the soil, not the surface (skin) temperature. "Soil" means the near-surface layer where plants sink their roots. For subsurface temperatures that extend beneath the soil layer or in areas where there is no surface soil layer, the standard name temperature_in_ground should be used. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). J kg-1 K-1 - Thermal capacity, or heat capacity, is the amount of heat energy required to increase the temperature of 1 kg of material by 1 K. It is a property of the material. + Thermal capacity, or heat capacity, is the amount of heat energy required to increase the temperature of 1 kg of material by 1 K. It is a property of the material. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). W m-1 K-1 - Thermal conductivity is the constant k in the formula q = -k grad T where q is the heat transfer per unit time per unit area of a surface normal to the direction of transfer and grad T is the temperature gradient. Thermal conductivity is a property of the material. + Thermal conductivity is the constant k in the formula q = -k grad T where q is the heat transfer per unit time per unit area of a surface normal to the direction of transfer and grad T is the temperature gradient. Thermal conductivity is a property of the material. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -20913,14 +21089,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. J kg-1 K-1 - Thermal capacity, or heat capacity, is the amount of heat energy required to increase the temperature of 1 kg of material by 1 K. It is a property of the material. + Thermal capacity, or heat capacity, is the amount of heat energy required to increase the temperature of 1 kg of material by 1 K. It is a property of the material. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). J kg-1 K-1 - The specific heat capacity of sea water, Cp(ocean), is used in ocean models to convert between model prognostic temperature (potential or conservative temperature) and model heat content. + The specific heat capacity of sea water, Cp(ocean), is used in ocean models to convert between model prognostic temperature (potential or conservative temperature) and model heat content. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -21025,7 +21201,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K2 mptta - "square_of_X" means X*X. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The phrase "square_of_X" means X*X. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -21095,7 +21271,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K2 - Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any), and not the skin temperature, whose standard name is surface_temperature. For the temperature of sea water at a particular depth or layer, a data variable of sea_water_temperature with a vertical coordinate axis should be used. "square_of_X" means X*X. + Sea surface temperature is usually abbreviated as "SST". It is the temperature of sea water near the surface (including the part under sea-ice, if any), and not the skin temperature, whose standard name is surface_temperature. For the temperature of sea water at a particular depth or layer, a data variable of sea_water_temperature with a vertical coordinate axis should be used. "square_of_X" means X*X. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -21116,7 +21292,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - In thermodynamics and fluid mechanics, stagnation temperature is the temperature at a stagnation point in a fluid flow. At a stagnation point the speed of the fluid is zero and all of the kinetic energy has been converted to internal energy and is added to the local static enthalpy. In both compressible and incompressible fluid flow, the stagnation temperature is equal to the total temperature at all points on the streamline leading to the stagnation point. In aviation, stagnation temperature is known as total air temperature and is measured by a temperature probe mounted on the surface of the aircraft. The probe is designed to bring the air to rest relative to the aircraft. As the air is brought to rest, kinetic energy is converted to internal energy. The air is compressed and experiences an adiabatic increase in temperature. Therefore, total air temperature is higher than the static (or ambient) air temperature. Total air temperature is an essential input to an air data computer in order to enable computation of static air temperature and hence true airspeed. + In thermodynamics and fluid mechanics, stagnation temperature is the temperature at a stagnation point in a fluid flow. At a stagnation point the speed of the fluid is zero and all of the kinetic energy has been converted to internal energy and is added to the local static enthalpy. In both compressible and incompressible fluid flow, the stagnation temperature is equal to the total temperature at all points on the streamline leading to the stagnation point. In aviation, stagnation temperature is known as total air temperature and is measured by a temperature probe mounted on the surface of the aircraft. The probe is designed to bring the air to rest relative to the aircraft. As the air is brought to rest, kinetic energy is converted to internal energy. The air is compressed and experiences an adiabatic increase in temperature. Therefore, total air temperature is higher than the static (or ambient) air temperature. Total air temperature is an essential input to an air data computer in order to enable computation of static air temperature and hence true airspeed. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -21368,7 +21544,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The surface called "surface" means the lower boundary of the atmosphere.The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. + The surface called "surface" means the lower boundary of the atmosphere.The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -21707,6 +21883,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The surface called "surface" means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -21868,6 +22058,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The surface called "surface" means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. Surface downwelling shortwave is the sum of direct and diffuse solar radiation incident on the surface, and is sometimes called "global radiation". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean "net downward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -24924,14 +25128,14 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K E139 ts - The surface called "surface" means the lower boundary of the atmosphere. The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies. + The surface called "surface" means the lower boundary of the atmosphere. The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies. In order to convert the units correctly, it is essential to know whether a temperature is on-scale or a difference. Therefore this standard strongly recommends that any variable whose units involve a temperature unit should also have a units_metadata attribute to make the distinction. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The surface called "surface" means the lower boundary of the atmosphere. "anomaly" means difference from climatology. The surface temperature is the (skin) temperature at the interface, not the bulk temperature of the medium above or below. + The surface called "surface" means the lower boundary of the atmosphere. "anomaly" means difference from climatology. The surface temperature is the (skin) temperature at the interface, not the bulk temperature of the medium above or below. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -25284,6 +25488,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "longwave" means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + mol m-2 s-1 @@ -25382,6 +25593,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + The surface called "surface" means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + kg m-2 @@ -25407,28 +25632,28 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The quantity with standard name temperature_at_base_of_ice_sheet_model is the lower boundary temperature that is used to force ice sheet models. Beneath ice shelves it is the temperature at the ice-ocean interface. Beneath grounded ice, it is the temperature at the ice-bedrock interface. In all instances the temperature is that of the interface itself and not that of the medium above or below the interface. + The quantity with standard name temperature_at_base_of_ice_sheet_model is the lower boundary temperature that is used to force ice sheet models. Beneath ice shelves it is the temperature at the ice-ocean interface. Beneath grounded ice, it is the temperature at the ice-bedrock interface. In all instances the temperature is that of the interface itself and not that of the medium above or below the interface. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The quantity with standard name temperature_at_top_of_ice_sheet_model is the upper boundary temperature that is used to force ice sheet models. It is the temperature at the interface between the ice sheet and the overlying medium which may be snow or the atmosphere. In all instances the temperature is that of the interface itself and not that of the medium above or below the interface. + The quantity with standard name temperature_at_top_of_ice_sheet_model is the upper boundary temperature that is used to force ice sheet models. It is the temperature at the interface between the ice sheet and the overlying medium which may be snow or the atmosphere. In all instances the temperature is that of the interface itself and not that of the medium above or below the interface. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - This quantity is defined as the temperature difference between a parcel of air lifted adiabatically from a starting air pressure to a finishing air pressure in the troposphere and the ambient air temperature at the finishing air pressure in the troposphere. It is often called the lifted index (LI) and provides a measure of the instability of the atmosphere. The air parcel is "lifted" by moving the air parcel from the starting air pressure to the Lifting Condensation Level (dry adiabatically) and then from the Lifting Condensation Level to the finishing air pressure (wet adiabatically). Air temperature is the bulk temperature of the air. Coordinate variables of original_air_pressure_of_lifted_parcel and final_air_pressure_of_lifted_parcel should be specified to indicate the specific air pressures at which the parcel lifting starts (starting air pressure) and the temperature difference is calculated at (finishing air pressure), respectively. + This quantity is defined as the temperature difference between a parcel of air lifted adiabatically from a starting air pressure to a finishing air pressure in the troposphere and the ambient air temperature at the finishing air pressure in the troposphere. It is often called the lifted index (LI) and provides a measure of the instability of the atmosphere. The air parcel is "lifted" by moving the air parcel from the starting air pressure to the Lifting Condensation Level (dry adiabatically) and then from the Lifting Condensation Level to the finishing air pressure (wet adiabatically). Air temperature is the bulk temperature of the air. Coordinate variables of original_air_pressure_of_lifted_parcel and final_air_pressure_of_lifted_parcel should be specified to indicate the specific air pressures at which the parcel lifting starts (starting air pressure) and the temperature difference is calculated at (finishing air pressure), respectively. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - This quantity is defined as the temperature difference between a parcel of air lifted adiabatically from the surface to a finishing air pressure in the troposphere and the ambient air temperature at the finishing air pressure in the troposphere. It is often called the lifted index (LI) and provides a measure of the instability of the atmosphere. The air parcel is "lifted" by moving the air parcel from the surface to the Lifting Condensation Level (dry adiabatically) and then from the Lifting Condensation Level to the finishing air pressure (wet adiabatically). Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The term "surface" means the lower boundary of the atmosphere. A coordinate variable of final_air_pressure_of_lifted_parcel should be specified to indicate the specific air pressure that the temperature difference is calculated at. + This quantity is defined as the temperature difference between a parcel of air lifted adiabatically from the surface to a finishing air pressure in the troposphere and the ambient air temperature at the finishing air pressure in the troposphere. It is often called the lifted index (LI) and provides a measure of the instability of the atmosphere. The air parcel is "lifted" by moving the air parcel from the surface to the Lifting Condensation Level (dry adiabatically) and then from the Lifting Condensation Level to the finishing air pressure (wet adiabatically). Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The term "surface" means the lower boundary of the atmosphere. A coordinate variable of final_air_pressure_of_lifted_parcel should be specified to indicate the specific air pressure that the temperature difference is calculated at. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -25456,28 +25681,28 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used. + The temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K E238 - "Temperature in surface snow" is the bulk temperature of the snow, not the surface (skin) temperature. Surface snow refers to the snow on the solid ground or on surface ice cover, but excludes, for example, falling snowflakes and snow on plants. + "Temperature in surface snow" is the bulk temperature of the snow, not the surface (skin) temperature. Surface snow refers to the snow on the solid ground or on surface ice cover, but excludes, for example, falling snowflakes and snow on plants. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The temperature_of_analysis_of_sea_water is the reference temperature for the effects of temperature on the measurement of another variable. This temperature should be measured, but may have been calculated, or assumed. For example, the temperature of the sample when measuring pH, or the temperature of equilibration in the case of dissolved gases. The linkage between the data variable and the variable with a standard_name of temperature_of_analysis_of_sea_water is achieved using the ancillary_variables attribute on the data variable. + The temperature_of_analysis_of_sea_water is the reference temperature for the effects of temperature on the measurement of another variable. This temperature should be measured, but may have been calculated, or assumed. For example, the temperature of the sample when measuring pH, or the temperature of equilibration in the case of dissolved gases. The linkage between the data variable and the variable with a standard_name of temperature_of_analysis_of_sea_water is achieved using the ancillary_variables attribute on the data variable. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Temperature_of_sensor_for_oxygen_in_sea_water is the instrument temperature used in calculating the concentration of oxygen in sea water; it is not a measurement of the ambient water temperature. + Temperature_of_sensor_for_oxygen_in_sea_water is the instrument temperature used in calculating the concentration of oxygen in sea water; it is not a measurement of the ambient water temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -25498,154 +25723,154 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K s-1 - "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Boundary layer mixing" means turbulent motions that transport heat, water, momentum and chemical constituents within the atmospheric boundary layer and affect exchanges between the surface and the atmosphere. The atmospheric boundary layer is typically characterised by a well-mixed sub-cloud layer of order 500 metres, and by a more extended conditionally unstable layer with boundary-layer clouds up to 2 km. (Reference: IPCC Third Assessment Report, Working Group 1: The Scientific Basis, 7.2.2.3, https://archive.ipcc.ch/ipccreports/tar/wg1/273.htm). + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Boundary layer mixing" means turbulent motions that transport heat, water, momentum and chemical constituents within the atmospheric boundary layer and affect exchanges between the surface and the atmosphere. The atmospheric boundary layer is typically characterised by a well-mixed sub-cloud layer of order 500 metres, and by a more extended conditionally unstable layer with boundary-layer clouds up to 2 km. (Reference: IPCC Third Assessment Report, Working Group 1: The Scientific Basis, 7.2.2.3, https://archive.ipcc.ch/ipccreports/tar/wg1/273.htm). It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tnt - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Nonorographic" gravity waves refer to gravity waves which are not generated by flow over orography. The dissipation of gravity waves generates heating through an eddy heat flux convergence and through a viscous stress term. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Nonorographic" gravity waves refer to gravity waves which are not generated by flow over orography. The dissipation of gravity waves generates heating through an eddy heat flux convergence and through a viscous stress term. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Orographic gravity waves" refer to gravity waves which are generated by flow over orography. The dissipation of gravity waves generates heating through an eddy heat flux convergence and through a viscous stress term. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Orographic gravity waves" refer to gravity waves which are generated by flow over orography. The dissipation of gravity waves generates heating through an eddy heat flux convergence and through a viscous stress term. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tntdc - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tntlw - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. "longwave" means longwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. "longwave" means longwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "tendency_of_X" means derivative of X with respect to time. "longwave" means longwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "tendency_of_X" means derivative of X with respect to time. "longwave" means longwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The term "longwave" means longwave radiation. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of "relative_humidity" and "air_temperature". Volcanic aerosols include both volcanic ash and secondary products such as sulphate aerosols formed from gaseous emissions of volcanic eruptions. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The term "longwave" means longwave radiation. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of "relative_humidity" and "air_temperature". Volcanic aerosols include both volcanic ash and secondary products such as sulphate aerosols formed from gaseous emissions of volcanic eruptions. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tntmc - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tntsw - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. "shortwave" means shortwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. "shortwave" means shortwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "tendency_of_X" means derivative of X with respect to time. "shortwave" means shortwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "tendency_of_X" means derivative of X with respect to time. "shortwave" means shortwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The term "shortwave" means shortwave radiation. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of "relative_humidity" and "air_temperature". Volcanic aerosols include both volcanic ash and secondary products such as sulphate aerosols formed from gaseous emissions of volcanic eruptions. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The term "shortwave" means shortwave radiation. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of "relative_humidity" and "air_temperature". Volcanic aerosols include both volcanic ash and secondary products such as sulphate aerosols formed from gaseous emissions of volcanic eruptions. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. A variable with the standard name tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation should contain net latent heating effects of all processes which convert stratiform clouds and precipitation between water vapor, liquid or ice phases. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. A variable with the standard name tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation should contain net latent heating effects of all processes which convert stratiform clouds and precipitation between water vapor, liquid or ice phases. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. "Boundary layer mixing" means turbulent motions that transport heat, water, momentum and chemical constituents within the atmospheric boundary layer and affect exchanges between the surface and the atmosphere. The atmospheric boundary layer is typically characterised by a well-mixed sub-cloud layer of order 500 metres, and by a more extended conditionally unstable layer with boundary-layer clouds up to 2 km. (Reference: IPCC Third Assessment Report, Working Group 1: The Scientific Basis, 7.2.2.3, https://archive.ipcc.ch/ipccreports/tar/wg1/273.htm). + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. "Boundary layer mixing" means turbulent motions that transport heat, water, momentum and chemical constituents within the atmospheric boundary layer and affect exchanges between the surface and the atmosphere. The atmospheric boundary layer is typically characterised by a well-mixed sub-cloud layer of order 500 metres, and by a more extended conditionally unstable layer with boundary-layer clouds up to 2 km. (Reference: IPCC Third Assessment Report, Working Group 1: The Scientific Basis, 7.2.2.3, https://archive.ipcc.ch/ipccreports/tar/wg1/273.htm). It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 tntlsp - The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. + The phrase "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). "Precipitation" in the earth's atmosphere means precipitation of water in all phases. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "tendency_of_X" means derivative of X with respect to time. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31056,35 +31281,35 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K s-1 - "tendency_of_X" means derivative of X with respect to time. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "tendency_of_X" means derivative of X with respect to time. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Horizontal mixing" means any horizontal transport other than by advection and parameterized eddy advection, usually represented as horizontal diffusion in ocean models. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Horizontal mixing" means any horizontal transport other than by advection and parameterized eddy advection, usually represented as horizontal diffusion in ocean models. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K s-1 - "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Vertical mixing" means any vertical transport other than by advection and parameterized eddy advection, represented by a combination of vertical diffusion, turbulent mixing and convection in ocean models. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. + The phrase "tendency_of_X" means derivative of X with respect to time. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Vertical mixing" means any vertical transport other than by advection and parameterized eddy advection, represented by a combination of vertical diffusion, turbulent mixing and convection in ocean models. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard "scales". These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31294,7 +31519,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. W m-1 K-1 - Thermal conductivity is the constant k in the formula q = -k grad T where q is the heat transfer per unit time per unit area of a surface normal to the direction of transfer and grad T is the temperature gradient. Thermal conductivity is a property of the material. + Thermal conductivity is the constant k in the formula q = -k grad T where q is the heat transfer per unit time per unit area of a surface normal to the direction of transfer and grad T is the temperature gradient. Thermal conductivity is a property of the material. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31497,28 +31722,28 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. "toa" means top of atmosphere. + The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. "toa" means top of atmosphere. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "toa" means top of atmosphere. + The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "toa" means top of atmosphere. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - toa_brightness_temperature_bias_at_standard_scene_due_to_intercalibration is the difference between top-of-atmosphere (TOA) brightness temperatureof the reference sensor and TOA brightness temperature of themonitored sensor. This TOA brightness temperature difference is a measure of the calibration difference between the monitored and reference sensors. The standard scene is a target area with typical Earth surface and atmospheric conditions that is accepted as a reference. Brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area at a given wavenumber. TOA brightness temperature of the standard scene is calculated using a radiative transfer simulation for a given viewing geometry. The resultant top-of-atmosphere spectral radiance is then integrated with each sensor's spectral response function and converted to equivalent brightness temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + toa_brightness_temperature_bias_at_standard_scene_due_to_intercalibration is the difference between top-of-atmosphere (TOA) brightness temperature of the reference sensor and TOA brightness temperature of the monitored sensor. This TOA brightness temperature difference is a measure of the calibration difference between the monitored and reference sensors. The standard scene is a target area with typical Earth surface and atmospheric conditions that is accepted as a reference. Brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area at a given wavenumber. TOA brightness temperature of the standard scene is calculated using a radiative transfer simulation for a given viewing geometry. The resultant top-of-atmosphere spectral radiance is then integrated with each sensor's spectral response function and converted to equivalent brightness temperature. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. It is strongly recommended that a variable with this standard name should have the attribute units_metadata="temperature: difference", meaning that it refers to temperature differences and implying that the origin of the temperature scale is irrelevant, because it is essential to know whether a temperature is on-scale or a difference in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - "toa" means top of atmosphere. The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area at a given wavenumber. The standard scene is a target area with typical Earth surface and atmospheric conditions that is accepted as a reference. The toa radiance of the standard scene is calculated using a radiative transfer model for a given viewing geometry. The resultant toa spectral radiance is then integrated with a sensor's spectral response function and converted to equivalent brightness temperature. + "toa" means top of atmosphere. The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area at a given wavenumber. The standard scene is a target area with typical Earth surface and atmospheric conditions that is accepted as a reference. The toa radiance of the standard scene is calculated using a radiative transfer model for a given viewing geometry. The resultant toa spectral radiance is then integrated with a sensor's spectral response function and converted to equivalent brightness temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31640,6 +31865,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "longwave" means longwave radiation. "toa" means top of atmosphere. The TOA outgoing longwave flux is the upwelling thermal radiative flux, often called the "outgoing longwave radiation" or "OLR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. + + W/m2 + + + A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "longwave" means longwave radiation. "toa" means top of atmosphere. The TOA outgoing longwave flux is the upwelling thermal radiative flux, often called the "outgoing longwave radiation" or "OLR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "longwave" means longwave radiation. "toa" means top of atmosphere. The TOA outgoing longwave flux is the upwelling thermal radiative flux, often called the "outgoing longwave radiation" or "OLR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -31717,6 +31956,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The abbreviation "toa" means top of atmosphere. The term "shortwave" means shortwave radiation. The TOA outgoing shortwave flux is the reflected and scattered solar radiative flux i.e. the "upwelling" TOA shortwave flux, sometimes called the "outgoing shortwave radiation" or "OSR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The abbreviation "toa" means top of atmosphere. The term "shortwave" means shortwave radiation. The TOA outgoing shortwave flux is the reflected and scattered solar radiative flux i.e. the "upwelling" TOA shortwave flux, sometimes called the "outgoing shortwave radiation" or "OSR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -31724,6 +31970,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The abbreviation "toa" means top of atmosphere. The term "shortwave" means shortwave radiation. The TOA outgoing shortwave flux is the reflected and scattered solar radiative flux i.e. the "upwelling" TOA shortwave flux, sometimes called the "outgoing shortwave radiation" or "OSR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. + + W/m2 + + + The abbreviation "toa" means top of atmosphere. The term "shortwave" means shortwave radiation. The TOA outgoing shortwave flux is the reflected and scattered solar radiative flux i.e. the "upwelling" TOA shortwave flux, sometimes called the "outgoing shortwave radiation" or "OSR". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 @@ -31777,7 +32030,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - The quantity with standard name tropical_cyclone_eye_brightness_temperature is the warmest brightness temperature value in the eye region of a tropical cyclone (0 - 24 km from the storm center) derived using the Advanced Dvorak Technique, based on satellite observations. Reference: Olander, T. L., & Velden, C. S., The Advanced Dvorak Technique: Continued Development of an Objective Scheme to Estimate Tropical Cyclone Intensity Using Geostationary Infrared Satellite Imagery (2007). American Meteorological Society Weather and Forecasting, 22, 287-298. The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. + The quantity with standard name tropical_cyclone_eye_brightness_temperature is the warmest brightness temperature value in the eye region of a tropical cyclone (0 - 24 km from the storm center) derived using the Advanced Dvorak Technique, based on satellite observations. Reference: Olander, T. L., & Velden, C. S., The Advanced Dvorak Technique: Continued Development of an Objective Scheme to Estimate Tropical Cyclone Intensity Using Geostationary Infrared Satellite Imagery (2007). American Meteorological Society Weather and Forecasting, 22, 287-298. The brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31819,7 +32072,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31959,7 +32212,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. degree_C - Universal Thermal Comfort Index (UTCI) is an equivalent temperature of the actual thermal condition. Reference: utci.org. It is the air temperature of a reference condition causing the same dynamic physiological response in a human body considering its energy budget, physiology and clothing adaptation. + Universal Thermal Comfort Index (UTCI) is an equivalent temperature of the actual thermal condition. Reference: utci.org. It is the air temperature of a reference condition causing the same dynamic physiological response in a human body considering its energy budget, physiology and clothing adaptation. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -31971,16 +32224,16 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. s-1 - 45 + The quantity with standard name upward_derivative_of_eastward_wind is the derivative of the eastward component of wind with respect to height. The phrase "component_derivative_of_X" means derivative of X with respect to distance in the component direction, which may be "northward", "southward", "eastward", "westward", "upward", "downward", "x" or "y". The last two indicate derivatives along the axes of the grid, in the case where they are not true longitude and latitude. A positive value indicates that X is increasing with distance along the positive direction of the axis. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name "upward_air_velocity"). s-1 - 46 + - The quantity with standard name upward_derivative_of_northward_wind is the derivative of the northward component of wind with respect to height. The phrase "component_derivative_of_X" means derivative of X with respect to distance in the component direction, which may be "northward", "southward", "eastward", "westward", "upward", "downward", "x" or "y". The last two indicate derivatives along the axes of the grid, in the case where they are not true longitude and latitude. A positive value indicates that X is increasing with distance along the positive direction of the axis. