From 48ef25cd350479c1cc33a48bc77f10a56d79fbfd Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:55:23 -0500 Subject: [PATCH 01/19] Version --- SCANassets/SCANsat.version | 2 +- SCANmechjeb/Properties/AssemblyInfo.cs | 6 +++--- SCANsat.Unity/Properties/AssemblyInfo.cs | 4 ++-- SCANsat/Properties/AssemblyInfo.cs | 6 +++--- 4 files changed, 9 insertions(+), 9 deletions(-) diff --git a/SCANassets/SCANsat.version b/SCANassets/SCANsat.version index 040be96ca..69cc5b86b 100644 --- a/SCANassets/SCANsat.version +++ b/SCANassets/SCANsat.version @@ -11,7 +11,7 @@ "MAJOR":1, "MINOR":1, "PATCH":8, - "BUILD":2 + "BUILD":3 }, "KSP_VERSION":{ "MAJOR":1, diff --git a/SCANmechjeb/Properties/AssemblyInfo.cs b/SCANmechjeb/Properties/AssemblyInfo.cs index e978f1b92..34878b4af 100644 --- a/SCANmechjeb/Properties/AssemblyInfo.cs +++ b/SCANmechjeb/Properties/AssemblyInfo.cs @@ -32,9 +32,9 @@ // You can specify all the values or you can default the Build and Revision Numbers // by using the '*' as shown below: // [assembly: AssemblyVersion("1.0.*")] -[assembly: AssemblyVersion("1.8.2.0")] -[assembly: AssemblyFileVersion("1.8.2.0")] -[assembly: AssemblyInformationalVersion ("v18.2")] +[assembly: AssemblyVersion("1.8.3.0")] +[assembly: AssemblyFileVersion("1.8.3.0")] +[assembly: AssemblyInformationalVersion ("v18.3")] [assembly: KSPAssembly ("SCANmechjeb", 0, 5)] [assembly: KSPAssemblyDependency ("SCANsat", 1, 8)] diff --git a/SCANsat.Unity/Properties/AssemblyInfo.cs b/SCANsat.Unity/Properties/AssemblyInfo.cs index cde6c2015..57d75ac5c 100644 --- a/SCANsat.Unity/Properties/AssemblyInfo.cs +++ b/SCANsat.Unity/Properties/AssemblyInfo.cs @@ -22,5 +22,5 @@ // The following GUID is for the ID of the typelib if this project is exposed to COM [assembly: Guid("0c523d04-a52e-48bb-85b6-d75e8b7a63b9")] -[assembly: AssemblyVersion("1.8.2.0")] -[assembly: AssemblyFileVersion("1.8.2.0")] +[assembly: AssemblyVersion("1.8.3.0")] +[assembly: AssemblyFileVersion("1.8.3.0")] diff --git a/SCANsat/Properties/AssemblyInfo.cs b/SCANsat/Properties/AssemblyInfo.cs index adf862990..731b6ff94 100644 --- a/SCANsat/Properties/AssemblyInfo.cs +++ b/SCANsat/Properties/AssemblyInfo.cs @@ -14,9 +14,9 @@ // The assembly version has the format "{Major}.{Minor}.{Build}.{Revision}". // The form "{Major}.{Minor}.*" will automatically update the build and revision, // and "{Major}.{Minor}.{Build}.*" will update just the revision. -[assembly: AssemblyVersion ("1.8.2.0")] -[assembly: AssemblyFileVersion ("1.8.2.0")] -[assembly: AssemblyInformationalVersion ("v18.2")] +[assembly: AssemblyVersion ("1.8.3.0")] +[assembly: AssemblyFileVersion ("1.8.3.0")] +[assembly: AssemblyInformationalVersion ("v18.3")] [assembly: KSPAssembly ("SCANsat", 1, 8)] From cf7a9aaca6cad44ae86ab7fed4a19f5a3b9583c6 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:56:01 -0500 Subject: [PATCH 02/19] Account for long text strings in drop down menus --- SCANsat.Unity/Unity/SCAN_DropDown.cs | 6 ++++-- SCANsat.Unity/Unity/SCAN_DropDownElement.cs | 9 ++++++++- SCANsat.Unity/Unity/SCAN_SettingsData.cs | 2 +- 3 files changed, 13 insertions(+), 4 deletions(-) diff --git a/SCANsat.Unity/Unity/SCAN_DropDown.cs b/SCANsat.Unity/Unity/SCAN_DropDown.cs index cf46a8e34..cf74fd705 100644 --- a/SCANsat.Unity/Unity/SCAN_DropDown.cs +++ b/SCANsat.Unity/Unity/SCAN_DropDown.cs @@ -35,6 +35,7 @@ public class OnSelectEvent : UnityEvent { } private string currentElement; private OnSelectEvent _onSelectUpdate = new OnSelectEvent(); private int fontsize = 14; + private int maxLength = 12; protected override void Awake() { @@ -48,7 +49,7 @@ public OnSelectEvent OnSelectUpdate get { return _onSelectUpdate; } } - public void Setup(IList elements, string current, int font = 14) + public void Setup(IList elements, string current, int font = 14, int max = 12) { if (elements == null) return; @@ -66,6 +67,7 @@ public void Setup(IList elements, string current, int font = 14) } fontsize = font; + maxLength = 12; currentElement = current; @@ -117,7 +119,7 @@ private void AddElement(string element) dropDown.transform.SetParent(m_ContentTransform, false); - dropDown.Setup(element, element == currentElement, this, m_Scrollbar, fontsize); + dropDown.Setup(element, element == currentElement, this, m_Scrollbar, fontsize, maxLength); } } } diff --git a/SCANsat.Unity/Unity/SCAN_DropDownElement.cs b/SCANsat.Unity/Unity/SCAN_DropDownElement.cs index 362f91d18..531897358 100644 --- a/SCANsat.Unity/Unity/SCAN_DropDownElement.cs +++ b/SCANsat.Unity/Unity/SCAN_DropDownElement.cs @@ -28,7 +28,7 @@ public class SCAN_DropDownElement : MonoBehaviour private SCAN_DropDown dropdown; private string title; - public void Setup(string element, bool current, SCAN_DropDown parent, ScrollRect scroll, int size) + public void Setup(string element, bool current, SCAN_DropDown parent, ScrollRect scroll, int size, int max) { if (parent == null) return; @@ -41,6 +41,13 @@ public void Setup(string element, bool current, SCAN_DropDown parent, ScrollRect if (scroll != null) m_ElementTitle.SetScroller(scroll); + if (element.Length > max + 8) + size -= 6; + else if (element.Length > max + 4) + size -= 4; + else if (element.Length > max) + size -= 2; + m_ElementTitle.OnTextUpdate.Invoke(string.Format("{1}", size, element)); if (current) diff --git a/SCANsat.Unity/Unity/SCAN_SettingsData.cs b/SCANsat.Unity/Unity/SCAN_SettingsData.cs index 2cc4b0a11..3bcb3037e 100644 --- a/SCANsat.Unity/Unity/SCAN_SettingsData.cs +++ b/SCANsat.Unity/Unity/SCAN_SettingsData.cs @@ -313,7 +313,7 @@ public void MapTypeDropDown(bool isOn) SCAN_Settings.Instance.DropDown.transform.SetParent(m_MapTypeOption, false); - SCAN_Settings.Instance.DropDown.Setup(settings.MapDataTypes, settings.CurrentMapData, 12); + SCAN_Settings.Instance.DropDown.Setup(settings.MapDataTypes, settings.CurrentMapData, 12, 14); SCAN_Settings.Instance.DropDown.OnSelectUpdate.AddListener(new UnityEngine.Events.UnityAction(MapTypeOption)); } From 93599f1306fdfa50257e2799c9caf30245a41712 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:56:10 -0500 Subject: [PATCH 03/19] Format --- SCANsat/SCAN_Unity/SCAN_UI_ZoomMap.cs | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/SCANsat/SCAN_Unity/SCAN_UI_ZoomMap.cs b/SCANsat/SCAN_Unity/SCAN_UI_ZoomMap.cs index 701c948c8..6719307f0 100644 --- a/SCANsat/SCAN_Unity/SCAN_UI_ZoomMap.cs +++ b/SCANsat/SCAN_Unity/SCAN_UI_ZoomMap.cs @@ -1068,14 +1068,14 @@ public string RandomWaypoint private SCANresourceGlobal AssignResource(string resource) { SCANresourceGlobal r = currentResource; - - if (r == null || r.Name != resource) + + if (r == null || r.Name != resource) { for (int i = resources.Count - 1; i >= 0; i--) { SCANresourceGlobal res = resources[i]; - - if (res.Name != resource) + + if (res.Name != resource) continue; r = res; From 67bb2d30de5e840b8a730aecd1b2361400608566 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:56:35 -0500 Subject: [PATCH 04/19] Check for GUI skin textures and texture size - Overdrive compatibility --- SCANsat/SCAN_Unity/SCAN_UI_Loader.cs | 55 ++++++++++++++++++++++++---- 1 file changed, 48 insertions(+), 7 deletions(-) diff --git a/SCANsat/SCAN_Unity/SCAN_UI_Loader.cs b/SCANsat/SCAN_Unity/SCAN_UI_Loader.cs index c47833de4..c34322443 100644 --- a/SCANsat/SCAN_Unity/SCAN_UI_Loader.cs +++ b/SCANsat/SCAN_Unity/SCAN_UI_Loader.cs @@ -435,13 +435,54 @@ private static void loadTextures() if (skin == null) return; - _toggleNormal = Sprite.Create(skin.toggle.normal.background, new Rect(16, 16, skin.toggle.normal.background.width - 32, skin.toggle.normal.background.height - 32), new Vector2(0.5f, 0.5f)); - _toggleHover = Sprite.Create(skin.toggle.hover.background, new Rect(16, 16, skin.toggle.hover.background.width - 32, skin.toggle.hover.background.height - 32), new Vector2(0.5f, 0.5f)); - _toggleActive = Sprite.Create(skin.toggle.active.background, new Rect(16, 16, skin.toggle.active.background.width - 32, skin.toggle.active.background.height - 32), new Vector2(0.5f, 0.5f)); - _toggleOn = Sprite.Create(skin.toggle.onNormal.background, new Rect(16, 16, skin.toggle.onNormal.background.width - 32, skin.toggle.onNormal.background.height - 32), new Vector2(0.5f, 0.5f)); - _toggleOnHover = Sprite.Create(skin.toggle.onHover.background, new Rect(16, 16, skin.toggle.onHover.background.width - 32, skin.toggle.onHover.background.height - 32), new Vector2(0.5f, 0.5f)); - _toggleOnActive = Sprite.Create(skin.toggle.onActive.background, new Rect(16, 16, skin.toggle.onActive.background.width - 32, skin.toggle.onActive.background.height - 32), new Vector2(0.5f, 0.5f)); - + if (skin.toggle.normal.background != null) + { + if (skin.toggle.normal.background.width > 33 && skin.toggle.normal.background.height > 33) + _toggleNormal = Sprite.Create(skin.toggle.normal.background, new Rect(16, 16, skin.toggle.normal.background.width - 32, skin.toggle.normal.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleNormal = Sprite.Create(skin.toggle.normal.background, new Rect(0, 0, skin.toggle.normal.background.width, skin.toggle.normal.background.height), new Vector2(0.5f, 0.5f)); + } + + if (skin.toggle.hover.background != null) + { + if (skin.toggle.hover.background.width > 33 && skin.toggle.hover.background.height > 33) + _toggleHover = Sprite.Create(skin.toggle.hover.background, new Rect(16, 16, skin.toggle.hover.background.width - 32, skin.toggle.hover.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleHover = Sprite.Create(skin.toggle.hover.background, new Rect(0, 0, skin.toggle.hover.background.width, skin.toggle.hover.background.height), new Vector2(0.5f, 0.5f)); + } + + if (skin.toggle.active.background != null) + { + if (skin.toggle.active.background.width > 33 && skin.toggle.active.background.height > 33) + _toggleActive = Sprite.Create(skin.toggle.active.background, new Rect(16, 16, skin.toggle.active.background.width - 32, skin.toggle.active.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleActive = Sprite.Create(skin.toggle.active.background, new Rect(0, 0, skin.toggle.active.background.width, skin.toggle.active.background.height), new Vector2(0.5f, 0.5f)); + } + + if (skin.toggle.onNormal.background != null) + { + if (skin.toggle.onNormal.background.width > 33 && skin.toggle.onNormal.background.height > 33) + _toggleOn = Sprite.Create(skin.toggle.onNormal.background, new Rect(16, 16, skin.toggle.onNormal.background.width - 32, skin.toggle.onNormal.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleOn = Sprite.Create(skin.toggle.onNormal.background, new Rect(0, 0, skin.toggle.onNormal.background.width, skin.toggle.onNormal.background.height), new Vector2(0.5f, 0.5f)); + } + + if (skin.toggle.onHover.background != null) + { + if (skin.toggle.onHover.background.width > 33 && skin.toggle.onHover.background.height > 33) + _toggleOnHover = Sprite.Create(skin.toggle.onHover.background, new Rect(16, 16, skin.toggle.onHover.background.width - 32, skin.toggle.onHover.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleOnHover = Sprite.Create(skin.toggle.onHover.background, new Rect(0, 0, skin.toggle.onHover.background.width, skin.toggle.onHover.background.height), new Vector2(0.5f, 0.5f)); + } + + if (skin.toggle.onActive.background != null) + { + if (skin.toggle.onActive.background.width > 33 && skin.toggle.onActive.background.height > 33) + _toggleOnActive = Sprite.Create(skin.toggle.onActive.background, new Rect(16, 16, skin.toggle.onActive.background.width - 32, skin.toggle.onActive.background.height - 32), new Vector2(0.5f, 0.5f)); + else + _toggleOnActive = Sprite.Create(skin.toggle.onActive.background, new Rect(0, 0, skin.toggle.onActive.background.width, skin.toggle.onActive.background.height), new Vector2(0.5f, 0.5f)); + } + toggleLoaded = true; } From 43e42d4a983b6c8d7354d1510920d825dd479345 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:56:50 -0500 Subject: [PATCH 05/19] Match non-localized resource name for big map --- SCANsat/SCAN_Unity/SCAN_UI_BigMap.cs | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/SCANsat/SCAN_Unity/SCAN_UI_BigMap.cs b/SCANsat/SCAN_Unity/SCAN_UI_BigMap.cs index bc32ce750..51ec756ef 100644 --- a/SCANsat/SCAN_Unity/SCAN_UI_BigMap.cs +++ b/SCANsat/SCAN_Unity/SCAN_UI_BigMap.cs @@ -1175,14 +1175,14 @@ public string CurrentResource private SCANresourceGlobal AssignResource(string resource) { SCANresourceGlobal r = currentResource; - - if (r == null || r.DisplayName != resource) + + if (r == null || r.Name != resource) { for (int i = resources.Count - 1; i >= 0; i--) { SCANresourceGlobal res = resources[i]; - - if (res.DisplayName != resource) + + if (res.Name != resource) continue; r = res; From 4bc3f7345119d39afdf5930c83aed01564aba370 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:57:02 -0500 Subject: [PATCH 06/19] Increase max scanning data cutoff --- SCANsat/SCAN_PartModules/SCANexperiment.cs | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/SCANsat/SCAN_PartModules/SCANexperiment.cs b/SCANsat/SCAN_PartModules/SCANexperiment.cs index cc8642969..5567c4492 100644 --- a/SCANsat/SCAN_PartModules/SCANexperiment.cs +++ b/SCANsat/SCAN_PartModules/SCANexperiment.cs @@ -240,7 +240,7 @@ private float GetScienceCoverage(string scienceID, ref ScienceExperiment se, ref su.scienceCap *= mult; - if (coverage > 95) + if (coverage > 98.5) coverage = 100; else if (coverage < 30) coverage = 0; From f838ed40830101bf8c2d8f8882ea1aa20ca2c745 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:57:10 -0500 Subject: [PATCH 07/19] format --- SCANsat/SCANconfigLoader.cs | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/SCANsat/SCANconfigLoader.cs b/SCANsat/SCANconfigLoader.cs index 3b2d945d4..5e0aba4de 100644 --- a/SCANsat/SCANconfigLoader.cs +++ b/SCANsat/SCANconfigLoader.cs @@ -98,7 +98,7 @@ private static void loadResources() SCANresourceGlobal currentGlobal = SCANcontroller.getResourceNode(rs.ResourceName); PartResourceDefinition pr = PartResourceLibrary.Instance.GetDefinition(rs.ResourceName); - + if (currentGlobal == null) { SCANcontroller.addToResourceData(rs.ResourceName, new SCANresourceGlobal(rs.ResourceName, pr == null ? rs.ResourceName : pr.displayName, 20, rs.Distribution.MinAbundance, rs.Distribution.MaxAbundance, palette.magenta, palette.cb_orange, t)); @@ -106,7 +106,7 @@ private static void loadResources() } currentGlobal.DisplayName = pr == null ? rs.ResourceName : pr.displayName; - + if (rs.Distribution.MinAbundance > currentGlobal.DefaultMinValue) currentGlobal.DefaultMinValue = rs.Distribution.MinAbundance; From df51ce6a50857a43acb283cff1fdcf56c3844b67 Mon Sep 17 00:00:00 2001 From: DMagic Date: Tue, 6 Feb 2018 10:57:31 -0500 Subject: [PATCH 08/19] Scanning coverage accounts for latitude --- SCANsat/SCAN_Data/SCANdata.cs | 17 ++++++++++++----- SCANsat/SCANutil.cs | 4 ++-- 2 files changed, 14 insertions(+), 7 deletions(-) diff --git a/SCANsat/SCAN_Data/SCANdata.cs b/SCANsat/SCAN_Data/SCANdata.cs index fb810c650..2105ee778 100644 --- a/SCANsat/SCAN_Data/SCANdata.cs +++ b/SCANsat/SCAN_Data/SCANdata.cs @@ -436,27 +436,34 @@ public List Waypoints #region Scanning coverage /* DATA: coverage */ - private int[] coverage_count = Enumerable.Repeat(360 * 180, 32).ToArray(); + private float[] coverage_count = Enumerable.Repeat(41248.020f, 32).ToArray(); internal void updateCoverage() { for (int i = 0; i < 32; ++i) { SCANtype t = (SCANtype)(1 << i); - int cc = 0; + float cc = 0; for (int x = 0; x < 360; ++x) { for (int y = 0; y < 180; ++y) { if ((coverage[x, y] & (Int32)t) == 0) - ++cc; + { + int shift = y - 90; + + float adjusted = Mathf.Cos(Mathf.Deg2Rad * Mathf.Abs(shift)); + + cc += adjusted; + } } } + coverage_count[i] = cc; } } - internal int getCoverage(SCANtype type) + internal float getCoverage(SCANtype type) { - int uncov = 0; + float uncov = 0; if ((type & SCANtype.AltimetryLoRes) != SCANtype.Nothing) uncov += coverage_count[0]; if ((type & SCANtype.AltimetryHiRes) != SCANtype.Nothing) diff --git a/SCANsat/SCANutil.cs b/SCANsat/SCANutil.cs index 60d075bfc..6dce0d5ce 100644 --- a/SCANsat/SCANutil.cs +++ b/SCANsat/SCANutil.cs @@ -338,12 +338,12 @@ internal static double getCoveragePercentage(SCANdata data, SCANtype type ) return 0; double cov = 0d; if (type == SCANtype.Nothing) - type = SCANtype.AltimetryLoRes | SCANtype.AltimetryHiRes | SCANtype.Biome | SCANtype.Anomaly; + type = SCANtype.AltimetryLoRes | SCANtype.AltimetryHiRes | SCANtype.Biome | SCANtype.Anomaly | SCANtype.FuzzyResources; cov = data.getCoverage (type); if (cov <= 0) cov = 100; else - cov = Math.Min (99.9d , 100 - cov * 100d / (360d * 180d * countBits((int)type))); + cov = Math.Min (99.9d , 100 - cov * 100d / (41248.020d * countBits((int)type))); return cov; } From cf776d21946cc9f857bce444470a9d636c6941e8 Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 11:34:05 -0500 Subject: [PATCH 09/19] Localization for flag, manufacturer, contracts, parts; lots of white space changes --- SCANassets/Flags/Agents.cfg | 18 +- SCANassets/Parts/BTDT/BTDT.cfg | 84 +++++---- SCANassets/Parts/MULTI/MULTI.cfg | 85 ++++----- SCANassets/Parts/RADAR/RADAR.cfg | 95 +++++----- SCANassets/Parts/SAR/SAR.cfg | 85 ++++----- .../Contracts/ContractPackScanSatOfficial.cfg | 27 ++- .../Resources/Contracts/Exceptional.cfg | 147 ++++++++------- .../Resources/Contracts/Significant.cfg | 175 +++++++++--------- SCANassets/Resources/Contracts/Trivial.cfg | 109 ++++++----- 9 files changed, 411 insertions(+), 414 deletions(-) diff --git a/SCANassets/Flags/Agents.cfg b/SCANassets/Flags/Agents.cfg index c760ebb08..31c601f31 100644 --- a/SCANassets/Flags/Agents.cfg +++ b/SCANassets/Flags/Agents.cfg @@ -1,16 +1,12 @@ - - AGENT { - name = SCAN: Scientific Committee on Advanced Navigation + name = #autoLOC_SCANsat_Agents_Name + title = #autoLOC_SCANsat_Agents_Title + description = #autoLOC_SCANsat_Agents_Description - title = SCAN - - description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. - - logoURL = SCANsat/Flags/SCANsat_Flag - logoScaledURL = SCANsat/Flags/SCANsat_Flag_Scaled + logoURL = SCANsat/Flags/SCANsat_Flag + logoScaledURL = SCANsat/Flags/SCANsat_Flag_Scaled - mentality = Scientific - mentality = Pioneer + mentality = Scientific + mentality = Pioneer } \ No newline at end of file diff --git a/SCANassets/Parts/BTDT/BTDT.cfg b/SCANassets/Parts/BTDT/BTDT.cfg index ae6912161..51261f0e5 100644 --- a/SCANassets/Parts/BTDT/BTDT.cfg +++ b/SCANassets/Parts/BTDT/BTDT.cfg @@ -1,50 +1,52 @@ PART { -name = SCANsat_Scanner32 -module = Part -author = damny + name = SCANsat_Scanner32 + module = Part + author = damny -MODEL -{ - model = SCANsat/Parts/BTDT/BTDT - scale = 0.5, 0.5, 0.5 -} + MODEL + { + model = SCANsat/Parts/BTDT/BTDT + scale = 0.5, 0.5, 0.5 + } -// attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] -attachRules = 0,1,0,0,0 -node_attach = 0.0, 0.05, 0.0, 0.0, -1.0, 0.0, 0 + // attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] + attachRules = 0,1,0,0,0 + node_attach = 0.0, 0.05, 0.0, 0.0, -1.0, 0.0, 0 -TechRequired = fieldScience -entryCost = 25000 -cost = 13000 -category = Science -subcategory = 0 -title = SCAN Been There Done That® -manufacturer = SCAN: Scientific Committee on Advanced Navigation -description = #autoLOC_SCANsat_BTDT + TechRequired = fieldScience + entryCost = 25000 + cost = 13000 + category = Science + subcategory = 0 -mass = 0.03 -dragModelType = default -angularDrag = 1 -bulkheadProfiles = srf -crashTolerance = 12 -maxTemp = 1200 -emissiveConstant = 0.95 -thermalMassModifier = 4.0 + title = #autoLOC_SCANsat_BTDT_Title + manufacturer = #autoLOC_SCANsat_Manufacturer + description = #autoLOC_SCANsat_BTDT_Description -MODULE -{ - name = SCANsat - sensorType = 32 //2^5 - fov = 1 - min_alt = 0 - max_alt = 2000 - best_alt = 0 - scanName = BTDT - RESOURCE + mass = 0.03 + dragModelType = default + angularDrag = 1 + bulkheadProfiles = srf + crashTolerance = 12 + maxTemp = 1200 + emissiveConstant = 0.95 + thermalMassModifier = 4.0 + + MODULE + { + name = SCANsat + sensorType = 32 //2^5 + fov = 1 + min_alt = 0 + max_alt = 2000 + best_alt = 0 + scanName = BTDT + + RESOURCE { - name = ElectricCharge - rate = 0.1 + name = ElectricCharge + rate = 0.1 } -} -} + } +} \ No newline at end of file diff --git a/SCANassets/Parts/MULTI/MULTI.cfg b/SCANassets/Parts/MULTI/MULTI.cfg index 923df9933..692893c8e 100644 --- a/SCANassets/Parts/MULTI/MULTI.cfg +++ b/SCANassets/Parts/MULTI/MULTI.cfg @@ -1,57 +1,58 @@ PART { -name = SCANsat_Scanner24 -module = Part -author = damny + name = SCANsat_Scanner24 + module = Part + author = damny -MODEL -{ - model = SCANsat/Parts/MULTI/MULTI - scale = 0.2, 0.2, 0.2 -} + MODEL + { + model = SCANsat/Parts/MULTI/MULTI + scale = 0.2, 0.2, 0.2 + } + + // attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] + attachRules = 0,1,0,0,0 + node_attach = 0.0, -0.018, 0.0, 0.0, -1.0, 0.0, 0 -// attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] -attachRules = 0,1,0,0,0 -node_attach = 0.0, -0.018, 0.0, 0.0, -1.0, 0.0, 0 + TechRequired = advExploration + entryCost = 20000 + cost = 9000 + category = Science + subcategory = 0 -TechRequired = advExploration -entryCost = 20000 -cost = 9000 -category = Science -subcategory = 0 -title = SCAN Multispectral Sensor -manufacturer = SCAN: Scientific Committee on Advanced Navigation -description = #autoLOC_SCANsat_Multi + title = #autoLOC_SCANsat_Multi_Title + manufacturer = #autoLOC_SCANsat_Manufacturer + description = #autoLOC_SCANsat_Multi_Description -mass = 0.03 -dragModelType = default -angularDrag = 2 -bulkheadProfiles = srf -crashTolerance = 7 -maxTemp = 1200 -emissiveConstant = 0.95 -thermalMassModifier = 4.0 + mass = 0.03 + dragModelType = default + angularDrag = 2 + bulkheadProfiles = srf + crashTolerance = 7 + maxTemp = 1200 + emissiveConstant = 0.95 + thermalMassModifier = 4.0 MODULE { - name = SCANsat - sensorType = 24 //2^3 + 2^4 - fov = 4 - min_alt = 5000 - max_alt = 500000 - best_alt = 250000 - scanName = Multispectral - animationName = Multi_Antenna + name = SCANsat + sensorType = 24 //2^3 + 2^4 + fov = 4 + min_alt = 5000 + max_alt = 500000 + best_alt = 250000 + scanName = Multispectral + animationName = Multi_Antenna RESOURCE - { - name = ElectricCharge - rate = 1 - } + { + name = ElectricCharge + rate = 1 + } } MODULE { - name = SCANexperiment - experimentType = SCANsatBiomeAnomaly + name = SCANexperiment + experimentType = SCANsatBiomeAnomaly } -} +} \ No newline at end of file diff --git a/SCANassets/Parts/RADAR/RADAR.cfg b/SCANassets/Parts/RADAR/RADAR.cfg index 2204db9c1..9ecdbf945 100644 --- a/SCANassets/Parts/RADAR/RADAR.cfg +++ b/SCANassets/Parts/RADAR/RADAR.cfg @@ -1,59 +1,60 @@ PART { -name = SCANsat_Scanner -module = Part -author = damny + name = SCANsat_Scanner + module = Part + author = damny -MODEL -{ - model = SCANsat/Parts/RADAR/RADAR - scale = 2, 2, 2 -} - -// attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] -attachRules = 0,1,0,0,0 - -// node_attach: [x, y, z, up x, up y, up z] -node_attach = 0.0, -0.11, 0.0, 0.0, -1.0, 0.0, 0 - -TechRequired = basicScience -entryCost = 10000 -cost = 3500 -category = Science -subcategory = 0 -title = SCAN RADAR Altimetry Sensor -manufacturer = SCAN: Scientific Committee on Advanced Navigation -description = #autoLOC_SCANsat_Radar - -mass = 0.03 -dragModelType = default -angularDrag = 2 -bulkheadProfiles = srf -crashTolerance = 7 -maxTemp = 1200 -emissiveConstant = 0.95 -thermalMassModifier = 4.0 + MODEL + { + model = SCANsat/Parts/RADAR/RADAR + scale = 2, 2, 2 + } + + // attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] + attachRules = 0,1,0,0,0 + + // node_attach: [x, y, z, up x, up y, up z] + node_attach = 0.0, -0.11, 0.0, 0.0, -1.0, 0.0, 0 + + TechRequired = basicScience + entryCost = 10000 + cost = 3500 + category = Science + subcategory = 0 + + title = #autoLOC_SCANsat_Radar_Title + manufacturer = #autoLOC_SCANsat_Manufacturer + description = #autoLOC_SCANsat_Radar_Description + + mass = 0.03 + dragModelType = default + angularDrag = 2 + bulkheadProfiles = srf + crashTolerance = 7 + maxTemp = 1200 + emissiveConstant = 0.95 + thermalMassModifier = 4.0 MODULE { - name = SCANsat - sensorType = 1 //2^0 - fov = 5 - min_alt = 5000 - max_alt = 500000 - best_alt = 5000 - scanName = RADAR - animationName = Collapse_Antenna + name = SCANsat + sensorType = 1 //2^0 + fov = 5 + min_alt = 5000 + max_alt = 500000 + best_alt = 5000 + scanName = RADAR + animationName = Collapse_Antenna RESOURCE - { - name = ElectricCharge - rate = 0.1 - } + { + name = ElectricCharge + rate = 0.1 + } } MODULE { - name = SCANexperiment - experimentType = SCANsatAltimetryLoRes + name = SCANexperiment + experimentType = SCANsatAltimetryLoRes } -} +} \ No newline at end of file diff --git a/SCANassets/Parts/SAR/SAR.cfg b/SCANassets/Parts/SAR/SAR.cfg index 25692c319..77eeeb638 100644 --- a/SCANassets/Parts/SAR/SAR.cfg +++ b/SCANassets/Parts/SAR/SAR.cfg @@ -1,57 +1,58 @@ PART { -name = SCANsat_Scanner2 -module = Part -author = damny + name = SCANsat_Scanner2 + module = Part + author = damny -MODEL -{ - model = SCANsat/Parts/SAR/SAR - scale = 1.5, 1.5, 1.5 -} + MODEL + { + model = SCANsat/Parts/SAR/SAR + scale = 1.5, 1.5, 1.5 + } + + // attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] + attachRules = 0,1,0,0,0 + node_attach = 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0 -// attachment rules: [stack, srfAttach, allowStack, allowSrfAttach, allowCollision] -attachRules = 0,1,0,0,0 -node_attach = 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0 + TechRequired = advScienceTech + entryCost = 45000 + cost = 25000 + category = Science + subcategory = 0 -TechRequired = advScienceTech -entryCost = 45000 -cost = 25000 -category = Science -subcategory = 0 -title = SCAN SAR Altimetry Sensor -manufacturer = SCAN: Scientific Committee on Advanced Navigation -description = #autoLOC_SCANsat_SAR + title = #autoLOC_SCANsat_SAR_Title + manufacturer = #autoLOC_SCANsat_Manufacturer + description = #autoLOC_SCANsat_SAR_Description -mass = 0.03 -dragModelType = default -angularDrag = 2 -bulkheadProfiles = srf -crashTolerance = 7 -maxTemp = 1200 -emissiveConstant = 0.95 -thermalMassModifier = 4.0 + mass = 0.03 + dragModelType = default + angularDrag = 2 + bulkheadProfiles = srf + crashTolerance = 7 + maxTemp = 1200 + emissiveConstant = 0.95 + thermalMassModifier = 4.0 MODULE { - name = SCANsat - sensorType = 2 //2^1 - fov = 2 - min_alt = 5000 - max_alt = 800000 - best_alt = 750000 - scanName = SAR - animationName = Antenna + name = SCANsat + sensorType = 2 //2^1 + fov = 2 + min_alt = 5000 + max_alt = 800000 + best_alt = 750000 + scanName = SAR + animationName = Antenna RESOURCE - { - name = ElectricCharge - rate = 1.5 - } + { + name = ElectricCharge + rate = 1.5 + } } MODULE { - name = SCANexperiment - experimentType = SCANsatAltimetryHiRes + name = SCANexperiment + experimentType = SCANsatAltimetryHiRes } -} +} \ No newline at end of file diff --git a/SCANassets/Resources/Contracts/ContractPackScanSatOfficial.cfg b/SCANassets/Resources/Contracts/ContractPackScanSatOfficial.cfg index a8b2fede0..d5c2e2b82 100644 --- a/SCANassets/Resources/Contracts/ContractPackScanSatOfficial.cfg +++ b/SCANassets/Resources/Contracts/ContractPackScanSatOfficial.cfg @@ -1,21 +1,20 @@ CONTRACT_GROUP { - // Name of the contract group - name = ScanSatOfficial - displayName = ScanSat Official - agent = SCAN: Scientific Committee on Advanced Navigation - minVersion = 1.15.0 - - //maxSimultaneous = 10 + // Name of the contract group + name = ScanSatOfficial + displayName = ScanSat Official + agent = #autoLOC_SCANsat_Agents_Name + minVersion = 1.15.0 + maxSimultaneous = 10 DATA { - type = List - requiredValue = false - homeBodies = AllBodies().Where(cb => ((cb.IsHomeWorld() || cb.Parent().IsHomeWorld()) && cb.HasSurface())) - nonHomeBodies = AllBodies().Where(cb => cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld()) - p2Bodies = OrbitedBodies().Where(cb => cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld()) - p3Bodies = ReachedBodies().Where(cb => cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld()) - p4Bodies = NextUnreachedBodies(2).Where(cb => (cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld())) + type = List + requiredValue = false + homeBodies = AllBodies().Where(cb => ((cb.IsHomeWorld() || cb.Parent().IsHomeWorld()) && cb.HasSurface())) + nonHomeBodies = AllBodies().Where(cb => cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld()) + p2Bodies = OrbitedBodies().Where(cb => cb.HasSurface()) + p3Bodies = ReachedBodies().Where(cb => cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld()) + p4Bodies = NextUnreachedBodies(2).Where(cb => (cb.HasSurface() && cb != HomeWorld() && cb.Parent() != HomeWorld())) } } \ No newline at end of file diff --git a/SCANassets/Resources/Contracts/Exceptional.cfg b/SCANassets/Resources/Contracts/Exceptional.cfg index c44adca40..c66371806 100644 --- a/SCANassets/Resources/Contracts/Exceptional.cfg +++ b/SCANassets/Resources/Contracts/Exceptional.cfg @@ -1,120 +1,119 @@ CONTRACT_TYPE { - name = SCAN_Exceptional - title = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. - genericTitle = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. - group = ScanSatOfficial - topic = Science - subject = Kerbal - agent = SCAN: Scientific Committee on Advanced Navigation - notes = Scanning can take place while the vessel is not loaded. - synopsis = Perform several high resolution scans of @/targetBodyValid3 - completedMessage = We now have a detailed map and survey for the surface of @/targetBodyValid3 - minExpiry = 1 - maxExpiry = 7 - deadline = Random(300, 500) * @/targetBodyValid3.Multiplier() - cancellable = true - declinable = true - autoAccept = false - targetBody = @/targetBodyValid3 + name = SCAN_Exceptional + title = #autoLOC_SCANsat_exceptional0001 + genericTitle = #autoLOC_SCANsat_exceptional0002 + group = ScanSatOfficial + topic = Science + subject = Kerbal + agent = #autoLOC_SCANsat_Agents_Name + notes = #autoLOC_SCANsat_exceptional0003 + synopsis = #autoLOC_SCANsat_exceptional0004 + completedMessage = #autoLOC_SCANsat_exceptional0005 + minExpiry = 1 + maxExpiry = 7 + deadline = Random(300, 500) * @/targetBodyValid3.Multiplier() + cancellable = true + declinable = true + autoAccept = false + targetBody = @/targetBodyValid3 // Contract rewards - rewardScience = 0 - rewardReputation = 1 - rewardFunds = Random(60000, 80000.0) - failureReputation = 1 - failureFunds = Random(1000, 10000.0) - advanceFunds = Random(10000, 20000.0) - prestige = Exceptional + rewardScience = 0 + rewardReputation = 1 + rewardFunds = Random(60000, 80000.0) + failureReputation = 1 + failureFunds = Random(1000, 10000.0) + advanceFunds = Random(10000, 20000.0) + prestige = Exceptional DATA_EXPAND { - type = CelestialBody - targetBody3 = @ScanSatOfficial:nonHomeBodies + type = CelestialBody + targetBody3 = @ScanSatOfficial:nonHomeBodies } DATA { - type = CelestialBody - requiredValue = true - uniquenessCheck = CONTRACT_ALL - targetBodyValid3 = @/targetBody3 + type = CelestialBody + requiredValue = true + uniquenessCheck = CONTRACT_ALL + targetBodyValid3 = @/targetBody3 } DATA { - type = List - requiredValue = false - targetBodyList3 = @ScanSatOfficial:p3Bodies - targetBodyList4 = @ScanSatOfficial:p4Bodies + type = List + requiredValue = false + targetBodyList3 = @ScanSatOfficial:p3Bodies + targetBodyList4 = @ScanSatOfficial:p4Bodies } PARAMETER { - name = SCANsatCoverage_1 - type = SCANsatCoverage - targetBody = @/targetBodyValid3 - coverage = 95 - scanType = AltimetryHiRes + name = SCANsatCoverage_1 + type = SCANsatCoverage + targetBody = @/targetBodyValid3 + coverage = 95 + scanType = AltimetryHiRes } PARAMETER { - name = SCANsatCoverage_2 - type = SCANsatCoverage - targetBody = @/targetBodyValid3 - coverage = 95 - scanType = Ore + name = SCANsatCoverage_2 + type = SCANsatCoverage + targetBody = @/targetBodyValid3 + coverage = 95 + scanType = Ore } REQUIREMENT { - name = AnyCoverage - type = Any + name = AnyCoverage + type = Any REQUIREMENT { - name = SCANsatCoverage_1 - type = SCANsatCoverage - targetBody = @/targetBodyValid3 - minCoverage = 0.0 - maxCoverage = 90 - scanType = AltimetryHiRes - title = Must have less than a 90% high resolution altimetry scan of the target body. + name = SCANsatCoverage_1 + type = SCANsatCoverage + targetBody = @/targetBodyValid3 + minCoverage = 0.0 + maxCoverage = 90 + scanType = AltimetryHiRes + title = #autoLOC_SCANsat_exceptional0006 } REQUIREMENT { - name = SCANsatCoverage_2 - type = SCANsatCoverage - targetBody = @/targetBodyValid3 - minCoverage = 0.0 - maxCoverage = 90 - scanType = Ore - title = Must have less than a 90% ore scan of the target body. + name = SCANsatCoverage_2 + type = SCANsatCoverage + targetBody = @/targetBodyValid3 + minCoverage = 0.0 + maxCoverage = 90 + scanType = Ore + title = #autoLOC_SCANsat_exceptional0007 } } REQUIREMENT { - name = Expression_1 - type = Expression - title = Must have orbited the target body, or the target body must be next on the list. - expression = (@/targetBodyList3.Contains(@/targetBodyValid3) || @/targetBodyList4.Contains(@/targetBodyValid3)) == true + name = Expression_1 + type = Expression + title = #autoLOC_SCANsat_exceptional0008 + expression = (@/targetBodyList3.Contains(@/targetBodyValid3) || @/targetBodyList4.Contains(@/targetBodyValid3)) == true } REQUIREMENT { - name = Orbit - type = Orbit - - targetBody = HomeWorld() + name = Orbit + type = Orbit + targetBody = HomeWorld() } REQUIREMENT { - name = PartUnlocked_1 - type = PartUnlocked - part = SCANsat_Scanner2 + name = PartUnlocked_1 + type = PartUnlocked + part = SCANsat_Scanner2 } REQUIREMENT { - name = PartUnlocked_2 - type = PartUnlocked - part = OrbitalScanner + name = PartUnlocked_2 + type = PartUnlocked + part = OrbitalScanner } } \ No newline at end of file diff --git a/SCANassets/Resources/Contracts/Significant.cfg b/SCANassets/Resources/Contracts/Significant.cfg index 5d2920f35..d3b669f7a 100644 --- a/SCANassets/Resources/Contracts/Significant.cfg +++ b/SCANassets/Resources/Contracts/Significant.cfg @@ -1,143 +1,142 @@ CONTRACT_TYPE { - name = SCAN_Significant - title = Do a group of SCANsat surveys of @/targetBodyValid2. - genericTitle = Do a group of SCANsat surveys of @/targetBodyValid2. - group = ScanSatOfficial - topic = Science - subject = Kerbal - agent = SCAN: Scientific Committee on Advanced Navigation - notes = Scanning can take place while the vessel is not loaded. - synopsis = Perform several scans of @/targetBodyValid2 - completedMessage = Excellent work, these scans will provide much valuable data for our survey teams. - minExpiry = 1 - maxExpiry = 7 - deadline = Random(300, 500) * @/targetBodyValid2.Multiplier() - cancellable = true - declinable = true - autoAccept = false - targetBody = @/targetBodyValid2 + name = SCAN_Significant + title = #autoLOC_SACNsat_significant_0001 + genericTitle = #autoLOC_SACNsat_significant_0002 + group = ScanSatOfficial + topic = Science + subject = Kerbal + agent = #autoLOC_SCANsat_Agents_Name + notes = #autoLOC_SACNsat_significant_0003 + synopsis = #autoLOC_SACNsat_significant_0004 + completedMessage = #autoLOC_SACNsat_significant_0005 + minExpiry = 1 + maxExpiry = 7 + deadline = Random(300, 500) * @/targetBodyValid2.Multiplier() + cancellable = true + declinable = true + autoAccept = false + targetBody = @/targetBodyValid2 // Contract rewards - rewardScience = 0 - rewardReputation = 1 - rewardFunds = Random(50000, 70000.0) - failureReputation = 1 - failureFunds = Random(1000, 10000.0) - advanceFunds = Random(5000, 15000.0) - prestige = Significant + rewardScience = 0 + rewardReputation = 1 + rewardFunds = Random(50000, 