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name "upward_air_velocity"). + The quantity with standard name upward_derivative_of_northward_wind is the derivative of the northward component of wind speed with respect to height. The phrase "component_derivative_of_X" means derivative of X with respect to distance in the component direction, which may be "northward", "southward", "eastward", "westward", "upward", "downward", "x" or "y". The last two indicate derivatives along the axes of the grid, in the case where they are not true longitude and latitude. A positive value indicates that X is increasing with distance along the positive direction of the axis. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name "upward_air_velocity"). @@ -32193,6 +32446,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The term "longwave" means longwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + The term "longwave" means longwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + The term "longwave" means longwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 sr-1 @@ -32242,6 +32509,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. + + W/m2 + + + Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. "Clear sky" means in the absence of clouds. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + + + W/m2 + + + Upwelling radiation is radiation from below. It does not mean "net upward". The sign convention is that "upwelling" is positive upwards and "downwelling" is positive downwards. The term "shortwave" means shortwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. A phrase "assuming_condition" indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. This 3D ozone field acts as a reference ozone field in a diagnostic call to the model's radiation scheme. It is expressed in terms of mole fraction of ozone in air. It may be observation-based or model-derived. It may be from any time period. By using the same ozone reference in the diagnostic radiation call in two model simulations and calculating differences between the radiative flux diagnostics from the prognostic call to the radiation scheme and the diagnostic call to the radiation scheme with the ozone reference, an instantaneous radiative forcing for ozone can be calculated. + + W m-2 sr-1 @@ -32351,7 +32632,7 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K 12 - The virtual temperature of air is the temperature at which the dry air constituent of a parcel of moist air would have the same density as the moist air at the same pressure. + The virtual temperature of air is the temperature at which the dry air constituent of a parcel of moist air would have the same density as the moist air at the same pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -32361,6 +32642,34 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The visibility is the distance at which something can be seen. + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with "specific_" instead of "volume_". A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32368,6 +32677,195 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with "specific_" instead of "volume_". The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths unless a coordinate of "radiation_wavelength" or "radiation_frequency" is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol" means that the aerosol sample has been dried from the ambient state, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32410,6 +32908,34 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Volume backwards scattering coefficient by ranging instrument is the fraction of radiative flux, per unit path length and per unit solid angle, scattered at 180 degrees angle respect to the incident radiation and obtained through ranging techniques like lidar and radar. Backwards scattering coefficient is assumed to be related to the same wavelength of incident radiation. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32417,6 +32943,195 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol" means that the aerosol sample has been dried from the ambient state, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeds pi/2 radians. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32445,18 +33160,18 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. The volume extinction Angstrom exponent is the Angstrom exponent obtained for the aerosol extinction instead that for the aerosol optical thickness. It is alpha in the following equation relating aerosol extinction (ext) at the wavelength lambda to aerosol extinction at a different wavelength lambda0: ext(lambda) = ext(lambda0) * [lambda/lambda0] ** (-1 * alpha). "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. - + m-1 - The volume extinction coefficient is the fractional change of radiative flux per unit path length. Extinction is the sum of absorption and scattering, sometimes called "attenuation". "Extinction" is the term most commonly used at optical wavelengths whereas "attenuation" is more often used at radio and radar wavelengths. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + The volume extinction coefficient is the fractional change of radiative flux per unit path length. Extinction is the sum of absorption and scattering, sometimes called "attenuation". "Extinction" is the term most commonly used at optical wavelengths whereas "attenuation" is more often used at radio and radar wavelengths. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. - + m-1 - The volume extinction coefficient is the fractional change of radiative flux per unit path length. Extinction is the sum of absorption and scattering, sometimes called "attenuation". "Extinction" is the term most commonly used at optical wavelengths whereas "attenuation" is more often used at radio and radar wavelengths. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Cloud particles" means suspended liquid or ice water droplets. A coordinate of radiation_wavelength or radiation_frequency should be included to specify either the wavelength or frequency. + The volume extinction coefficient is the fractional change of radiative flux per unit path length. Extinction is the sum of absorption and scattering, sometimes called "attenuation". "Extinction" is the term most commonly used at optical wavelengths whereas "attenuation" is more often used at radio and radar wavelengths. Radiative flux is the sum of shortwave and longwave radiative fluxes. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Cloud particles" means suspended liquid or ice water droplets. A coordinate of radiation_wavelength or radiation_frequency should be included to specify either the wavelength or frequency. @@ -32550,6 +33265,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. "ratio_of_X_to_Y" means X/Y. "stp" means standard temperature (0 degC) and pressure (101325 Pa). + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32557,6 +33286,13 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Radiative flux is the sum of shortwave and longwave radiative fluxes. Scattering of radiation is its deflection from its incident path without loss of energy. The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with "specific_" instead of "volume_". The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths unless a coordinate of "radiation_wavelength" or "radiation_frequency" is included to specify the wavelength. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient_aerosol" means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exist in its immediate environment. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the quantity described by the standard name applies, provide a scalar coordinate variable with the standard name of "relative_humidity". + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32564,6 +33300,195 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. Radiative flux is the sum of shortwave and longwave radiative fluxes. Scattering of radiation is its deflection from its incident path without loss of energy. The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with "specific_" instead of "volume_". The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths unless a coordinate of "radiation_wavelength" or "radiation_frequency" is included to specify the wavelength. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm1 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 1 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Ambient aerosol particles" are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm10 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. "Dried_aerosol_particles" means that the aerosol sample has been dried from the ambient state before sizing, but that the dry state (relative humidity less than 40 per cent) has not necessarily been reached. To specify the relative humidity at which the sample was measured, provide a scalar coordinate variable with the standard name of "relative_humidity". The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. + + + + m-1 + + + The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. A scattering_angle should not be specified with this quantity. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Radiative flux is the sum of shortwave and longwave radiative fluxes. "Aerosol" means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. "Dry aerosol particles" means aerosol particles without any water uptake. The specification of a physical process by the phrase "due_to_" process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. "Pm2p5 aerosol particles" means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. "Standard_temperature_and_pressure" refer to a reference volume at 273.15 K temperature and 1013.25 hPa pressure. + + m-1 @@ -32820,21 +33745,21 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. K - Wet bulb potential temperature is the temperature a parcel of air would have if moved dry adiabatically until it reaches saturation and thereafter moist adiabatically to sea level pressure. + Wet bulb potential temperature is the temperature a parcel of air would have if moved dry adiabatically until it reaches saturation and thereafter moist adiabatically to sea level pressure. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - + It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). K - Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name wind_chill_of_air_temperature is the perceived air temperature when wind is factored in with the ambient air temperature (which makes it feel colder than the actual air temperature). Wind chill is based on the rate of heat loss from exposed skin caused by wind and cold. Wind chill temperature is only defined for ambient temperatures at or below 283.1 K and wind speeds above 1.34 m s-1. References: https://www.weather.gov/safety/cold-wind-chill-chart; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/0-0-13. + Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The quantity with standard name wind_chill_of_air_temperature is the perceived air temperature when wind is factored in with the ambient air temperature (which makes it feel colder than the actual air temperature). Wind chill is based on the rate of heat loss from exposed skin caused by wind and cold. Wind chill temperature is only defined for ambient temperatures at or below 283.1 K and wind speeds above 1.34 m s-1. References: https://www.weather.gov/safety/cold-wind-chill-chart; WMO codes registry entry http://codes.wmo.int/grib2/codeflag/4.2/0-0-13. It is strongly recommended that a variable with this standard name should have a units_metadata attribute, with one of the values "on-scale" or "difference", whichever is appropriate for the data, because it is essential to know whether the temperature is on-scale (meaning relative to the origin of the scale indicated by the units) or refers to temperature differences (implying that the origin of the temperature scale is irrevelant), in order to convert the units correctly (cf. https://cfconventions.org/cf-conventions/cf-conventions.html#temperature-units). @@ -33066,34 +33991,10 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. wind_mixing_energy_flux_into_sea_water - - mole_fraction_of_chlorine_dioxide_in_air - - - - mole_fraction_of_chlorine_monoxide_in_air - - - - mole_fraction_of_hypochlorous_acid_in_air - - surface_net_downward_radiative_flux - - surface_temperature - - - - surface_temperature - - - - surface_temperature - - surface_upward_sensible_heat_flux @@ -33268,9 +34169,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. surface_downward_mole_flux_of_carbon_dioxide - - - surface_upward_mole_flux_of_carbon_dioxide @@ -34166,14 +35064,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. tendency_of_mass_concentration_of_elemental_carbon_dry_aerosol_particles_in_air_due_to_emission_from_aviation - - integral_wrt_time_of_air_temperature_deficit - - - - integral_wrt_time_of_air_temperature_excess - - integral_wrt_time_of_surface_downward_latent_heat_flux @@ -34234,10 +35124,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. tendency_of_sea_water_salinity_due_to_parameterized_eddy_advection - - tendency_of_sea_water_temperature_due_to_parameterized_eddy_advection - - northward_sea_water_velocity_due_to_parameterized_mesoscale_eddies @@ -34386,22 +35272,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. integral_wrt_depth_of_sea_water_practical_salinity - - integral_wrt_depth_of_sea_water_temperature - - - - integral_wrt_depth_of_sea_water_temperature - - - - integral_wrt_depth_of_sea_water_temperature - - - - integral_wrt_depth_of_sea_water_temperature - - integral_wrt_height_of_product_of_eastward_wind_and_specific_humidity @@ -34642,10 +35512,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. stratiform_precipitation_flux - - tendency_of_air_temperature_due_to_stratiform_precipitation - - tendency_of_specific_humidity_due_to_stratiform_precipitation @@ -34674,10 +35540,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. water_vapor_partial_pressure_in_air - - volume_extinction_coefficient_in_air_due_to_ambient_aerosol_particles - - tendency_of_atmosphere_mole_concentration_of_carbon_monoxide_due_to_chemical_destruction @@ -34746,10 +35608,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. net_primary_mole_productivity_of_biomass_expressed_as_carbon_by_miscellaneous_phytoplankton - - rate_of_hydroxyl_radical_destruction_due_to_reaction_with_nmvoc - - tendency_of_atmosphere_moles_of_methane @@ -34758,10 +35616,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. mole_fraction_of_noy_expressed_as_nitrogen_in_air - - mole_fraction_of_dichlorine_peroxide_in_air - - mole_fraction_of_methylglyoxal_in_air @@ -34982,14 +35836,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_dianeutral_mixing - - product_of_lagrangian_tendency_of_air_pressure_and_air_temperature - - - - product_of_lagrangian_tendency_of_air_pressure_and_air_temperature - - product_of_lagrangian_tendency_of_air_pressure_and_geopotential_height @@ -35018,14 +35864,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. volume_fraction_of_condensed_water_in_soil_at_wilting_point - - integral_wrt_depth_of_product_of_potential_temperature_and_sea_water_density - - - - integral_wrt_depth_of_product_of_conservative_temperature_and_sea_water_density - - integral_wrt_depth_of_product_of_salinity_and_sea_water_density @@ -35074,22 +35912,10 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. number_concentration_of_stratiform_cloud_liquid_water_particles_at_stratiform_liquid_water_cloud_top - - air_equivalent_potential_temperature - - mass_content_of_cloud_liquid_water_in_atmosphere_layer - - air_pseudo_equivalent_temperature - - - - air_equivalent_temperature - - effective_radius_of_cloud_liquid_water_particles_at_liquid_water_cloud_top @@ -35110,10 +35936,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_melting_to_cloud_liquid_water - - air_pseudo_equivalent_potential_temperature - - growth_limitation_of_diazotrophic_phytoplankton_due_to_solar_irradiance @@ -35194,10 +36016,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. integral_wrt_time_of_surface_downward_eastward_stress - - temperature_in_surface_snow - - thermal_energy_content_of_surface_snow @@ -35218,10 +36036,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. biological_taxon_lsid - - temperature_in_ground - - water_evapotranspiration_flux @@ -35234,14 +36048,6 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. moles_of_particulate_inorganic_carbon_per_unit_mass_in_sea_water - - drainage_amount_through_base_of_soil_model - - - - universal_thermal_comfort_index - - water_flux_into_sea_water_due_to_flux_adjustment @@ -35250,16 +36056,20 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. heat_flux_into_sea_water_due_to_flux_adjustment - - upward_derivative_of_eastward_wind + + volume_backwards_scattering_coefficient_of_radiative_flux_in_air_due_to_dried_aerosol_particles - - upward_derivative_of_northward_wind + + volume_extinction_coefficient_of_radiative_flux_in_air_due_to_ambient_aerosol_particles - - volume_backwards_scattering_coefficient_of_radiative_flux_in_air_due_to_dried_aerosol_particles + + volume_extinction_coefficient_of_radiative_flux_in_air_due_to_ambient_aerosol_particles + + + + volume_extinction_coefficient_of_radiative_flux_in_air_due_to_cloud_particles @@ -35273,6 +36083,94 @@ http://vocab.nerc.ac.uk/collection/P01/current/TPHSDSZZ/6/. volume_absorption_coefficient_of_radiative_flux_in_air_due_to_dried_aerosol_particles + + + air_equivalent_temperature + + + + air_equivalent_potential_temperature + + + + air_pseudo_equivalent_potential_temperature + + + + air_pseudo_equivalent_temperature + + + + surface_temperature + + + + surface_temperature + + + + surface_temperature + + + + temperature_in_ground + + + + temperature_in_surface_snow + + + + integral_wrt_depth_of_product_of_conservative_temperature_and_sea_water_density + + + + integral_wrt_depth_of_product_of_potential_temperature_and_sea_water_density + + + + integral_wrt_depth_of_sea_water_temperature + + + + integral_wrt_depth_of_sea_water_temperature + + + + integral_wrt_depth_of_sea_water_temperature + + + + integral_wrt_depth_of_sea_water_temperature + + + + universal_thermal_comfort_index + + + + product_of_lagrangian_tendency_of_air_pressure_and_air_temperature + + + + product_of_lagrangian_tendency_of_air_pressure_and_air_temperature + + + + integral_wrt_time_of_air_temperature_deficit + + + + integral_wrt_time_of_air_temperature_excess + + + + tendency_of_air_temperature_due_to_stratiform_precipitation + + + + tendency_of_sea_water_temperature_due_to_parameterized_eddy_advection + From ff85847570f2d40b4726dc5aa19e733558a8f55d Mon Sep 17 00:00:00 2001 From: Patrick Peglar Date: Tue, 30 Jul 2024 12:24:18 +0100 Subject: [PATCH 03/39] Add mesh metas to the iris.common.metadata public API. (#6093) Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> --- lib/iris/common/metadata.py | 2 ++ 1 file changed, 2 insertions(+) diff --git a/lib/iris/common/metadata.py b/lib/iris/common/metadata.py index 6f3e455b4d..8705c79816 100644 --- a/lib/iris/common/metadata.py +++ b/lib/iris/common/metadata.py @@ -28,6 +28,8 @@ "CoordMetadata", "CubeMetadata", "DimCoordMetadata", + "MeshCoordMetadata", + "MeshMetadata", "SERVICES", "SERVICES_COMBINE", "SERVICES_DIFFERENCE", From 10e7f46d3f7e65833fa2490d088f6f29e49b88ee Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Tue, 30 Jul 2024 14:38:07 +0100 Subject: [PATCH 04/39] Whats new updates for v3.10.0rc0 . (#6101) * Whats new updates for v3.10.0rc0 . * numpy whatsnew entry --- docs/src/whatsnew/{latest.rst => 3.10.rst} | 39 ++++++-- docs/src/whatsnew/index.rst | 4 +- docs/src/whatsnew/latest.rst.template | 107 --------------------- 3 files changed, 33 insertions(+), 117 deletions(-) rename docs/src/whatsnew/{latest.rst => 3.10.rst} (81%) delete mode 100644 docs/src/whatsnew/latest.rst.template diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/3.10.rst similarity index 81% rename from docs/src/whatsnew/latest.rst rename to docs/src/whatsnew/3.10.rst index 4343b02f6e..419f3e5295 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/3.10.rst @@ -1,21 +1,35 @@ .. include:: ../common_links.inc -|iris_version| |build_date| [unreleased] -**************************************** +v3.10 (30 Jul 2024 [release candidate]) +*************************************** This document explains the changes made to Iris for this release (:doc:`View all changes `.) -.. dropdown:: |iris_version| Release Highlights +.. dropdown:: v3.10 Release Highlights :color: primary :icon: info :animate: fade-in :open: - The highlights for this major/minor release of Iris include: + The highlights for this minor release of Iris include: + + * Breaking Change: We have moved all of the mesh API from :mod:`iris.experimental.ugrid` to + :mod:`iris.mesh`. This is no longer experimental making this public supported API. + + * We have made a suite of mesh improvements, there is a separate entry below for each of these changes . + + * We have made :meth:`~iris.coords.guess_bounds` capable of setting bounds to the start and end of months and years. + + * We have significantly reduced warning noise during NetCDF loading. The datum :class:`python:FutureWarning` + will now only be raised if the + ``datum_support`` :class:`~iris.Future` flag is disabled AND a datum is + present on the loaded NetCDF grid mapping. + + * Checkout the performance enhancements section for an array of improvements to the performance of Iris. + Special thanks to the `ESMValTool`_ devs for these contributions. - * N/A And finally, get in touch with us on :issue:`GitHub` if you have any issues or feature requests for improving Iris. Enjoy! @@ -24,7 +38,12 @@ This document explains the changes made to Iris for this release 📢 Announcements ================ -#. N/A +#. Breaking Change: We have moved all of the mesh API from :mod:`iris.experimental.ugrid` to + :mod:`iris.mesh`. This is no longer experimental making this public supported API. + Future changes will honour Semantic Versioning - i.e. breaking changes will only be in major releases, + and ideally will be previewed via :class:`iris.Future` flags. + +#. Note that Iris is currently pinned to NumPy ``<2``, we hope to unpin this in the next minor release (Iris v3.11). ✨ Features @@ -127,7 +146,7 @@ This document explains the changes made to Iris for this release 🔥 Deprecations =============== -#. N/A +None! 🔗 Dependencies @@ -147,12 +166,15 @@ This document explains the changes made to Iris for this release See : https://github.com/matplotlib/matplotlib/issues/28567 (:pull:`6065`) +#. Note that Iris is currently pinned to NumPy ``<2``, we hope to unpin this in the next minor release (Iris v3.11). + 📚 Documentation ================ -#. `@hsteptoe`_ added more detailed examples to :class:`~iris.cube.Cube` functions :func:`~iris.cube.Cube.slices` and :func:`~iris.cube.Cube.slices_over`. (:pull:`5735`) +#. `@hsteptoe`_ added more detailed examples to :class:`~iris.cube.Cube` functions + :func:`~iris.cube.Cube.slices` and :func:`~iris.cube.Cube.slices_over`. (:pull:`5735`) 💼 Internal @@ -220,3 +242,4 @@ This document explains the changes made to Iris for this release Whatsnew resources in alphabetical order: .. _airspeed-velocity/asv#1397: https://github.com/airspeed-velocity/asv/pull/1397 +.. _ESMValTool: https://github.com/ESMValGroup/ESMValTool diff --git a/docs/src/whatsnew/index.rst b/docs/src/whatsnew/index.rst index 012e0b4498..45a5cad727 100644 --- a/docs/src/whatsnew/index.rst +++ b/docs/src/whatsnew/index.rst @@ -6,13 +6,13 @@ What's New in Iris ------------------ -.. include:: latest.rst +.. include:: 3.10.rst .. toctree:: :maxdepth: 1 :hidden: - latest.rst + 3.10.rst 3.9.rst 3.8.rst 3.7.rst diff --git a/docs/src/whatsnew/latest.rst.template b/docs/src/whatsnew/latest.rst.template deleted file mode 100644 index 80bf48dadd..0000000000 --- a/docs/src/whatsnew/latest.rst.template +++ /dev/null @@ -1,107 +0,0 @@ -.. include:: ../common_links.inc - -|iris_version| |build_date| [unreleased] -**************************************** - -This document explains the changes made to Iris for this release -(:doc:`View all changes `.) - - -.. dropdown:: |iris_version| Release Highlights - :color: primary - :icon: info - :animate: fade-in - :open: - - The highlights for this major/minor release of Iris include: - - * N/A - - And finally, get in touch with us on :issue:`GitHub` if you have - any issues or feature requests for improving Iris. Enjoy! - - -NOTE: section BELOW is a template for bugfix patches -==================================================== - (Please remove this section when creating an initial 'latest.rst' - -|iris_version| |build_date| -=========================== - -.. dropdown:: |iris_version| Patches - :color: primary - :icon: alert - :animate: fade-in - - The patches in this release of Iris include: - - #. N/A - -NOTE: section ABOVE is a template for bugfix patches -==================================================== - (Please remove this section when creating an initial 'latest.rst') - - -📢 Announcements -================ - -#. N/A - - -✨ Features -=========== - -#. N/A - - -🐛 Bugs Fixed -============= - -#. N/A - - -💣 Incompatible Changes -======================= - -#. N/A - - -🚀 Performance Enhancements -=========================== - -#. N/A - - -🔥 Deprecations -=============== - -#. N/A - - -🔗 Dependencies -=============== - -#. N/A - - -📚 Documentation -================ - -#. N/A - - -💼 Internal -=========== - -#. N/A - - -.. comment - Whatsnew author names (@github name) in alphabetical order. Note that, - core dev names are automatically included by the common_links.inc: - - - - -.. comment - Whatsnew resources in alphabetical order: \ No newline at end of file From f8d1e130c97751c0fb3f68b3ffd54afd50296b73 Mon Sep 17 00:00:00 2001 From: Henry Wright Date: Thu, 1 Aug 2024 12:58:37 +0100 Subject: [PATCH 05/39] Restore latest Whats New files. --- docs/src/whatsnew/index.rst | 3 +- docs/src/whatsnew/latest.rst | 86 +++++++++++++++++++++ docs/src/whatsnew/latest.rst.template | 107 ++++++++++++++++++++++++++ 3 files changed, 195 insertions(+), 1 deletion(-) create mode 100644 docs/src/whatsnew/latest.rst create mode 100644 docs/src/whatsnew/latest.rst.template diff --git a/docs/src/whatsnew/index.rst b/docs/src/whatsnew/index.rst index 45a5cad727..74cb0cd43d 100644 --- a/docs/src/whatsnew/index.rst +++ b/docs/src/whatsnew/index.rst @@ -6,12 +6,13 @@ What's New in Iris ------------------ -.. include:: 3.10.rst +.. include:: latest.rst .. toctree:: :maxdepth: 1 :hidden: + latest.rst 3.10.rst 3.9.rst 3.8.rst diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst new file mode 100644 index 0000000000..a174fd2cfb --- /dev/null +++ b/docs/src/whatsnew/latest.rst @@ -0,0 +1,86 @@ +.. include:: ../common_links.inc + +|iris_version| |build_date| [unreleased] +**************************************** + +This document explains the changes made to Iris for this release +(:doc:`View all changes `.) + + +.. dropdown:: |iris_version| Release Highlights + :color: primary + :icon: info + :animate: fade-in + :open: + + The highlights for this major/minor release of Iris include: + + * N/A + + And finally, get in touch with us on :issue:`GitHub` if you have + any issues or feature requests for improving Iris. Enjoy! + + +📢 Announcements +================ + +#. N/A + + +✨ Features +=========== + +#. N/A + + +🐛 Bugs Fixed +============= + +#. N/A + + +💣 Incompatible Changes +======================= + +#. N/A + + +🚀 Performance Enhancements +=========================== + +#. N/A + + +🔥 Deprecations +=============== + +#. N/A + + +🔗 Dependencies +=============== + +#. N/A + + +📚 Documentation +================ + +#. N/A + + +💼 Internal +=========== + +#. N/A + + +.. comment + Whatsnew author names (@github name) in alphabetical order. Note that, + core dev names are automatically included by the common_links.inc: + + + + +.. comment + Whatsnew resources in alphabetical order: diff --git a/docs/src/whatsnew/latest.rst.template b/docs/src/whatsnew/latest.rst.template new file mode 100644 index 0000000000..fedddec5c0 --- /dev/null +++ b/docs/src/whatsnew/latest.rst.template @@ -0,0 +1,107 @@ +.. include:: ../common_links.inc + +|iris_version| |build_date| [unreleased] +**************************************** + +This document explains the changes made to Iris for this release +(:doc:`View all changes `.) + + +.. dropdown:: |iris_version| Release Highlights + :color: primary + :icon: info + :animate: fade-in + :open: + + The highlights for this major/minor release of Iris include: + + * N/A + + And finally, get in touch with us on :issue:`GitHub` if you have + any issues or feature requests for improving Iris. Enjoy! + + +NOTE: section BELOW is a template for bugfix patches +==================================================== + (Please remove this section when creating an initial 'latest.rst') + +|iris_version| |build_date| +=========================== + +.. dropdown:: |iris_version| Patches + :color: primary + :icon: alert + :animate: fade-in + + The patches in this release of Iris include: + + #. N/A + +NOTE: section ABOVE is a template for bugfix patches +==================================================== + (Please remove this section when creating an initial 'latest.rst') + + +📢 Announcements +================ + +#. N/A + + +✨ Features +=========== + +#. N/A + + +🐛 Bugs Fixed +============= + +#. N/A + + +💣 Incompatible Changes +======================= + +#. N/A + + +🚀 Performance Enhancements +=========================== + +#. N/A + + +🔥 Deprecations +=============== + +#. N/A + + +🔗 Dependencies +=============== + +#. N/A + + +📚 Documentation +================ + +#. N/A + + +💼 Internal +=========== + +#. N/A + + +.. comment + Whatsnew author names (@github name) in alphabetical order. Note that, + core dev names are automatically included by the common_links.inc: + + + + +.. comment + Whatsnew resources in alphabetical order: \ No newline at end of file From dd7174058b1303dd51aafcaaf5d942bb114e4c85 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Tue, 6 Aug 2024 10:51:30 +0100 Subject: [PATCH 06/39] Bump scitools/workflows from 2024.07.6 to 2024.08.0 (#6105) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.07.6 to 2024.08.0. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.07.6...2024.08.0) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index b0c85425af..a70ffc23db 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.07.6 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.0 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index 2aa2e82d44..7d235678c8 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.07.6 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.0 secrets: inherit From 8a15e4a839cca463ef8da25ce3b431689e3b024b Mon Sep 17 00:00:00 2001 From: tkknight <2108488+tkknight@users.noreply.github.com> Date: Wed, 7 Aug 2024 17:44:08 +0100 Subject: [PATCH 07/39] fix typo for class reference (#6106) --- lib/iris/experimental/geovista.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/lib/iris/experimental/geovista.py b/lib/iris/experimental/geovista.py index 07413f1529..57cbded2c2 100644 --- a/lib/iris/experimental/geovista.py +++ b/lib/iris/experimental/geovista.py @@ -35,7 +35,7 @@ def cube_to_polydata(cube, **kwargs): ---------- cube : :class:`~iris.cube.Cube` The Cube containing the spatial information and data for creating the - class:`~pyvista.PolyData`. + :class:`~pyvista.PolyData`. **kwargs : dict, optional Additional keyword arguments to be passed to the relevant From 9c3f3a70155a28882d06963f8a5e7d7d38fbe20f Mon Sep 17 00:00:00 2001 From: tkknight <2108488+tkknight@users.noreply.github.com> Date: Sun, 11 Aug 2024 17:23:54 +0100 Subject: [PATCH 08/39] remove --force option as it is not present in conda (only mamba) (#6111) --- docs/src/installing.rst | 9 +-------- 1 file changed, 1 insertion(+), 8 deletions(-) diff --git a/docs/src/installing.rst b/docs/src/installing.rst index 667ff932b3..a0a3fd2c62 100644 --- a/docs/src/installing.rst +++ b/docs/src/installing.rst @@ -72,16 +72,9 @@ Once conda is installed, you can create a development environment for Iris using conda and then activate it. The example commands below assume you are in the root directory of your local copy of Iris:: - conda env create --force --file=requirements/iris.yml + conda env create --file=requirements/iris.yml conda activate iris-dev -.. note:: - - The ``--force`` option, used when creating the environment, first removes - any previously existing ``iris-dev`` environment of the same name. This is - particularly useful when rebuilding your environment due to a change in - requirements. - The ``requirements/iris.yml`` file defines the Iris development conda environment *name* and all the relevant *top level* `conda-forge` package dependencies that you need to **code**, **test**, and **build** the From ac3c91409cbed35595ff66917b2a50202c1bd707 Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Tue, 13 Aug 2024 11:26:07 +0100 Subject: [PATCH 09/39] Whats new updates for v3.10.0 . (#6112) --- docs/src/whatsnew/3.10.rst | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/docs/src/whatsnew/3.10.rst b/docs/src/whatsnew/3.10.rst index 419f3e5295..9007f6f9a6 100644 --- a/docs/src/whatsnew/3.10.rst +++ b/docs/src/whatsnew/3.10.rst @@ -1,7 +1,7 @@ .. include:: ../common_links.inc -v3.10 (30 Jul 2024 [release candidate]) -*************************************** +v3.10 (13 Aug 2024) +******************* This document explains the changes made to Iris for this release (:doc:`View all changes `.) From b8f554f7b8899f2ff6754857d59fc48944ef8e9b Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Wed, 14 Aug 2024 12:30:52 +0100 Subject: [PATCH 10/39] Bump scitools/workflows from 2024.08.0 to 2024.08.1 (#6116) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.08.0 to 2024.08.1. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.08.0...2024.08.1) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index a70ffc23db..73977f7d4c 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.0 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.1 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index 7d235678c8..dd4d8bdc30 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.0 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.1 secrets: inherit From 773c55ba02b9e1d849d96f6a0a8dd56a0e83e79b Mon Sep 17 00:00:00 2001 From: Elias <110238618+ESadek-MO@users.noreply.github.com> Date: Fri, 23 Aug 2024 16:10:56 +0100 Subject: [PATCH 11/39] Include ancillary variables and cell_measures during intersect (#5804) * added rough fix, needs tests and refactoring * consolidated * added tests * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * review comments * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci --------- Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> --- lib/iris/cube.py | 49 ++++++++++++++----- .../Cube/intersection__Metadata/metadata.cml | 26 ++++++++++ .../metadata_wrapped.cml | 26 ++++++++++ lib/iris/tests/unit/cube/test_Cube.py | 16 ++++++ 4 files changed, 105 insertions(+), 12 deletions(-) diff --git a/lib/iris/cube.py b/lib/iris/cube.py index 54e086937d..bc90443a51 100644 --- a/lib/iris/cube.py +++ b/lib/iris/cube.py @@ -92,8 +92,8 @@ def from_cubes(cubes, constraints=None): constraints = iris._constraints.list_of_constraints(constraints) pairs = [_CubeFilter(constraint) for constraint in constraints] collection = _CubeFilterCollection(pairs) - for cube in cubes: - collection.add_cube(cube) + for c in cubes: + collection.add_cube(c) return collection def __init__(self, pairs): @@ -132,8 +132,8 @@ def __init__(self, *args, **kwargs): # Do whatever a list does, to initialise ourself "as a list" super().