70000.0) + failureReputation = 1 + failureFunds = Random(1000, 10000.0) + advanceFunds = Random(5000, 15000.0) + prestige = Significant DATA_EXPAND { - type = CelestialBody - targetBody2 = @ScanSatOfficial:nonHomeBodies + type = CelestialBody + targetBody2 = @ScanSatOfficial:nonHomeBodies } DATA { - type = CelestialBody - requiredValue = true - uniquenessCheck = CONTRACT_ALL - targetBodyValid2 = @/targetBody2 + type = CelestialBody + requiredValue = true + uniquenessCheck = CONTRACT_ALL + targetBodyValid2 = @/targetBody2 } DATA { - type = List - requiredValue = false - targetBodyList2 = @ScanSatOfficial:p2Bodies + type = List + requiredValue = false + targetBodyList2 = @ScanSatOfficial:p2Bodies } PARAMETER { - name = SCANsatCoverage_1 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - coverage = 85 - scanType = AltimetryLoRes + name = SCANsatCoverage_1 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + coverage = 85 + scanType = AltimetryLoRes } PARAMETER { - name = SCANsatCoverage_2 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - coverage = 85 - scanType = Biome + name = SCANsatCoverage_2 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + coverage = 85 + scanType = Biome } PARAMETER { - name = SCANsatCoverage_3 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - coverage = 85 - scanType = FuzzyResources + name = SCANsatCoverage_3 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + coverage = 85 + scanType = FuzzyResources } REQUIREMENT { - name = AnyCoverage - type = Any + name = AnyCoverage + type = Any REQUIREMENT { - name = SCANsatCoverage_1 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - minCoverage = 0.0 - maxCoverage = 80 - scanType = AltimetryLoRes - title = Must have less than an 80% low resolution altimetry scan of the target body. + name = SCANsatCoverage_1 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + minCoverage = 0.0 + maxCoverage = 80 + scanType = AltimetryLoRes + title = #autoLOC_SACNsat_significant_0006 } REQUIREMENT { - name = SCANsatCoverage_2 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - minCoverage = 0.0 - maxCoverage = 80 - scanType = Biome - title = Must have less than an 80% biome scan of the target body. + name = SCANsatCoverage_2 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + minCoverage = 0.0 + maxCoverage = 80 + scanType = Biome + title = #autoLOC_SACNsat_significant_0007 } REQUIREMENT { - name = SCANsatCoverage_3 - type = SCANsatCoverage - targetBody = @/targetBodyValid2 - minCoverage = 0.0 - maxCoverage = 80 - scanType = FuzzyResources - title = Must have less than an 80% M700 resources scan of the target body. + name = SCANsatCoverage_3 + type = SCANsatCoverage + targetBody = @/targetBodyValid2 + minCoverage = 0.0 + maxCoverage = 80 + scanType = FuzzyResources + title = #autoLOC_SACNsat_significant_0008 } } REQUIREMENT { - name = Expression_1 - type = Expression - title = Must have orbited the target body. - expression = @/targetBodyList2.Contains(@/targetBodyValid2) == true + name = Expression_1 + type = Expression + title = #autoLOC_SACNsat_significant_0009 + expression = @/targetBodyList2.Contains(@/targetBodyValid2) == true } REQUIREMENT { - name = Orbit - type = Orbit - - targetBody = HomeWorld() + name = Orbit + type = Orbit + targetBody = HomeWorld() } REQUIREMENT { - name = PartUnlocked_1 - type = PartUnlocked - part = SCANsat_Scanner + name = PartUnlocked_1 + type = PartUnlocked + part = SCANsat_Scanner } REQUIREMENT { - name = PartUnlocked_2 - type = PartUnlocked - part = SCANsat_Scanner24 + name = PartUnlocked_2 + type = PartUnlocked + part = SCANsat_Scanner24 } REQUIREMENT { - name = PartUnlocked_3 - type = PartUnlocked - part = SurveyScanner + name = PartUnlocked_3 + type = PartUnlocked + part = SurveyScanner } } \ No newline at end of file diff --git a/SCANassets/Resources/Contracts/Trivial.cfg b/SCANassets/Resources/Contracts/Trivial.cfg index f92956338..e5c6a4d26 100644 --- a/SCANassets/Resources/Contracts/Trivial.cfg +++ b/SCANassets/Resources/Contracts/Trivial.cfg @@ -1,89 +1,88 @@ CONTRACT_TYPE { - name = SCAN_Trivial - title = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - genericTitle = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - group = ScanSatOfficial - topic = Science - subject = Kerbal - agent = SCAN: Scientific Committee on Advanced Navigation - notes = Scanning can take place while the vessel is not loaded. - synopsis = Perform a simple scan of @/targetBodyValid1 - completedMessage = Excellent work, this simple survey will give our experts much to study. - minExpiry = 1 - maxExpiry = 7 - deadline = Random(300, 500) * @/targetBodyValid1.Multiplier() - cancellable = true - declinable = true - autoAccept = false - targetBody = @/targetBodyValid1 + name = SCAN_Trivial + title = #autoLOC_SACNsat_trivial_0001 + genericTitle = #autoLOC_SACNsat_trivial_0002 + group = ScanSatOfficial + topic = Science + subject = Kerbal + agent = #autoLOC_SCANsat_Agents_Name + notes = #autoLOC_SACNsat_trivial_0003 + synopsis = #autoLOC_SACNsat_trivial_0004 + completedMessage = #autoLOC_SACNsat_trivial_0005 + minExpiry = 1 + maxExpiry = 7 + deadline = Random(300, 500) * @/targetBodyValid1.Multiplier() + cancellable = true + declinable = true + autoAccept = false + targetBody = @/targetBodyValid1 // Contract rewards - rewardScience = 0 - rewardReputation = 1 - rewardFunds = Random(40000, 60000.0) - failureReputation = 1 - failureFunds = Random(1000, 10000.0) - advanceFunds = Random(2000, 10000.0) - prestige = Trivial + rewardScience = 0 + rewardReputation = 1 + rewardFunds = Random(40000, 60000.0) + failureReputation = 1 + failureFunds = Random(1000, 10000.0) + advanceFunds = Random(2000, 10000.0) + prestige = Trivial DATA_EXPAND { - type = CelestialBody - targetBody1 = @ScanSatOfficial:homeBodies + type = CelestialBody + targetBody1 = @ScanSatOfficial:homeBodies } DATA_EXPAND { - type = string - scanString1 = [ "AltimetryLoRes", "Biome", "AltimetryHiRes", "FuzzyResources", "Ore" ] + type = string + scanString1 = [ "AltimetryLoRes", "Biome", "AltimetryHiRes", "FuzzyResources", "Ore" ] } DATA { - type = string - uniquenessCheck = CONTRACT_ALL - scanReadString1 = @/scanString1 == "AltimetryLoRes" ? "a Low Resolution" : @/scanString1 == "Biome" ? "a Biome" : @/scanString1 == "AltimetryHiRes" ? "a High Resolution" : @/scanString1 == "FuzzyResources" ? "an M700 Resources" : "an Ore" + type = string + uniquenessCheck = CONTRACT_ALL + scanReadString1 = @/scanString1 == "AltimetryLoRes" ? "a Low Resolution" : @/scanString1 == "Biome" ? "a Biome" : @/scanString1 == "AltimetryHiRes" ? "a High Resolution" : @/scanString1 == "FuzzyResources" ? "an M700 Resources" : "an Ore" } DATA { - type = CelestialBody - requiredValue = true - title = Target is part of home system. - uniquenessCheck = CONTRACT_ALL - targetBodyValid1 = @/targetBody1 + type = CelestialBody + requiredValue = true + title = #autoLOC_SACNsat_trivial_0006 + uniquenessCheck = CONTRACT_ALL + targetBodyValid1 = @/targetBody1 } PARAMETER { - name = SCANsatCoverage - type = SCANsatCoverage - targetBody = @/targetBodyValid1 - coverage = 75 - scanType = @/scanString1 + name = SCANsatCoverage + type = SCANsatCoverage + targetBody = @/targetBodyValid1 + coverage = 75 + scanType = @/scanString1 } REQUIREMENT { - name = SCANsatCoverage - type = SCANsatCoverage - targetBody = @/targetBodyValid1 - minCoverage = 0.0 - maxCoverage = 70 - scanType = @/scanString1 - title = Must have scanned less than 70% of the target body. + name = SCANsatCoverage + type = SCANsatCoverage + targetBody = @/targetBodyValid1 + minCoverage = 0.0 + maxCoverage = 70 + scanType = @/scanString1 + title = #autoLOC_SACNsat_trivial_0007 } REQUIREMENT { - name = Orbit - type = Orbit - - targetBody = HomeWorld() + name = Orbit + type = Orbit + targetBody = HomeWorld() } REQUIREMENT { - name = PartUnlocked - type = PartUnlocked - part = @/scanString1 == "AltimetryLoRes" ? SCANsat_Scanner : @/scanString1 == "Biome" ? SCANsat_Scanner24 : @/scanString1 == "AltimetryHiRes" ? SCANsat_Scanner2 : @/scanString1 == "FuzzyResources" ? SurveyScanner : OrbitalScanner + name = PartUnlocked + type = PartUnlocked + part = @/scanString1 == "AltimetryLoRes" ? SCANsat_Scanner : @/scanString1 == "Biome" ? SCANsat_Scanner24 : @/scanString1 == "AltimetryHiRes" ? SCANsat_Scanner2 : @/scanString1 == "FuzzyResources" ? SurveyScanner : OrbitalScanner } } \ No newline at end of file From bb92f2e0656cd76755e8f4841e596039aa500a97 Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 11:34:24 -0500 Subject: [PATCH 10/19] Delete old localization files --- .../Resources/Localization/Helptips.cfg | 298 ------------ .../Resources/Localization/OtherText.cfg | 145 ------ SCANassets/Resources/Localization/Parts.cfg | 38 -- SCANassets/Resources/Localization/Science.cfg | 429 ------------------ .../Resources/Localization/Tooltips.cfg | 228 ---------- .../Resources/Localization/Warnings.cfg | 58 --- SCANassets/Resources/SCANlocalization.cfg | 119 ----- 7 files changed, 1315 deletions(-) delete mode 100644 SCANassets/Resources/Localization/Helptips.cfg delete mode 100644 SCANassets/Resources/Localization/OtherText.cfg delete mode 100644 SCANassets/Resources/Localization/Parts.cfg delete mode 100644 SCANassets/Resources/Localization/Science.cfg delete mode 100644 SCANassets/Resources/Localization/Tooltips.cfg delete mode 100644 SCANassets/Resources/Localization/Warnings.cfg delete mode 100644 SCANassets/Resources/SCANlocalization.cfg diff --git a/SCANassets/Resources/Localization/Helptips.cfg b/SCANassets/Resources/Localization/Helptips.cfg deleted file mode 100644 index 2e9f106ff..000000000 --- a/SCANassets/Resources/Localization/Helptips.cfg +++ /dev/null @@ -1,298 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_settingsHelpScanningToggle = Toggle all SCANsat scanning. - #autoLOC_SCANsat_settingsHelpBackground = Toggle background scanning on\nselected celestial bodies. - #autoLOC_SCANsat_settingsHelpTimeWarp = Adjust the scanning frequency during TimeWarp.\nHigher settings result in fewer gaps in the maps\nbut may have a performance impact at high TimeWarp. - #autoLOC_SCANsat_settingsHelpGroundTracks = Display a visible indicator of\nscanning activity in map mode. - #autoLOC_SCANsat_settingsHelpGroundTracksActive = The ground track indicator can be limited\nto only be displayed for the active vessel. - #autoLOC_SCANsat_settingsHelpStockUIStyle = Switch between stock KSP-style UI elements and Unity-style elements. - #autoLOC_SCANsat_settingsHelpOverlayTooltips = Displays tooltips for the current mouse position when a planetary overlay map is activated.\nThese tooltips include The cursor coordinates, terrain height, slope, biome name,\nand resource abundance, depending on scanning coverage. - #autoLOC_SCANsat_settingsHelpWindowTooltips = Display tooltips on some map window buttons.\nThese are primarily used to identify icon buttons. - #autoLOC_SCANsat_settingsHelpLegendTooltips = Display tooltips on the map legend.\nDisabling will also disable biome map legends. - #autoLOC_SCANsat_settingsHelpStockToolbar = Use the stock toolbar.\nCan be used concurrently with the Blizzy78 Toolbar. - #autoLOC_SCANsat_settingsHelpToolbarMenu = Use a pop-out menu for the stock toolbar to show all available windows. - #autoLOC_SCANsat_settingsHelpMechJeb = The SCANsat zoom map and big map waypoint selection modes\ncan be used to select a MechJeb landing site. - #autoLOC_SCANsat_settingsHelpMechJebLoad = Load a saved MechJeb landing target.\nThis only works while in the flight scene with a valid MechJeb vessel. - #autoLOC_SCANsat_settingsHelpMapGenSpeed = Adjust all SCANsat map generation speeds.\nLower values will save CPU resources and may reduce the\nperformance impact of generating maps. - #autoLOC_SCANsat_settingsHelpResetWindows = Reset all window positions and scale.\nUse this in case a window has been dragged completely\noff screen or if any windows are not visible. - #autoLOC_SCANsat_settingsHelpResetPlanetData = Resets the selected SCANsat data for the current celestial body.\nA confirmation window will open before activating.\nCannot be reversed. - #autoLOC_SCANsat_settingsHelpResetAllData = Resets the selected SCANsat data for all celestial bodies.\nA confirmation window will open before activating.\nCannot be reversed. - #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Information about the currently active SCANsat sensors.\nVessels indicates the number of vessels with active sensors.\nSensors indicates the total number of sensors;\ninstruments with multiple sensor types count each individual sensor.\nPasses indicates the number of sensor updates performed per second.\nThis value is affected by the TimeWarp Resolution setting. - #autoLOC_SCANsat_settingsHelpGreyScale = Use a true grey-scale color spectrum for black-and-white SCANsat maps.\nPixels on the altitude map will interpolate between black and white;\nthe min and max terrain heights for each celestial body define the limits. - #autoLOC_SCANsat_settingsHelpExportCSV = Export a .csv file along with map texture when using the Export button on the big map.\nThe file contains coordinates and the terrain height for each pixel.\nPixels are labeled from left to right and from top to bottom. - #autoLOC_SCANsat_settingsHelpSetMapWidth = Enter an exact value for the SCANsat big map texture width.\nValues are limited to 550 - 8192 pixels wide.\nPress the Set button to apply the value. - #autoLOC_SCANsat_settingsHelpWindowScale = Adjust all SCANsat window scales. - #autoLOC_SCANsat_settingsHelpFillPlanet = Fill in the selected SCANsat data for the current celestial body. - #autoLOC_SCANsat_settingsHelpFillAll = Fill in the selected SCANsat data for all celestial bodies. - #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Circumvents the requirement for stock surface biome scans.\nSCANsat displays will show the full accuracy for resource\nabundance with or without any surface biome scans. - #autoLOC_SCANsat_resourceSettingsHelpInstant = By default, the stock M700 resource scanner's orbital survey will fill in all SCANsat resource maps.\nThis can be disabled, requiring standard SCANsat methods for all resource scanning.\nDisabled automatically when stock resource scanning is disabled. - #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Numerous SCANsat functions require a Narrow-Band resource scanner on-board\nthe current vessel or in orbit of a celestial body for fully accurate resource abundance data.\nDisable this to circumvent these restrictions. - #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Disables all stock resource scanning functions.\nSCANsat scanning methods will be required for all resource data.\nReplaces several stock resource functions with SCANsat tools.\nThese include The right-click readouts, and the planetary overlay maps. - #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Resets the stock resource scanning coverage for the current celestial body.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. - #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Resets the stock resource scanning coverage for all celestial bodies.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. - #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Change the number of resource abundance measurements used in constructing\nthe planetary overlay and big map resource overlay.\nDecrease the value to increase the accuracy of the map.\nLower values will result in slower map generation. - #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay and big map resource overlay.\nIncrease the value to increase the quality and accuracy of the map.\nHigher values will result in slower map generation. - #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay biome map. Increase the value to increase\nthe quality and accuracy of the map.\nHigher values will result in slower map generation. - #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Create a grey background for planetary overlay resource maps.\nUsed to make clear which sections of the celestial body\nhave been scanned but contain no resources. - #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = A threshold level used to apply the stock resource scan to a celestial body after scanning with SCANsat sensors.\nThis is useful when contracts or other addons require that a stock resource scan be performed.\nSet a value from 0-100 in the text box and click on the Set button.\nAll celestial bodies will be checked immediately;\ncelestial bodies will also be checked upon loading or a scene change.\nA reload may be required for the changes to take effect. - #autoLOC_SCANsat_colorTerrainHelpMin = Defines the low altitude cutoff for the terrain color palette.\nAnything below this altitude will be shown with the lowest color. - #autoLOC_SCANsat_colorTerrainHelpMax = Defines the high altitude cutoff for the terrain color palette.\nAnything above this altitude will be shown with the highest color. - #autoLOC_SCANsat_colorTerrainHelpClampToggle = Used to define a cutoff between the low and high altitude values.\nThis is particularly useful for ocean planets where it helps to\ndefine a sharp distinction between land and ocean. - #autoLOC_SCANsat_colorTerrainHelpClamp = Defines the clamp altitude cutoff.\nAnything below the cutoff will be represented by the first two colors in the selected color palette.\nAnything above the cutoff will be represented with the remaining colors. - #autoLOC_SCANsat_colorTerrainHelpReverse = Reverses the order of the currently\nselected color palette. - #autoLOC_SCANsat_colorTerrainHelpDiscrete = Draws the map using only the specific colors defined by each palette,\ninstead of smoothly interpolating between them. - #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Adjust the number of colors available\nin the currently selected color palette. - #autoLOC_SCANsat_colorBiomeHelpStock = Use the stock biome color scheme for\nSCANsat biome maps. - #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Draw a white border between biomes.