__init__(*args, **kwargs) # Check that all items in the list are cubes. - for cube in self: - self._assert_is_cube(cube) + for c in self: + self._assert_is_cube(c) def __str__(self): """Run short :meth:`Cube.summary` on every cube.""" @@ -308,9 +308,9 @@ def _extract_and_merge(cubes, constraints, strict=False, return_single_cube=Fals constraint_groups = dict( [(constraint, CubeList()) for constraint in constraints] ) - for cube in cubes: + for c in cubes: for constraint, cube_list in constraint_groups.items(): - sub_cube = constraint.extract(cube) + sub_cube = constraint.extract(c) if sub_cube is not None: cube_list.append(sub_cube) @@ -394,8 +394,8 @@ def merge_cube(self): # Register each of our cubes with a single ProtoCube. proto_cube = iris._merge.ProtoCube(self[0]) - for cube in self[1:]: - proto_cube.register(cube, error_on_mismatch=True) + for c in self[1:]: + proto_cube.register(c, error_on_mismatch=True) # Extract the merged cube from the ProtoCube. (merged_cube,) = proto_cube.merge() @@ -471,18 +471,18 @@ def merge(self, unique=True): """ # Register each of our cubes with its appropriate ProtoCube. proto_cubes_by_name = {} - for cube in self: - name = cube.standard_name + for c in self: + name = c.standard_name proto_cubes = proto_cubes_by_name.setdefault(name, []) proto_cube = None for target_proto_cube in proto_cubes: - if target_proto_cube.register(cube): + if target_proto_cube.register(c): proto_cube = target_proto_cube break if proto_cube is None: - proto_cube = iris._merge.ProtoCube(cube) + proto_cube = iris._merge.ProtoCube(c) proto_cubes.append(proto_cube) # Emulate Python 2 behaviour. @@ -3175,8 +3175,33 @@ def create_coords(src_coords, add_coord): add_coord(result_coord, dims) coord_mapping[id(src_coord)] = result_coord + def create_metadata(src_metadatas, add_metadata, get_metadata): + for src_metadata in src_metadatas: + dims = src_metadata.cube_dims(self) + if dim in dims: + dim_within_coord = dims.index(dim) + data = np.concatenate( + [ + get_metadata(chunk, src_metadata.name()).core_data() + for chunk in chunks + ], + dim_within_coord, + ) + result_coord = src_metadata.copy(values=data) + else: + result_coord = src_metadata.copy() + add_metadata(result_coord, dims) + create_coords(self.dim_coords, result.add_dim_coord) create_coords(self.aux_coords, result.add_aux_coord) + create_metadata( + self.cell_measures(), result.add_cell_measure, Cube.cell_measure + ) + create_metadata( + self.ancillary_variables(), + result.add_ancillary_variable, + Cube.ancillary_variable, + ) for factory in self.aux_factories: result.add_aux_factory(factory.updated(coord_mapping)) return result diff --git a/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata.cml b/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata.cml index f1f37e23b9..54d1f2311b 100644 --- a/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata.cml +++ b/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata.cml @@ -62,6 +62,32 @@ + + + + + + + + + + diff --git a/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata_wrapped.cml b/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata_wrapped.cml index 48f0fa1aaa..4b2e03ad30 100644 --- a/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata_wrapped.cml +++ b/lib/iris/tests/results/unit/cube/Cube/intersection__Metadata/metadata_wrapped.cml @@ -65,6 +65,32 @@ + + + + + + + + + + diff --git a/lib/iris/tests/unit/cube/test_Cube.py b/lib/iris/tests/unit/cube/test_Cube.py index 878a793448..8c36240fb6 100644 --- a/lib/iris/tests/unit/cube/test_Cube.py +++ b/lib/iris/tests/unit/cube/test_Cube.py @@ -1207,6 +1207,22 @@ def create_cube(lon_min, lon_max, bounds=False): ), 2, ) + cube.add_cell_measure( + iris.coords.CellMeasure( + np.arange(0, n_lons * 3).reshape(3, -1), + "cell_area", + units="m2", + ), + data_dims=[1, 2], + ) + cube.add_ancillary_variable( + iris.coords.AncillaryVariable( + np.arange(0, n_lons * 3).reshape(3, -1), + "land_area_fraction", + units="%", + ), + data_dims=[1, 2], + ) if bounds: cube.coord("longitude").guess_bounds() cube.add_aux_coord( From 9a23aa0f835ea6b2a7496bf86d51a2042dbc6773 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Tue, 27 Aug 2024 12:09:37 +0100 Subject: [PATCH 12/39] Bump scitools/workflows from 2024.08.1 to 2024.08.3 (#6131) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.08.1 to 2024.08.3. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.08.1...2024.08.3) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index 73977f7d4c..527356ff35 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.1 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.3 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index dd4d8bdc30..f3755f7709 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.1 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.3 secrets: inherit From 1bfe3113cb6c1460886ce07dfe495c32782f1aa8 Mon Sep 17 00:00:00 2001 From: Bouwe Andela Date: Fri, 30 Aug 2024 10:51:33 +0200 Subject: [PATCH 13/39] Faster time coordinate categorization (#5999) * Faster coordinate categorization * Fix type hint * Add whatsnew entry * Update whatsnew Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> * Use type hint to determine if the coordinate needs to be translated to cftime.datetime objects * Shorter docstring * Small improvements * Remove unused argument * Use the right name for month_abbr function Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> * Advertise new feature of add_categorised_coord --------- Co-authored-by: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> --- docs/src/conf.py | 1 + docs/src/whatsnew/latest.rst | 7 +- lib/iris/coord_categorisation.py | 177 +++++++++++++++---------------- 3 files changed, 93 insertions(+), 92 deletions(-) diff --git a/docs/src/conf.py b/docs/src/conf.py index 60f760c37f..4c8f59564f 100644 --- a/docs/src/conf.py +++ b/docs/src/conf.py @@ -246,6 +246,7 @@ def _dotv(version): # See https://www.sphinx-doc.org/en/master/usage/extensions/intersphinx.html intersphinx_mapping = { "cartopy": ("https://scitools.org.uk/cartopy/docs/latest/", None), + "cftime": ("https://unidata.github.io/cftime/", None), "dask": ("https://docs.dask.org/en/stable/", None), "iris-esmf-regrid": ("https://iris-esmf-regrid.readthedocs.io/en/stable/", None), "matplotlib": ("https://matplotlib.org/stable/", None), diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index a174fd2cfb..efe9fc621c 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -48,8 +48,11 @@ This document explains the changes made to Iris for this release 🚀 Performance Enhancements =========================== -#. N/A - +#. `@bouweandela`_ made the time coordinate categorisation functions in + :mod:`~iris.coord_categorisation` faster. Anyone using + :func:`~iris.coord_categorisation.add_categorised_coord` + with cftime :class:`~cftime.datetime` objects can benefit from the same + improvement by adding a type hint to their category funcion. (:pull:`5999`) 🔥 Deprecations =============== diff --git a/lib/iris/coord_categorisation.py b/lib/iris/coord_categorisation.py index 7ccee4fca8..770f8327a1 100644 --- a/lib/iris/coord_categorisation.py +++ b/lib/iris/coord_categorisation.py @@ -17,13 +17,23 @@ import calendar import collections +import inspect +from typing import Callable +import cftime import numpy as np import iris.coords +import iris.cube -def add_categorised_coord(cube, name, from_coord, category_function, units="1"): +def add_categorised_coord( + cube: iris.cube.Cube, + name: str, + from_coord: iris.coords.Coord | str, + category_function: Callable, + units: str = "1", +) -> None: """Add a new coordinate to a cube, by categorising an existing one. Make a new :class:`iris.coords.AuxCoord` from mapped values, and add @@ -32,31 +42,38 @@ def add_categorised_coord(cube, name, from_coord, category_function, units="1"): Parameters ---------- cube : :class:`iris.cube.Cube` - The cube containing 'from_coord'. The new coord will be added into it. + The cube containing 'from_coord'. The new coord will be added into it. name : str Name of the created coordinate. from_coord : :class:`iris.coords.Coord` or str Coordinate in 'cube', or the name of one. category_function : callable - Function(coordinate, value), returning a category value for a - coordinate point-value. + Function(coordinate, value), returning a category value for a coordinate + point-value. If ``value`` has a type hint :obj:`cftime.datetime`, the + coordinate points are translated to :obj:`cftime.datetime` s before + calling ``category_function``. units : str, default="1" Units of the category value, typically 'no_unit' or '1'. - """ # Interpret coord, if given as a name - if isinstance(from_coord, str): - from_coord = cube.coord(from_coord) + coord = cube.coord(from_coord) if isinstance(from_coord, str) else from_coord if len(cube.coords(name)) > 0: msg = 'A coordinate "%s" already exists in the cube.' % name raise ValueError(msg) + # Translate the coordinate points to cftime datetimes if requested. + value_param = list(inspect.signature(category_function).parameters.values())[1] + if issubclass(value_param.annotation, cftime.datetime): + points = coord.units.num2date(coord.points, only_use_cftime_datetimes=True) + else: + points = coord.points + # Construct new coordinate by mapping values, using numpy.vectorize to # support multi-dimensional coords. # Test whether the result contains strings. If it does we must manually # force the dtype because of a numpy bug (see numpy #3270 on GitHub). - result = category_function(from_coord, from_coord.points.ravel()[0]) + result = category_function(coord, points.ravel()[0]) if isinstance(result, str): str_vectorised_fn = np.vectorize(category_function, otypes=[object]) @@ -67,14 +84,14 @@ def vectorised_fn(*args): else: vectorised_fn = np.vectorize(category_function) new_coord = iris.coords.AuxCoord( - vectorised_fn(from_coord, from_coord.points), + vectorised_fn(coord, points), units=units, - attributes=from_coord.attributes.copy(), + attributes=coord.attributes.copy(), ) new_coord.rename(name) # Add into the cube - cube.add_aux_coord(new_coord, cube.coord_dims(from_coord)) + cube.add_aux_coord(new_coord, cube.coord_dims(coord)) # ====================================== @@ -84,78 +101,62 @@ def vectorised_fn(*args): # coordinates only # - -# Private "helper" function -def _pt_date(coord, time): - """Return the datetime of a time-coordinate point. - - Parameters - ---------- - coord : Coord - Coordinate (must be Time-type). - time : float - Value of a coordinate point. - - Returns - ------- - cftime.datetime - - """ - # NOTE: All of the currently defined categorisation functions are - # calendar operations on Time coordinates. - return coord.units.num2date(time, only_use_cftime_datetimes=True) - - # -------------------------------------------- # Time categorisations : calendar date components def add_year(cube, coord, name="year"): """Add a categorical calendar-year coordinate.""" - add_categorised_coord(cube, name, coord, lambda coord, x: _pt_date(coord, x).year) + + def get_year(_, value: cftime.datetime) -> int: + return value.year + + add_categorised_coord(cube, name, coord, get_year) def add_month_number(cube, coord, name="month_number"): """Add a categorical month coordinate, values 1..12.""" - add_categorised_coord(cube, name, coord, lambda coord, x: _pt_date(coord, x).month) + + def get_month_number(_, value: cftime.datetime) -> int: + return value.month + + add_categorised_coord(cube, name, coord, get_month_number) def add_month_fullname(cube, coord, name="month_fullname"): """Add a categorical month coordinate, values 'January'..'December'.""" - add_categorised_coord( - cube, - name, - coord, - lambda coord, x: calendar.month_name[_pt_date(coord, x).month], - units="no_unit", - ) + + def get_month_fullname(_, value: cftime.datetime) -> str: + return calendar.month_name[value.month] + + add_categorised_coord(cube, name, coord, get_month_fullname, units="no_unit") def add_month(cube, coord, name="month"): """Add a categorical month coordinate, values 'Jan'..'Dec'.""" - add_categorised_coord( - cube, - name, - coord, - lambda coord, x: calendar.month_abbr[_pt_date(coord, x).month], - units="no_unit", - ) + + def get_month_abbr(_, value: cftime.datetime) -> str: + return calendar.month_abbr[value.month] + + add_categorised_coord(cube, name, coord, get_month_abbr, units="no_unit") def add_day_of_month(cube, coord, name="day_of_month"): """Add a categorical day-of-month coordinate, values 1..31.""" - add_categorised_coord(cube, name, coord, lambda coord, x: _pt_date(coord, x).day) + + def get_day_of_month(_, value: cftime.datetime) -> int: + return value.day + + add_categorised_coord(cube, name, coord, get_day_of_month) def add_day_of_year(cube, coord, name="day_of_year"): """Add a categorical day-of-year coordinate, values 1..365 (1..366 in leap years).""" - # Note: cftime.datetime objects return a normal tuple from timetuple(), - # unlike datetime.datetime objects that return a namedtuple. - # Index the time tuple (element 7 is day of year) instead of using named - # element tm_yday. - add_categorised_coord( - cube, name, coord, lambda coord, x: _pt_date(coord, x).timetuple()[7] - ) + + def get_day_of_year(_, value: cftime.datetime) -> int: + return value.timetuple().tm_yday + + add_categorised_coord(cube, name, coord, get_day_of_year) # -------------------------------------------- @@ -164,31 +165,29 @@ def add_day_of_year(cube, coord, name="day_of_year"): def add_weekday_number(cube, coord, name="weekday_number"): """Add a categorical weekday coordinate, values 0..6 [0=Monday].""" - add_categorised_coord( - cube, name, coord, lambda coord, x: _pt_date(coord, x).dayofwk - ) + + def get_weekday_number(_, value: cftime.datetime) -> int: + return value.dayofwk + + add_categorised_coord(cube, name, coord, get_weekday_number) def add_weekday_fullname(cube, coord, name="weekday_fullname"): """Add a categorical weekday coordinate, values 'Monday'..'Sunday'.""" - add_categorised_coord( - cube, - name, - coord, - lambda coord, x: calendar.day_name[_pt_date(coord, x).dayofwk], - units="no_unit", - ) + + def get_weekday_fullname(_, value: cftime.datetime) -> str: + return calendar.day_name[value.dayofwk] + + add_categorised_coord(cube, name, coord, get_weekday_fullname, units="no_unit") def add_weekday(cube, coord, name="weekday"): """Add a categorical weekday coordinate, values 'Mon'..'Sun'.""" - add_categorised_coord( - cube, - name, - coord, - lambda coord, x: calendar.day_abbr[_pt_date(coord, x).dayofwk], - units="no_unit", - ) + + def get_weekday(_, value: cftime.datetime) -> str: + return calendar.day_abbr[value.dayofwk] + + add_categorised_coord(cube, name, coord, get_weekday, units="no_unit") # -------------------------------------------- @@ -197,7 +196,11 @@ def add_weekday(cube, coord, name="weekday"): def add_hour(cube, coord, name="hour"): """Add a categorical hour coordinate, values 0..23.""" - add_categorised_coord(cube, name, coord, lambda coord, x: _pt_date(coord, x).hour) + + def get_hour(_, value: cftime.datetime) -> int: + return value.hour + + add_categorised_coord(cube, name, coord, get_hour) # ---------------------------------------------- @@ -319,9 +322,8 @@ def add_season(cube, coord, name="season", seasons=("djf", "mam", "jja", "son")) month_season_numbers = _month_season_numbers(seasons) # Define a categorisation function. - def _season(coord, value): - dt = _pt_date(coord, value) - return seasons[month_season_numbers[dt.month]] + def _season(_, value: cftime.datetime) -> str: + return seasons[month_season_numbers[value.month]] # Apply the categorisation. add_categorised_coord(cube, name, coord, _season, units="no_unit") @@ -357,9 +359,8 @@ def add_season_number( month_season_numbers = _month_season_numbers(seasons) # Define a categorisation function. - def _season_number(coord, value): - dt = _pt_date(coord, value) - return month_season_numbers[dt.month] + def _season_number(_, value: cftime.datetime) -> int: + return month_season_numbers[value.month] # Apply the categorisation. add_categorised_coord(cube, name, coord, _season_number) @@ -401,10 +402,9 @@ def add_season_year( ) # Define a categorisation function. - def _season_year(coord, value): - dt = _pt_date(coord, value) - year = dt.year - year += month_year_adjusts[dt.month] + def _season_year(_, value: cftime.datetime) -> int: + year = value.year + year += month_year_adjusts[value.month] return year # Apply the categorisation. @@ -432,10 +432,7 @@ def add_season_membership(cube, coord, season, name="season_membership"): """ months = _months_in_season(season) - def _season_membership(coord, value): - dt = _pt_date(coord, value) - if dt.month in months: - return True - return False + def _season_membership(_, value: cftime.datetime) -> bool: + return value.month in months add_categorised_coord(cube, name, coord, _season_membership) From 5cc6737c0d1e5a3d9b0c258874cfbf959dc4205e Mon Sep 17 00:00:00 2001 From: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> Date: Fri, 30 Aug 2024 14:10:26 +0100 Subject: [PATCH 14/39] Repeating Tracemalloc Benchmark for accuracy (#5981) * PoC custom benchmark. * Working tracemalloc subclass. * Docstrings and comments. * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * Finalised code. * Make custom benchmarks installable. * Experiment. * Re-write following testing. * Replace pyproject with setup.py. * Testing. * Make testing smaller. * Better testing. * Better testing 2. * Better testing 3. * Better testing 4. * Better testing 5. * Remove testing. * Remove tracemalloc decorator. * Docs tidy-up. * Restructure and use custom install script. * Temporary quick demo. * Revert "Temporary quick demo." This reverts commit 9dffa1bec548d8a73379ca62ab5b76f2e4fb3c2e. --------- Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> --- benchmarks/README.md | 6 + benchmarks/asv.conf.json | 7 +- benchmarks/benchmarks/__init__.py | 105 ---------- benchmarks/benchmarks/cperf/save.py | 5 +- benchmarks/benchmarks/merge_concat.py | 11 +- .../benchmarks/mesh/utils/regions_combine.py | 13 +- benchmarks/benchmarks/regridding.py | 17 +- benchmarks/benchmarks/save.py | 4 +- .../benchmarks/sperf/combine_regions.py | 14 +- benchmarks/benchmarks/sperf/save.py | 5 +- benchmarks/benchmarks/stats.py | 12 +- benchmarks/benchmarks/trajectory.py | 12 +- benchmarks/custom_bms/README.md | 11 + benchmarks/custom_bms/install.py | 55 +++++ benchmarks/custom_bms/tracemallocbench.py | 196 ++++++++++++++++++ docs/src/whatsnew/latest.rst | 4 +- 16 files changed, 317 insertions(+), 160 deletions(-) create mode 100644 benchmarks/custom_bms/README.md create mode 100644 benchmarks/custom_bms/install.py create mode 100644 benchmarks/custom_bms/tracemallocbench.py diff --git a/benchmarks/README.md b/benchmarks/README.md index 49168e7281..911d5f7833 100644 --- a/benchmarks/README.md +++ b/benchmarks/README.md @@ -118,6 +118,12 @@ repeats _between_ `setup()` calls using the `repeat` attribute. `warmup_time = 0` is also advisable since ASV performs independent re-runs to estimate run-time, and these will still be subject to the original problem. +### Custom benchmarks + +Iris benchmarking implements custom benchmark types, such as a `tracemalloc` +benchmark to measure memory growth. See [custom_bms/](./custom_bms) for more +detail. + ### Scaling / non-Scaling Performance Differences **(We no longer advocate the below for benchmarks run during CI, given the diff --git a/benchmarks/asv.conf.json b/benchmarks/asv.conf.json index 13e7256b83..2857c90ad7 100644 --- a/benchmarks/asv.conf.json +++ b/benchmarks/asv.conf.json @@ -53,9 +53,12 @@ "command_comment": [ "We know that the Nox command takes care of installation in each", "environment, and in the case of Iris no specialised uninstall or", - "build commands are needed to get it working." + "build commands are needed to get it working.", + + "We do however need to install the custom benchmarks for them to be", + "usable." ], "install_command": [], "uninstall_command": [], - "build_command": [] + "build_command": ["python {conf_dir}/custom_bms/install.py"] } diff --git a/benchmarks/benchmarks/__init__.py b/benchmarks/benchmarks/__init__.py index 378c26332d..30a991a879 100644 --- a/benchmarks/benchmarks/__init__.py +++ b/benchmarks/benchmarks/__init__.py @@ -37,111 +37,6 @@ def disable_repeat_between_setup(benchmark_object): return benchmark_object -class TrackAddedMemoryAllocation: - """Measures by how much process resident memory grew, during execution. - - Context manager which measures by how much process resident memory grew, - during execution of its enclosed code block. - - Obviously limited as to what it actually measures : Relies on the current - process not having significant unused (de-allocated) memory when the - tested codeblock runs, and only reliable when the code allocates a - significant amount of new memory. - - Example: - with TrackAddedMemoryAllocation() as mb: - initial_call() - other_call() - result = mb.addedmem_mb() - - Attributes - ---------- - RESULT_MINIMUM_MB : float - The smallest result that should ever be returned, in Mb. Results - fluctuate from run to run (usually within 1Mb) so if a result is - sufficiently small this noise will produce a before-after ratio over - AVD's detection threshold and be treated as 'signal'. Results - smaller than this value will therefore be returned as equal to this - value, ensuring fractionally small noise / no noise at all. - Defaults to 1.0 - - RESULT_ROUND_DP : int - Number of decimal places of rounding on result values (in Mb). - Defaults to 1 - - """ - - RESULT_MINIMUM_MB = 0.2 - RESULT_ROUND_DP = 1 # I.E. to nearest 0.1 Mb - - def __enter__(self): - tracemalloc.start() - return self - - def __exit__(self, *_): - _, peak_mem_bytes = tracemalloc.get_traced_memory() - tracemalloc.stop() - # Save peak-memory allocation, scaled from bytes to Mb. - self._peak_mb = peak_mem_bytes * (2.0**-20) - - def addedmem_mb(self): - """Return measured memory growth, in Mb.""" - result = self._peak_mb - # Small results are too vulnerable to noise being interpreted as signal. - result = max(self.RESULT_MINIMUM_MB, result) - # Rounding makes results easier to read. - result = np.round(result, self.RESULT_ROUND_DP) - return result - - @staticmethod - def decorator(decorated_func): - """Benchmark to track growth in resident memory during execution. - - Intended for use on ASV ``track_`` benchmarks. Applies the - :class:`TrackAddedMemoryAllocation` context manager to the benchmark - code, sets the benchmark ``unit`` attribute to ``Mb``. - - """ - - def _wrapper(*args, **kwargs): - assert decorated_func.__name__[:6] == "track_" - # Run the decorated benchmark within the added memory context - # manager. - with TrackAddedMemoryAllocation() as mb: - decorated_func(*args, **kwargs) - return mb.addedmem_mb() - - decorated_func.unit = "Mb" - return _wrapper - - @staticmethod - def decorator_repeating(repeats=3): - """Benchmark to track growth in resident memory during execution. - - Tracks memory for repeated calls of decorated function. - - Intended for use on ASV ``track_`` benchmarks. Applies the - :class:`TrackAddedMemoryAllocation` context manager to the benchmark - code, sets the benchmark ``unit`` attribute to ``Mb``. - - """ - - def decorator(decorated_func): - def _wrapper(*args, **kwargs): - assert decorated_func.__name__[:6] == "track_" - # Run the decorated benchmark within the added memory context - # manager. - with TrackAddedMemoryAllocation() as mb: - for _ in range(repeats): - decorated_func(*args, **kwargs) - return mb.addedmem_mb() - - decorated_func.unit = "Mb" - return _wrapper - - return decorator - - def on_demand_benchmark(benchmark_object): """Disable these benchmark(s) unless ON_DEMAND_BENCHARKS env var is set. diff --git a/benchmarks/benchmarks/cperf/save.py b/benchmarks/benchmarks/cperf/save.py index 2d60f920c4..6dcd0b3bcf 100644 --- a/benchmarks/benchmarks/cperf/save.py +++ b/benchmarks/benchmarks/cperf/save.py @@ -6,7 +6,7 @@ from iris import save -from .. import TrackAddedMemoryAllocation, on_demand_benchmark +from .. import on_demand_benchmark from ..generate_data.ugrid import make_cube_like_2d_cubesphere, make_cube_like_umfield from . import _N_CUBESPHERE_UM_EQUIVALENT, _UM_DIMS_YX @@ -36,6 +36,5 @@ def _save_data(self, cube): def time_save_data_netcdf(self, data_type): self._save_data(self.cube) - @TrackAddedMemoryAllocation.decorator - def track_addedmem_save_data_netcdf(self, data_type): + def tracemalloc_save_data_netcdf(self, data_type): self._save_data(self.cube) diff --git a/benchmarks/benchmarks/merge_concat.py b/benchmarks/benchmarks/merge_concat.py index 1a18f92ce9..0bb4096e6c 100644 --- a/benchmarks/benchmarks/merge_concat.py +++ b/benchmarks/benchmarks/merge_concat.py @@ -8,7 +8,6 @@ from iris.cube import CubeList -from . import TrackAddedMemoryAllocation from .generate_data.stock import realistic_4d_w_everything @@ -34,10 +33,11 @@ def setup(self): def time_merge(self): _ = self.cube_list.merge_cube() - @TrackAddedMemoryAllocation.decorator_repeating() - def track_mem_merge(self): + def tracemalloc_merge(self): _ = self.cube_list.merge_cube() + tracemalloc_merge.number = 3 # type: ignore[attr-defined] + class Concatenate: # TODO: Improve coverage. @@ -56,6 +56,7 @@ def setup(self): def time_concatenate(self): _ = self.cube_list.concatenate_cube() - @TrackAddedMemoryAllocation.decorator_repeating() - def track_mem_merge(self): + def tracemalloc_concatenate(self): _ = self.cube_list.concatenate_cube() + + tracemalloc_concatenate.number = 3 # type: ignore[attr-defined] diff --git a/benchmarks/benchmarks/mesh/utils/regions_combine.py b/benchmarks/benchmarks/mesh/utils/regions_combine.py index 1a1a43a622..a61deea56d 100644 --- a/benchmarks/benchmarks/mesh/utils/regions_combine.py +++ b/benchmarks/benchmarks/mesh/utils/regions_combine.py @@ -17,7 +17,6 @@ from iris import load, load_cube, save from iris.mesh.utils import recombine_submeshes -from ... import TrackAddedMemoryAllocation from ...generate_data.ugrid import make_cube_like_2d_cubesphere @@ -169,8 +168,7 @@ def setup(self, n_cubesphere): def time_create_combined_cube(self, n_cubesphere): self.recombine() - @TrackAddedMemoryAllocation.decorator - def track_addedmem_create_combined_cube(self, n_cubesphere): + def tracemalloc_create_combined_cube(self, n_cubesphere): self.recombine() @@ -180,8 +178,7 @@ class CombineRegionsComputeRealData(MixinCombineRegions): def time_compute_data(self, n_cubesphere): _ = self.recombined_cube.data - @TrackAddedMemoryAllocation.decorator - def track_addedmem_compute_data(self, n_cubesphere): + def tracemalloc_compute_data(self, n_cubesphere): _ = self.recombined_cube.data @@ -199,8 +196,7 @@ def time_save(self, n_cubesphere): # Save to disk, which must compute data + stream it to file. save(self.recombined_cube, "tmp.nc") - @TrackAddedMemoryAllocation.decorator - def track_addedmem_save(self, n_cubesphere): + def tracemalloc_save(self, n_cubesphere): save(self.recombined_cube, "tmp.nc") def track_filesize_saved(self, n_cubesphere): @@ -227,6 +223,5 @@ def time_stream_file2file(self, n_cubesphere): # Save to disk, which must compute data + stream it to file. save(self.recombined_cube, "tmp.nc") - @TrackAddedMemoryAllocation.decorator - def track_addedmem_stream_file2file(self, n_cubesphere): + def tracemalloc_stream_file2file(self, n_cubesphere): save(self.recombined_cube, "tmp.nc") diff --git a/benchmarks/benchmarks/regridding.py b/benchmarks/benchmarks/regridding.py index 4cfda05ad1..e227da0ec6 100644 --- a/benchmarks/benchmarks/regridding.py +++ b/benchmarks/benchmarks/regridding.py @@ -14,8 +14,6 @@ from iris.analysis import AreaWeighted, PointInCell from iris.coords import AuxCoord -from . import TrackAddedMemoryAllocation - class HorizontalChunkedRegridding: def setup(self) -> None: @@ -53,20 +51,22 @@ def time_regrid_area_w_new_grid(self) -> None: # Realise data out.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_mem_regrid_area_w(self) -> None: + def tracemalloc_regrid_area_w(self) -> None: # Regrid the chunked cube out = self.cube.regrid(self.template_cube, self.scheme_area_w) # Realise data out.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_mem_regrid_area_w_new_grid(self) -> None: + tracemalloc_regrid_area_w.number = 3 # type: ignore[attr-defined] + + def tracemalloc_regrid_area_w_new_grid(self) -> None: # Regrid the chunked cube out = self.chunked_cube.regrid(self.template_cube, self.scheme_area_w) # Realise data out.data + tracemalloc_regrid_area_w_new_grid.number = 3 # type: ignore[attr-defined] + class CurvilinearRegridding: def setup(self) -> None: @@ -110,9 +110,10 @@ def time_regrid_pic(self) -> None: # Realise the data out.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_mem_regrid_pic(self) -> None: + def tracemalloc_regrid_pic(self) -> None: # Regrid the cube onto the template. out = self.cube.regrid(self.template_cube, self.scheme_pic) # Realise the data out.data + + tracemalloc_regrid_pic.number = 3 # type: ignore[attr-defined] diff --git a/benchmarks/benchmarks/save.py b/benchmarks/benchmarks/save.py index aaa8480d64..4bac1b1450 100644 --- a/benchmarks/benchmarks/save.py +++ b/benchmarks/benchmarks/save.py @@ -7,7 +7,6 @@ from iris import save from iris.mesh import save_mesh -from . import TrackAddedMemoryAllocation, on_demand_benchmark from .generate_data.ugrid import make_cube_like_2d_cubesphere @@ -38,8 +37,7 @@ def time_netcdf_save_mesh(self, n_cubesphere, is_unstructured): if is_unstructured: self._save_mesh(self.cube) - @TrackAddedMemoryAllocation.decorator - def track_addedmem_netcdf_save(self, n_cubesphere, is_unstructured): + def tracemalloc_netcdf_save(self, n_cubesphere, is_unstructured): # Don't need to copy the cube here since track_ benchmarks don't # do repeats between self.setup() calls. self._save_data(self.cube, do_copy=False) diff --git a/benchmarks/benchmarks/sperf/combine_regions.py b/benchmarks/benchmarks/sperf/combine_regions.py index b106befcae..591b7bb9be 100644 --- a/benchmarks/benchmarks/sperf/combine_regions.py +++ b/benchmarks/benchmarks/sperf/combine_regions.py @@ -12,7 +12,7 @@ from iris import load, load_cube, save from iris.mesh.utils import recombine_submeshes -from .. import TrackAddedMemoryAllocation, on_demand_benchmark +from .. import on_demand_benchmark from ..generate_data.ugrid import BENCHMARK_DATA, make_cube_like_2d_cubesphere @@ -175,8 +175,7 @@ def setup(self, n_cubesphere, imaginary_data=True, create_result_cube=False): def time_create_combined_cube(self, n_cubesphere): self.recombine() - @TrackAddedMemoryAllocation.decorator - def track_addedmem_create_combined_cube(self, n_cubesphere): + def tracemalloc_create_combined_cube(self, n_cubesphere): self.recombine() @@ -187,8 +186,7 @@ class ComputeRealData(Mixin): def time_compute_data(self, n_cubesphere): _ = self.recombined_cube.data - @TrackAddedMemoryAllocation.decorator - def track_addedmem_compute_data(self, n_cubesphere): + def tracemalloc_compute_data(self, n_cubesphere): _ = self.recombined_cube.data @@ -206,8 +204,7 @@ def time_save(self, n_cubesphere): # Save to disk, which must compute data + stream it to file. self.save_recombined_cube() - @TrackAddedMemoryAllocation.decorator - def track_addedmem_save(self, n_cubesphere): + def tracemalloc_save(self, n_cubesphere): self.save_recombined_cube() def track_filesize_saved(self, n_cubesphere): @@ -233,6 +230,5 @@ def time_stream_file2file(self, n_cubesphere): # Save to disk, which must compute data + stream it to file. self.save_recombined_cube() - @TrackAddedMemoryAllocation.decorator - def track_addedmem_stream_file2file(self, n_cubesphere): + def tracemalloc_stream_file2file(self, n_cubesphere): self.save_recombined_cube() diff --git a/benchmarks/benchmarks/sperf/save.py b/benchmarks/benchmarks/sperf/save.py index d8a03798f0..a715ec2424 100644 --- a/benchmarks/benchmarks/sperf/save.py +++ b/benchmarks/benchmarks/sperf/save.py @@ -9,7 +9,7 @@ from iris import save from iris.mesh import save_mesh -from .. import TrackAddedMemoryAllocation, on_demand_benchmark +from .. import on_demand_benchmark from ..generate_data.ugrid import make_cube_like_2d_cubesphere @@ -36,8 +36,7 @@ def _save_mesh(self, cube): def time_save_cube(self, n_cubesphere, is_unstructured): self._save_cube(self.cube) - @TrackAddedMemoryAllocation.decorator - def track_addedmem_save_cube(self, n_cubesphere, is_unstructured): + def tracemalloc_save_cube(self, n_cubesphere, is_unstructured): self._save_cube(self.cube) def time_save_mesh(self, n_cubesphere, is_unstructured): diff --git a/benchmarks/benchmarks/stats.py b/benchmarks/benchmarks/stats.py index 1f5262bf4c..fbab12cd4b 100644 --- a/benchmarks/benchmarks/stats.py +++ b/benchmarks/benchmarks/stats.py @@ -8,8 +8,6 @@ from iris.analysis.stats import pearsonr import iris.tests -from . import TrackAddedMemoryAllocation - class PearsonR: def setup(self): @@ -32,10 +30,11 @@ def setup(self): def time_real(self): pearsonr(self.cube_a, self.cube_b, weights=self.weights) - @TrackAddedMemoryAllocation.decorator_repeating() - def track_real(self): + def tracemalloc_real(self): pearsonr(self.cube_a, self.cube_b, weights=self.weights) + tracemalloc_real.number = 3 # type: ignore[attr-defined] + def time_lazy(self): for cube in self.cube_a, self.cube_b: cube.data = cube.lazy_data() @@ -43,10 +42,11 @@ def time_lazy(self): result = pearsonr(self.cube_a, self.cube_b, weights=self.weights) result.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_lazy(self): + def tracemalloc_lazy(self): for cube in self.cube_a, self.cube_b: cube.data = cube.lazy_data() result = pearsonr(self.cube_a, self.cube_b, weights=self.weights) result.data + + tracemalloc_lazy.number = 3 # type: ignore[attr-defined] diff --git a/benchmarks/benchmarks/trajectory.py b/benchmarks/benchmarks/trajectory.py index a31552eb9a..77825ef2f2 100644 --- a/benchmarks/benchmarks/trajectory.py +++ b/benchmarks/benchmarks/trajectory.py @@ -13,8 +13,6 @@ import iris from iris.analysis.trajectory import interpolate -from . import TrackAddedMemoryAllocation - class TrajectoryInterpolation: def setup(self) -> None: @@ -35,22 +33,24 @@ def time_trajectory_linear(self) -> None: # Realise the data out_cube.