\nDoes not apply to the planetary overlay biome maps. - #autoLOC_SCANsat_colorBiomeHelpTransparency = Adjust the transparency of biome maps.\nTerrain elevation is shown behind the biome maps.\nSet to 0% to disable terrain drawing. - #autoLOC_SCANsat_colorPickerHelpLow = The top color swatch shows the updated\ncolor selection for the low end of this color spectrum.\nThe bottom color swatch shows the currently active color. - #autoLOC_SCANsat_colorPickerHelpHigh = The top color swatch shows the updated\ncolor selection for the high end of this color spectrum.\nThe bottom color swatch shows the currently active color. - #autoLOC_SCANsat_colorResourceHelpMin = The low cutoff for resource concentration on the selected celestial body.\nResource deposits at this level will be displayed\nusing the low end of the current resource overlay color spectrum.\nResource deposits below this value will not be shown. - #autoLOC_SCANsat_colorResourceHelpMax = The high cutoff for resource concentration on the selected celestial body.\nResource deposits above this value will be displayed\nusing the high end of the current resource overlay color spectrum. - #autoLOC_SCANsat_colorResourceHelpTransparency = Defines the level of transparency for resource overlays.\nIncrease to allow more of the underlying terrain, slope, or biome map to be visible.\nThis also affect the transparency of resource deposits on the planetary overlay resource map. - #autoLOC_SCANsat_colorResourceHelpApply = Applies the current values for the\nselected resource and celestial body only. - #autoLOC_SCANsat_colorResourceHelpApplyAll = Applies the current values for the\nselected resource for all celestial bodies. - #autoLOC_SCANsat_colorResourceHelpDefault = Reverts to the default values for the\nselected resource and celestial body only. - #autoLOC_SCANsat_colorResourceHelpDefaultAll = Reverts to the default values for the\nselected resource for all celestial bodies. - #autoLOC_SCANsat_colorHelpSaveToConfig = Save all color configuration values to\nthe config file found in your SCANsat/Resources folder.\nThese values serve as the defaults for new saves\nand for all Revert To Default buttons.\nValues do not need to be saved to the config file to be applied for this save file. - #autoLOC_SCANsat_colorSlopeHelpCutoff = Adjust the cutoff level between\nthe two selected slope color pairs. - } - ru - { - #autoLOC_SCANsat_settingsHelpScanningToggle = Включить/выключить сканирование. - #autoLOC_SCANsat_settingsHelpBackground = Включить/выключить фоновое\nсканирование выбранных тел. - #autoLOC_SCANsat_settingsHelpTimeWarp = Изменить частоту сканирования при ускорении\nвремени. Большие значения создают меньше пропусков\nна карте, однако могут повлиять на быстродействие. - #autoLOC_SCANsat_settingsHelpGroundTracks = Отображать индикатор процесса\nсканирования в режиме карты. - #autoLOC_SCANsat_settingsHelpGroundTracksActive = Показывать поверхностную траекторию\nтолько для активного корабля. - #autoLOC_SCANsat_settingsHelpStockUIStyle = Переключить вид интерфейса между обычным KSP и стилем Unity. - #autoLOC_SCANsat_settingsHelpOverlayTooltips = Отображать подсказки для текущего положения мыши при включенной карте планетарного оверлея.\nЭти подсказки содержат координаты курсора, высоту и наклон поверхности, название биома и количество ресурсов в зависимости от покрытия. - #autoLOC_SCANsat_settingsHelpWindowTooltips = Отображать подсказки на некоторых кнопках.\nИспользуется в основном для определения назначения кнопок. - #autoLOC_SCANsat_settingsHelpLegendTooltips = Отображать подсказки для легенды\nкарты. Отключаются вместе с легендой карты биомов. - #autoLOC_SCANsat_settingsHelpStockToolbar = Использовать панель\nинструментов игры. Также может быть использована панель Blizzy78. - #autoLOC_SCANsat_settingsHelpToolbarMenu = Использовать раскрывающееся меню для стоковой панели инструментов, показывающее все доступные окна. - #autoLOC_SCANsat_settingsHelpMechJeb = Использовать режим выбора вэйпоинтов Детальной и Большой\nкарт SCANsat для выбора зон посадки MechJeb. - #autoLOC_SCANsat_settingsHelpMechJebLoad = Загрузить зону посадки, сохранённую\nиз MechJeb. Работает только для полётной сцены и корабля с MechJeb. - #autoLOC_SCANsat_settingsHelpMapGenSpeed = Изменить все скорости генерации карт.\nМеньшие значения экономят ресурсы процессора\nи помогают улучшить производительность. - #autoLOC_SCANsat_settingsHelpResetWindows = Восстановить позиции и масштаб всех\nокон. Используйте в случае, если окно было скрыто за\nпределами экрана или какие-то окна не видны. - #autoLOC_SCANsat_settingsHelpResetPlanetData = Восстановить по-умолчанию все значения для текущего тела.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. - #autoLOC_SCANsat_settingsHelpResetAllData = Восстановить по-умолчанию значения для всех тел.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. - #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Информация обо всех активных сенсорах SCANsat.\n"Vessels" - количество кораблей с активными сенсорами.\n"Sensors" - общее количество сенсоров;\nдля инструментов с несколькими сенсорами учитывается каждый отдельный сенсор.\n"Passes" - число обновлений сенсора, производимое за секунду.\nНа это значение влияет настройка "Разрешение ускорения времени". - #autoLOC_SCANsat_settingsHelpGreyScale = Использовать спектр оттенков серого для чёрно-белых карт SCANsat.\nПиксели на карте высот будут интерполированы между чёрным и белым;\nПределы определяются минимальными и максимальными значениями высот для каждого тела. - #autoLOC_SCANsat_settingsHelpExportCSV = Экспортировать файл .csv вместе с текстурой карты при нажатии на кнопку "Export"\nБольшой карты. Файл будет содержать координаты и высоты для каждого\nпикселя. Пиксели обозначаются слева направо и сверху вниз. - #autoLOC_SCANsat_settingsHelpSetMapWidth = Введите точное значение для ширины текстуры Большой карты.\nЗначения ограничены от 550 до 8192 пикселей.\nНажмите кнопку "Set", чтобы применить. - #autoLOC_SCANsat_settingsHelpWindowScale = Изменить масштаб всех окон SCANsat. - #autoLOC_SCANsat_settingsHelpFillPlanet = Заполнить все данные SCANsat для текущего небесного тела. - #autoLOC_SCANsat_settingsHelpFillAll = Заполнить все данные SCANsat для всех небесных тел. - #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Обойти требования поверхностного сканирования биомов в игре.\nSCANsat будет использовать максимальную точность отображения\nдоступности ресурсов независимо от поверхностного сканирования. - #autoLOC_SCANsat_resourceSettingsHelpInstant = По-умолчанию орбитальная съёмка стокового сканера M700 будет заполнять все карты ресурсов SCANsat.\nПри отключении, любое сканирование ресурсов потребует использования методов SCANsat.\nОтключается автоматически при отключении сканирования ресурсов в игре. - #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Многие функции SCANsat требуют наличия узкополосного сканера ресурсов\nна борту активного корабля или на орбите тела для максимально точных данных доступности ресурсов.\nОтключите, чтобы обойти это ограничение. - #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Выключить все стоковые функции сканирования\nресурсов. Методы сканирования SCANsat потребуются для всех данных\nо ресурсах. Заменяет некоторые стоковые функции для ресурсов,\nвключая показания по нажатию правой кнопки мыши и платенарных оверлеев. - #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Восстановить стоковое покрытие сканирования ресурсов для текущего тела.\nДля применения всех изменений может потребоваться перезагрузка или смена сцены.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. - #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Resets the stock resource scanning coverage for all celestial bodies.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. - #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Изменить количество измерений доступности ресурсов, используемых при\nпостроении оверлея ресурсов Большой карты и планетарного.\nУменьшите значение, чтобы повысить точность карты.\nЧем меньше, тем медленнее генерация карты. - #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Изменить размер текстуры (ширина карты=высотаX2), использумой при\nпостроении оверлея Большой карты и планетарного.\nУвеличьте значение, чтобы повысить качество и точность карты.\nЧем больше, тем медленнее генерация карты. - #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Изменить размер текстуры (ширина карты=высотаX2), использумой при\nпостроении планетарного оверлея карты биомов.\nУвеличьте значение, чтобы повысить качество и точность карты.