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_trajectory_linear(self) -> None: + def tracemalloc_trajectory_linear(self) -> None: # Regrid the cube onto the template. out_cube = interpolate(self.cube, self.sample_points, method="linear") # Realise the data out_cube.data + tracemalloc_trajectory_linear.number = 3 # type: ignore[attr-defined] + def time_trajectory_nearest(self) -> None: # Regrid the cube onto the template. out_cube = interpolate(self.cube, self.sample_points, method="nearest") # Realise the data out_cube.data - @TrackAddedMemoryAllocation.decorator_repeating() - def track_trajectory_nearest(self) -> None: + def tracemalloc_trajectory_nearest(self) -> None: # Regrid the cube onto the template. out_cube = interpolate(self.cube, self.sample_points, method="nearest") # Realise the data out_cube.data + + tracemalloc_trajectory_nearest.number = 3 # type: ignore[attr-defined] diff --git a/benchmarks/custom_bms/README.md b/benchmarks/custom_bms/README.md new file mode 100644 index 0000000000..eea85d74fe --- /dev/null +++ b/benchmarks/custom_bms/README.md @@ -0,0 +1,11 @@ +# Iris custom benchmarks + +To be recognised by ASV, these benchmarks must be packaged and installed in +line with the +[ASV guidelines](https://asv.readthedocs.io/projects/asv-runner/en/latest/development/benchmark_plugins.html). +This is achieved using the custom build in [install.py](./install.py). + +Installation is into the environment where the benchmarks are run (i.e. not +the environment containing ASV + Nox, but the one built to the same +specifications as the Tests environment). This is done via `build_command` +in [asv.conf.json](../asv.conf.json). diff --git a/benchmarks/custom_bms/install.py b/benchmarks/custom_bms/install.py new file mode 100644 index 0000000000..59d27a0b43 --- /dev/null +++ b/benchmarks/custom_bms/install.py @@ -0,0 +1,55 @@ +# Copyright Iris contributors +# +# This file is part of Iris and is released under the BSD license. +# See LICENSE in the root of the repository for full licensing details. +"""Install Iris' custom benchmarks for detection by ASV. + +See the requirements for being detected as an ASV plugin: +https://asv.readthedocs.io/projects/asv-runner/en/latest/development/benchmark_plugins.html +""" + +from pathlib import Path +import shutil +from subprocess import run +from tempfile import TemporaryDirectory + +this_dir = Path(__file__).parent + + +def package_files(new_dir: Path) -> None: + """Package Iris' custom benchmarks for detection by ASV. + + Parameters + ---------- + new_dir : Path + The directory to package the custom benchmarks in. + """ + asv_bench_iris = new_dir / "asv_bench_iris" + benchmarks = asv_bench_iris / "benchmarks" + benchmarks.mkdir(parents=True) + (asv_bench_iris / "__init__.py").touch() + + for py_file in this_dir.glob("*.py"): + if py_file != Path(__file__): + shutil.copy2(py_file, benchmarks) + + # Create this on the fly, as having multiple pyproject.toml files in 1 + # project causes problems. + py_project = new_dir / "pyproject.toml" + py_project.write_text( + """ + [project] + name = "asv_bench_iris" + version = "0.1" + """ + ) + + +def main(): + with TemporaryDirectory() as temp_dir: + package_files(Path(temp_dir)) + run(["python", "-m", "pip", "install", temp_dir]) + + +if __name__ == "__main__": + main() diff --git a/benchmarks/custom_bms/tracemallocbench.py b/benchmarks/custom_bms/tracemallocbench.py new file mode 100644 index 0000000000..486c67aeb9 --- /dev/null +++ b/benchmarks/custom_bms/tracemallocbench.py @@ -0,0 +1,196 @@ +# Copyright Iris contributors +# +# This file is part of Iris and is released under the BSD license. +# See LICENSE in the root of the repository for full licensing details. + +"""Benchmark for growth in process resident memory, repeating for accuracy. + +Uses a modified version of the repeat logic in +:class:`asv_runner.benchmarks.time.TimeBenchmark`. +""" + +import re +from timeit import Timer +import tracemalloc +from typing import Callable + +from asv_runner.benchmarks.time import TimeBenchmark, wall_timer + + +class TracemallocBenchmark(TimeBenchmark): + """Benchmark for growth in process resident memory, repeating for accuracy. + + Obviously limited as to what it actually measures : Relies on the current + process not having significant unused (de-allocated) memory when the + tested codeblock runs, and only reliable when the code allocates a + significant amount of new memory. + + Benchmark operations prefixed with ``tracemalloc_`` or ``Tracemalloc`` will + use this benchmark class. + + Inherits behaviour from :class:`asv_runner.benchmarks.time.TimeBenchmark`, + with modifications for memory measurement. See the below Attributes section + and https://asv.readthedocs.io/en/stable/writing_benchmarks.html#timing-benchmarks. + + Attributes + ---------- + Mostly identical to :class:`asv_runner.benchmarks.time.TimeBenchmark`. See + https://asv.readthedocs.io/en/stable/benchmarks.html#timing-benchmarks + Make sure to use the inherited ``repeat`` attribute if greater accuracy + is needed. Below are the attributes where inherited behaviour is + overridden. + + number : int + The number of times the benchmarked operation will be called per + ``repeat``. Memory growth is measured after ALL calls - + i.e. `number` should make no difference to the result if the operation + has perfect garbage collection. The parent class's intelligent + modification of `number` is NOT inherited. A minimum value of ``1`` is + enforced. + warmup_time, sample_time, min_run_count, timer + Not used. + type : str = "tracemalloc" + The name of this benchmark type. + unit : str = "bytes" + The units of the measured metric (i.e. the growth in memory). + + """ + + name_regex = re.compile("^(Tracemalloc[A-Z_].+)|(tracemalloc_.+)$") + + param: tuple + + def __init__(self, name: str, func: Callable, attr_sources: list) -> None: + """Initialize a new instance of `TracemallocBenchmark`. + + Parameters + ---------- + name : str + The name of the benchmark. + func : callable + The function to benchmark. + attr_sources : list + A list of objects from which to draw attributes. + """ + super().__init__(name, func, attr_sources) + self.type = "tracemalloc" + self.unit = "bytes" + + def _load_vars(self): + """Load benchmark variables from attribute sources. + + Downstream handling of ``number`` is not the same as in the parent, so + need to make sure it is at least 1. + """ + super()._load_vars() + self.number = max(1, self.number) + + def run(self, *param: tuple) -> dict: + """Run the benchmark with the given parameters. + + Downstream handling of ``param`` is not the same as in the parent, so + need to store it now. + + Parameters + ---------- + *param : tuple + The parameters to pass to the benchmark function. + + Returns + ------- + dict + A dictionary with the benchmark results. It contains the samples + taken, and "the number of times the function was called in each + sample" - for this benchmark that is always ``1`` to avoid the + parent class incorrectly modifying the results. + """ + self.param = param + return super().run(*param) + + def benchmark_timing( + self, + timer: Timer, + min_repeat: int, + max_repeat: int, + max_time: float, + warmup_time: float, + number: int, + min_run_count: int, + ) -> tuple[list[int], int]: + """Benchmark the timing of the function execution. + + Heavily modified from the parent method + - Directly performs setup and measurement (parent used timeit). + - `number` used differently (see Parameters). + - No warmup phase. + + Parameters + ---------- + timer : timeit.Timer + Not used. + min_repeat : int + The minimum number of times to repeat the function execution. + max_repeat : int + The maximum number of times to repeat the function execution. + max_time : float + The maximum total time to spend on the benchmarking. + warmup_time : float + Not used. + number : int + The number of times the benchmarked operation will be called per + repeat. Memory growth is measured after ALL calls - i.e. `number` + should make no difference to the result if the operation + has perfect garbage collection. The parent class's intelligent + modification of `number` is NOT inherited. + min_run_count : int + Not used. + + Returns + ------- + list + A list of the measured memory growths, in bytes. + int = 1 + Part of the inherited return signature. Must be 1 to avoid + the parent incorrectly modifying the results. + """ + start_time = wall_timer() + samples: list[int] = [] + + def too_slow(num_samples) -> bool: + """Stop taking samples if limits exceeded. + + Parameters + ---------- + num_samples : int + The number of samples taken so far. + + Returns + ------- + bool + True if the benchmark should stop, False otherwise. + """ + if num_samples < min_repeat: + return False + return wall_timer() > start_time + max_time + + # Collect samples + while len(samples) < max_repeat: + self.redo_setup() + tracemalloc.start() + for _ in range(number): + __ = self.func(*self.param) + _, peak_mem_bytes = tracemalloc.get_traced_memory() + tracemalloc.stop() + + samples.append(peak_mem_bytes) + + if too_slow(len(samples)): + break + + # ``number`` is not used in the same way as in the parent class. Must + # be returned as 1 to avoid parent incorrectly modifying the results. + return samples, 1 + + +# https://asv.readthedocs.io/projects/asv-runner/en/latest/development/benchmark_plugins.html +export_as_benchmark = [TracemallocBenchmark] diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index efe9fc621c..5bc24b08dc 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -75,7 +75,9 @@ This document explains the changes made to Iris for this release 💼 Internal =========== -#. N/A +#. `@trexfeathers`_ improved the new ``tracemalloc`` benchmarking (introduced + in Iris v3.10.0, :pull:`5948`) to use the same statistical repeat strategy + as timing benchmarks. (:pull:`5981`) .. comment From 44257ebf1e4588db73ea6694be985eb3665d62e7 Mon Sep 17 00:00:00 2001 From: Ruth Comer <10599679+rcomer@users.noreply.github.com> Date: Fri, 30 Aug 2024 15:17:58 +0100 Subject: [PATCH 15/39] Partial collapse of multi-dim string coords: take 2 (#5955) * add failing tests * pass tests * add and pass bounded tests * simpler bounds loop * consider masked case * whatsnew * consider case when all axes chosen * slicing loops -= 1 * remove dubious check; reorder tests * ruff format * improve apply_along_axis comment * add tests for collapsing 2 dimensions --------- Co-authored-by: stephenworsley <49274989+stephenworsley@users.noreply.github.com> --- docs/src/whatsnew/latest.rst | 3 + lib/iris/coords.py | 41 ++++++--- lib/iris/tests/unit/coords/test_Coord.py | 107 +++++++++++++++++++++++ 3 files changed, 139 insertions(+), 12 deletions(-) diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index 5bc24b08dc..9b3fad7a4b 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -38,6 +38,9 @@ This document explains the changes made to Iris for this release #. N/A +#. `@rcomer`_ enabled partial collapse of multi-dimensional string coordinates, + fixing :issue:`3653`. (:pull:`5955`) + 💣 Incompatible Changes ======================= diff --git a/lib/iris/coords.py b/lib/iris/coords.py index d2f5b05f89..8afe9dad41 100644 --- a/lib/iris/coords.py +++ b/lib/iris/coords.py @@ -2115,22 +2115,39 @@ def collapsed(self, dims_to_collapse=None): if np.issubdtype(self.dtype, np.str_): # Collapse the coordinate by serializing the points and # bounds as strings. - def serialize(x): - return "|".join([str(i) for i in x.flatten()]) + def serialize(x, axis): + if axis is None: + return "|".join(str(i) for i in x.flatten()) + + # np.apply_along_axis combined with str.join will truncate strings in + # some cases (https://github.com/numpy/numpy/issues/8352), so we need to + # loop through the array directly. First move (possibly multiple) axis + # of interest to trailing dim(s), then make a 2D array we can loop + # through. + work_array = np.moveaxis(x, axis, range(-len(axis), 0)) + out_shape = work_array.shape[: -len(axis)] + work_array = work_array.reshape(np.prod(out_shape, dtype=int), -1) + + joined = [] + for arr_slice in work_array: + joined.append(serialize(arr_slice, None)) + + return np.array(joined).reshape(out_shape) bounds = None if self.has_bounds(): - shape = self._bounds_dm.shape[1:] - bounds = [] - for index in np.ndindex(shape): - index_slice = (slice(None),) + tuple(index) - bounds.append(serialize(self.bounds[index_slice])) - dtype = np.dtype("U{}".format(max(map(len, bounds)))) - bounds = np.array(bounds, dtype=dtype).reshape((1,) + shape) - points = serialize(self.points) - dtype = np.dtype("U{}".format(len(points))) + # Express dims_to_collapse as non-negative integers. + if dims_to_collapse is None: + dims_to_collapse = range(self.ndim) + else: + dims_to_collapse = tuple( + dim % self.ndim for dim in dims_to_collapse + ) + bounds = serialize(self.bounds, dims_to_collapse) + + points = serialize(self.points, dims_to_collapse) # Create the new collapsed coordinate. - coord = self.copy(points=np.array(points, dtype=dtype), bounds=bounds) + coord = self.copy(points=np.array(points), bounds=bounds) else: # Collapse the coordinate by calculating the bounded extremes. if self.ndim > 1: diff --git a/lib/iris/tests/unit/coords/test_Coord.py b/lib/iris/tests/unit/coords/test_Coord.py index c63261f95c..97429f58f8 100644 --- a/lib/iris/tests/unit/coords/test_Coord.py +++ b/lib/iris/tests/unit/coords/test_Coord.py @@ -16,6 +16,7 @@ import cf_units import dask.array as da import numpy as np +import numpy.ma as ma import pytest import iris @@ -701,6 +702,112 @@ def test_lazy_3_bounds(self): self.assertArrayAlmostEqual(collapsed_coord.points, da.array([2.0])) self.assertArrayAlmostEqual(collapsed_coord.bounds, da.array([[0.0, 4.0]])) + def test_string_masked(self): + points = ma.array(["foo", "bar", "bing"], mask=[0, 1, 0], dtype=str) + coord = AuxCoord(points) + + collapsed_coord = coord.collapsed(0) + + expected = "foo|--|bing" + self.assertEqual(collapsed_coord.points, expected) + + def test_string_nd_first(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str)) + + collapsed_coord = coord.collapsed(0) + expected = [ + "0.0|40.0|80.0", + "10.0|50.0|90.0", + "20.0|60.0|100.0", + "30.0|70.0|110.0", + ] + + self.assertArrayEqual(collapsed_coord.points, expected) + + def test_string_nd_second(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str)) + + collapsed_coord = coord.collapsed(1) + expected = [ + "0.0|10.0|20.0|30.0", + "40.0|50.0|60.0|70.0", + "80.0|90.0|100.0|110.0", + ] + + self.assertArrayEqual(collapsed_coord.points, expected) + + def test_string_nd_both(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str)) + + collapsed_coord = coord.collapsed() + expected = ["0.0|10.0|20.0|30.0|40.0|50.0|60.0|70.0|80.0|90.0|100.0|110.0"] + + self.assertArrayEqual(collapsed_coord.points, expected) + + def test_string_nd_bounds_first(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str), bounds=self.bds_real.astype(str)) + + collapsed_coord = coord.collapsed(0) + + # Points handling is as for non bounded case. So just check bounds. + expected_lower = [ + "-2.0|38.0|78.0", + "8.0|48.0|88.0", + "18.0|58.0|98.0", + "28.0|68.0|108.0", + ] + + expected_upper = [ + "2.0|42.0|82.0", + "12.0|52.0|92.0", + "22.0|62.0|102.0", + "32.0|72.0|112.0", + ] + + self.assertArrayEqual(collapsed_coord.bounds[:, 0], expected_lower) + self.assertArrayEqual(collapsed_coord.bounds[:, 1], expected_upper) + + def test_string_nd_bounds_second(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str), bounds=self.bds_real.astype(str)) + + collapsed_coord = coord.collapsed(1) + + # Points handling is as for non bounded case. So just check bounds. + expected_lower = [ + "-2.0|8.0|18.0|28.0", + "38.0|48.0|58.0|68.0", + "78.0|88.0|98.0|108.0", + ] + + expected_upper = [ + "2.0|12.0|22.0|32.0", + "42.0|52.0|62.0|72.0", + "82.0|92.0|102.0|112.0", + ] + + self.assertArrayEqual(collapsed_coord.bounds[:, 0], expected_lower) + self.assertArrayEqual(collapsed_coord.bounds[:, 1], expected_upper) + + def test_string_nd_bounds_both(self): + self.setupTestArrays((3, 4)) + coord = AuxCoord(self.pts_real.astype(str), bounds=self.bds_real.astype(str)) + + collapsed_coord = coord.collapsed() + + # Points handling is as for non bounded case. So just check bounds. + expected_lower = ["-2.0|8.0|18.0|28.0|38.0|48.0|58.0|68.0|78.0|88.0|98.0|108.0"] + expected_upper = [ + "2.0|12.0|22.0|32.0|42.0|52.0|62.0|72.0|82.0|92.0|102.0|112.0" + ] + + self.assertArrayEqual(collapsed_coord.bounds[:, 0], expected_lower) + self.assertArrayEqual(collapsed_coord.bounds[:, 1], expected_upper) + class Test_is_compatible(tests.IrisTest): def setUp(self): From 13017e3fc4c01a9c6be4b6eec2cdda85390690e4 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Tue, 3 Sep 2024 08:33:11 +0100 Subject: [PATCH 16/39] Bump scitools/workflows from 2024.08.3 to 2024.09.0 (#6136) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.08.3 to 2024.09.0. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.08.3...2024.09.0) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index 527356ff35..cb42087910 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.08.3 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.0 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index f3755f7709..c0a23041bd 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.08.3 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.0 secrets: inherit From a045c81a4910f748c99a7a4b3380c18e28633de4 Mon Sep 17 00:00:00 2001 From: Bouwe Andela Date: Tue, 3 Sep 2024 15:06:28 +0200 Subject: [PATCH 17/39] Parallel concatenate (#5926) * Simplify concatenate * First attempt at parallel concatenate * Clean up a bit * Add support for comparing different data types * Undo unnessary change * More tests * Use faster lookup * Add test to show that NaNs are considered equal * Avoid inserting closures into the Dask graph * Fix type hints * Compute numpy array hashes immediately * Concatenate 25 cubes instead of 2 * Improve test coverage * Add whatsnew entry * Various improvements from review * Use correct value for chunks for numpy arrays * Python 3.10 compatibility * Avoid creating derived coordinates multiple times * Support comparing differently shaped arrays * Rewrite for code style without multiple returns * Remove print call * Better hashing algorithm * Add more information to release notes --- benchmarks/benchmarks/merge_concat.py | 32 +- docs/src/whatsnew/latest.rst | 12 + lib/iris/_concatenate.py | 562 +++++++++++++----- .../concatenate/test_concatenate.py | 9 + .../unit/concatenate/test__CoordSignature.py | 4 +- .../tests/unit/concatenate/test_hashing.py | 73 +++ 6 files changed, 524 insertions(+), 168 deletions(-) create mode 100644 lib/iris/tests/unit/concatenate/test_hashing.py diff --git a/benchmarks/benchmarks/merge_concat.py b/benchmarks/benchmarks/merge_concat.py index 0bb4096e6c..2d3738683a 100644 --- a/benchmarks/benchmarks/merge_concat.py +++ b/benchmarks/benchmarks/merge_concat.py @@ -4,9 +4,12 @@ # See LICENSE in the root of the repository for full licensing details. """Benchmarks relating to :meth:`iris.cube.CubeList.merge` and ``concatenate``.""" +import warnings + import numpy as np from iris.cube import CubeList +from iris.warnings import IrisVagueMetadataWarning from .generate_data.stock import realistic_4d_w_everything @@ -44,19 +47,26 @@ class Concatenate: cube_list: CubeList - def setup(self): - source_cube = realistic_4d_w_everything() - second_cube = source_cube.copy() - first_dim_coord = second_cube.coord(dimensions=0, dim_coords=True) - first_dim_coord.points = ( - first_dim_coord.points + np.ptp(first_dim_coord.points) + 1 - ) - self.cube_list = CubeList([source_cube, second_cube]) - - def time_concatenate(self): + params = [[False, True]] + param_names = ["Lazy operations"] + + def setup(self, lazy_run: bool): + warnings.filterwarnings("ignore", message="Ignoring a datum") + warnings.filterwarnings("ignore", category=IrisVagueMetadataWarning) + source_cube = realistic_4d_w_everything(lazy=lazy_run) + self.cube_list = CubeList([source_cube]) + for _ in range(24): + next_cube = self.cube_list[-1].copy() + first_dim_coord = next_cube.coord(dimensions=0, dim_coords=True) + first_dim_coord.points = ( + first_dim_coord.points + np.ptp(first_dim_coord.points) + 1 + ) + self.cube_list.append(next_cube) + + def time_concatenate(self, _): _ = self.cube_list.concatenate_cube() - def tracemalloc_concatenate(self): + def tracemalloc_concatenate(self, _): _ = self.cube_list.concatenate_cube() tracemalloc_concatenate.number = 3 # type: ignore[attr-defined] diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index 9b3fad7a4b..3a761e0073 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -57,6 +57,18 @@ This document explains the changes made to Iris for this release with cftime :class:`~cftime.datetime` objects can benefit from the same improvement by adding a type hint to their category funcion. (:pull:`5999`) +#. `@bouweandela`_ made :meth:`iris.cube.CubeList.concatenate` faster if more + than two cubes are concatenated with equality checks on the values of + auxiliary coordinates, derived coordinates, cell measures, or ancillary + variables enabled. + In some cases, this may lead to higher memory use. This can be remedied by + reducing the number of Dask workers. + In rare cases, the new implementation could potentially be slower. This + may happen when there are very many or large auxiliary coordinates, derived + coordinates, cell measures, or ancillary variables to be checked that span + the concatenation axis. This issue can be avoided by disabling the + problematic check. (:pull:`5926`) + 🔥 Deprecations =============== diff --git a/lib/iris/_concatenate.py b/lib/iris/_concatenate.py index 1b33e344f9..90f2438742 100644 --- a/lib/iris/_concatenate.py +++ b/lib/iris/_concatenate.py @@ -4,13 +4,20 @@ # See LICENSE in the root of the repository for full licensing details. """Automatic concatenation of multiple cubes over one or more existing dimensions.""" -from collections import defaultdict, namedtuple +from collections import namedtuple +from collections.abc import Mapping, Sequence +import itertools +from typing import Any import warnings +import dask +import dask.array as da import numpy as np +from xxhash import xxh3_64 from iris._lazy_data import concatenate as concatenate_arrays import iris.coords +from iris.coords import AncillaryVariable, AuxCoord, CellMeasure, DimCoord import iris.cube import iris.exceptions from iris.util import array_equal, guess_coord_axis @@ -281,14 +288,253 @@ class _CoordExtent(namedtuple("CoordExtent", ["points", "bounds"])): __slots__ = () +def _hash_ndarray(a: np.ndarray) -> np.ndarray: + """Compute a hash from a numpy array. + + Calculates a 64-bit non-cryptographic hash of the provided array, using + the fast ``xxhash`` hashing algorithm. + + Parameters + ---------- + a : + The array to hash. + + Returns + ------- + numpy.ndarray : + An array of shape (1,) containing the hash value. + + """ + # Include the array dtype as it is not preserved by `ndarray.tobytes()`. + hash = xxh3_64(f"dtype={a.dtype}".encode("utf-8")) + + # Hash the bytes representing the array data. + hash.update(b"data=") + if isinstance(a, np.ma.MaskedArray): + # Hash only the unmasked data + hash.update(a.compressed().tobytes()) + # Hash the mask + hash.update(b"mask=") + hash.update(a.mask.tobytes()) + else: + hash.update(a.tobytes()) + return np.frombuffer(hash.digest(), dtype=np.int64) + + +def _hash_chunk( + x_chunk: np.ndarray, + axis: tuple[int] | None, + keepdims: bool, +) -> np.ndarray: + """Compute a hash from a numpy array. + + This function can be applied to each chunk or intermediate chunk in + :func:`~dask.array.reduction`. It preserves the number of input dimensions + to facilitate combining intermediate results into intermediate chunks. + + Parameters + ---------- + x_chunk : + The array to hash. + axis : + Unused but required by :func:`~dask.array.reduction`. + keepdims : + Unused but required by :func:`~dask.array.reduction`. + + Returns + ------- + numpy.ndarray : + An array containing the hash value. + + """ + return _hash_ndarray(x_chunk).reshape((1,) * x_chunk.ndim) + + +def _hash_aggregate( + x_chunk: np.ndarray, + axis: tuple[int] | None, + keepdims: bool, +) -> np.int64: + """Compute a hash from a numpy array. + + This function can be applied as the final step in :func:`~dask.array.reduction`. + + Parameters + ---------- + x_chunk : + The array to hash. + axis : + Unused but required by :func:`~dask.array.reduction`. + keepdims : + Unused but required by :func:`~dask.array.reduction`. + + Returns + ------- + np.int64 : + The hash value. + + """ + (result,) = _hash_ndarray(x_chunk) + return result + + +def _hash_array(a: da.Array | np.ndarray) -> np.int64: + """Calculate a hash representation of the provided array. + + Calculates a 64-bit non-cryptographic hash of the provided array, using + the fast ``xxhash`` hashing algorithm. + + Note that the computed hash depends on how the array is chunked. + + Parameters + ---------- + a : + The array that requires to have its hexdigest calculated. + + Returns + ------- + np.int64 + The array's hash. + + """ + if isinstance(a, da.Array): + # Use :func:`~dask.array.reduction` to compute a hash from a Dask array. + # + # A hash of each input chunk will be computed by the `chunk` function + # and those hashes will be combined into one or more intermediate chunks. + # If there are multiple intermediate chunks, a hash for each intermediate + # chunk will be computed by the `combine` function and the + # results will be combined into a new layer of intermediate chunks. This + # will be repeated until only a single intermediate chunk remains. + # Finally, a single hash value will be computed from the last + # intermediate chunk by the `aggregate` function. + result = da.reduction( + a, + chunk=_hash_chunk, + combine=_hash_chunk, + aggregate=_hash_aggregate, + keepdims=False, + meta=np.empty(tuple(), dtype=np.int64), + dtype=np.int64, + ) + else: + result = _hash_aggregate(a, None, False) + return result + + +class _ArrayHash(namedtuple("ArrayHash", ["value", "chunks"])): + """Container for a hash value and the chunks used when computing it. + + Parameters + ---------- + value : :class:`np.int64` + The hash value. + chunks : tuple + The chunks the array had when the hash was computed. + """ + + __slots__ = () + + def __eq__(self, other: Any) -> bool: + if not isinstance(other, self.__class__): + raise TypeError(f"Unable to compare {repr(self)} to {repr(other)}") + + def shape(chunks): + return tuple(sum(c) for c in chunks) + + if shape(self.chunks) == shape(other.chunks): + if self.chunks != other.chunks: + raise ValueError( + "Unable to compare arrays with different chunks: " + f"{self.chunks} != {other.chunks}" + ) + result = self.value == other.value + else: + result = False + return result + + +def _array_id( + coord: DimCoord | AuxCoord | AncillaryVariable | CellMeasure, + bound: bool, +) -> str: + """Get a unique key for looking up arrays associated with coordinates.""" + return f"{id(coord)}{bound}" + + +def _compute_hashes( + arrays: Mapping[str, np.ndarray | da.Array], +) -> dict[str, _ArrayHash]: + """Compute hashes for the arrays that will be compared. + + Two arrays are considered equal if each unmasked element compares equal + and the masks are equal. However, hashes depend on chunking and dtype. + Therefore, arrays with the same shape are rechunked so they have the same + chunks and arrays with numerical dtypes are cast up to the same dtype before + computing the hashes. + + Parameters + ---------- + arrays : + A mapping with key-array pairs. + + Returns + ------- + dict[str, _ArrayHash] : + An dictionary of hashes. + + """ + hashes = {} + + def is_numerical(dtype): + return np.issubdtype(dtype, np.bool_) or np.issubdtype(dtype, np.number) + + def group_key(item): + array_id, a = item + if is_numerical(a.dtype): + dtype = "numerical" + else: + dtype = str(a.dtype) + return a.shape, dtype + + sorted_arrays = sorted(arrays.items(), key=group_key) + for _, group_iter in itertools.groupby(sorted_arrays, key=group_key): + array_ids, group = zip(*group_iter) + # Unify dtype for numerical arrays, as the hash depends on it + if is_numerical(group[0].dtype): + dtype = np.result_type(*group) + same_dtype_arrays = tuple(a.astype(dtype) for a in group) + else: + same_dtype_arrays = group + if any(isinstance(a, da.Array) for a in same_dtype_arrays): + # Unify chunks as the hash depends on the chunks. + indices = tuple(range(group[0].ndim)) + # Because all arrays in a group have the same shape, `indices` + # are the same for all of them. Providing `indices` as a tuple + # instead of letters is easier to do programmatically. + argpairs = [(a, indices) for a in same_dtype_arrays] + __, rechunked_arrays = da.core.unify_chunks(*itertools.chain(*argpairs)) + else: + rechunked_arrays = same_dtype_arrays + for array_id, rechunked in zip(array_ids, rechunked_arrays): + if isinstance(rechunked, da.Array): + chunks = rechunked.chunks + else: + chunks = tuple((i,) for i in rechunked.shape) + hashes[array_id] = (_hash_array(rechunked), chunks) + + (hashes,) = dask.compute(hashes) + return {k: _ArrayHash(*v) for k, v in hashes.items()} + + def concatenate( - cubes, - error_on_mismatch=False, - check_aux_coords=True, - check_cell_measures=True, - check_ancils=True, - check_derived_coords=True, -): + cubes: Sequence[iris.cube.Cube], + error_on_mismatch: bool = False, + check_aux_coords: bool = True, + check_cell_measures: bool = True, + check_ancils: bool = True, + check_derived_coords: bool = True, +) -> iris.cube.CubeList: """Concatenate the provided cubes over common existing dimensions. Parameters @@ -326,21 +572,49 @@ def concatenate( A :class:`iris.cube.CubeList` of concatenated :class:`iris.cube.Cube` instances. """ - proto_cubes_by_name = defaultdict(list) + cube_signatures = [_CubeSignature(cube) for cube in cubes] + + proto_cubes: list[_ProtoCube] = [] # Initialise the nominated axis (dimension) of concatenation # which requires to be negotiated. axis = None + # Compute hashes for parallel array comparison. + arrays = {} + + def add_coords(cube_signature: _CubeSignature, coord_type: str) -> None: + for coord_and_dims in getattr(cube_signature, coord_type): + coord = coord_and_dims.coord + array_id = _array_id(coord, bound=False) + if isinstance(coord, (DimCoord, AuxCoord)): + arrays[array_id] = coord.core_points() + if coord.has_bounds(): + bound_array_id = _array_id(coord, bound=True) + arrays[bound_array_id] = coord.core_bounds() + else: + arrays[array_id] = coord.core_data() + + for cube_signature in cube_signatures: + if check_aux_coords: + add_coords(cube_signature, "aux_coords_and_dims") + if check_derived_coords: + add_coords(cube_signature, "derived_coords_and_dims") + if check_cell_measures: + add_coords(cube_signature, "cell_measures_and_dims") + if check_ancils: + add_coords(cube_signature, "ancillary_variables_and_dims") + + hashes = _compute_hashes(arrays) + # Register each cube with its appropriate proto-cube. - for cube in cubes: - name = cube.standard_name or cube.long_name - proto_cubes = proto_cubes_by_name[name] + for cube_signature in cube_signatures: registered = False # Register cube with an existing proto-cube. for proto_cube in proto_cubes: registered = proto_cube.register( - cube, + cube_signature, + hashes, axis, error_on_mismatch, check_aux_coords, @@ -354,19 +628,17 @@ def concatenate( # Create a new proto-cube for an unregistered cube. if not registered: - proto_cubes.append(_ProtoCube(cube)) + proto_cubes.append(_ProtoCube(cube_signature)) # Construct a concatenated cube from each of the proto-cubes. concatenated_cubes = iris.cube.CubeList() # Emulate Python 2 behaviour. - def _none_sort(item): - return (item is not None, item) + def _none_sort(proto_cube): + return (proto_cube.name is not None, proto_cube.name) - for name in sorted(proto_cubes_by_name, key=_none_sort): - for proto_cube in proto_cubes_by_name[name]: - # Construct the concatenated cube. - concatenated_cubes.append(proto_cube.concatenate()) + for proto_cube in sorted(proto_cubes, key=_none_sort): + concatenated_cubes.append(proto_cube.concatenate()) # Perform concatenation until we've reached an equilibrium. count = len(concatenated_cubes) @@ -384,7 +656,7 @@ class _CubeSignature: """ - def __init__(self, cube): + def __init__(self, cube: iris.cube.Cube) -> None: """Represent the cube metadata and associated coordinate metadata. Parameters @@ -413,14 +685,14 @@ def __init__(self, cube): self.defn = cube.metadata self.data_type = cube.dtype + self.src_cube = cube # # Collate the dimension coordinate metadata. # - for ind, coord in enumerate(self.dim_coords): + for coord in self.dim_coords: dims = cube.coord_dims(coord) - metadata = _CoordMetaData(coord, dims) - self.dim_metadata.append(metadata) + self.dim_metadata.append(_CoordMetaData(coord, dims)) self.dim_mapping.append(dims[0]) # @@ -440,10 +712,8 @@ def key_func(coord): for coord in sorted(cube.aux_coords, key=key_func): dims = cube.coord_dims(coord) if dims: - metadata = _CoordMetaData(coord, dims) - self.aux_metadata.append(metadata) - coord_and_dims = _CoordAndDims(coord, tuple(dims)) - self.aux_coords_and_dims.append(coord_and_dims) + self.aux_metadata.append(_CoordMetaData(coord, dims)) + self.aux_coords_and_dims.append(_CoordAndDims(coord, tuple(dims))) else: self.scalar_coords.append(coord) @@ -452,17 +722,13 @@ def meta_key_func(dm): for cm in sorted(cube.cell_measures(), key=meta_key_func): dims = cube.cell_measure_dims(cm) - metadata = _OtherMetaData(cm, dims) - self.cm_metadata.append(metadata) - cm_and_dims = _CoordAndDims(cm, tuple(dims)) - self.cell_measures_and_dims.append(cm_and_dims) + self.cm_metadata.append(_OtherMetaData(cm, dims)) + self.cell_measures_and_dims.append(_CoordAndDims(cm, tuple(dims))) for av in sorted(cube.ancillary_variables(), key=meta_key_func): dims = cube.ancillary_variable_dims(av) - metadata = _OtherMetaData(av, dims) - self.av_metadata.append(metadata) - av_and_dims = _CoordAndDims(av, tuple(dims)) - self.ancillary_variables_and_dims.append(av_and_dims) + self.av_metadata.append(_OtherMetaData(av, dims)) + self.ancillary_variables_and_dims.append(_CoordAndDims(av, tuple(dims))) def name_key_func(factory): return factory.name() @@ -470,10 +736,10 @@ def name_key_func(factory): for factory in sorted(cube.aux_factories, key=name_key_func): coord = factory.make_coord(cube.coord_dims) dims = factory.derived_dims(cube.coord_dims) - metadata = _CoordMetaData(coord, dims) - self.derived_metadata.append(metadata) - coord_and_dims = _DerivedCoordAndDims(coord, tuple(dims), factory) - self.derived_coords_and_dims.append(coord_and_dims) + self.derived_metadata.append(_CoordMetaData(coord, dims)) + self.derived_coords_and_dims.append( + _DerivedCoordAndDims(coord, tuple(dims), factory) + ) def _coordinate_differences(self, other, attr, reason="metadata"): """Determine the names of the coordinates that differ. @@ -607,7 +873,7 @@ def match(self, other, error_on_mismatch): class _CoordSignature: """Template for identifying a specific type of :class:`iris.cube.Cube` based on its coordinates.""" - def __init__(self, cube_signature): + def __init__(self, cube_signature: _CubeSignature) -> None: """Represent the coordinate metadata. Represent the coordinate metadata required to identify suitable @@ -626,7 +892,7 @@ def __init__(self, cube_signature): self.derived_coords_and_dims = cube_signature.derived_coords_and_dims self.dim_coords = cube_signature.dim_coords self.dim_mapping = cube_signature.dim_mapping - self.dim_extents = [] + self.dim_extents: list[_CoordExtent] = [] self.dim_order = [ metadata.kwargs["order"] for metadata in cube_signature.dim_metadata ] @@ -635,7 +901,10 @@ def __init__(self, cube_signature): self._calculate_extents() @staticmethod - def _cmp(coord, other): + def _cmp( + coord: iris.coords.DimCoord, + other: iris.coords.DimCoord, + ) -> tuple[bool, bool]: """Compare the coordinates for concatenation compatibility. Returns @@ -646,22 +915,17 @@ def _cmp(coord, other): """ # A candidate axis must have non-identical coordinate points. - candidate_axis = not array_equal(coord.core_points(), other.core_points()) + candidate_axis = not array_equal(coord.points, other.points) - if candidate_axis: - # Ensure both have equal availability of bounds. - result = (coord.core_bounds() is None) == (other.core_bounds() is None) - else: - if coord.core_bounds() is not None and other.core_bounds() is not None: - # Ensure equality of bounds. - result = array_equal(coord.core_bounds(), other.core_bounds()) - else: - # Ensure both have equal availability of bounds. - result = coord.core_bounds() is None and other.core_bounds() is None + # Ensure both have equal availability of bounds. + result = coord.has_bounds() == other.has_bounds() + if result and not candidate_axis: + # Ensure equality of bounds. + result = array_equal(coord.bounds, other.bounds) return result, candidate_axis - def candidate_axis(self, other): + def candidate_axis(self, other: "_CoordSignature") -> int | None: """Determine the candidate axis of concatenation with the given coordinate signature. If a candidate axis is found, then the coordinate @@ -693,13 +957,13 @@ def candidate_axis(self, other): # Only permit one degree of dimensional freedom when # determining the candidate axis of concatenation. if result and len(candidate_axes) == 1: - result = candidate_axes[0] + axis = candidate_axes[0] else: - result = None + axis = None - return result + return axis - def _calculate_extents(self): + def _calculate_extents(self) -> None: """Calculate the extent over each dimension coordinates points and bounds.""" self.dim_extents = [] for coord, order in zip(self.dim_coords, self.dim_order): @@ -729,21 +993,21 @@ def _calculate_extents(self): class _ProtoCube: """Framework for concatenating multiple source-cubes over one common dimension.""" - def __init__(self, cube): + def __init__(self, cube_signature): """Create a new _ProtoCube from the given cube and record the cube as a source-cube. Parameters ---------- - cube : - Source :class:`iris.cube.Cube` of the :class:`_ProtoCube`. + cube_signature : + Source :class:`_CubeSignature` of the :class:`_ProtoCube`. """ # Cache the source-cube of this proto-cube. - self._cube = cube + self._cube = cube_signature.src_cube # The cube signature is a combination of cube and coordinate # metadata that defines this proto-cube. - self._cube_signature = _CubeSignature(cube) + self._cube_signature = cube_signature # The coordinate signature allows suitable non-overlapping # source-cubes to be identified. @@ -751,7 +1015,7 @@ def __init__(self, cube): # The list of source-cubes relevant to this proto-cube. self._skeletons = [] - self._add_skeleton(self._coord_signature, cube.lazy_data()) + self._add_skeleton(self._coord_signature, self._cube.lazy_data()) # The nominated axis of concatenation. self._axis = None @@ -761,6 +1025,12 @@ def axis(self): """Return the nominated dimension of concatenation.""" return self._axis + @property + def name(self) -> str | None: + """Return the standard_name or long name.""" + metadata = self._cube_signature.defn + return metadata.standard_name or metadata.long_name + def concatenate(self): """Concatenate all the source-cubes registered with the :class:`_ProtoCube`. @@ -833,14 +1103,15 @@ def concatenate(self): def register( self, - cube, - axis=None, - error_on_mismatch=False, - check_aux_coords=False, - check_cell_measures=False, - check_ancils=False, - check_derived_coords=False, - ): + cube_signature: _CubeSignature, + hashes: Mapping[str, _ArrayHash], + axis: int | None = None, + error_on_mismatch: bool = False, + check_aux_coords: bool = False, + check_cell_measures: bool = False, + check_ancils: bool = False, + check_derived_coords: bool = False, + ) -> bool: """Determine if the given source-cube is suitable for concatenation. Determine if the given source-cube is suitable for concatenation @@ -848,9 +1119,12 @@ def register( Parameters ---------- - cube : :class:`iris.cube.Cube` - The :class:`iris.cube.Cube` source-cube candidate for + cube_signature : :class:`_CubeSignature` + The :class:`_CubeSignature` of the source-cube candidate for concatenation. + hashes : + A mapping containing hash values for checking coordinate, ancillary + variable, and cell measure equality. axis : optional Seed the dimension of concatenation for the :class:`_ProtoCube` rather than rely on negotiation with source-cubes. @@ -891,7 +1165,6 @@ def register( raise ValueError(msg) # Check for compatible cube signatures. - cube_signature = _CubeSignature(cube) match = self._cube_signature.match(cube_signature, error_on_mismatch) mismatch_error_msg = None @@ -917,97 +1190,76 @@ def register( elif not match: mismatch_error_msg = f"Found cubes with overlap on concatenate axis {candidate_axis}, skipping concatenation for these cubes" - # Check for compatible AuxCoords. - if match: - if check_aux_coords: - for coord_a, coord_b in zip( - self._cube_signature.aux_coords_and_dims, - cube_signature.aux_coords_and_dims, + def get_hashes( + coord: DimCoord | AuxCoord | AncillaryVariable | CellMeasure, + ) -> tuple[_ArrayHash, ...]: + array_id = _array_id(coord, bound=False) + result = [hashes[array_id]] + if isinstance(coord, (DimCoord, AuxCoord)) and coord.has_bounds(): + bound_array_id = _array_id(coord, bound=True) + result.append(hashes[bound_array_id]) + return tuple(result) + + # Mapping from `_CubeSignature` attributes to human readable names. + coord_type_names = { + "aux_coords_and_dims": "Auxiliary coordinates", + "cell_measures_and_dims": "Cell measures", + "ancillary_variables_and_dims": "Ancillary variables", + "derived_coords_and_dims": "Derived coordinates", + } + + def check_coord_match(coord_type: str) -> tuple[bool, str]: + result = (True, "") + for coord_a, coord_b in zip( + getattr(self._cube_signature, coord_type), + getattr(cube_signature, coord_type), + ): + # Coordinates that span the candidate axis can differ + if ( + candidate_axis not in coord_a.dims + or candidate_axis not in coord_b.dims ): - # AuxCoords that span the candidate axis can differ - if ( - candidate_axis not in coord_a.dims - or candidate_axis not in coord_b.dims - ): - if not coord_a == coord_b: - mismatch_error_msg = ( - "Auxiliary coordinates are unequal for phenomenon" - f" `{self._cube.name()}`:\n" - f"a: {coord_a}\n" - f"b: {coord_b}" - ) - match = False + if not get_hashes(coord_a.coord) == get_hashes(coord_b.coord): + mismatch_error_msg = ( + f"{coord_type_names[coord_type]} are unequal for phenomenon" + f" `{self._cube.name()}`:\n" + f"a: {coord_a}\n" + f"b: {coord_b}" + ) + result = (False, mismatch_error_msg) + break + + return result + + # Check for compatible AuxCoords. + if match and check_aux_coords: + match, msg = check_coord_match("aux_coords_and_dims") + if not match: + mismatch_error_msg = msg # Check for compatible CellMeasures. - if match: - if check_cell_measures: - for coord_a, coord_b in zip( - self._cube_signature.cell_measures_and_dims, - cube_signature.cell_measures_and_dims, - ): - # CellMeasures that span the candidate axis can differ - if ( - candidate_axis not in coord_a.dims - or candidate_axis not in coord_b.dims - ): - if not coord_a == coord_b: - mismatch_error_msg = ( - "Cell measures are unequal for phenomenon" - f" `{self._cube.name()}`:\n" - f"a: {coord_a}\n" - f"b: {coord_b}" - ) - match = False + if match and check_cell_measures: + match, msg = check_coord_match("cell_measures_and_dims") + if not match: + mismatch_error_msg = msg # Check for compatible AncillaryVariables. - if match: - if check_ancils: - for coord_a, coord_b in zip( - self._cube_signature.ancillary_variables_and_dims, - cube_signature.ancillary_variables_and_dims, - ): - # AncillaryVariables that span the candidate axis can differ - if ( - candidate_axis not in coord_a.dims - or candidate_axis not in coord_b.dims - ): - if not coord_a == coord_b: - mismatch_error_msg = ( - "Ancillary variables are unequal for phenomenon" - f" `{self._cube.name()}`:\n" - f"a: {coord_a}\n" - f"b: {coord_b}" - ) - match = False + if match and check_ancils: + match, msg = check_coord_match("ancillary_variables_and_dims") + if not match: + mismatch_error_msg = msg # Check for compatible derived coordinates. - if match: - if check_derived_coords: - for coord_a, coord_b in zip( - self._cube_signature.derived_coords_and_dims, - cube_signature.derived_coords_and_dims, - ): - # Derived coords that span the candidate axis can differ - if ( - candidate_axis not in coord_a.dims - or candidate_axis not in coord_b.dims - ): - if not coord_a == coord_b: - mismatch_error_msg = ( - "Derived coordinates are unequal for phenomenon" - f" `{self._cube.name()}`:\n" - f"a: {coord_a}\n" - f"b: {coord_b}" - ) - match = False + if match and check_derived_coords: + match, msg = check_coord_match("derived_coords_and_dims") + if not match: + mismatch_error_msg = msg if match: # Register the cube as a source-cube for this proto-cube. - self._add_skeleton(coord_signature, cube.lazy_data()) + self._add_skeleton(coord_signature, cube_signature.src_cube.lazy_data()) # Declare the nominated axis of concatenation. self._axis = candidate_axis - - if match: # If the protocube dimension order is constant (indicating it was # created from a cube with a length 1 dimension coordinate) but # a subsequently registered cube has a non-constant dimension diff --git a/lib/iris/tests/integration/concatenate/test_concatenate.py b/lib/iris/tests/integration/concatenate/test_concatenate.py index 063ae76d83..821bde42cb 100644 --- a/lib/iris/tests/integration/concatenate/test_concatenate.py +++ b/lib/iris/tests/integration/concatenate/test_concatenate.py @@ -111,6 +111,15 @@ def test_diff_aux_coord(self): result = concatenate([cube_a, cube_b]) self.assertEqual(len(result), 2) + def test_diff_aux_coord_anonymous_dim(self): + cube_a = self.create_cube() + cube_a.remove_coord("latitude") + cube_b = cube_a.copy()[:, :1] + cube_b.coord("time").points = [12, 18] + + result = concatenate([cube_a, cube_b]) + self.assertEqual(len(result), 2) + def test_ignore_diff_aux_coord(self): cube_a = self.create_cube() cube_b = cube_a.copy() diff --git a/lib/iris/tests/unit/concatenate/test__CoordSignature.py b/lib/iris/tests/unit/concatenate/test__CoordSignature.py index ebce624bae..051f02de94 100644 --- a/lib/iris/tests/unit/concatenate/test__CoordSignature.py +++ b/lib/iris/tests/unit/concatenate/test__CoordSignature.py @@ -59,7 +59,7 @@ def test_dim(order: int, coord_dtype, lazy: bool, with_bounds: bool) -> None: cube_signature = MockCubeSignature( dim_coords=[metadata.coord], dim_metadata=dim_metadata ) - coord_signature = _CoordSignature(cube_signature) + coord_signature = _CoordSignature(cube_signature) # type: ignore[arg-type] assert len(coord_signature.dim_extents) == 1 (actual,) = coord_signature.dim_extents first, last = coord_dtype(0), coord_dtype((N_POINTS - 1) * SCALE_FACTOR) @@ -102,7 +102,7 @@ def test_dim__scalar(coord_dtype, lazy: bool, with_bounds: bool) -> None: cube_signature = MockCubeSignature( dim_coords=[metadata.coord], dim_metadata=dim_metadata ) - coord_signature = _CoordSignature(cube_signature) + coord_signature = _CoordSignature(cube_signature) # type: ignore[arg-type] assert len(coord_signature.dim_extents) == 1 (actual,) = coord_signature.dim_extents point = coord_dtype(1) diff --git a/lib/iris/tests/unit/concatenate/test_hashing.py b/lib/iris/tests/unit/concatenate/test_hashing.py new file mode 100644 index 0000000000..7a56be1db8 --- /dev/null +++ b/lib/iris/tests/unit/concatenate/test_hashing.py @@ -0,0 +1,73 @@ +# Copyright Iris contributors +# +# This file is part of Iris and is released under the BSD license. +# See LICENSE in the root of the repository for full licensing details. +"""Test array hashing in :mod:`iris._concatenate`.""" + +import dask.array as da +import numpy as np +import pytest + +from iris import _concatenate + + +@pytest.mark.parametrize( + "a,b,eq", + [ + (np.arange(2), da.arange(2), True), + (np.arange(2), np.arange(2).reshape((1, 2)), False), + (da.arange(2), da.arange(2).reshape((1, 2)), False), + (np.array([1], dtype=np.float32), np.array([1], dtype=bool), True), + (np.array([np.nan, 1.0]), np.array([np.nan, 1.0]), True), + (np.ma.array([1, 2], mask=[0, 1]), np.ma.array([1, 2], mask=[0, 1]), True), + (np.ma.array([1, 2], mask=[0, 1]), np.ma.array([1, 2], mask=[0, 0]), False), + (da.arange(6).reshape((2, 3)), da.arange(6, chunks=1).reshape((2, 3)), True), + (da.arange(20, chunks=1), da.arange(20, chunks=2), True), + ( + da.ma.masked_array([1, 2], mask=[0, 1]), + da.ma.masked_array([1, 2], mask=[0, 1]), + True, + ), + ( + da.ma.masked_array([1, 2], mask=[0, 1]), + da.ma.masked_array([1, 3], mask=[0, 1]), + True, + ), + ( + np.ma.array([1, 2], mask=[0, 1]), + np.ma.array([1, 3], mask=[0, 1], fill_value=10), + True, + ), + ( + np.ma.masked_array([1], mask=[True]), + np.array([np.ma.default_fill_value(np.dtype("int64"))]), + False, + ), + (np.array(["a", "b"]), np.array(["a", "b"]), True), + (np.array(["a"]), np.array(["b"]), False), + (da.asarray(["a", "b"], chunks=1), da.asarray(["a", "b"], chunks=1), True), + (da.array(["a"]), da.array(["b"]), False), + (np.array(["a"]), da.array(["a"]), True), + (np.array(["a"]), np.array([1]), False), + (da.asarray([1, 1], chunks=1), da.asarray(["a", "b"], chunks=1), False), + (np.array(["a"]), np.array(["a"]).view(dtype=np.int32), False), + ], +) +def test_compute_hashes(a, b, eq): + hashes = _concatenate._compute_hashes({"a": a, "b": b}) + assert eq == (hashes["a"] == hashes["b"]) + + +def test_arrayhash_equal_incompatible_chunks_raises(): + hash1 = _concatenate._ArrayHash(1, chunks=((1, 1),)) + hash2 = _concatenate._ArrayHash(1, chunks=((2,),)) + msg = r"Unable to compare arrays with different chunks.*" + with pytest.raises(ValueError, match=msg): + hash1 == hash2 + + +def test_arrayhash_equal_incompatible_type_raises(): + hash = _concatenate._ArrayHash(1, chunks=(1, 1)) + msg = r"Unable to compare .*" + with pytest.raises(TypeError, match=msg): + hash == object() From 02928ce0cfec6c9dc2eb3994dcdf95cd34df8e7a Mon Sep 17 00:00:00 2001 From: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> Date: Tue, 3 Sep 2024 15:50:45 +0100 Subject: [PATCH 18/39] Dependabot check weekly. (#6138) --- .github/dependabot.yml | 9 ++++++--- 1 file changed, 6 insertions(+), 3 deletions(-) diff --git a/.github/dependabot.yml b/.github/dependabot.yml index e9b45d116a..e5797077df 100644 --- a/.github/dependabot.yml +++ b/.github/dependabot.yml @@ -8,8 +8,11 @@ updates: - package-ecosystem: "github-actions" directory: "/" schedule: - # Check for updates to GitHub Actions every weekday - interval: "daily" + # Check later in the week - the upstream dependabot check in `workflows` runs deliberately early in the week. + # Therefore allowing time for the `workflows` update to be merged-and-released first. + interval: "weekly" + day: "thursday" + time: "01:00" + timezone: "Europe/London" labels: - - "New: Pull Request" - "Bot" From 1a9bdaa533384ceb3e82b84b6fe2d3b70b0eb3f0 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Tue, 3 Sep 2024 15:59:50 +0100 Subject: [PATCH 19/39] Bump scitools/workflows from 2024.09.0 to 2024.09.1 (#6139) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.0 to 2024.09.1. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.0...2024.09.1) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index cb42087910..cf79783a82 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.0 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.1 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index c0a23041bd..24e72e059c 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.0 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.1 secrets: inherit From fa8a41667ae17a866a4c2addbb831a47f1084523 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Thu, 5 Sep 2024 01:26:49 +0100 Subject: [PATCH 20/39] Bump scitools/workflows from 2024.09.1 to 2024.09.2 (#6142) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.1 to 2024.09.2. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.1...2024.09.2) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index cf79783a82..b9852b9b7e 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.1 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.2 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index 24e72e059c..f97e62e358 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.1 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.2 secrets: inherit From de4843c4fe30b977e4365a67e32917437860d8ea Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Fri, 6 Sep 2024 00:31:13 +0100 Subject: [PATCH 21/39] Proj ci fix WIP (#6135) * Updated environment lockfiles * check proj env's * check proj env's 2 * check proj env's 3 * bump cache numbers * test * test2 * test3 * test4 * test5 * set tar-bz2 to false * reset build numbers * bumb build no --------- Co-authored-by: Lockfile bot Co-authored-by: Patrick Peglar --- .github/workflows/ci-tests.yml | 13 +- requirements/locks/py310-linux-64.lock | 252 +++++++++++++----------- requirements/locks/py311-linux-64.lock | 252 +++++++++++++----------- requirements/locks/py312-linux-64.lock | 254 +++++++++++++------------ 4 files changed, 415 insertions(+), 356 deletions(-) diff --git a/.github/workflows/ci-tests.yml b/.github/workflows/ci-tests.yml index 2d59294cbb..1426afcfba 100644 --- a/.github/workflows/ci-tests.yml +++ b/.github/workflows/ci-tests.yml @@ -68,14 +68,14 @@ jobs: - name: "data cache" uses: ./.github/workflows/composite/iris-data-cache with: - cache_build: 0 + cache_build: 5 env_name: ${{ env.ENV_NAME }} version: ${{ env.IRIS_TEST_DATA_VERSION }} - name: "conda package cache" uses: ./.github/workflows/composite/conda-pkg-cache with: - cache_build: 0 + cache_build: 5 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} @@ -83,15 +83,14 @@ jobs: uses: conda-incubator/setup-miniconda@v3 with: miniforge-version: latest - channels: conda-forge,defaults + channels: conda-forge activate-environment: ${{ env.ENV_NAME }} auto-update-conda: false - use-only-tar-bz2: true - name: "conda environment cache" uses: ./.github/workflows/composite/conda-env-cache with: - cache_build: 0 + cache_build: 5 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} install_packages: "cartopy nox pip" @@ -104,14 +103,14 @@ jobs: - name: "cartopy cache" uses: ./.github/workflows/composite/cartopy-cache with: - cache_build: 0 + cache_build: 5 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} - name: "nox cache" uses: ./.github/workflows/composite/nox-cache with: - cache_build: 2 + cache_build: 5 env_name: ${{ env.ENV_NAME }} lock_file: ${{ env.LOCK_FILE }} diff --git a/requirements/locks/py310-linux-64.lock b/requirements/locks/py310-linux-64.lock index 37fd003043..d6e3f60ab4 100644 --- a/requirements/locks/py310-linux-64.lock +++ b/requirements/locks/py310-linux-64.lock @@ -3,67 +3,67 @@ # input_hash: ae0608976ff47569c86692e74307d174a2bf60467441b37c1f0679cff7953c4c @EXPLICIT https://conda.anaconda.org/conda-forge/linux-64/_libgcc_mutex-0.1-conda_forge.tar.bz2#d7c89558ba9fa0495403155b64376d81 -https://conda.anaconda.org/conda-forge/linux-64/ca-certificates-2024.7.4-hbcca054_0.conda#23ab7665c5f63cfb9f1f6195256daac6 +https://conda.anaconda.org/conda-forge/linux-64/ca-certificates-2024.8.30-hbcca054_0.conda#c27d1c142233b5bc9ca570c6e2e0c244 https://conda.anaconda.org/conda-forge/noarch/font-ttf-dejavu-sans-mono-2.37-hab24e00_0.tar.bz2#0c96522c6bdaed4b1566d11387caaf45 https://conda.anaconda.org/conda-forge/noarch/font-ttf-inconsolata-3.000-h77eed37_0.tar.bz2#34893075a5c9e55cdafac56607368fc6 https://conda.anaconda.org/conda-forge/noarch/font-ttf-source-code-pro-2.038-h77eed37_0.tar.bz2#4d59c254e01d9cde7957100457e2d5fb https://conda.anaconda.org/conda-forge/noarch/font-ttf-ubuntu-0.83-h77eed37_2.conda#cbbe59391138ea5ad3658c76912e147f https://conda.anaconda.org/conda-forge/linux-64/ld_impl_linux-64-2.40-hf3520f5_7.conda#b80f2f396ca2c28b8c14c437a4ed1e74 -https://conda.anaconda.org/conda-forge/linux-64/nlohmann_json-3.11.3-h59595ed_0.conda#df9ae69b85e0cab9bde23eff1e87f183 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+https://conda.anaconda.org/conda-forge/noarch/sphinxcontrib-qthelp-2.0.0-pyhd8ed1ab_0.conda#d6e5ea5fe00164ac6c2dcc5d76a42192 +https://conda.anaconda.org/conda-forge/noarch/sphinx-8.0.2-pyhd8ed1ab_0.conda#625004bdab1b171dfd1e29ebb30c40dd https://conda.anaconda.org/conda-forge/noarch/sphinxcontrib-serializinghtml-1.1.10-pyhd8ed1ab_0.conda#e507335cb4ca9cff4c3d0fa9cdab255e From d76a4d836d9c3dc660334d1831797fe03eec262d Mon Sep 17 00:00:00 2001 From: Josh Rackham <144251043+jrackham-mo@users.noreply.github.com> Date: Wed, 11 Sep 2024 14:24:50 +0100 Subject: [PATCH 22/39] Add format agent copy and equality methods (#6119) * First attempt at copy and equal methods * Tests for copying FormatAgent * Remove unused import * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * Add documentation * Update docs/src/whatsnew/latest.rst Co-authored-by: Elias <110238618+ESadek-MO@users.noreply.github.com> --------- Co-authored-by: Josh Rackham Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> Co-authored-by: Elias <110238618+ESadek-MO@users.noreply.github.com> --- docs/src/whatsnew/latest.rst | 6 +++-- lib/iris/io/format_picker.py | 13 +++++++++++ .../unit/io/format_picker/test_FormatAgent.py | 23 +++++++++++++++++++ 3 files changed, 40 insertions(+), 2 deletions(-) create mode 100644 lib/iris/tests/unit/io/format_picker/test_FormatAgent.py diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index 3a761e0073..bc821511be 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -30,7 +30,9 @@ This document explains the changes made to Iris for this release ✨ Features =========== -#. N/A +#. `@jrackham-mo`_ added :meth:`~iris.io.format_picker.FormatAgent.copy` and + equality methods to :class:`iris.io.format_picker.FormatAgent`, as requested + in :issue:`6108`, actioned in :pull:`6119`. 🐛 Bugs Fixed @@ -99,7 +101,7 @@ This document explains the changes made to Iris for this release Whatsnew author names (@github name) in alphabetical order. Note that, core dev names are automatically included by the common_links.inc: - +.. _@jrackham-mo: https://github.com/jrackham-mo .. comment diff --git a/lib/iris/io/format_picker.py b/lib/iris/io/format_picker.py index b1b93707c9..c885a55074 100644 --- a/lib/iris/io/format_picker.py +++ b/lib/iris/io/format_picker.py @@ -84,6 +84,19 @@ def __str__(self): ["%s" % format_spec for format_spec in self._format_specs] ) + def __eq__(self, other): + return self._format_specs == other._format_specs + + def copy(self): + """Return a copy of the format agent. + + Returns + ------- + FormatAgent + A copy of the format agent. + """ + return FormatAgent(self._format_specs.copy()) + def get_spec(self, basename, buffer_obj): """Pick the first FormatSpecification. diff --git a/lib/iris/tests/unit/io/format_picker/test_FormatAgent.py b/lib/iris/tests/unit/io/format_picker/test_FormatAgent.py new file mode 100644 index 0000000000..3f5d3a87e3 --- /dev/null +++ b/lib/iris/tests/unit/io/format_picker/test_FormatAgent.py @@ -0,0 +1,23 @@ +# Copyright Iris contributors +# +# This file is part of Iris and is released under the BSD license. +# See LICENSE in the root of the repository for full licensing details. +"""Unit tests for the `iris.io.format_picker.FormatAgent` class.""" + +from iris.fileformats import FORMAT_AGENT +import iris.tests as tests + + +class TestFormatAgent(tests.IrisTest): + def test_copy_is_equal(self): + format_agent_copy = FORMAT_AGENT.copy() + self.assertEqual(format_agent_copy, FORMAT_AGENT) + + def test_modified_copy_not_equal(self): + format_agent_copy = FORMAT_AGENT.copy() + format_agent_copy._format_specs.pop() + self.assertNotEqual(format_agent_copy, FORMAT_AGENT) + + +if __name__ == "__main__": + tests.main() From 4c73724b2bad6469c2b75e7ed54d5be8195d8988 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Thu, 12 Sep 2024 07:49:42 +0100 Subject: [PATCH 23/39] Bump scitools/workflows from 2024.09.2 to 2024.09.4 (#6145) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.2 to 2024.09.4. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.2...2024.09.4) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index b9852b9b7e..aafb6fa867 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.2 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.4 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index f97e62e358..c66348fd79 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.2 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.4 secrets: inherit From 2acfd928855f471ee2d6781d248eadaf35774eff Mon Sep 17 00:00:00 2001 From: "scitools-ci[bot]" <107775138+scitools-ci[bot]@users.noreply.github.com> Date: Mon, 16 Sep 2024 10:41:42 +0100 Subject: [PATCH 24/39] Updated environment lockfiles (#6146) Co-authored-by: Lockfile bot --- requirements/locks/py310-linux-64.lock | 132 ++++++++++++------------ requirements/locks/py311-linux-64.lock | 134 ++++++++++++------------- requirements/locks/py312-linux-64.lock | 132 ++++++++++++------------ 3 files changed, 199 insertions(+), 199 deletions(-) diff --git a/requirements/locks/py310-linux-64.lock b/requirements/locks/py310-linux-64.lock index d6e3f60ab4..90141fcfd5 100644 --- a/requirements/locks/py310-linux-64.lock +++ b/requirements/locks/py310-linux-64.lock @@ -19,21 +19,25 @@ 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https://conda.anaconda.org/conda-forge/noarch/imagehash-4.3.1-pyhd8ed1ab_0.tar.bz2#132ad832787a2156be1f1b309835001a -https://conda.anaconda.org/conda-forge/linux-64/librsvg-2.58.3-h9564881_0.conda#a7045ed6fb8b68ef7be002ce615e3bf6 -https://conda.anaconda.org/conda-forge/linux-64/matplotlib-base-3.9.2-py312h854627b_0.conda#a57b0ae7c0aac603839a4e83a3e997d6 -https://conda.anaconda.org/conda-forge/linux-64/netcdf4-1.7.1-nompi_py312h1ef7fb6_101.conda#c67cc8e3a34c5cb8920c79918112e96f -https://conda.anaconda.org/conda-forge/noarch/pre-commit-3.8.0-pyha770c72_0.conda#1822e87a5d357f79c6aab871d86fb062 -https://conda.anaconda.org/conda-forge/linux-64/python-stratify-0.3.0-py312h085067d_2.conda#1e88f5023d2af511e48e4489b45b9f9b +https://conda.anaconda.org/conda-forge/linux-64/librsvg-2.58.4-hc0ffecb_0.conda#83f045969988f5c7a65f3950b95a8b35 +https://conda.anaconda.org/conda-forge/linux-64/matplotlib-base-3.9.2-py312hd3ec401_1.conda#2f4f3854f23be30de29e9e4d39758349 +https://conda.anaconda.org/conda-forge/linux-64/netcdf4-1.7.1-nompi_py312h21d6d8e_102.conda#9049ba34261ce7106220711d313fcf61 +https://conda.anaconda.org/conda-forge/noarch/pre-commit-3.8.0-pyha770c72_1.conda#004cff3a7f6fafb0a041fb575de85185 +https://conda.anaconda.org/conda-forge/linux-64/python-stratify-0.3.0-py312hc0a28a1_3.conda#81bbcb20ea4a53b05a8cf51f31496038 https://conda.anaconda.org/conda-forge/noarch/requests-2.32.3-pyhd8ed1ab_0.conda#5ede4753180c7a550a443c430dc8ab52 https://conda.anaconda.org/conda-forge/linux-64/vtk-base-9.3.1-qt_py312hb14dd37_205.conda#2c59e7bf6c8ab585161562d5bba96188 -https://conda.anaconda.org/conda-forge/linux-64/cartopy-0.23.0-py312h1d6d2e6_1.conda#6392d3ce615ab0f32bc39b07f8f4c300 +https://conda.anaconda.org/conda-forge/linux-64/cartopy-0.23.0-py312hf9745cd_2.conda#cc3ecff140731b46b970a7c4787b1823 https://conda.anaconda.org/conda-forge/noarch/cmocean-4.0.3-pyhd8ed1ab_0.conda#53df00540de0348ed1b2a62684dd912b https://conda.anaconda.org/conda-forge/noarch/esmpy-8.6.1-pyhc1e730c_0.conda#25a9661177fd68bfdb4314fd658e5c3b https://conda.anaconda.org/conda-forge/linux-64/graphviz-12.0.0-hba01fac_0.conda#953e31ea00d46beb7e64a79fc291ec44 From 9ee671c914ce75d3876080b1d46e316b23fa2344 Mon Sep 17 00:00:00 2001 From: Bouwe Andela Date: Mon, 16 Sep 2024 15:56:33 +0200 Subject: [PATCH 25/39] Add type hints to `iris.cube.Cube` (#6037) * Add some type hints * Add more type hints * Enable type hints in docstrings * Avoid warning * Python 3.10 compatibility * Remove duplicate type definitions from docstrings * Undo accidental change * Ignore coverage for TYPE_CHECKING imports * Add whatsnew entry * Remove N/A line * Fix type hints --- benchmarks/benchmarks/cube.py | 6 +- docs/src/conf.py | 10 +- docs/src/whatsnew/latest.rst | 3 +- lib/iris/_concatenate.py | 16 +- lib/iris/_constraints.py | 2 +- lib/iris/analysis/__init__.py | 53 ++- lib/iris/analysis/cartography.py | 2 +- lib/iris/common/metadata.py | 20 +- lib/iris/common/mixin.py | 33 +- lib/iris/coord_categorisation.py | 12 +- lib/iris/cube.py | 773 +++++++++++++++++++------------ lib/iris/experimental/ugrid.py | 2 +- lib/iris/mesh/components.py | 15 +- lib/iris/mesh/utils.py | 26 +- lib/iris/util.py | 8 +- pyproject.toml | 9 +- 16 files changed, 618 insertions(+), 372 deletions(-) diff --git a/benchmarks/benchmarks/cube.py b/benchmarks/benchmarks/cube.py index 2030547b46..0b6829ee2d 100644 --- a/benchmarks/benchmarks/cube.py +++ b/benchmarks/benchmarks/cube.py @@ -4,6 +4,8 @@ # See LICENSE in the root of the repository for full licensing details. """Cube benchmark tests.""" +from collections.abc import Iterable + from iris import coords from iris.cube import Cube @@ -21,9 +23,9 @@ def setup(self, w_mesh: bool, _) -> None: source_cube = realistic_4d_w_everything(w_mesh=w_mesh) def get_coords_and_dims( - coords_tuple: tuple[coords._DimensionalMetadata, ...], + coords_iter: Iterable[coords._DimensionalMetadata], ) -> list[tuple[coords._DimensionalMetadata, tuple[int, ...]]]: - return [(c, c.cube_dims(source_cube)) for c in coords_tuple] + return [(c, c.cube_dims(source_cube)) for c in coords_iter] self.cube_kwargs = dict( data=source_cube.data, diff --git a/docs/src/conf.py b/docs/src/conf.py index 4c8f59564f..70b1063585 100644 --- a/docs/src/conf.py +++ b/docs/src/conf.py @@ -211,7 +211,7 @@ def _dotv(version): } # https://www.sphinx-doc.org/en/master/usage/extensions/autodoc.html#confval-autodoc_typehints -autodoc_typehints = "none" +autodoc_typehints = "description" autosummary_generate = True autosummary_imported_members = True autopackage_name = ["iris"] @@ -246,17 +246,17 @@ def _dotv(version): # See https://www.sphinx-doc.org/en/master/usage/extensions/intersphinx.html intersphinx_mapping = { "cartopy": ("https://scitools.org.uk/cartopy/docs/latest/", None), + "cf_units": ("https://cf-units.readthedocs.io/en/stable/", None), "cftime": ("https://unidata.github.io/cftime/", None), "dask": ("https://docs.dask.org/en/stable/", None), + "geovista": ("https://geovista.readthedocs.io/en/latest/", None), "iris-esmf-regrid": ("https://iris-esmf-regrid.readthedocs.io/en/stable/", None), "matplotlib": ("https://matplotlib.org/stable/", None), "numpy": ("https://numpy.org/doc/stable/", None), - "python": ("https://docs.python.org/3/", None), - "scipy": ("https://docs.scipy.org/doc/scipy/", None), "pandas": ("https://pandas.pydata.org/docs/", None), - "dask": ("https://docs.dask.org/en/stable/", None), - "geovista": ("https://geovista.readthedocs.io/en/latest/", None), + "python": ("https://docs.python.org/3/", None), "pyvista": ("https://docs.pyvista.org/", None), + "scipy": ("https://docs.scipy.org/doc/scipy/", None), } # The name of the Pygments (syntax highlighting) style to use. diff --git a/docs/src/whatsnew/latest.rst b/docs/src/whatsnew/latest.rst index bc821511be..289b096fb8 100644 --- a/docs/src/whatsnew/latest.rst +++ b/docs/src/whatsnew/latest.rst @@ -86,8 +86,7 @@ This document explains the changes made to Iris for this release 📚 Documentation ================ -#. N/A - +#. `@bouweandela`_ added type hints for :class:`~iris.cube.Cube`. (:pull:`6037`) 💼 Internal =========== diff --git a/lib/iris/_concatenate.py b/lib/iris/_concatenate.py index 90f2438742..841cecfd53 100644 --- a/lib/iris/_concatenate.py +++ b/lib/iris/_concatenate.py @@ -690,9 +690,9 @@ def __init__(self, cube: iris.cube.Cube) -> None: # # Collate the dimension coordinate metadata. # - for coord in self.dim_coords: - dims = cube.coord_dims(coord) - self.dim_metadata.append(_CoordMetaData(coord, dims)) + for dim_coord in self.dim_coords: + dims = cube.coord_dims(dim_coord) + self.dim_metadata.append(_CoordMetaData(dim_coord, dims)) self.dim_mapping.append(dims[0]) # @@ -709,13 +709,13 @@ def key_func(coord): cube.coord_dims(coord), ) - for coord in sorted(cube.aux_coords, key=key_func): - dims = cube.coord_dims(coord) + for aux_coord in sorted(cube.aux_coords, key=key_func): + dims = cube.coord_dims(aux_coord) if dims: - self.aux_metadata.append(_CoordMetaData(coord, dims)) - self.aux_coords_and_dims.append(_CoordAndDims(coord, tuple(dims))) + self.aux_metadata.append(_CoordMetaData(aux_coord, dims)) + self.aux_coords_and_dims.append(_CoordAndDims(aux_coord, tuple(dims))) else: - self.scalar_coords.append(coord) + self.scalar_coords.append(aux_coord) def meta_key_func(dm): return (dm.metadata, dm.cube_dims(cube)) diff --git a/lib/iris/_constraints.py b/lib/iris/_constraints.py index b8f4665b46..765a975651 100644 --- a/lib/iris/_constraints.py +++ b/lib/iris/_constraints.py @@ -491,7 +491,7 @@ def list_of_constraints(constraints): return [as_constraint(constraint) for constraint in constraints] -def as_constraint(thing): +def as_constraint(thing: Constraint | str | None) -> Constraint: """Cast an object into a cube constraint where possible. Cast an object into a cube constraint where possible, otherwise diff --git a/lib/iris/analysis/__init__.py b/lib/iris/analysis/__init__.py index 5d44e563c0..215d6dff0a 100644 --- a/lib/iris/analysis/__init__.py +++ b/lib/iris/analysis/__init__.py @@ -35,13 +35,13 @@ from __future__ import annotations -from collections.abc import Iterable +from collections.abc import Iterable, Sequence import functools from functools import wraps from inspect import getfullargspec import itertools from numbers import Number -from typing import Optional, Union +from typing import Optional, Protocol, Union import warnings from cf_units import Unit @@ -56,7 +56,7 @@ from iris.analysis._interpolation import EXTRAPOLATION_MODES, RectilinearInterpolator from iris.analysis._regrid import CurvilinearRegridder, RectilinearRegridder import iris.coords -from iris.coords import _DimensionalMetadata +from iris.coords import AuxCoord, DimCoord, _DimensionalMetadata from iris.exceptions import LazyAggregatorError import iris.util @@ -2288,8 +2288,8 @@ class _Groupby: def __init__( self, - groupby_coords: list[iris.coords.Coord], - shared_coords: Optional[list[tuple[iris.coords.Coord, int]]] = None, + groupby_coords: Iterable[AuxCoord | DimCoord], + shared_coords: Optional[Iterable[tuple[AuxCoord | DimCoord, int]]] = None, climatological: bool = False, ) -> None: """Determine the group slices over the group-by coordinates. @@ -2310,9 +2310,9 @@ def __init__( """ #: Group-by and shared coordinates that have been grouped. - self.coords: list[iris.coords.Coord] = [] - self._groupby_coords: list[iris.coords.Coord] = [] - self._shared_coords: list[tuple[iris.coords.Coord, int]] = [] + self.coords: list[AuxCoord | DimCoord] = [] + self._groupby_coords: list[AuxCoord | DimCoord] = [] + self._shared_coords: list[tuple[AuxCoord | DimCoord, int]] = [] self._groupby_indices: list[tuple[int, ...]] = [] self._stop = None # Ensure group-by coordinates are iterable. @@ -2338,10 +2338,10 @@ def __init__( # Stores mapping from original cube coords to new ones, as metadata may # not match self.coord_replacement_mapping: list[ - tuple[iris.coords.Coord, iris.coords.Coord] + tuple[AuxCoord | DimCoord, AuxCoord | DimCoord] ] = [] - def _add_groupby_coord(self, coord: iris.coords.Coord) -> None: + def _add_groupby_coord(self, coord: AuxCoord | DimCoord) -> None: if coord.ndim != 1: raise iris.exceptions.CoordinateMultiDimError(coord) if self._stop is None: @@ -2350,7 +2350,7 @@ def _add_groupby_coord(self, coord: iris.coords.Coord) -> None: raise ValueError("Group-by coordinates have different lengths.") self._groupby_coords.append(coord) - def _add_shared_coord(self, coord: iris.coords.Coord, dim: int) -> None: + def _add_shared_coord(self, coord: AuxCoord | DimCoord, dim: int) -> None: if coord.shape[dim] != self._stop and self._stop is not None: raise ValueError("Shared coordinates have different lengths.") self._shared_coords.append((coord, dim)) @@ -2583,6 +2583,37 @@ def clear_phenomenon_identity(cube): ############################################################################### +class Interpolator(Protocol): + def __call__( # noqa: E704 # ruff formatting conflicts with flake8 + self, + sample_points: Sequence[np.typing.ArrayLike], + collapse_scalar: bool, + ) -> iris.cube.Cube: ... + + +class InterpolationScheme(Protocol): + def interpolator( # noqa: E704 # ruff formatting conflicts with flake8 + self, + cube: iris.cube.Cube, + coords: AuxCoord | DimCoord | str, + ) -> Interpolator: ... + + +class Regridder(Protocol): + def __call__( # noqa: E704 # ruff formatting conflicts with flake8 + self, + src: iris.cube.Cube, + ) -> iris.cube.Cube: ... + + +class RegriddingScheme(Protocol): + def regridder( # noqa: E704 # ruff formatting conflicts with flake8 + self, + src_grid: iris.cube.Cube, + target_grid: iris.cube.Cube, + ) -> Regridder: ... + + class Linear: """Describes the linear interpolation and regridding scheme. diff --git a/lib/iris/analysis/cartography.py b/lib/iris/analysis/cartography.py index 2e7c3a3677..d3967dfef3 100644 --- a/lib/iris/analysis/cartography.py +++ b/lib/iris/analysis/cartography.py @@ -1128,7 +1128,7 @@ def rotate_winds(u_cube, v_cube, target_cs): Returns ------- - (u', v') tuple of :class:`iris.cube.Cube` + tuple of :class:`iris.cube.Cube` A (u', v') tuple of :class:`iris.cube.Cube` instances that are the u and v components in the requested target coordinate system. The units are the same as the inputs. diff --git a/lib/iris/common/metadata.py b/lib/iris/common/metadata.py index 8705c79816..bfbc75507e 100644 --- a/lib/iris/common/metadata.py +++ b/lib/iris/common/metadata.py @@ -4,17 +4,23 @@ # See LICENSE in the root of the repository for full licensing details. """Provides the infrastructure to support the common metadata API.""" +from __future__ import annotations + from abc import ABCMeta from collections import namedtuple from collections.abc import Iterable, Mapping from copy import deepcopy from functools import lru_cache, wraps import re +from typing import TYPE_CHECKING, Any +import cf_units import numpy as np import numpy.ma as ma from xxhash import xxh64_hexdigest +if TYPE_CHECKING: + from iris.coords import CellMethod from ..config import get_logger from ._split_attribute_dicts import adjust_for_split_attribute_dictionaries from .lenient import _LENIENT @@ -153,6 +159,12 @@ class BaseMetadata(metaclass=_NamedTupleMeta): __slots__ = () + standard_name: str | None + long_name: str | None + var_name: str | None + units: cf_units.Unit + attributes: Any + @lenient_service def __eq__(self, other): """Determine whether the associated metadata members are equivalent. @@ -683,7 +695,7 @@ def from_metadata(cls, other): result = cls(**kwargs) return result - def name(self, default=None, token=False): + def name(self, default: str | None = None, token: bool = False) -> str: """Return a string name representing the identity of the metadata. First it tries standard name, then it tries the long name, then @@ -692,10 +704,10 @@ def name(self, default=None, token=False): Parameters ---------- - default : optional + default : The fall-back string representing the default name. Defaults to the string 'unknown'. - token : bool, default=False + token : If True, ensures that the name returned satisfies the criteria for the characters required by a valid NetCDF name. If it is not possible to return a valid name, then a ValueError exception is @@ -1039,6 +1051,8 @@ class CubeMetadata(BaseMetadata): _members = "cell_methods" + cell_methods: tuple[CellMethod, ...] + __slots__ = () @wraps(BaseMetadata.__eq__, assigned=("__doc__",), updated=()) diff --git a/lib/iris/common/mixin.py b/lib/iris/common/mixin.py index 2d9605de83..8e89f0ccd0 100644 --- a/lib/iris/common/mixin.py +++ b/lib/iris/common/mixin.py @@ -4,8 +4,11 @@ # See LICENSE in the root of the repository for full licensing details. """Provides common metadata mixin behaviour.""" +from __future__ import annotations + from collections.abc import Mapping from functools import wraps +from typing import Any import cf_units @@ -138,11 +141,17 @@ def update(self, other, **kwargs): class CFVariableMixin: + _metadata_manager: Any + @wraps(BaseMetadata.name) - def name(self, default=None, token=None): + def name( + self, + default: str | None = None, + token: bool | None = None, + ) -> str: return self._metadata_manager.name(default=default, token=token) - def rename(self, name): + def rename(self, name: str | None) -> None: """Change the human-readable name. If 'name' is a valid standard name it will assign it to @@ -161,30 +170,30 @@ def rename(self, name): self.var_name = None @property - def standard_name(self): + def standard_name(self) -> str | None: """The CF Metadata standard name for the object.""" return self._metadata_manager.standard_name @standard_name.setter - def standard_name(self, name): + def standard_name(self, name: str | None) -> None: self._metadata_manager.standard_name = _get_valid_standard_name(name) @property - def long_name(self): + def long_name(self) -> str | None: """The CF Metadata long name for the object.""" return self._metadata_manager.long_name @long_name.setter - def long_name(self, name): + def long_name(self, name: str | None) -> None: self._metadata_manager.long_name = name @property - def var_name(self): + def var_name(self) -> str | None: """The NetCDF variable name for the object.""" return self._metadata_manager.var_name @var_name.setter - def var_name(self, name): + def var_name(self, name: str | None) -> None: if name is not None: result = self._metadata_manager.token(name) if result is None or not name: @@ -193,20 +202,20 @@ def var_name(self, name): self._metadata_manager.var_name = name @property - def units(self): + def units(self) -> cf_units.Unit: """The S.I. unit of the object.""" return self._metadata_manager.units @units.setter - def units(self, unit): + def units(self, unit: cf_units.Unit | str | None) -> None: self._metadata_manager.units = cf_units.as_unit(unit) @property - def attributes(self): + def attributes(self) -> LimitedAttributeDict: return self._metadata_manager.attributes @attributes.setter - def attributes(self, attributes): + def attributes(self, attributes: Mapping) -> None: self._metadata_manager.attributes = LimitedAttributeDict(attributes or {}) @property diff --git a/lib/iris/coord_categorisation.py b/lib/iris/coord_categorisation.py index 770f8327a1..12ad93a9c3 100644 --- a/lib/iris/coord_categorisation.py +++ b/lib/iris/coord_categorisation.py @@ -30,7 +30,7 @@ def add_categorised_coord( cube: iris.cube.Cube, name: str, - from_coord: iris.coords.Coord | str, + from_coord: iris.coords.DimCoord | iris.coords.AuxCoord | str, category_function: Callable, units: str = "1", ) -> None: @@ -41,18 +41,18 @@ def add_categorised_coord( Parameters ---------- - cube : :class:`iris.cube.Cube` + cube : The cube containing 'from_coord'. The new coord will be added into it. - name : str + name : Name of the created coordinate. - from_coord : :class:`iris.coords.Coord` or str + from_coord : Coordinate in 'cube', or the name of one. - category_function : callable + category_function : Function(coordinate, value), returning a category value for a coordinate point-value. If ``value`` has a type hint :obj:`cftime.datetime`, the coordinate points are translated to :obj:`cftime.datetime` s before calling ``category_function``. - units : str, default="1" + units : Units of the category value, typically 'no_unit' or '1'. """ # Interpret coord, if given as a name diff --git a/lib/iris/cube.py b/lib/iris/cube.py index bc90443a51..40e50da4ff 100644 --- a/lib/iris/cube.py +++ b/lib/iris/cube.py @@ -5,25 +5,27 @@ """Classes for representing multi-dimensional data with metadata.""" -from collections import OrderedDict -import copy -from copy import deepcopy -from functools import partial, reduce -import itertools -import operator -from typing import ( +from __future__ import annotations + +from collections.abc import ( Container, Iterable, Iterator, Mapping, MutableMapping, - Optional, ) +import copy +from copy import deepcopy +from functools import partial, reduce +import itertools +import operator +from typing import TYPE_CHECKING, Any, Optional, TypeGuard import warnings from xml.dom.minidom import Document import zlib from cf_units import Unit +import dask.array as da import numpy as np import numpy.ma as ma @@ -36,11 +38,17 @@ from iris.analysis.cartography import wrap_lons import iris.analysis.maths import iris.aux_factory +from iris.aux_factory import AuxCoordFactory from iris.common import CFVariableMixin, CubeMetadata, metadata_manager_factory -from iris.common.metadata import metadata_filter +from iris.common.metadata import CoordMetadata, metadata_filter from iris.common.mixin import LimitedAttributeDict import iris.coord_systems import iris.coords +from iris.coords import AncillaryVariable, AuxCoord, CellMeasure, CellMethod, DimCoord + +if TYPE_CHECKING: + import iris.mesh + from iris.mesh import MeshCoord import iris.exceptions import iris.util import iris.warnings @@ -547,7 +555,7 @@ def concatenate_cube( raise ValueError("can't concatenate an empty CubeList") names = [cube.metadata.name() for cube in self] - unique_names = list(OrderedDict.fromkeys(names)) + unique_names = list(dict.fromkeys(names)) if len(unique_names) == 1: res = concatenate( self, @@ -730,7 +738,7 @@ def copy(self): return deepcopy(self) -def _is_single_item(testee): +def _is_single_item(testee) -> TypeGuard[str | AuxCoord | DimCoord | int]: """Return whether this is a single item, rather than an iterable. We count string types as 'single', also. @@ -1171,18 +1179,20 @@ def _walk_nodes(node): def __init__( self, - data, - standard_name=None, - long_name=None, - var_name=None, - units=None, - attributes=None, - cell_methods=None, - dim_coords_and_dims=None, - aux_coords_and_dims=None, - aux_factories=None, - cell_measures_and_dims=None, - ancillary_variables_and_dims=None, + data: np.typing.ArrayLike, + standard_name: str | None = None, + long_name: str | None = None, + var_name: str | None = None, + units: Unit | str | None = None, + attributes: Mapping | None = None, + cell_methods: Iterable[CellMethod] | None = None, + dim_coords_and_dims: Iterable[tuple[DimCoord, int]] | None = None, + aux_coords_and_dims: Iterable[tuple[AuxCoord, int | Iterable[int]]] + | None = None, + aux_factories: Iterable[AuxCoordFactory] | None = None, + cell_measures_and_dims: Iterable[tuple[CellMeasure, int]] | None = None, + ancillary_variables_and_dims: Iterable[tuple[AncillaryVariable, int]] + | None = None, ): """Create a cube with data and optional metadata. @@ -1201,33 +1211,33 @@ def __init__( array_like (as described in :func:`numpy.asarray`). See :attr:`Cube.data`. - standard_name : optional + standard_name : The standard name for the Cube's data. - long_name : optional + long_name : An unconstrained description of the cube. - var_name : optional + var_name : The NetCDF variable name for the cube. - units : optional + units : The unit of the cube, e.g. ``"m s-1"`` or ``"kelvin"``. - attributes : optional + attributes : A dictionary of cube attributes. - cell_methods : optional + cell_methods : A tuple of CellMethod objects, generally set by Iris, e.g. ``(CellMethod("mean", coords='latitude'), )``. - dim_coords_and_dims : optional + dim_coords_and_dims : A list of coordinates with scalar dimension mappings, e.g ``[(lat_coord, 0), (lon_coord, 1)]``. - aux_coords_and_dims : optional + aux_coords_and_dims : A list of coordinates with dimension mappings, e.g ``[(lat_coord, 0), (lon_coord, (0, 1))]``. See also :meth:`Cube.add_dim_coord()` and :meth:`Cube.add_aux_coord()`. - aux_factories : optional + aux_factories : A list of auxiliary coordinate factories. See :mod:`iris.aux_factory`. - cell_measures_and_dims : optional + cell_measures_and_dims : A list of CellMeasures with dimension mappings. - ancillary_variables_and_dims : optional + ancillary_variables_and_dims : A list of AncillaryVariables with dimension mappings. Examples @@ -1269,22 +1279,28 @@ def __init__( #: The NetCDF variable name for the Cube. self.var_name = var_name - self.cell_methods = cell_methods + # See https://github.com/python/mypy/issues/3004. + self.cell_methods = cell_methods # type: ignore[assignment] #: A dictionary for arbitrary Cube metadata. #: A few keys are restricted - see :class:`CubeAttrsDict`. - self.attributes = attributes + # See https://github.com/python/mypy/issues/3004. + self.attributes = attributes # type: ignore[assignment] # Coords - self._dim_coords_and_dims = [] - self._aux_coords_and_dims = [] - self._aux_factories = [] + self._dim_coords_and_dims: list[tuple[DimCoord, int]] = [] + self._aux_coords_and_dims: list[ + tuple[AuxCoord | DimCoord, tuple[int, ...]] + ] = [] + self._aux_factories: list[AuxCoordFactory] = [] # Cell Measures - self._cell_measures_and_dims = [] + self._cell_measures_and_dims: list[tuple[CellMeasure, tuple[int, ...]]] = [] # Ancillary Variables - self._ancillary_variables_and_dims = [] + self._ancillary_variables_and_dims: list[ + tuple[AncillaryVariable, tuple[int, ...]] + ] = [] identities = set() if dim_coords_and_dims: @@ -1299,12 +1315,12 @@ def __init__( dims.add(dim) if aux_coords_and_dims: - for coord, dims in aux_coords_and_dims: - identity = coord.standard_name, coord.long_name + for auxcoord, auxdims in aux_coords_and_dims: + identity = auxcoord.standard_name, auxcoord.long_name if identity not in identities: - self._add_unique_aux_coord(coord, dims) + self._add_unique_aux_coord(auxcoord, auxdims) else: - self.add_aux_coord(coord, dims) + self.add_aux_coord(auxcoord, auxdims) identities.add(identity) if aux_factories: @@ -1312,15 +1328,15 @@ def __init__( self.add_aux_factory(factory) if cell_measures_and_dims: - for cell_measure, dims in cell_measures_and_dims: - self.add_cell_measure(cell_measure, dims) + for cell_measure, cmdims in cell_measures_and_dims: + self.add_cell_measure(cell_measure, cmdims) if ancillary_variables_and_dims: - for ancillary_variable, dims in ancillary_variables_and_dims: - self.add_ancillary_variable(ancillary_variable, dims) + for ancillary_variable, avdims in ancillary_variables_and_dims: + self.add_ancillary_variable(ancillary_variable, avdims) @property - def _names(self): + def _names(self) -> tuple[str | None, str | None, str | None, str | None]: """Tuple containing the value of each name participating in the identity of a :class:`iris.cube.Cube`. A tuple containing the value of each name participating in the identity @@ -1334,12 +1350,12 @@ def _names(self): # # Ensure that .attributes is always a :class:`CubeAttrsDict`. # - @property + @property # type: ignore[override] def attributes(self) -> CubeAttrsDict: - return super().attributes + return super().attributes # type: ignore[return-value] @attributes.setter - def attributes(self, attributes: Optional[Mapping]): + def attributes(self, attributes: Mapping | None) -> None: """Override to CfVariableMixin.attributes.setter. An override to CfVariableMixin.attributes.setter, which ensures that Cube @@ -1371,7 +1387,11 @@ def _dimensional_metadata(self, name_or_dimensional_metadata): raise KeyError(f"{name_or_dimensional_metadata} was not found in {self}.") return found_item - def is_compatible(self, other, ignore=None): + def is_compatible( + self, + other: Cube | CubeMetadata, + ignore: Iterable[str] | str | None = None, + ) -> bool: """Return whether the cube is compatible with another. Compatibility is determined by comparing :meth:`iris.cube.Cube.name()`, @@ -1383,7 +1403,7 @@ def is_compatible(self, other, ignore=None): other : An instance of :class:`iris.cube.Cube` or :class:`iris.cube.CubeMetadata`. - ignore : optional + ignore : A single attribute key or iterable of attribute keys to ignore when comparing the cubes. Default is None. To ignore all attributes set this to other.attributes. @@ -1425,7 +1445,7 @@ def is_compatible(self, other, ignore=None): return compatible - def convert_units(self, unit): + def convert_units(self, unit: str | Unit) -> None: """Change the cube's units, converting the values in the data array. For example, if a cube's :attr:`~iris.cube.Cube.units` are @@ -1462,11 +1482,15 @@ def convert_units(self, unit): self.data = new_data self.units = unit - def add_cell_method(self, cell_method): + def add_cell_method(self, cell_method: CellMethod) -> None: """Add a :class:`~iris.coords.CellMethod` to the Cube.""" self.cell_methods += (cell_method,) - def add_aux_coord(self, coord, data_dims=None): + def add_aux_coord( + self, + coord: AuxCoord | DimCoord, + data_dims: Iterable[int] | int | None = None, + ) -> None: """Add a CF auxiliary coordinate to the cube. Parameters @@ -1474,7 +1498,7 @@ def add_aux_coord(self, coord, data_dims=None): coord : The :class:`iris.coords.DimCoord` or :class:`iris.coords.AuxCoord` instance to add to the cube. - data_dims : optional + data_dims : Integer or iterable of integers giving the data dimensions spanned by the coordinate. @@ -1496,11 +1520,15 @@ def add_aux_coord(self, coord, data_dims=None): ) self._add_unique_aux_coord(coord, data_dims) - def _check_multi_dim_metadata(self, metadata, data_dims): + def _check_multi_dim_metadata( + self, + metadata: iris.coords._DimensionalMetadata, + data_dims: Iterable[int] | int | None, + ) -> tuple[int, ...]: # Convert to a tuple of integers if data_dims is None: data_dims = tuple() - elif isinstance(data_dims, Container): + elif isinstance(data_dims, Iterable): data_dims = tuple(int(d) for d in data_dims) else: data_dims = (int(data_dims),) @@ -1534,9 +1562,17 @@ def _check_multi_dim_metadata(self, metadata, data_dims): raise iris.exceptions.CannotAddError(msg) return data_dims - def _add_unique_aux_coord(self, coord, data_dims): + def _add_unique_aux_coord( + self, + coord: AuxCoord | DimCoord, + data_dims: Iterable[int] | int | None, + ) -> None: data_dims = self._check_multi_dim_metadata(coord, data_dims) - if hasattr(coord, "mesh"): + + def is_mesh_coord(anycoord: iris.coords.Coord) -> TypeGuard[MeshCoord]: + return hasattr(anycoord, "mesh") + + if is_mesh_coord(coord): mesh = self.mesh if mesh: msg = ( @@ -1576,7 +1612,7 @@ def _add_unique_aux_coord(self, coord, data_dims): self._aux_coords_and_dims.append((coord, data_dims)) - def add_aux_factory(self, aux_factory): + def add_aux_factory(self, aux_factory: AuxCoordFactory) -> None: """Add an auxiliary coordinate factory to the cube. Parameters @@ -1608,7 +1644,11 @@ def coordsonly(coords_and_dims): ) self._aux_factories.append(aux_factory) - def add_cell_measure(self, cell_measure, data_dims=None): + def add_cell_measure( + self, + cell_measure: CellMeasure, + data_dims: Iterable[int] | int | None = None, + ) -> None: """Add a CF cell measure to the cube. Parameters @@ -1616,7 +1656,7 @@ def add_cell_measure(self, cell_measure, data_dims=None): cell_measure : The :class:`iris.coords.CellMeasure` instance to add to the cube. - data_dims : optional + data_dims : Integer or iterable of integers giving the data dimensions spanned by the coordinate. @@ -1642,7 +1682,11 @@ def add_cell_measure(self, cell_measure, data_dims=None): key=lambda cm_dims: (cm_dims[0].metadata, cm_dims[1]) ) - def add_ancillary_variable(self, ancillary_variable, data_dims=None): + def add_ancillary_variable( + self, + ancillary_variable: AncillaryVariable, + data_dims: Iterable[int] | int | None = None, + ) -> None: """Add a CF ancillary variable to the cube. Parameters @@ -1650,7 +1694,7 @@ def add_ancillary_variable(self, ancillary_variable, data_dims=None): ancillary_variable : The :class:`iris.coords.AncillaryVariable` instance to be added to the cube. - data_dims : optional + data_dims : Integer or iterable of integers giving the data dimensions spanned by the ancillary variable. @@ -1672,12 +1716,12 @@ def add_ancillary_variable(self, ancillary_variable, data_dims=None): key=lambda av_dims: (av_dims[0].metadata, av_dims[1]) ) - def add_dim_coord(self, dim_coord, data_dim): + def add_dim_coord(self, dim_coord: DimCoord, data_dim: int | tuple[int]) -> None: """Add a CF coordinate to the cube. Parameters ---------- - dim_coord : :class:`iris.coords.DimCoord` + dim_coord : The :class:`iris.coords.DimCoord` instance to add to the cube. data_dim : Integer giving the data dimension spanned by the coordinate. @@ -1707,7 +1751,11 @@ def add_dim_coord(self, dim_coord, data_dim): ) self._add_unique_dim_coord(dim_coord, data_dim) - def _add_unique_dim_coord(self, dim_coord, data_dim): + def _add_unique_dim_coord( + self, + dim_coord: DimCoord, + data_dim: int | tuple[int], + ) -> None: if isinstance(dim_coord, iris.coords.AuxCoord): raise iris.exceptions.CannotAddError( "The dim_coord may not be an AuxCoord instance." @@ -1743,11 +1791,11 @@ def _add_unique_dim_coord(self, dim_coord, data_dim): self._dim_coords_and_dims.append((dim_coord, int(data_dim))) - def remove_aux_factory(self, aux_factory): + def remove_aux_factory(self, aux_factory: AuxCoordFactory) -> None: """Remove the given auxiliary coordinate factory from the cube.""" self._aux_factories.remove(aux_factory) - def _remove_coord(self, coord): + def _remove_coord(self, coord: DimCoord | AuxCoord) -> None: self._dim_coords_and_dims = [ (coord_, dim) for coord_, dim in self._dim_coords_and_dims @@ -1762,12 +1810,12 @@ def _remove_coord(self, coord): if coord.metadata == aux_factory.metadata: self.remove_aux_factory(aux_factory) - def remove_coord(self, coord): + def remove_coord(self, coord: str | DimCoord | AuxCoord | AuxCoordFactory) -> None: """Remove a coordinate from the cube. Parameters ---------- - coord : str or coord + coord : The (name of the) coordinate to remove from the cube. See Also @@ -1784,12 +1832,12 @@ def remove_coord(self, coord): for factory in self.aux_factories: factory.update(coord) - def remove_cell_measure(self, cell_measure): + def remove_cell_measure(self, cell_measure: str | CellMeasure) -> None: """Remove a cell measure from the cube. Parameters ---------- - cell_measure : str or cell_measure + cell_measure : The (name of the) cell measure to remove from the cube. As either * (a) a :attr:`standard_name`, :attr:`long_name`, or @@ -1820,12 +1868,15 @@ def remove_cell_measure(self, cell_measure): if cell_measure_ is not cell_measure ] - def remove_ancillary_variable(self, ancillary_variable): + def remove_ancillary_variable( + self, + ancillary_variable: str | AncillaryVariable, + ) -> None: """Remove an ancillary variable from the cube. Parameters ---------- - ancillary_variable : str or AncillaryVariable + ancillary_variable : The (name of the) AncillaryVariable to remove from the cube. """ @@ -1837,7 +1888,7 @@ def remove_ancillary_variable(self, ancillary_variable): if ancillary_variable_ is not ancillary_variable ] - def replace_coord(self, new_coord): + def replace_coord(self, new_coord: DimCoord | AuxCoord) -> None: """Replace the coordinate whose metadata matches the given coordinate.""" old_coord = self.coord(new_coord) dims = self.coord_dims(old_coord) @@ -1851,7 +1902,9 @@ def replace_coord(self, new_coord): for factory in self.aux_factories: factory.update(old_coord, new_coord) - def coord_dims(self, coord): + def coord_dims( + self, coord: str | DimCoord | AuxCoord | AuxCoordFactory + ) -> tuple[int, ...]: """Return a tuple of the data dimensions relevant to the given coordinate. When searching for the given coordinate in the cube the comparison is @@ -1861,9 +1914,13 @@ def coord_dims(self, coord): Parameters ---------- - coord : str or coord + coord : The (name of the) coord to look for. + Returns + ------- + tuple: + A tuple of the data dimensions relevant to the given coordinate. """ name_provided = False if isinstance(coord, str): @@ -1874,7 +1931,9 @@ def coord_dims(self, coord): coord_id = id(coord) # Dimension of dimension coordinate by object id - dims_by_id = {id(c): (d,) for c, d in self._dim_coords_and_dims} + dims_by_id: dict[int, tuple[int, ...]] = { + id(c): (d,) for c, d in self._dim_coords_and_dims + } # Check for id match - faster than equality check match = dims_by_id.get(coord_id) @@ -1911,14 +1970,18 @@ def matcher(factory): return match - def cell_measure_dims(self, cell_measure): + def cell_measure_dims(self, cell_measure: str | CellMeasure) -> tuple[int, ...]: """Return a tuple of the data dimensions relevant to the given CellMeasure. Parameters ---------- - cell_measure : str or CellMeasure + cell_measure : The (name of the) cell measure to look for. + Returns + ------- + tuple: + A tuple of the data dimensions relevant to the given cell measure. """ cell_measure = self.cell_measure(cell_measure) @@ -1933,7 +1996,10 @@ def cell_measure_dims(self, cell_measure): return matches[0] - def ancillary_variable_dims(self, ancillary_variable): + def ancillary_variable_dims( + self, + ancillary_variable: str | AncillaryVariable, + ) -> tuple[int, ...]: """Return a tuple of the data dimensions relevant to the given AncillaryVariable. Parameters @@ -1941,6 +2007,10 @@ def ancillary_variable_dims(self, ancillary_variable): ancillary_variable : str or AncillaryVariable The (name of the) AncillaryVariable to look for. + Returns + ------- + tuple: + A tuple of the data dimensions relevant to the given ancillary variable. """ ancillary_variable = self.ancillary_variable(ancillary_variable) @@ -1959,7 +2029,13 @@ def ancillary_variable_dims(self, ancillary_variable): return matches[0] - def aux_factory(self, name=None, standard_name=None, long_name=None, var_name=None): + def aux_factory( + self, + name: str | None = None, + standard_name: str | None = None, + long_name: str | None = None, + var_name: str | None = None, + ) -> AuxCoordFactory: """Return the single coordinate factory that matches the criteria. Return the single coordinate factory that matches the criteria, @@ -1967,18 +2043,23 @@ def aux_factory(self, name=None, standard_name=None, long_name=None, var_name=No Parameters ---------- - name : optional + name : If not None, matches against factory.name(). - standard_name : optional + standard_name : The CF standard name of the desired coordinate factory. If None, does not check for standard name. - long_name : optional + long_name : An unconstrained description of the coordinate factory. If None, does not check for long_name. - var_name : optional + var_name : The NetCDF variable name of the desired coordinate factory. If None, does not check for var_name. + Returns + ------- + AuxCoordFactory: + The single coordinate factory that matches the criteria. + Notes ----- .. note:: @@ -1988,7 +2069,7 @@ def aux_factory(self, name=None, standard_name=None, long_name=None, var_name=No :class:`iris.exceptions.CoordinateNotFoundError` is raised. """ - factories = self.aux_factories + factories = list(self.aux_factories) if name is not None: factories = [factory for factory in factories if factory.name() == name] @@ -2027,23 +2108,28 @@ def aux_factory(self, name=None, standard_name=None, long_name=None, var_name=No def coords( self, - name_or_coord=None, - standard_name=None, - long_name=None, - var_name=None, - attributes=None, - axis=None, + name_or_coord: str + | DimCoord + | AuxCoord + | AuxCoordFactory + | CoordMetadata + | None = None, + standard_name: str | None = None, + long_name: str | None = None, + var_name: str | None = None, + attributes: Mapping | None = None, + axis: iris.util.Axis | None = None, contains_dimension=None, - dimensions=None, + dimensions: Iterable[int] | int | None = None, coord_system=None, - dim_coords=None, - mesh_coords=None, - ): + dim_coords: bool | None = None, + mesh_coords: bool | None = None, + ) -> list[DimCoord | AuxCoord]: r"""Return a list of coordinates from the :class:`Cube` that match the provided criteria. Parameters ---------- - name_or_coord : optional + name_or_coord : Either, * a :attr:`~iris.common.mixin.CFVariableMixin.standard_name`, @@ -2054,39 +2140,39 @@ def coords( * a coordinate or metadata instance equal to that of the desired coordinate e.g., :class:`~iris.coords.DimCoord` or :class:`~iris.common.metadata.CoordMetadata`. - standard_name : optional + standard_name : The CF standard name of the desired coordinate. If ``None``, does not check for ``standard name``. - long_name : optional + long_name : An unconstrained description of the coordinate. If ``None``, does not check for ``long_name``. - var_name : optional + var_name : The NetCDF variable name of the desired coordinate. If ``None``, does not check for ``var_name``. - attributes : optional + attributes : A dictionary of attributes desired on the coordinates. If ``None``, does not check for ``attributes``. - axis : optional + axis : The desired coordinate axis, see :func:`iris.util.guess_coord_axis`. If ``None``, does not check for ``axis``. Accepts the values ``X``, ``Y``, ``Z`` and ``T`` (case-insensitive). - contains_dimension : optional + contains_dimension : The desired coordinate contains the data dimension. If ``None``, does not check for the dimension. - dimensions : optional + dimensions : The exact data dimensions of the desired coordinate. Coordinates with no data dimension can be found with an empty ``tuple`` or ``list`` i.e., ``()`` or ``[]``. If ``None``, does not check for dimensions. - coord_system : optional + coord_system : Whether the desired coordinates have a coordinate system equal to the given coordinate system. If ``None``, no check is done. - dim_coords : optional + dim_coords : Set to ``True`` to only return coordinates that are the cube's dimension coordinates. Set to ``False`` to only return coordinates that are the cube's auxiliary, mesh and derived coordinates. If ``None``, returns all coordinates. - mesh_coords : optional + mesh_coords : Set to ``True`` to return only coordinates which are :class:`~iris.mesh.MeshCoord`\'s. Set to ``False`` to return only non-mesh coordinates. @@ -2103,7 +2189,7 @@ def coords( """ - coords_and_factories = [] + coords_and_factories: list[DimCoord | AuxCoord | AuxCoordFactory] = [] if dim_coords in [True, None]: coords_and_factories += list(self.dim_coords) @@ -2153,7 +2239,7 @@ def coords( ] if dimensions is not None: - if not isinstance(dimensions, Container): + if not isinstance(dimensions, Iterable): dimensions = [dimensions] dimensions = tuple(dimensions) coords_and_factories = [ @@ -2184,23 +2270,28 @@ def extract_coord(coord_or_factory): def coord( self, - name_or_coord=None, - standard_name=None, - long_name=None, - var_name=None, - attributes=None, - axis=None, + name_or_coord: str + | DimCoord + | AuxCoord + | AuxCoordFactory + | CoordMetadata + | None = None, + standard_name: str | None = None, + long_name: str | None = None, + var_name: str | None = None, + attributes: Mapping | None = None, + axis: iris.util.Axis | None = None, contains_dimension=None, - dimensions=None, + dimensions: Iterable[int] | int | None = None, coord_system=None, - dim_coords=None, - mesh_coords=None, - ): + dim_coords: bool | None = None, + mesh_coords: bool | None = None, + ) -> DimCoord | AuxCoord: r"""Return a single coordinate from the :class:`Cube` that matches the provided criteria. Parameters ---------- - name_or_coord : optional + name_or_coord : Either, * a :attr:`~iris.common.mixin.CFVariableMixin.standard_name`, @@ -2211,39 +2302,39 @@ def coord( * a coordinate or metadata instance equal to that of the desired coordinate e.g., :class:`~iris.coords.DimCoord` or :class:`~iris.common.metadata.CoordMetadata`. - standard_name : optional + standard_name : The CF standard name of the desired coordinate. If ``None``, does not check for ``standard name``. - long_name : optional + long_name : An unconstrained description of the coordinate. If ``None``, does not check for ``long_name``. - var_name : optional + var_name : The NetCDF variable name of the desired coordinate. If ``None``, does not check for ``var_name``. - attributes : optional + attributes : A dictionary of attributes desired on the coordinates. If ``None``, does not check for ``attributes``. - axis : optional + axis : The desired coordinate axis, see :func:`iris.util.guess_coord_axis`. If ``None``, does not check for ``axis``. Accepts the values ``X``, ``Y``, ``Z`` and ``T`` (case-insensitive). - contains_dimension : optional + contains_dimension : The desired coordinate contains the data dimension. If ``None``, does not check for the dimension. - dimensions : optional + dimensions : The exact data dimensions of the desired coordinate. Coordinates with no data dimension can be found with an empty ``tuple`` or ``list`` i.e., ``()`` or ``[]``. If ``None``, does not check for dimensions. - coord_system : optional + coord_system : Whether the desired coordinates have a coordinate system equal to the given coordinate system. If ``None``, no check is done. - dim_coords : optional + dim_coords : Set to ``True`` to only return coordinates that are the cube's dimension coordinates. Set to ``False`` to only return coordinates that are the cube's auxiliary, mesh and derived coordinates. If ``None``, returns all coordinates. - mesh_coords : optional + mesh_coords : Set to ``True`` to return only coordinates which are :class:`~iris.mesh.MeshCoord`\'s. Set to ``False`` to return only non-mesh coordinates. @@ -2277,6 +2368,7 @@ def coord( dimensions=dimensions, coord_system=coord_system, dim_coords=dim_coords, + mesh_coords=mesh_coords, ) if len(coords) > 1: @@ -2305,7 +2397,10 @@ def coord( return coords[0] - def coord_system(self, spec=None): + def coord_system( + self, + spec: str | type[iris.coord_systems.CoordSystem] | None = None, + ) -> iris.coord_systems.CoordSystem | None: """Find the coordinate system of the given type. If no target coordinate system is provided then find @@ -2313,7 +2408,7 @@ def coord_system(self, spec=None): Parameters ---------- - spec : optional + spec : The the name or type of a coordinate system subclass. E.g. :: @@ -2354,17 +2449,17 @@ def coord_system(self, spec=None): return result - def _any_meshcoord(self): + def _any_meshcoord(self) -> MeshCoord | None: """Return a MeshCoord if there are any, else None.""" mesh_coords = self.coords(mesh_coords=True) if mesh_coords: result = mesh_coords[0] else: result = None - return result + return result # type: ignore[return-value] @property - def mesh(self): + def mesh(self) -> iris.mesh.MeshXY | None: r"""Return the unstructured :class:`~iris.mesh.MeshXY` associated with the cube. Return the unstructured :class:`~iris.mesh.MeshXY` @@ -2380,13 +2475,15 @@ def mesh(self): or ``None``. """ - result = self._any_meshcoord() - if result is not None: - result = result.mesh + coord = self._any_meshcoord() + if coord is None: + result = None + else: + result = coord.mesh return result @property - def location(self): + def location(self) -> iris.mesh.components.Location | None: r"""Return the mesh "location" of the cube data. Return the mesh "location" of the cube data, if the cube has any @@ -2401,12 +2498,14 @@ def location(self): (i.e. one of 'face' / 'edge' / 'node'), or ``None``. """ - result = self._any_meshcoord() - if result is not None: - result = result.location + coord = self._any_meshcoord() + if coord is None: + result = None + else: + result = coord.location return result - def mesh_dim(self): + def mesh_dim(self) -> int | None: r"""Return the cube dimension of the mesh. Return the cube dimension of the mesh, if the cube has any @@ -2421,17 +2520,22 @@ def mesh_dim(self): or ``None``. """ - result = self._any_meshcoord() - if result is not None: - (result,) = self.coord_dims(result) # result is a 1-tuple + coord = self._any_meshcoord() + if coord is None: + result = None + else: + (result,) = self.coord_dims(coord) # result is a 1-tuple return result - def cell_measures(self, name_or_cell_measure=None): + def cell_measures( + self, + name_or_cell_measure: str | CellMeasure | None = None, + ) -> list[CellMeasure]: """Return a list of cell measures in this cube fitting the given criteria. Parameters ---------- - name_or_cell_measure : optional + name_or_cell_measure : Either * (a) a :attr:`standard_name`, :attr:`long_name`, or @@ -2442,6 +2546,11 @@ def cell_measures(self, name_or_cell_measure=None): * (b) a cell_measure instance with metadata equal to that of the desired cell_measures. + Returns + ------- + list + List of cell measures in this cube fitting the given criteria. + See Also -------- cell_measure : @@ -2466,7 +2575,10 @@ def cell_measures(self, name_or_cell_measure=None): cell_measures.append(cm) return cell_measures - def cell_measure(self, name_or_cell_measure=None): + def cell_measure( + self, + name_or_cell_measure: str | CellMeasure | None = None, + ) -> CellMeasure: """Return a single cell_measure given the same arguments as :meth:`Cube.cell_measures`. Notes @@ -2477,6 +2589,11 @@ def cell_measure(self, name_or_cell_measure=None): being matched, an :class:`iris.exceptions.CellMeasureNotFoundError` is raised. + Returns + ------- + CellMeasure + A single cell measure in this cube fitting the given criteria. + See Also -------- cell_measures : @@ -2514,12 +2631,15 @@ def cell_measure(self, name_or_cell_measure=None): return cell_measures[0] - def ancillary_variables(self, name_or_ancillary_variable=None): + def ancillary_variables( + self, + name_or_ancillary_variable: str | AncillaryVariable | None = None, + ) -> list[AncillaryVariable]: """Return a list of ancillary variable in this cube fitting the given criteria. Parameters ---------- - name_or_ancillary_variable : optional + name_or_ancillary_variable : Either * (a) a :attr:`standard_name`, :attr:`long_name`, or @@ -2530,10 +2650,15 @@ def ancillary_variables(self, name_or_ancillary_variable=None): * (b) a ancillary_variable instance with metadata equal to that of the desired ancillary_variables. + Returns + ------- + list + List of ancillary variables in this cube fitting the given criteria. + See Also -------- ancillary_variable : - Return a single ancillary_variable. + Return a ancillary_variable. """ name = None @@ -2554,7 +2679,10 @@ def ancillary_variables(self, name_or_ancillary_variable=None): ancillary_variables.append(av) return ancillary_variables - def ancillary_variable(self, name_or_ancillary_variable=None): + def ancillary_variable( + self, + name_or_ancillary_variable: str | AncillaryVariable | None = None, + ) -> AncillaryVariable: """Return a single ancillary_variable given the same arguments as :meth:`Cube.ancillary_variables`. Notes @@ -2565,6 +2693,11 @@ def ancillary_variable(self, name_or_ancillary_variable=None): ancillary_variable being matched, an :class:`iris.exceptions.AncillaryVariableNotFoundError` is raised. + Returns + ------- + AncillaryVariable + A single ancillary variable in this cube fitting the given criteria. + See Also -------- ancillary_variables : @@ -2606,7 +2739,7 @@ def ancillary_variable(self, name_or_ancillary_variable=None): return ancillary_variables[0] @property - def cell_methods(self): + def cell_methods(self) -> tuple[CellMethod, ...]: """Tuple of :class:`iris.coords.CellMethod`. Tuple of :class:`iris.coords.CellMethod` representing the processing @@ -2616,7 +2749,10 @@ def cell_methods(self): return self._metadata_manager.cell_methods @cell_methods.setter - def cell_methods(self, cell_methods: Iterable): + def cell_methods( + self, + cell_methods: Iterable[CellMethod] | None, + ) -> None: if not cell_methods: # For backwards compatibility: Empty or null value is equivalent to (). cell_methods = () @@ -2627,14 +2763,14 @@ def cell_methods(self, cell_methods: Iterable): # All contents should be CellMethods. Requiring class membership is # somewhat non-Pythonic, but simple, and not a problem for now. if not isinstance(cell_method, iris.coords.CellMethod): - msg = ( + msg = ( # type: ignore[unreachable] f"Cube.cell_methods assigned value includes {cell_method}, " "which is not an iris.coords.CellMethod." ) raise ValueError(msg) self._metadata_manager.cell_methods = cell_methods - def core_data(self): + def core_data(self) -> np.ndarray | da.Array: """Retrieve the data array of this :class:`~iris.cube.Cube`. Retrieve the data array of this :class:`~iris.cube.Cube` in its @@ -2649,7 +2785,7 @@ def core_data(self): return self._data_manager.core_data() @property - def shape(self): + def shape(self) -> tuple[int, ...]: """The shape of the data of this cube.""" return self._data_manager.shape @@ -2659,11 +2795,11 @@ def dtype(self): return self._data_manager.dtype @property - def ndim(self): + def ndim(self) -> int: """The number of dimensions in the data of this cube.""" return self._data_manager.ndim - def lazy_data(self): + def lazy_data(self) -> da.Array: """Return a "lazy array" representing the Cube data. Return a "lazy array" representing the Cube data. A lazy array @@ -2688,7 +2824,7 @@ def lazy_data(self): return self._data_manager.lazy_data() @property - def data(self): + def data(self) -> np.ndarray: """The :class:`numpy.ndarray` representing the multi-dimensional data of the cube. Notes @@ -2723,10 +2859,10 @@ def data(self): return self._data_manager.data @data.setter - def data(self, data): + def data(self, data: np.typing.ArrayLike) -> None: self._data_manager.data = data - def has_lazy_data(self): + def has_lazy_data(self) -> bool: """Detail whether this :class:`~iris.cube.Cube` has lazy data. Returns @@ -2737,7 +2873,7 @@ def has_lazy_data(self): return self._data_manager.has_lazy_data() @property - def dim_coords(self): + def dim_coords(self) -> tuple[DimCoord, ...]: """Return a tuple of all the dimension coordinates, ordered by dimension. .. note:: @@ -2761,7 +2897,7 @@ def dim_coords(self): ) @property - def aux_coords(self): + def aux_coords(self) -> tuple[AuxCoord | DimCoord, ...]: """Return a tuple of all the auxiliary coordinates, ordered by dimension(s).""" return tuple( ( @@ -2774,7 +2910,7 @@ def aux_coords(self): ) @property - def derived_coords(self): + def derived_coords(self) -> tuple[AuxCoord, ...]: """Return a tuple of all the coordinates generated by the coordinate factories.""" return tuple( factory.make_coord(self.coord_dims) @@ -2784,11 +2920,11 @@ def derived_coords(self): ) @property - def aux_factories(self): + def aux_factories(self) -> tuple[AuxCoordFactory, ...]: """Return a tuple of all the coordinate factories.""" return tuple(self._aux_factories) - def summary(self, shorten=False, name_padding=35): + def summary(self, shorten: bool = False, name_padding: int = 35) -> str: """Summary of the Cube. String summary of the Cube with name+units, a list of dim coord names @@ -2796,11 +2932,11 @@ def summary(self, shorten=False, name_padding=35): Parameters ---------- - shorten : bool, default=False + shorten : If set, produce a one-line summary of minimal width, showing only the cube name, units and dimensions. When not set (default), produces a full multi-line summary string. - name_padding : int, default=35 + name_padding : Control the *minimum* width of the cube name + units, i.e. the indent of the dimension map section. @@ -2811,13 +2947,13 @@ def summary(self, shorten=False, name_padding=35): summary = printer.to_string(oneline=shorten, name_padding=name_padding) return summary - def __str__(self): + def __str__(self) -> str: return self.summary() - def __repr__(self): + def __repr__(self) -> str: return "" % self.summary(shorten=True, name_padding=1) - def _repr_html_(self): + def _repr_html_(self) -> str: from iris.experimental.representation import CubeRepresentation representer = CubeRepresentation(self) @@ -2827,7 +2963,7 @@ def _repr_html_(self): # TypeError with a useful message if a Cube is iterated over. __iter__ = None - def __getitem__(self, keys): + def __getitem__(self, keys) -> Cube: """Cube indexing has been implemented at the data level. Cube indexing (through use of square bracket notation) has been @@ -2878,7 +3014,7 @@ def new_ancillary_variable_dims(av_): data = ma.array(data.data, mask=data.mask, dtype=cube_data.dtype) # Make the new cube slice - cube = Cube(data) + cube = self.__class__(data) cube.metadata = deepcopy(self.metadata) # Record a mapping from old coordinate IDs to new coordinates, @@ -2936,7 +3072,7 @@ def new_ancillary_variable_dims(av_): return cube - def subset(self, coord): + def subset(self, coord: AuxCoord | DimCoord) -> Cube | None: """Get a subset of the cube by providing the desired resultant coordinate. Get a subset of the cube by providing the desired resultant @@ -2976,24 +3112,23 @@ def subset(self, coord): if coord_indices.size == 0: # No matches found. - return + return None # Build up a slice which spans the whole of the cube full_slice = [slice(None, None)] * len(self.shape) # Update the full slice to only extract specific indices which # were identified above full_slice[coord_to_extract_dim] = coord_indices - full_slice = tuple(full_slice) - result = self[full_slice] + result = self[tuple(full_slice)] return result - def extract(self, constraint): + def extract(self, constraint: iris.Constraint | str | None) -> Cube: """Filter cube by the given constraint using :meth:`iris.Constraint.extract`.""" # Cast the constraint into a proper constraint if it is not so already constraint = iris._constraints.as_constraint(constraint) return constraint.extract(self) - def intersection(self, *args, **kwargs): + def intersection(self, *args, **kwargs) -> Cube: """Return the intersection of the cube with specified coordinate ranges. Coordinate ranges can be specified as: @@ -3072,23 +3207,28 @@ def intersection(self, *args, **kwargs): for arg in args: result = result._intersect( *arg, ignore_bounds=ignore_bounds, threshold=threshold - ) + ) # type: ignore[misc] for name, value in kwargs.items(): result = result._intersect( name, *value, ignore_bounds=ignore_bounds, threshold=threshold - ) + ) # type: ignore[misc] return result def _intersect( self, - name_or_coord, - minimum, - maximum, - min_inclusive=True, - max_inclusive=True, - ignore_bounds=False, + name_or_coord: str + | DimCoord + | AuxCoord + | AuxCoordFactory + | CoordMetadata + | None, + minimum: float | int, + maximum: float | int, + min_inclusive: bool = True, + max_inclusive: bool = True, + ignore_bounds: bool = False, threshold=0, - ): + ) -> Cube: coord = self.coord(name_or_coord) if coord.ndim != 1: raise iris.exceptions.CoordinateMultiDimError(coord) @@ -3206,7 +3346,13 @@ def create_metadata(src_metadatas, add_metadata, get_metadata): result.add_aux_factory(factory.updated(coord_mapping)) return result - def _intersect_derive_subset(self, coord, points, bounds, inside_indices): + def _intersect_derive_subset( + self, + coord: AuxCoord | DimCoord, + points: np.ndarray, + bounds: np.ndarray, + inside_indices: np.ndarray, + ) -> list[slice]: # Return the subsets, i.e. the means to allow the slicing of # coordinates to ensure that they remain contiguous. modulus = coord.units.modulus @@ -3290,14 +3436,14 @@ def dim_coord_subset(): def _intersect_modulus( self, - coord, - minimum, - maximum, - min_inclusive, - max_inclusive, - ignore_bounds, - threshold, - ): + coord: AuxCoord | DimCoord, + minimum: float | int, + maximum: float | int, + min_inclusive: bool, + max_inclusive: bool, + ignore_bounds: bool, + threshold: float | int, + ) -> tuple[list[slice], np.ndarray, np.ndarray]: modulus = coord.units.modulus if maximum > minimum + modulus: raise ValueError("requested range greater than coordinate's unit's modulus") @@ -3381,7 +3527,7 @@ def _intersect_modulus( subsets = self._intersect_derive_subset(coord, points, bounds, inside_indices) return subsets, points, bounds - def _as_list_of_coords(self, names_or_coords): + def _as_list_of_coords(self, names_or_coords) -> list[AuxCoord | DimCoord]: """Convert a name, coord, or list of names/coords to a list of coords.""" # If not iterable, convert to list of a single item if _is_single_item(names_or_coords): @@ -3390,7 +3536,7 @@ def _as_list_of_coords(self, names_or_coords): coords = [] for name_or_coord in names_or_coords: if isinstance(name_or_coord, str) or isinstance( - name_or_coord, iris.coords.Coord + name_or_coord, (iris.coords.DimCoord, iris.coords.AuxCoord) ): coords.append(self.coord(name_or_coord)) else: @@ -3403,7 +3549,14 @@ def _as_list_of_coords(self, names_or_coords): raise TypeError(msg) return coords - def slices_over(self, ref_to_slice): + def slices_over( + self, + ref_to_slice: str + | AuxCoord + | DimCoord + | int + | Iterable[str | AuxCoord | DimCoord | int], + ) -> Iterable[Cube]: """Return an iterator of all subcubes. Return an iterator of all subcubes along a given coordinate or @@ -3411,7 +3564,7 @@ def slices_over(self, ref_to_slice): Parameters ---------- - ref_to_slice : str, coord, dimension index or a list of these + ref_to_slice : Determines which dimensions will be iterated along (i.e. the dimensions that are not returned in the subcubes). A mix of input types can also be provided. @@ -3472,12 +3625,12 @@ def slices_over(self, ref_to_slice): if _is_single_item(ref_to_slice): ref_to_slice = [ref_to_slice] - slice_dims = set() - for ref in ref_to_slice: + slice_dims: set[int] = set() + for ref in ref_to_slice: # type: ignore[union-attr] try: (coord,) = self._as_list_of_coords(ref) except TypeError: - dim = int(ref) + dim = int(ref) # type: ignore[arg-type] if dim < 0 or dim > self.ndim: msg = ( "Requested an iterator over a dimension ({}) " @@ -3486,7 +3639,7 @@ def slices_over(self, ref_to_slice): raise ValueError(msg) # Convert coord index to a single-element list to prevent a # TypeError when `slice_dims.update` is called with it. - dims = [dim] + dims: tuple[int, ...] = (dim,) else: dims = self.coord_dims(coord) slice_dims.update(dims) @@ -3495,7 +3648,15 @@ def slices_over(self, ref_to_slice): opposite_dims = list(all_dims - slice_dims) return self.slices(opposite_dims, ordered=False) - def slices(self, ref_to_slice, ordered=True): + def slices( + self, + ref_to_slice: str + | AuxCoord + | DimCoord + | int + | Iterable[str | AuxCoord | DimCoord | int], + ordered: bool = True, + ) -> Iterator[Cube]: """Return an iterator of all subcubes given the coordinates or dimension indices. Return an iterator of all subcubes given the coordinates or dimension @@ -3503,12 +3664,12 @@ def slices(self, ref_to_slice, ordered=True): Parameters ---------- - ref_to_slice : str, coord, dimension index or a list of these + ref_to_slice : Determines which dimensions will be returned in the subcubes (i.e. the dimensions that are not iterated over). A mix of input types can also be provided. They must all be orthogonal (i.e. point to different dimensions). - ordered : bool, default=True + ordered : If True, subcube dimensions are ordered to match the dimension order in `ref_to_slice`. If False, the order will follow that of the source cube. @@ -3571,8 +3732,8 @@ def slices(self, ref_to_slice, ordered=True): if _is_single_item(ref_to_slice): ref_to_slice = [ref_to_slice] - dim_to_slice = [] - for ref in ref_to_slice: + dim_to_slice: list[int] = [] + for ref in ref_to_slice: # type: ignore[union-attr] try: # attempt to handle as coordinate coord = self._as_list_of_coords(ref)[0] @@ -3589,7 +3750,7 @@ def slices(self, ref_to_slice, ordered=True): except TypeError: try: # attempt to handle as dimension index - dim = int(ref) + dim = int(ref) # type: ignore[arg-type] except ValueError: raise ValueError( "{} Incompatible type {} for slicing".format(ref, type(ref)) @@ -3615,12 +3776,12 @@ def slices(self, ref_to_slice, ordered=True): return _SliceIterator(self, dims_index, dim_to_slice, ordered) - def transpose(self, new_order=None): + def transpose(self, new_order: list[int] | None = None) -> None: """Re-order the data dimensions of the cube in-place. Parameters ---------- - new_order : list of ints, optional + new_order : By default, reverse the dimensions, otherwise permute the axes according to the values given. @@ -3679,7 +3840,12 @@ def remap_cube_metadata(metadata_and_dims): map(remap_cube_metadata, self._ancillary_variables_and_dims) ) - def xml(self, checksum=False, order=True, byteorder=True): + def xml( + self, + checksum: bool = False, + order: bool = True, + byteorder: bool = True, + ) -> str: """Return a fully valid CubeML string representation of the Cube.""" doc = Document() @@ -3852,12 +4018,12 @@ def _order(array): return cube_xml_element - def copy(self, data=None): + def copy(self, data: np.typing.ArrayLike | None = None) -> Cube: """Return a deep copy of this cube. Parameters ---------- - data : optional + data : Replace the data of the cube copy with provided data payload. Returns @@ -3865,7 +4031,7 @@ def copy(self, data=None): A copy instance of the :class:`Cube`. """ - memo = {} + memo: dict[int, Any] = {} cube = self._deepcopy(memo, data=data) return cube @@ -4032,7 +4198,12 @@ def __neg__(self): # END OPERATOR OVERLOADS - def collapsed(self, coords, aggregator, **kwargs): + def collapsed( + self, + coords: str | AuxCoord | DimCoord | Iterable[str | AuxCoord | DimCoord], + aggregator: iris.analysis.Aggregator, + **kwargs, + ) -> Cube: """Collapse one or more dimensions over the cube given the coordinate/s and an aggregation. Examples of aggregations that may be used include @@ -4062,12 +4233,12 @@ def collapsed(self, coords, aggregator, **kwargs): Parameters ---------- - coords : str, coord or a list of strings/coords + coords : Coordinate names/coordinates over which the cube should be collapsed. - aggregator : :class:`iris.analysis.Aggregator` + aggregator : Aggregator to be applied for collapse operation. - **kwargs : dict, optional + **kwargs : Aggregation function keyword arguments. Returns @@ -4136,13 +4307,13 @@ def collapsed(self, coords, aggregator, **kwargs): kwargs["weights"] = weights_info.array # Convert any coordinate names to coordinates - coords = self._as_list_of_coords(coords) + coordinates = self._as_list_of_coords(coords) if isinstance( aggregator, iris.analysis.WeightedAggregator ) and not aggregator.uses_weighting(**kwargs): msg = "Collapsing spatial coordinate {!r} without weighting" - lat_match = [coord for coord in coords if "latitude" in coord.name()] + lat_match = [coord for coord in coordinates if "latitude" in coord.name()] if lat_match: for coord in lat_match: warnings.warn( @@ -4151,18 +4322,11 @@ def collapsed(self, coords, aggregator, **kwargs): ) # Determine the dimensions we need to collapse (and those we don't) - if aggregator.cell_method == "peak": - dims_to_collapse = [list(self.coord_dims(coord)) for coord in coords] - - # Remove duplicate dimensions. - new_dims = OrderedDict.fromkeys(d for dim in dims_to_collapse for d in dim) - # Reverse the dimensions so the order can be maintained when - # reshaping the data. - dims_to_collapse = list(new_dims)[::-1] - else: - dims_to_collapse = set() - for coord in coords: - dims_to_collapse.update(self.coord_dims(coord)) + # Remove duplicate dimensions and reverse the dimensions so the order + # can be maintained when reshaping the data. + dims_to_collapse = list( + dict.fromkeys(d for coord in coordinates for d in self.coord_dims(coord)) + )[::-1] if aggregator.name() == "max_run" and len(dims_to_collapse) > 1: msg = "Not possible to calculate runs over more than one dimension" @@ -4172,17 +4336,17 @@ def collapsed(self, coords, aggregator, **kwargs): msg = "Cannot collapse a dimension which does not describe any data." raise iris.exceptions.CoordinateCollapseError(msg) - untouched_dims = set(range(self.ndim)) - set(dims_to_collapse) + untouched_dims = sorted(set(range(self.ndim)) - set(dims_to_collapse)) collapsed_cube = iris.util._strip_metadata_from_dims(self, dims_to_collapse) # Remove the collapsed dimension(s) from the metadata - indices = [slice(None, None)] * self.ndim + indices: list[slice | int] = [slice(None, None)] * self.ndim for dim in dims_to_collapse: indices[dim] = 0 collapsed_cube = collapsed_cube[tuple(indices)] - # Collapse any coords that span the dimension(s) being collapsed + # Collapse any coordinates that span the dimension(s) being collapsed for coord in self.dim_coords + self.aux_coords: coord_dims = self.coord_dims(coord) if set(dims_to_collapse).intersection(coord_dims): @@ -4193,8 +4357,6 @@ def collapsed(self, coords, aggregator, **kwargs): ] collapsed_cube.replace_coord(coord.collapsed(local_dims)) - untouched_dims = sorted(untouched_dims) - # Record the axis(s) argument passed to 'aggregation', so the same is # passed to the 'update_metadata' function. collapse_axis = -1 @@ -4221,11 +4383,12 @@ def collapsed(self, coords, aggregator, **kwargs): # on the cube lazy array. # NOTE: do not reform the data in this case, as 'lazy_aggregate' # accepts multiple axes (unlike 'aggregate'). - collapse_axes = list(dims_to_collapse) - if len(collapse_axes) == 1: + if len(dims_to_collapse) == 1: # Replace a "list of 1 axes" with just a number : This single-axis form is *required* by functions # like da.average (and np.average), if a 1d weights array is specified. - collapse_axes = collapse_axes[0] + collapse_axes: int | list[int] = dims_to_collapse[0] + else: + collapse_axes = list(dims_to_collapse) try: data_result = aggregator.lazy_aggregate( @@ -4263,15 +4426,23 @@ def collapsed(self, coords, aggregator, **kwargs): aggregator.update_metadata( collapsed_cube, - coords, + coordinates, axis=collapse_axis, _weights_units=getattr(weights_info, "units", None), **kwargs, ) - result = aggregator.post_process(collapsed_cube, data_result, coords, **kwargs) + result = aggregator.post_process( + collapsed_cube, data_result, coordinates, **kwargs + ) return result - def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): + def aggregated_by( + self, + coords: str | AuxCoord | DimCoord | Iterable[str | AuxCoord | DimCoord], + aggregator: iris.analysis.Aggregator, + climatological: bool = False, + **kwargs, + ) -> Cube: """Perform aggregation over the cube given one or more "group coordinates". A "group coordinate" is a coordinate where repeating values represent a @@ -4297,17 +4468,17 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): Parameters ---------- - coords : (list of coord names or :class:`iris.coords.Coord` instances) + coords : One or more coordinates over which group aggregation is to be performed. - aggregator : :class:`iris.analysis.Aggregator` + aggregator : Aggregator to be applied to each group. - climatological : bool, default=False + climatological : Indicates whether the output is expected to be climatological. For any aggregated time coord(s), this causes the climatological flag to be set and the point for each cell to equal its first bound, thereby preserving the time of year. - **kwargs : dict, optional + **kwargs : Aggregator and aggregation function keyword arguments. Returns @@ -4356,30 +4527,33 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): kwargs["weights"] = weights_info.array groupby_coords = [] - dimension_to_groupby = None + dimension_to_groupby: int | None = None - coords = self._as_list_of_coords(coords) - for coord in sorted(coords, key=lambda coord: coord.metadata): + coordinates = self._as_list_of_coords(coords) + for coord in sorted(coordinates, key=lambda coord: coord.metadata): if coord.ndim > 1: msg = ( "Cannot aggregate_by coord %s as it is " "multidimensional." % coord.name() ) raise iris.exceptions.CoordinateMultiDimError(msg) - dimension = self.coord_dims(coord) - if not dimension: + dimensions = self.coord_dims(coord) + if not dimensions: msg = ( 'Cannot group-by the coordinate "%s", as its ' "dimension does not describe any data." % coord.name() ) raise iris.exceptions.CoordinateCollapseError(msg) if dimension_to_groupby is None: - dimension_to_groupby = dimension[0] - if dimension_to_groupby != dimension[0]: + dimension_to_groupby = dimensions[0] + if dimension_to_groupby != dimensions[0]: msg = "Cannot group-by coordinates over different dimensions." raise iris.exceptions.CoordinateCollapseError(msg) groupby_coords.append(coord) + if dimension_to_groupby is None: + raise ValueError("Unable to aggregate by an empty list of `coords`.") + # Check shape of weights. These must either match the shape of the cube # or be 1D (in this case, their length must be equal to the length of the # dimension we are aggregating over). @@ -4435,11 +4609,10 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): aggregateby_cube = iris.util._strip_metadata_from_dims( self, [dimension_to_groupby] ) - key = [slice(None, None)] * self.ndim + key: list[slice | tuple[int, ...]] = [slice(None, None)] * self.ndim # Generate unique index tuple key to maintain monotonicity. key[dimension_to_groupby] = tuple(range(len(groupby))) - key = tuple(key) - aggregateby_cube = aggregateby_cube[key] + aggregateby_cube = aggregateby_cube[tuple(key)] for coord in groupby_coords + shared_coords: aggregateby_cube.remove_coord(coord) @@ -4464,19 +4637,17 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): front_slice = (slice(None),) * dimension_to_groupby back_slice = (slice(None),) * (len(data_shape) - dimension_to_groupby - 1) - groupby_subarrs = map( - lambda groupby_slice: iris.util._slice_data_with_keys( + groupby_subarrs = ( + iris.util._slice_data_with_keys( input_data, front_slice + (groupby_slice,) + back_slice - )[1], - groupby.group(), + )[1] + for groupby_slice in groupby.group() ) if weights is not None: - groupby_subweights = map( - lambda groupby_slice: weights[ - front_slice + (groupby_slice,) + back_slice - ], - groupby.group(), + groupby_subweights = ( + weights[front_slice + (groupby_slice,) + back_slice] + for groupby_slice in groupby.group() ) else: groupby_subweights = (None for _ in range(len(groupby))) @@ -4485,7 +4656,7 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): agg = iris.analysis.create_weighted_aggregator_fn( agg_method, axis=dimension_to_groupby, **kwargs ) - result = list(map(agg, groupby_subarrs, groupby_subweights)) + result = tuple(map(agg, groupby_subarrs, groupby_subweights)) # If weights are returned, "result" is a list of tuples (each tuple # contains two elements; the first is the aggregated data, the @@ -4493,12 +4664,13 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): # (one for the aggregated data and one for the aggregated weights) # before combining the different slices. if return_weights: - result, weights_result = list(zip(*result)) + data_result, weights_result = list(zip(*result)) aggregateby_weights = _lazy.stack(weights_result, axis=dimension_to_groupby) else: + data_result = result aggregateby_weights = None - aggregateby_data = _lazy.stack(result, axis=dimension_to_groupby) + aggregateby_data = _lazy.stack(data_result, axis=dimension_to_groupby) # Ensure plain ndarray is output if plain ndarray was input. if ma.isMaskedArray(aggregateby_data) and not ma.isMaskedArray(input_data): aggregateby_data = ma.getdata(aggregateby_data) @@ -4512,9 +4684,9 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): **kwargs, ) # Replace the appropriate coordinates within the aggregate-by cube. - (dim_coord,) = self.coords( - dimensions=dimension_to_groupby, dim_coords=True - ) or [None] + dim_coords = self.coords(dimensions=dimension_to_groupby, dim_coords=True) + dim_coord = dim_coords[0] if dim_coords else None + for coord in groupby.coords: new_coord = coord.copy() @@ -4548,12 +4720,18 @@ def aggregated_by(self, coords, aggregator, climatological=False, **kwargs): else: data_result = (aggregateby_data, aggregateby_weights) aggregateby_cube = aggregator.post_process( - aggregateby_cube, data_result, coords, **kwargs + aggregateby_cube, data_result, coordinates, **kwargs ) return aggregateby_cube - def rolling_window(self, coord, aggregator, window, **kwargs): + def rolling_window( + self, + coord: str | AuxCoord | DimCoord, + aggregator: iris.analysis.Aggregator, + window: int, + **kwargs, + ) -> Cube: """Perform rolling window aggregation on a cube. Perform rolling window aggregation on a cube given a coordinate, an @@ -4561,14 +4739,14 @@ def rolling_window(self, coord, aggregator, window, **kwargs): Parameters ---------- - coord : str or :class:`iris.coords.Coord` + coord : The coordinate over which to perform the rolling window aggregation. - aggregator : :class:`iris.analysis.Aggregator` + aggregator : Aggregator to be applied to the data. - window : int + window : Size of window to use. - **kwargs : dict, optional + **kwargs : Aggregator and aggregation function keyword arguments. The weights argument to the aggregator, if any, should be a 1d array, cube, or (names of) :meth:`~iris.cube.Cube.coords`, @@ -4660,13 +4838,13 @@ def rolling_window(self, coord, aggregator, window, **kwargs): if coord.ndim > 1: raise iris.exceptions.CoordinateMultiDimError(coord) - dimension = self.coord_dims(coord) - if len(dimension) != 1: + dimensions = self.coord_dims(coord) + if len(dimensions) != 1: raise iris.exceptions.CoordinateCollapseError( 'Cannot perform rolling window with coordinate "%s", ' "must map to one data dimension." % coord.name() ) - dimension = dimension[0] + dimension = dimensions[0] # Use indexing to get a result-cube of the correct shape. # NB. This indexes the data array which is wasted work. @@ -4757,7 +4935,12 @@ def rolling_window(self, coord, aggregator, window, **kwargs): result = aggregator.post_process(new_cube, data_result, [coord], **kwargs) return result - def interpolate(self, sample_points, scheme, collapse_scalar=True): + def interpolate( + self, + sample_points: Iterable[tuple[AuxCoord | DimCoord | str, np.typing.ArrayLike]], + scheme: iris.analysis.InterpolationScheme, + collapse_scalar: bool = True, + ) -> Cube: """Interpolate from this :class:`~iris.cube.Cube` to the given sample points. Interpolate from this :class:`~iris.cube.Cube` to the given @@ -4841,10 +5024,10 @@ def interpolate(self, sample_points, scheme, collapse_scalar=True): """ coords, points = zip(*sample_points) - interp = scheme.interpolator(self, coords) + interp = scheme.interpolator(self, coords) # type: ignore[arg-type] return interp(points, collapse_scalar=collapse_scalar) - def regrid(self, grid, scheme): + def regrid(self, grid: Cube, scheme: iris.analysis.RegriddingScheme) -> Cube: r"""Regrid this :class:`~iris.cube.Cube` on to the given target `grid`. Regrid this :class:`~iris.cube.Cube` on to the given target `grid` diff --git a/lib/iris/experimental/ugrid.py b/lib/iris/experimental/ugrid.py index 6e036ad96e..7db26ca26b 100644 --- a/lib/iris/experimental/ugrid.py +++ b/lib/iris/experimental/ugrid.py @@ -9,7 +9,7 @@ Notes ----- -This import path alios is provided for backwards compatibility, but will be removed +This import path alias is provided for backwards compatibility, but will be removed in a future release : Please re-write code to import from the new module path. This legacy import module will be removed in a future release. diff --git a/lib/iris/mesh/components.py b/lib/iris/mesh/components.py index a5936388f8..ef7b7c3575 100644 --- a/lib/iris/mesh/components.py +++ b/lib/iris/mesh/components.py @@ -13,7 +13,7 @@ from collections import namedtuple from collections.abc import Container from contextlib import contextmanager -from typing import Iterable +from typing import Iterable, Literal import warnings from cf_units import Unit @@ -2649,6 +2649,9 @@ def face_node(self): return self._members["face_node_connectivity"] +Location = Literal["edge", "node", "face"] + + class MeshCoord(AuxCoord): """Geographic coordinate values of data on an unstructured mesh. @@ -2687,16 +2690,16 @@ class MeshCoord(AuxCoord): def __init__( self, - mesh, - location, - axis, + mesh: MeshXY, + location: Location, + axis: Literal["x", "y"], ): # Setup the metadata. self._metadata_manager = metadata_manager_factory(MeshCoordMetadata) # Validate and record the class-specific constructor args. if not isinstance(mesh, MeshXY): - msg = ( + msg = ( # type: ignore[unreachable] "'mesh' must be an " f"{MeshXY.__module__}.{MeshXY.__name__}, " f"got {mesh}." @@ -2801,7 +2804,7 @@ def mesh(self): return self._mesh @property - def location(self): + def location(self) -> Location: return self._metadata_manager.location @property diff --git a/lib/iris/mesh/utils.py b/lib/iris/mesh/utils.py index 1117c3c7d7..d054cfec4f 100644 --- a/lib/iris/mesh/utils.py +++ b/lib/iris/mesh/utils.py @@ -134,23 +134,23 @@ def recombine_submeshes( for i_dim in range(mesh_cube.ndim): if i_dim == mesh_dim: # mesh dim : look for index coords (by name) - full_coord = mesh_cube.coords( + full_coords = mesh_cube.coords( name_or_coord=index_coord_name, dimensions=(i_dim,) ) - sub_coord = cube.coords( + sub_coords = cube.coords( name_or_coord=index_coord_name, dimensions=(i_dim,) ) else: # non-mesh dims : look for dim-coords (only) - full_coord = mesh_cube.coords(dim_coords=True, dimensions=(i_dim,)) - sub_coord = cube.coords(dim_coords=True, dimensions=(i_dim,)) + full_coords = mesh_cube.coords(dim_coords=True, dimensions=(i_dim,)) + sub_coords = cube.coords(dim_coords=True, dimensions=(i_dim,)) - if full_coord: - (full_coord,) = full_coord + if full_coords: + (full_coord,) = full_coords full_dimname = full_coord.name() full_metadata = full_coord.metadata._replace(var_name=None) - if sub_coord: - (sub_coord,) = sub_coord + if sub_coords: + (sub_coord,) = sub_coords sub_dimname = sub_coord.name() sub_metadata = sub_coord.metadata._replace(var_name=None) @@ -158,18 +158,18 @@ def recombine_submeshes( # N.B. checks for mesh- and non-mesh-dims are different if i_dim != mesh_dim: # i_dim == mesh_dim : checks for non-mesh dims - if full_coord and not sub_coord: + if full_coords and not sub_coords: err = ( f"{sub_str} has no dim-coord for dimension " f"{i_dim}, to match the 'mesh_cube' dimension " f'"{full_dimname}".' ) - elif sub_coord and not full_coord: + elif sub_coords and not full_coords: err = ( f'{sub_str} has a dim-coord "{sub_dimname}" for ' f"dimension {i_dim}, but 'mesh_cube' has none." ) - elif sub_coord != full_coord: + elif sub_coords != full_coords: err = ( f'{sub_str} has a dim-coord "{sub_dimname}" for ' f"dimension {i_dim}, which does not match that " @@ -177,13 +177,13 @@ def recombine_submeshes( ) else: # i_dim == mesh_dim : different rules for this one - if not sub_coord: + if not sub_coords: # Must have an index coord on the mesh dimension err = ( f'{sub_str} has no "{index_coord_name}" coord on ' f"the mesh dimension (dimension {mesh_dim})." ) - elif full_coord and sub_metadata != full_metadata: + elif full_coords and sub_metadata != full_metadata: # May *not* have full-cube index, but if so it must match err = ( f"{sub_str} has an index coord " diff --git a/lib/iris/util.py b/lib/iris/util.py index 4924ca68d2..5781ed8f62 100644 --- a/lib/iris/util.py +++ b/lib/iris/util.py @@ -14,6 +14,7 @@ import os.path import sys import tempfile +from typing import Literal import cf_units from dask import array as da @@ -252,7 +253,10 @@ def describe_diff(cube_a, cube_b, output_file=None): ) -def guess_coord_axis(coord): +Axis = Literal["X", "Y", "Z", "T"] + + +def guess_coord_axis(coord) -> Axis | None: """Return a "best guess" axis name of the coordinate. Heuristic categorisation of the coordinate into either label @@ -276,7 +280,7 @@ def guess_coord_axis(coord): :attr:`~iris.coords.Coord.ignore_axis` property on `coord` to ``False``. """ - axis = None + axis: Axis | None = None if hasattr(coord, "ignore_axis") and coord.ignore_axis is True: return axis diff --git a/pyproject.toml b/pyproject.toml index c55f4597d5..9e7cf051b0 100644 --- a/pyproject.toml +++ b/pyproject.toml @@ -149,7 +149,8 @@ omit = [ [tool.coverage.report] exclude_lines = [ "pragma: no cover", - "if __name__ == .__main__.:" + "if __name__ == .__main__.:", + "if TYPE_CHECKING:", ] [tool.codespell] @@ -164,14 +165,14 @@ ignore = [ [tool.mypy] # See https://mypy.readthedocs.io/en/stable/config_file.html -ignore_missing_imports = true -warn_unused_configs = true -warn_unreachable = true enable_error_code = ["ignore-without-code", "truthy-bool"] exclude = [ 'noxfile\.py', 'docs/src/conf\.py' ] +ignore_missing_imports = true +warn_unreachable = true +warn_unused_configs = true [tool.numpydoc_validation] checks = [ From e1f5a8b880e443c58cba7770a1ffd32e067a64f2 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Thu, 19 Sep 2024 18:25:53 +0100 Subject: [PATCH 26/39] Bump scitools/workflows from 2024.09.4 to 2024.09.6 (#6148) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.4 to 2024.09.6. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.4...2024.09.6) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index aafb6fa867..d6da785d22 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.4 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.6 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index c66348fd79..4fe35f151b 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.4 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.6 secrets: inherit From 38a8ab9f0ecedc481e74d74553bf85b93e8b0603 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Thu, 26 Sep 2024 09:46:44 +0100 Subject: [PATCH 27/39] Bump scitools/workflows from 2024.09.6 to 2024.09.8 (#6151) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.6 to 2024.09.8. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.6...2024.09.8) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index d6da785d22..950b9135f4 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.6 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.8 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index 4fe35f151b..828ace5f6b 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.6 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.8 secrets: inherit From aed6253e8417d73c956df2d4725c91cf24f0e3a1 Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Fri, 27 Sep 2024 17:17:25 +0100 Subject: [PATCH 28/39] Bump build to fix lockfile PR (#6152) * Updated environment lockfiles * bump build numbers of tests caches --------- Co-authored-by: Lockfile bot --- .github/workflows/ci-tests.yml | 10 +-- requirements/locks/py310-linux-64.lock | 109 +++++++++++-------------- requirements/locks/py311-linux-64.lock | 107 +++++++++++------------- requirements/locks/py312-linux-64.lock | 107 +++++++++++------------- 4 files changed, 150 insertions(+), 183 deletions(-) diff --git a/.github/workflows/ci-tests.yml b/.github/workflows/ci-tests.yml index 1426afcfba..4db83f98f2 100644 --- a/.github/workflows/ci-tests.yml +++ b/.github/workflows/ci-tests.yml @@ -68,14 +68,14 @@ jobs: - name: "data cache" uses: ./.github/workflows/composite/iris-data-cache with: - cache_build: 5 + cache_build: 6 env_name: ${{ env.ENV_NAME }} version: ${{ env.IRIS_TEST_DATA_VERSION }} - name: "conda package cache" uses: ./.github/workflows/composite/conda-pkg-cache with: - cache_build: 5 + cache_build: 6 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} @@ -90,7 +90,7 @@ jobs: - name: "conda environment cache" uses: ./.github/workflows/composite/conda-env-cache with: - cache_build: 5 + cache_build: 6 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} install_packages: "cartopy nox pip" @@ -103,14 +103,14 @@ jobs: - name: "cartopy cache" uses: ./.github/workflows/composite/cartopy-cache with: - cache_build: 5 + cache_build: 6 cache_period: ${{ env.CACHE_PERIOD }} env_name: ${{ env.ENV_NAME }} - name: "nox cache" uses: ./.github/workflows/composite/nox-cache with: - cache_build: 5 + cache_build: 6 env_name: ${{ env.ENV_NAME }} lock_file: ${{ env.LOCK_FILE }} diff --git a/requirements/locks/py310-linux-64.lock b/requirements/locks/py310-linux-64.lock index 90141fcfd5..2f4d8252d2 100644 --- a/requirements/locks/py310-linux-64.lock +++ b/requirements/locks/py310-linux-64.lock @@ -25,13 +25,19 @@ https://conda.anaconda.org/conda-forge/linux-64/libgcc-ng-14.1.0-h69a702a_1.cond https://conda.anaconda.org/conda-forge/linux-64/libgfortran5-14.1.0-hc5f4f2c_1.conda#10a0cef64b784d6ab6da50ebca4e984d https://conda.anaconda.org/conda-forge/linux-64/libstdcxx-14.1.0-hc0a3c3a_1.conda#9dbb9699ea467983ba8a4ba89b08b066 https://conda.anaconda.org/conda-forge/linux-64/openssl-3.3.2-hb9d3cd8_0.conda#4d638782050ab6faa27275bed57e9b4e +https://conda.anaconda.org/conda-forge/linux-64/pthread-stubs-0.4-hb9d3cd8_1002.conda#b3c17d95b5a10c6e64a21fa17573e70e +https://conda.anaconda.org/conda-forge/linux-64/xorg-inputproto-2.3.2-hb9d3cd8_1003.conda#32623b33f2047dbc9ae2f2e8fd3880e9 +https://conda.anaconda.org/conda-forge/linux-64/xorg-kbproto-1.0.7-hb9d3cd8_1003.conda#e87bfacb110d85e1eb6099c9ed8e7236 +https://conda.anaconda.org/conda-forge/linux-64/xorg-recordproto-1.14.2-hb9d3cd8_1003.conda#1d600d113f3e22a7eddd7e7d574be3fa +https://conda.anaconda.org/conda-forge/linux-64/xorg-renderproto-0.11.1-hb9d3cd8_1003.conda#bf90782559bce8447609933a7d45995a +https://conda.anaconda.org/conda-forge/linux-64/xorg-xextproto-7.3.0-hb9d3cd8_1004.conda#bc4cd53a083b6720d61a1519a1900878 +https://conda.anaconda.org/conda-forge/linux-64/xorg-xproto-7.0.31-hb9d3cd8_1008.conda#a63f5b66876bb1ec734ab4bdc4d11e86 https://conda.anaconda.org/conda-forge/linux-64/alsa-lib-1.2.12-h4ab18f5_0.conda#7ed427f0871fd41cb1d9c17727c17589 https://conda.anaconda.org/conda-forge/linux-64/bzip2-1.0.8-h4bc722e_7.conda#62ee74e96c5ebb0af99386de58cf9553 https://conda.anaconda.org/conda-forge/linux-64/c-ares-1.33.1-heb4867d_0.conda#0d3c60291342c0c025db231353376dfb https://conda.anaconda.org/conda-forge/linux-64/dav1d-1.2.1-hd590300_0.conda#418c6ca5929a611cbd69204907a83995 https://conda.anaconda.org/conda-forge/linux-64/expat-2.6.3-h5888daf_0.conda#6595440079bed734b113de44ffd3cd0a https://conda.anaconda.org/conda-forge/linux-64/fribidi-1.0.10-h36c2ea0_0.tar.bz2#ac7bc6a654f8f41b352b38f4051135f8 -https://conda.anaconda.org/conda-forge/linux-64/gettext-tools-0.22.5-he02047a_3.conda#fcd2016d1d299f654f81021e27496818 https://conda.anaconda.org/conda-forge/linux-64/keyutils-1.6.1-h166bdaf_0.tar.bz2#30186d27e2c9fa62b45fb1476b7200e3 https://conda.anaconda.org/conda-forge/linux-64/lame-3.100-h166bdaf_1003.tar.bz2#a8832b479f93521a9e7b5b743803be51 https://conda.anaconda.org/conda-forge/linux-64/libbrotlidec-1.1.0-hb9d3cd8_2.conda#9566f0bd264fbd463002e759b8a82401 @@ -39,7 +45,6 @@ https://conda.anaconda.org/conda-forge/linux-64/libbrotlienc-1.1.0-hb9d3cd8_2.co https://conda.anaconda.org/conda-forge/linux-64/libdeflate-1.21-h4bc722e_0.conda#36ce76665bf67f5aac36be7a0d21b7f3 https://conda.anaconda.org/conda-forge/linux-64/libev-4.33-hd590300_2.conda#172bf1cd1ff8629f2b1179945ed45055 https://conda.anaconda.org/conda-forge/linux-64/libffi-3.4.2-h7f98852_5.tar.bz2#d645c6d2ac96843a2bfaccd2d62b3ac3 -https://conda.anaconda.org/conda-forge/linux-64/libgettextpo-0.22.5-he02047a_3.conda#efab66b82ec976930b96d62a976de8e7 https://conda.anaconda.org/conda-forge/linux-64/libgfortran-14.1.0-h69a702a_1.conda#591e631bc1ae62c64f2ab4f66178c097 https://conda.anaconda.org/conda-forge/linux-64/libiconv-1.17-hd590300_2.conda#d66573916ffcf376178462f1b61c941e https://conda.anaconda.org/conda-forge/linux-64/libjpeg-turbo-3.0.0-hd590300_1.conda#ea25936bb4080d843790b586850f82b8 @@ -48,27 +53,18 @@ https://conda.anaconda.org/conda-forge/linux-64/libogg-1.3.5-h4ab18f5_0.conda#60 https://conda.anaconda.org/conda-forge/linux-64/libopus-1.3.1-h7f98852_1.tar.bz2#15345e56d527b330e1cacbdf58676e8f https://conda.anaconda.org/conda-forge/linux-64/libpciaccess-0.18-hd590300_0.conda#48f4330bfcd959c3cfb704d424903c82 https://conda.anaconda.org/conda-forge/linux-64/libstdcxx-ng-14.1.0-h4852527_1.conda#bd2598399a70bb86d8218e95548d735e -https://conda.anaconda.org/conda-forge/linux-64/libtasn1-4.19.0-h166bdaf_0.tar.bz2#93840744a8552e9ebf6bb1a5dffc125a https://conda.anaconda.org/conda-forge/linux-64/libudunits2-2.2.28-h40f5838_3.conda#4bdace082e911a3e1f1f0b721bed5b56 -https://conda.anaconda.org/conda-forge/linux-64/libunistring-0.9.10-h7f98852_0.tar.bz2#7245a044b4a1980ed83196176b78b73a https://conda.anaconda.org/conda-forge/linux-64/libuuid-2.38.1-h0b41bf4_0.conda#40b61aab5c7ba9ff276c41cfffe6b80b https://conda.anaconda.org/conda-forge/linux-64/libwebp-base-1.4.0-hd590300_0.conda#b26e8aa824079e1be0294e7152ca4559 https://conda.anaconda.org/conda-forge/linux-64/libxcrypt-4.4.36-hd590300_1.conda#5aa797f8787fe7a17d1b0821485b5adc https://conda.anaconda.org/conda-forge/linux-64/libzlib-1.3.1-h4ab18f5_1.conda#57d7dc60e9325e3de37ff8dffd18e814 https://conda.anaconda.org/conda-forge/linux-64/ncurses-6.5-he02047a_1.conda#70caf8bb6cf39a0b6b7efc885f51c0fe -https://conda.anaconda.org/conda-forge/linux-64/nettle-3.9.1-h7ab15ed_0.conda#2bf1915cc107738811368afcb0993a59 https://conda.anaconda.org/conda-forge/linux-64/ocl-icd-2.3.2-hd590300_1.conda#c66f837ac65e4d1cdeb80e2a1d5fcc3d -https://conda.anaconda.org/conda-forge/linux-64/pthread-stubs-0.4-h36c2ea0_1001.tar.bz2#22dad4df6e8630e8dff2428f6f6a7036 https://conda.anaconda.org/conda-forge/linux-64/x264-1!164.3095-h166bdaf_2.tar.bz2#6c99772d483f566d59e25037fea2c4b1 -https://conda.anaconda.org/conda-forge/linux-64/xorg-inputproto-2.3.2-h7f98852_1002.tar.bz2#bcd1b3396ec6960cbc1d2855a9e60b2b 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https://conda.anaconda.org/conda-forge/linux-64/cf-units-3.2.0-py312hc0a28a1_6.conda#fa4853d25b6fbfef5eb7b3e1b5616dd5 https://conda.anaconda.org/conda-forge/noarch/distributed-2024.9.0-pyhd8ed1ab_0.conda#2e4adbc7926d91412fec7076f14d554d https://conda.anaconda.org/conda-forge/linux-64/esmf-8.6.1-nompi_h4441c20_3.conda#1afc1e85414e228916732df2b8c5d93b -https://conda.anaconda.org/conda-forge/linux-64/ffmpeg-6.1.2-gpl_h226ea3b_102.conda#53ed7cb9007c617ad951f7aa9f4c92a4 +https://conda.anaconda.org/conda-forge/linux-64/ffmpeg-6.1.2-gpl_h1d1dc74_104.conda#2de841a54b77c037b4e9627a2281105b https://conda.anaconda.org/conda-forge/linux-64/gtk2-2.24.33-h6470451_5.conda#1483ba046164be27df7f6eddbcec3a12 https://conda.anaconda.org/conda-forge/noarch/imagehash-4.3.1-pyhd8ed1ab_0.tar.bz2#132ad832787a2156be1f1b309835001a https://conda.anaconda.org/conda-forge/linux-64/librsvg-2.58.4-hc0ffecb_0.conda#83f045969988f5c7a65f3950b95a8b35 @@ -324,15 +313,15 @@ https://conda.anaconda.org/conda-forge/linux-64/netcdf4-1.7.1-nompi_py312h21d6d8 https://conda.anaconda.org/conda-forge/noarch/pre-commit-3.8.0-pyha770c72_1.conda#004cff3a7f6fafb0a041fb575de85185 https://conda.anaconda.org/conda-forge/linux-64/python-stratify-0.3.0-py312hc0a28a1_3.conda#81bbcb20ea4a53b05a8cf51f31496038 https://conda.anaconda.org/conda-forge/noarch/requests-2.32.3-pyhd8ed1ab_0.conda#5ede4753180c7a550a443c430dc8ab52 -https://conda.anaconda.org/conda-forge/linux-64/vtk-base-9.3.1-qt_py312hb14dd37_205.conda#2c59e7bf6c8ab585161562d5bba96188 +https://conda.anaconda.org/conda-forge/linux-64/vtk-base-9.3.1-qt_py312hebdba4b_206.conda#1b15e3db9162a1d002895a4109153bde https://conda.anaconda.org/conda-forge/linux-64/cartopy-0.23.0-py312hf9745cd_2.conda#cc3ecff140731b46b970a7c4787b1823 https://conda.anaconda.org/conda-forge/noarch/cmocean-4.0.3-pyhd8ed1ab_0.conda#53df00540de0348ed1b2a62684dd912b https://conda.anaconda.org/conda-forge/noarch/esmpy-8.6.1-pyhc1e730c_0.conda#25a9661177fd68bfdb4314fd658e5c3b https://conda.anaconda.org/conda-forge/linux-64/graphviz-12.0.0-hba01fac_0.conda#953e31ea00d46beb7e64a79fc291ec44 https://conda.anaconda.org/conda-forge/noarch/nc-time-axis-1.4.1-pyhd8ed1ab_0.tar.bz2#281b58948bf60a2582de9e548bcc5369 https://conda.anaconda.org/conda-forge/noarch/pooch-1.8.2-pyhd8ed1ab_0.conda#8dab97d8a9616e07d779782995710aed -https://conda.anaconda.org/conda-forge/linux-64/vtk-io-ffmpeg-9.3.1-qt_py312hc8241c7_205.conda#42e4d2b5c3bbb7a03ac94e69b8e49e78 -https://conda.anaconda.org/conda-forge/linux-64/vtk-9.3.1-qt_py312hadc0db7_205.conda#b38151cdbd7701ecadef1d9af86c3c2b +https://conda.anaconda.org/conda-forge/linux-64/vtk-io-ffmpeg-9.3.1-qt_py312hc8241c7_206.conda#d24a98a08f54651a7037d24cd9d062e7 +https://conda.anaconda.org/conda-forge/linux-64/vtk-9.3.1-qt_py312hadc0db7_206.conda#6494e290d7a0f2e38f3ffab05291a2de https://conda.anaconda.org/conda-forge/noarch/pyvista-0.44.1-pyhd8ed1ab_0.conda#0731b45087c0358ca8b7d9fe855dec1a https://conda.anaconda.org/conda-forge/noarch/geovista-0.5.1-pyhd8ed1ab_0.conda#22958696ccc609071ba40867090bfd3a https://conda.anaconda.org/conda-forge/noarch/pydata-sphinx-theme-0.15.4-pyhd8ed1ab_0.conda#c7c50dd5192caa58a05e6a4248a27acb From 0d731cbca3fbc515a1c322089f6d18309e4e7d49 Mon Sep 17 00:00:00 2001 From: Henry Wright <84939917+HGWright@users.noreply.github.com> Date: Fri, 27 Sep 2024 18:18:11 +0100 Subject: [PATCH 29/39] add dask pin (#6153) --- requirements/py310.yml | 2 +- requirements/py311.yml | 2 +- requirements/py312.yml | 2 +- requirements/pypi-core.txt | 2 +- 4 files changed, 4 insertions(+), 4 deletions(-) diff --git a/requirements/py310.yml b/requirements/py310.yml index 309f8aa9a2..e9246a990e 100644 --- a/requirements/py310.yml +++ b/requirements/py310.yml @@ -14,7 +14,7 @@ dependencies: - cartopy >=0.21 - cf-units >=3.1 - cftime >=1.5 - - dask-core >=2022.9.0 + - dask-core >=2022.9.0,!=2024.8.0 - libnetcdf !=4.9.1 - matplotlib-base >=3.5, !=3.9.1 - netcdf4 diff --git a/requirements/py311.yml b/requirements/py311.yml index 58d71ddd52..dad2080efa 100644 --- a/requirements/py311.yml +++ b/requirements/py311.yml @@ -14,7 +14,7 @@ dependencies: - cartopy >=0.21 - cf-units >=3.1 - cftime >=1.5 - - dask-core >=2022.9.0 + - dask-core >=2022.9.0,!=2024.8.0 - libnetcdf !=4.9.1 - matplotlib-base >=3.5, !=3.9.1 - netcdf4 diff --git a/requirements/py312.yml b/requirements/py312.yml index e1e62e52d9..6e1d4be351 100644 --- a/requirements/py312.yml +++ b/requirements/py312.yml @@ -14,7 +14,7 @@ dependencies: - cartopy >=0.21 - cf-units >=3.1 - cftime >=1.5 - - dask-core >=2022.9.0 + - dask-core >=2022.9.0,!=2024.8.0 - libnetcdf !=4.9.1 - matplotlib-base >=3.5, !=3.9.1 - netcdf4 diff --git a/requirements/pypi-core.txt b/requirements/pypi-core.txt index e3a5323da5..36baaec1b9 100644 --- a/requirements/pypi-core.txt +++ b/requirements/pypi-core.txt @@ -1,7 +1,7 @@ cartopy>=0.21 cf-units>=3.1 cftime>=1.5.0 -dask[array]>=2022.9.0 +dask[array]>=2022.9.0,!=2024.8.0 # libnetcdf!=4.9.1 (not available on PyPI) matplotlib>=3.5 netcdf4 From 0ce25502a0cdbe5629a78c7ea0301566a4f3da62 Mon Sep 17 00:00:00 2001 From: Bill Little Date: Mon, 30 Sep 2024 17:05:27 +0100 Subject: [PATCH 30/39] configure dependabot for github composite actions (#6154) --- .github/dependabot.yml | 4 +++- 1 file changed, 3 insertions(+), 1 deletion(-) diff --git a/.github/dependabot.yml b/.github/dependabot.yml index e5797077df..82ba80c4ff 100644 --- a/.github/dependabot.yml +++ b/.github/dependabot.yml @@ -6,7 +6,9 @@ version: 2 updates: - package-ecosystem: "github-actions" - directory: "/" + directories: + - "/" + - "/.github/workflows/composite/*" schedule: # Check later in the week - the upstream dependabot check in `workflows` runs deliberately early in the week. # Therefore allowing time for the `workflows` update to be merged-and-released first. From 2fabfffbb54e36707bd8b9cc3b4098c9b14f265d Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 30 Sep 2024 17:37:24 +0100 Subject: [PATCH 31/39] Bump actions/cache in /.github/workflows/composite/cartopy-cache (#6155) Bumps [actions/cache](https://github.com/actions/cache) from 3 to 4. - [Release notes](https://github.com/actions/cache/releases) - [Changelog](https://github.com/actions/cache/blob/main/RELEASES.md) - [Commits](https://github.com/actions/cache/compare/v3...v4) --- updated-dependencies: - dependency-name: actions/cache dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/composite/cartopy-cache/action.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/composite/cartopy-cache/action.yml b/.github/workflows/composite/cartopy-cache/action.yml index e805cbacc1..d42e5c36cb 100644 --- a/.github/workflows/composite/cartopy-cache/action.yml +++ b/.github/workflows/composite/cartopy-cache/action.yml @@ -20,7 +20,7 @@ inputs: runs: using: "composite" steps: - - uses: actions/cache@v3 + - uses: actions/cache@v4 id: cartopy-cache with: path: ~/.local/share/cartopy From 64eef7be3f7f859ecadbe109d17243e96d338de3 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 30 Sep 2024 18:10:51 +0100 Subject: [PATCH 32/39] Bump actions/cache in /.github/workflows/composite/iris-data-cache (#6158) Bumps [actions/cache](https://github.com/actions/cache) from 3 to 4. - [Release notes](https://github.com/actions/cache/releases) - [Changelog](https://github.com/actions/cache/blob/main/RELEASES.md) - [Commits](https://github.com/actions/cache/compare/v3...v4) --- updated-dependencies: - dependency-name: actions/cache dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/composite/iris-data-cache/action.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/composite/iris-data-cache/action.yml b/.github/workflows/composite/iris-data-cache/action.yml index 7bf72fae8b..7ba7acb2cc 100644 --- a/.github/workflows/composite/iris-data-cache/action.yml +++ b/.github/workflows/composite/iris-data-cache/action.yml @@ -16,7 +16,7 @@ inputs: runs: using: "composite" steps: - - uses: actions/cache@v3 + - uses: actions/cache@v4 id: data-cache with: path: ~/iris-test-data From e81c2088f7c864905c15e610b63f51d64ad25eed Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 30 Sep 2024 18:11:54 +0100 Subject: [PATCH 33/39] Bump actions/cache in /.github/workflows/composite/conda-pkg-cache (#6157) Bumps [actions/cache](https://github.com/actions/cache) from 3 to 4. - [Release notes](https://github.com/actions/cache/releases) - [Changelog](https://github.com/actions/cache/blob/main/RELEASES.md) - [Commits](https://github.com/actions/cache/compare/v3...v4) --- updated-dependencies: - dependency-name: actions/cache dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/composite/conda-pkg-cache/action.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/composite/conda-pkg-cache/action.yml b/.github/workflows/composite/conda-pkg-cache/action.yml index 4472d7e415..48c4470e44 100644 --- a/.github/workflows/composite/conda-pkg-cache/action.yml +++ b/.github/workflows/composite/conda-pkg-cache/action.yml @@ -16,7 +16,7 @@ inputs: runs: using: "composite" steps: - - uses: actions/cache@v3 + - uses: actions/cache@v4 with: path: ~/conda_pkgs_dir key: ${{ runner.os }}-conda-pkgs-${{ inputs.env_name }}-p${{ inputs.cache_period }}-b${{ inputs.cache_build }} From 24061592381484605ec9f779728fda23bc09d16b Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 30 Sep 2024 18:15:06 +0100 Subject: [PATCH 34/39] Bump actions/cache from 3 to 4 in /.github/workflows/composite/nox-cache (#6159) Bumps [actions/cache](https://github.com/actions/cache) from 3 to 4. - [Release notes](https://github.com/actions/cache/releases) - [Changelog](https://github.com/actions/cache/blob/main/RELEASES.md) - [Commits](https://github.com/actions/cache/compare/v3...v4) --- updated-dependencies: - dependency-name: actions/cache dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/composite/nox-cache/action.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/composite/nox-cache/action.yml b/.github/workflows/composite/nox-cache/action.yml index 468dd22d81..00387331e7 100644 --- a/.github/workflows/composite/nox-cache/action.yml +++ b/.github/workflows/composite/nox-cache/action.yml @@ -16,7 +16,7 @@ inputs: runs: using: "composite" steps: - - uses: actions/cache@v3 + - uses: actions/cache@v4 with: path: ${{ github.workspace }}/.nox key: ${{ runner.os }}-nox-${{ inputs.env_name }}-s${{ matrix.session }}-py${{ matrix.python-version }}-b${{ inputs.cache_build }}-${{ hashFiles(inputs.lock_file) }} From 2609afbfb4689ee9429b1983d18b62a1039fb02b Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 30 Sep 2024 18:15:47 +0100 Subject: [PATCH 35/39] Bump actions/cache in /.github/workflows/composite/conda-env-cache (#6156) Bumps [actions/cache](https://github.com/actions/cache) from 3 to 4. - [Release notes](https://github.com/actions/cache/releases) - [Changelog](https://github.com/actions/cache/blob/main/RELEASES.md) - [Commits](https://github.com/actions/cache/compare/v3...v4) --- updated-dependencies: - dependency-name: actions/cache dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/composite/conda-env-cache/action.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/composite/conda-env-cache/action.yml b/.github/workflows/composite/conda-env-cache/action.yml index 6bfd6fff90..15eaaec63c 100644 --- a/.github/workflows/composite/conda-env-cache/action.yml +++ b/.github/workflows/composite/conda-env-cache/action.yml @@ -23,7 +23,7 @@ inputs: runs: using: "composite" steps: - - uses: actions/cache@v3 + - uses: actions/cache@v4 id: conda-env-cache with: path: ${{ env.CONDA }}/envs/${{ inputs.env_name }} From a01a8c405bf5cb572c637b3fb5c0d6ee15f9b665 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Thu, 3 Oct 2024 12:06:59 +0100 Subject: [PATCH 36/39] Bump scitools/workflows from 2024.09.8 to 2024.09.9 (#6160) Bumps [scitools/workflows](https://github.com/scitools/workflows) from 2024.09.8 to 2024.09.9. - [Release notes](https://github.com/scitools/workflows/releases) - [Commits](https://github.com/scitools/workflows/compare/2024.09.8...2024.09.9) --- updated-dependencies: - dependency-name: scitools/workflows dependency-type: direct:production ... Signed-off-by: dependabot[bot] Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> --- .github/workflows/ci-manifest.yml | 2 +- .github/workflows/refresh-lockfiles.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/workflows/ci-manifest.yml b/.github/workflows/ci-manifest.yml index 950b9135f4..350684e39c 100644 --- a/.github/workflows/ci-manifest.yml +++ b/.github/workflows/ci-manifest.yml @@ -23,4 +23,4 @@ concurrency: jobs: manifest: name: "check-manifest" - uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.8 + uses: scitools/workflows/.github/workflows/ci-manifest.yml@2024.09.9 diff --git a/.github/workflows/refresh-lockfiles.yml b/.github/workflows/refresh-lockfiles.yml index 828ace5f6b..c4aaadf5dc 100644 --- a/.github/workflows/refresh-lockfiles.yml +++ b/.github/workflows/refresh-lockfiles.yml @@ -14,5 +14,5 @@ on: jobs: refresh_lockfiles: - uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.8 + uses: scitools/workflows/.github/workflows/refresh-lockfiles.yml@2024.09.9 secrets: inherit From aa299f28801305f1daa9e7cb6e7945611911c6dd Mon Sep 17 00:00:00 2001 From: Martin Yeo <40734014+trexfeathers@users.noreply.github.com> Date: Thu, 3 Oct 2024 16:24:07 +0100 Subject: [PATCH 37/39] Fix pre-commit non-compliances (#6161) MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit * [pre-commit.ci] pre-commit autoupdate updates: - [github.com/astral-sh/ruff-pre-commit: v0.4.10 → v0.6.8](https://github.com/astral-sh/ruff-pre-commit/compare/v0.4.10...v0.6.8) - [github.com/PyCQA/flake8: 7.1.0 → 7.1.1](https://github.com/PyCQA/flake8/compare/7.1.0...7.1.1) - [github.com/asottile/blacken-docs: 1.16.0 → 1.18.0](https://github.com/asottile/blacken-docs/compare/1.16.0...1.18.0) - [github.com/pre-commit/mirrors-mypy: v1.9.0 → v1.11.2](https://github.com/pre-commit/mirrors-mypy/compare/v1.9.0...v1.11.2) - [github.com/numpy/numpydoc: v1.7.0 → v1.8.0](https://github.com/numpy/numpydoc/compare/v1.7.0...v1.8.0) * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * Temporarily disable MyPy call-arg errors. * Fix Ruff compliance. * reverse() is an in-place operation. --------- Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> --- .pre-commit-config.yaml | 10 +++++----- lib/iris/tests/__init__.py | 4 +--- .../tests/integration/test_netcdf__loadsaveattrs.py | 2 +- .../unit/fileformats/nc_load_rules/actions/__init__.py | 2 +- .../nc_load_rules/actions/test__latlon_dimcoords.py | 4 ++-- pyproject.toml | 4 +++- 6 files changed, 13 insertions(+), 13 deletions(-) diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml index feedba5b74..0398f60da2 100644 --- a/.pre-commit-config.yaml +++ b/.pre-commit-config.yaml @@ -29,7 +29,7 @@ repos: - id: no-commit-to-branch - repo: https://github.com/astral-sh/ruff-pre-commit - rev: "v0.4.10" + rev: "v0.6.8" hooks: - id: ruff types: [file, python] @@ -45,13 +45,13 @@ repos: additional_dependencies: [tomli] - repo: https://github.com/PyCQA/flake8 - rev: 7.1.0 + rev: 7.1.1 hooks: - id: flake8 types: [file, python] - repo: https://github.com/asottile/blacken-docs - rev: 1.16.0 + rev: 1.18.0 hooks: - id: blacken-docs types: [file, rst] @@ -63,7 +63,7 @@ repos: types: [file, python] - repo: https://github.com/pre-commit/mirrors-mypy - rev: 'v1.9.0' + rev: 'v1.11.2' hooks: - id: mypy additional_dependencies: @@ -71,7 +71,7 @@ repos: exclude: 'noxfile\.py|docs/src/conf\.py' - repo: https://github.com/numpy/numpydoc - rev: v1.7.0 + rev: v1.8.0 hooks: - id: numpydoc-validation exclude: "^lib/iris/tests/|docs/gallery_code/" diff --git a/lib/iris/tests/__init__.py b/lib/iris/tests/__init__.py index 7c6f578a5f..a2824f90c2 100644 --- a/lib/iris/tests/__init__.py +++ b/lib/iris/tests/__init__.py @@ -548,9 +548,7 @@ def assertRepr(self, obj, reference_filename): def _check_same(self, item, reference_path, type_comparison_name="CML"): if self._check_reference_file(reference_path): with open(reference_path, "rb") as reference_fh: - reference = "".join( - part.decode("utf-8") for part in reference_fh.readlines() - ) + reference = "".join(part.decode("utf-8") for part in reference_fh) self._assert_str_same(reference, item, reference_path, type_comparison_name) else: self._ensure_folder(reference_path) diff --git a/lib/iris/tests/integration/test_netcdf__loadsaveattrs.py b/lib/iris/tests/integration/test_netcdf__loadsaveattrs.py index 1eeb5c4f0e..b89477bfe9 100644 --- a/lib/iris/tests/integration/test_netcdf__loadsaveattrs.py +++ b/lib/iris/tests/integration/test_netcdf__loadsaveattrs.py @@ -1022,7 +1022,7 @@ def test_16_localstyle(self, local_attr, origin_style, do_split): expected_result = [expect_global, expect_var] if do_split and origin_style == "input_global": # The result is simply the "other way around" - expected_result = expected_result[::-1] + expected_result.reverse() self.check_roundtrip_results(expected_result) @pytest.mark.parametrize("testcase", _MATRIX_TESTCASES[:max_param_attrs]) diff --git a/lib/iris/tests/unit/fileformats/nc_load_rules/actions/__init__.py b/lib/iris/tests/unit/fileformats/nc_load_rules/actions/__init__.py index f768ae3587..7c79740023 100644 --- a/lib/iris/tests/unit/fileformats/nc_load_rules/actions/__init__.py +++ b/lib/iris/tests/unit/fileformats/nc_load_rules/actions/__init__.py @@ -140,7 +140,7 @@ def run_testcase(self, warning_regex=None, **testcase_kwargs): if self.debug_info: print("\nCube:") print(cube) - print("") + print() return cube def _make_testcase_cdl(self, **kwargs): diff --git a/lib/iris/tests/unit/fileformats/nc_load_rules/actions/test__latlon_dimcoords.py b/lib/iris/tests/unit/fileformats/nc_load_rules/actions/test__latlon_dimcoords.py index fcaa67c308..15401a2ca1 100644 --- a/lib/iris/tests/unit/fileformats/nc_load_rules/actions/test__latlon_dimcoords.py +++ b/lib/iris/tests/unit/fileformats/nc_load_rules/actions/test__latlon_dimcoords.py @@ -133,9 +133,9 @@ def check_result( self.assertEqual(1, len(cube.coords(dim_coords=True))) (coord,) = coords if self.debug_info: - print("") + print() print("DEBUG : result coord =", coord) - print("") + print() coord_stdname, coord_longname, coord_units, coord_crs = [ getattr(coord, name) diff --git a/pyproject.toml b/pyproject.toml index 9e7cf051b0..b849dae9e6 100644 --- a/pyproject.toml +++ b/pyproject.toml @@ -165,6 +165,8 @@ ignore = [ [tool.mypy] # See https://mypy.readthedocs.io/en/stable/config_file.html +# TODO: remove when MyPy fixed (see https://github.com/python/mypy/issues/17166) +disable_error_code = ["call-arg"] enable_error_code = ["ignore-without-code", "truthy-bool"] exclude = [ 'noxfile\.py', @@ -211,7 +213,7 @@ checks = [ "PR01", # Parameters ... not documented "PR02", # Unknown parameters {....} "PR04", # Parameter "...." has no type - "PR07", # Parameter "...." has no description + "PR07", # Parameter "...." has no description "RT01", # No Returns section found "RT03", # Return value has no description ] From d835df80386983982735bf361f9629c08b7231dc Mon Sep 17 00:00:00 2001 From: "scitools-ci[bot]" <107775138+scitools-ci[bot]@users.noreply.github.com> Date: Mon, 7 Oct 2024 11:10:10 +0100 Subject: [PATCH 38/39] Updated environment lockfiles (#6164) Co-authored-by: Lockfile bot --- requirements/locks/py310-linux-64.lock | 207 +++++++++++++------------ requirements/locks/py311-linux-64.lock | 207 +++++++++++++------------ requirements/locks/py312-linux-64.lock | 207 +++++++++++++------------ 3 files changed, 312 insertions(+), 309 deletions(-) diff --git a/requirements/locks/py310-linux-64.lock b/requirements/locks/py310-linux-64.lock index 2f4d8252d2..321092ef01 100644 --- a/requirements/locks/py310-linux-64.lock +++ b/requirements/locks/py310-linux-64.lock @@ -1,45 +1,48 @@ # 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https://conda.anaconda.org/conda-forge/noarch/sphinx-design-0.6.1-pyhd8ed1ab_1.conda#db0f1eb28b6df3a11e89437597309009 From cc60a60508b741709ace45b8ea4fc05e5cd5e8a6 Mon Sep 17 00:00:00 2001 From: "pre-commit-ci[bot]" <66853113+pre-commit-ci[bot]@users.noreply.github.com> Date: Mon, 7 Oct 2024 23:42:00 +0100 Subject: [PATCH 39/39] [pre-commit.ci] pre-commit autoupdate (#6166) MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit updates: - [github.com/pre-commit/pre-commit-hooks: v4.6.0 → v5.0.0](https://github.com/pre-commit/pre-commit-hooks/compare/v4.6.0...v5.0.0) - [github.com/astral-sh/ruff-pre-commit: v0.6.8 → v0.6.9](https://github.com/astral-sh/ruff-pre-commit/compare/v0.6.8...v0.6.9) Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> --- .pre-commit-config.yaml | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml index 0398f60da2..4ef9f75bad 100644 --- a/.pre-commit-config.yaml +++ b/.pre-commit-config.yaml @@ -13,7 +13,7 @@ minimum_pre_commit_version: 1.21.0 repos: - repo: https://github.com/pre-commit/pre-commit-hooks - rev: v4.6.0 + rev: v5.0.0 hooks: # Prevent giant files from being committed. - id: check-added-large-files @@ -29,7 +29,7 @@ repos: - id: no-commit-to-branch - repo: https://github.com/astral-sh/ruff-pre-commit - rev: "v0.6.8" + rev: "v0.6.9" hooks: - id: ruff types: [file, python]