\nЧем больше, тем медленнее генерация карты. - #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Использовать серый фон для карт планетарного оверлея ресурсов.\nИспользуется, чтобы определить, какие участки неб. тела\nбыли просканированы, но не содержат ресурсов. - #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Пороговый уровень применения стокового сканирования ресурсов после сканирования небесного тела сенсорами SCANsat.\nПолезно, если контракты или стороние аддоны требуют осуществления стокового сканирования.\nУстановите значение от 0 до 100 и нажмите кнопку "Set".\nБудет немедленно применено для всех небесных тел;\nНебесные тела также будут обновлены при загрузке или смены сцены.\nДля применения всех изменений может протребоваться перезагрузка. - #autoLOC_SCANsat_colorTerrainHelpMin = Задать нижний порог высоты для цветой схемы уровней высот.\nВсё, что ниже этого значения, будет показано цветом самой нижней высоты. - #autoLOC_SCANsat_colorTerrainHelpMax = Задать верхний порог высоты для цветой схемы уровней высот.\nВсё, что выше этого значения, будет показано цветом максимальной высоты. - #autoLOC_SCANsat_colorTerrainHelpClampToggle = Используется для задания порога между значениями малой и большой\nвысоты. В частности, это помогает различить границу между водой\nи сушей на планетах с океанами. - #autoLOC_SCANsat_colorTerrainHelpClamp = Задать предельные высоты.\nВсё, что ниже, будет представлено двумя первыми цветами выбранной цветовой схемы.\nВсё, что выше, будет представлено остальными цветами. - #autoLOC_SCANsat_colorTerrainHelpReverse = Изменить порядок выбранной цветовой\nсхемы на обратный. - #autoLOC_SCANsat_colorTerrainHelpDiscrete = Отобразить карту, используя вместо плавной интерполяции только цвета,\nзаданные заданные цветовой схемой. - #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Изменить количество цветов, доступных\nдля выбранной цветовой схемы. - #autoLOC_SCANsat_colorBiomeHelpStock = Использовать стоковую цветовую схему\nдля карт биомов SCANsat. - #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Отображать белым границу между биомами.\nНе влияет на карту биомов планетарного оверлея. - #autoLOC_SCANsat_colorBiomeHelpTransparency = Изменить прозрачность карт биомов.\nПревышение поверхности показывается под картами биомов.\nЗадайте 0%, чтобы скрыть ландшафт. - #autoLOC_SCANsat_colorPickerHelpLow = Верхний образец показывает выбранный\nцвет для нижней границы данного цветового спектра.\nНижний образец показывает текущий цвет. - #autoLOC_SCANsat_colorPickerHelpHigh = Верхний образец показывает выбранный\nцвет для верхней границы данного цветового спектра.\nНижний образец показывает текущий цвет. - #autoLOC_SCANsat_colorResourceHelpMin = Нижний порог концентрации ресурсов выбранного небесного тела.\nНа этом уровне залежи ресурсов будут показаны с использованием\nнижней границы текущего цветового спектра оверлея ресурсов.\nЗалежи ресурсов ниже этого значения показаны не будут. - #autoLOC_SCANsat_colorResourceHelpMax = Верхний порог концентрации ресурсов выбранного небесного тела.\nВыше этого значения залежи ресурсов будут показаны с использованием\nнверхней границы текущего цветового спектра оверлея ресурсов. - #autoLOC_SCANsat_colorResourceHelpTransparency = Задаёт прозрачность оверлеев ресурсов.\nУвеличьте, чтобы повысить видимость высоты, наклона поверхности и карты биомов.\nТакже влияет на прозрачность отображения залежей ресурсов на карте планетарного оверлея ресурсов. - #autoLOC_SCANsat_colorResourceHelpApply = Применить текущие значения только\nдля выбранных ресурсов и небесных тел. - #autoLOC_SCANsat_colorResourceHelpApplyAll = Применить текущие значения для\nвыбранных ресурсов всех небесных тел. - #autoLOC_SCANsat_colorResourceHelpDefault = Восстановить значения по-умолчанию\nтолько для выбранных ресурсов и небесных тел. - #autoLOC_SCANsat_colorResourceHelpDefaultAll = Восстановить значения по-умолчанию\nдля выбранных ресурсов всех небесных тел. - #autoLOC_SCANsat_colorHelpSaveToConfig = Сохранить все значения цветов\nв файл настроек в папке SCANsat/Resources.\nЭти значения будут использованы по-умолчанию при создании новой игры\nи при нажатии кнопок "Восстановление по-умолчанию".\nДля применения в текущей игре сохранение в файл не требуется. - #autoLOC_SCANsat_colorSlopeHelpCutoff = Изменить пороговый уровень между\nдвумя выбранными парами цветов наклона поверхности. - } - es-es - { - #autoLOC_SCANsat_settingsHelpScanningToggle = Activa/Desactiva todos los escaneos de SCANsat. - #autoLOC_SCANsat_settingsHelpBackground = Activa/Desactiva escaneo en segundo plano en\ncuerpos celestes seleccionados. - #autoLOC_SCANsat_settingsHelpTimeWarp = Ajustar la frecuencia de escaneo durante acelaración del tiempo.\nMayor valor resulta en menos brechas en el mapa\npero puede impactar la performancia a gmayor acelarión del tiempo. - #autoLOC_SCANsat_settingsHelpGroundTracks = Mostrar un indicador visual de\nla actividad de escaneo durante la vista de mapa. - #autoLOC_SCANsat_settingsHelpGroundTracksActive = El indicador del seguimiento desde base\npuede ser limitado a solo mostrar la nave activa. - #autoLOC_SCANsat_settingsHelpStockUIStyle = Cambiar elementos de la UI entre el estilo de KSP base y el estilo de Unity. - #autoLOC_SCANsat_settingsHelpOverlayTooltips = Mostrar tooltips para la posición actual del mouse cuando la sobreposición planetaria está activada.\nEstos tooltips incluyen las coordenadas del cursor, Altura del terreno, pendiente, nombre de bioma,\ny abundancia de recurso, dependiendo de la cobertura del escaneo. - #autoLOC_SCANsat_settingsHelpWindowTooltips = Mostrar tooltips en algunos botones de la vista de mapa.\nEstos son principalmente usados para identificar íconos de botones - #autoLOC_SCANsat_settingsHelpLegendTooltips = Mostrar tooltips en la leyenda del mapa.\nInhabilitar esto tambien ocultara la leyenda del mapa de bioma. - #autoLOC_SCANsat_settingsHelpStockToolbar = Usar la barra de herramientas base.\nPuede usarse al mismo tiempo con la barra de herramientas de Blizzy78. - #autoLOC_SCANsat_settingsHelpToolbarMenu = Usa un menú emergente para la barra de herramietnas base para mostrar todas las ventanas disponibles. - #autoLOC_SCANsat_settingsHelpMechJeb =El modo de selección de los mapa con zoom de SCANsat y le mapa grande de waypoints\npueden ser usados para seleccionar una zona de aterrizaje para MechJeb. - #autoLOC_SCANsat_settingsHelpMechJebLoad = Cargar un punto de aterrizaje guardado de MechJeb.\nEsto solo funciona en la escena de vuelo con una nave válida con Mechjeb. - #autoLOC_SCANsat_settingsHelpMapGenSpeed = Ajustar todas las velocidades de generacion de mapa de SCANsat\nReducir valores ahorrara recursos del CPU y quizá reduzca\nla calidad en la generacion de mapa. - #autoLOC_SCANsat_settingsHelpResetWindows = Reiniciar la escala y posición de todas las ventanas.\nUsa esto si una ventana se movió fuera\ncompletamente o si no son visibles. - #autoLOC_SCANsat_settingsHelpResetPlanetData = Reinicia los datos de SCANsat para el cuerpo celeste actual.\nUna ventana de confirmación se abrira antes de\nactivarse. No puede revertirse. - #autoLOC_SCANsat_settingsHelpResetAllData = Reinicia los datos de SCANsat para todos los cuerpos celestes.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. - #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Información acerca del sensor activo de SCANsat.\nNaves indica el número de naves con el sensor activo.\nSensores indica el número total de sensores\nInstrumentos cuenta cada sensor individual.\nPasadas indica el número de actualizaciones por segundo del sensor\nEste valor es afectado por el ajuste de Resolución de acelaración del Tiempo. - #autoLOC_SCANsat_settingsHelpGreyScale = Usar una verdadera escala de grises para los mapas de blanco y negro de SCANsat.\nPíxeles en el mapa de altitud se van a sobreponer entre negro y blanco\nla altura mínima y máxima del terreno de cada cuerpo celeste define los límites - #autoLOC_SCANsat_settingsHelpExportCSV = Exporta un archivo .csv junto con la textura del mapa cuando se usa el botón de Exportar en el Mapa Grande.\nEl archuvo contiene coordeenas y altura del terreno de cada píxel.\nPixeles están nombrados de izquierda a derecha y de arriba a abajo. - #autoLOC_SCANsat_settingsHelpSetMapWidth = Ingresa un valor exacto para el ancho de textura del mapa grande de SCANsat.\nValores están limitados a 550 - 8192 píxeles de ancho.\nPresiona el botón establecer para aplicar el valor. - #autoLOC_SCANsat_settingsHelpWindowScale =Ajusta todas las escalas de las ventanas de SCANsat. - #autoLOC_SCANsat_settingsHelpFillPlanet = Llena los datos de SCANsat para el cuerpo celeste actual. - #autoLOC_SCANsat_settingsHelpFillAll = Llena los datos de SCANsat para todos los cuerpos celestes. - #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Evita el requerimiento para el escaneo base de biomas.\nSCANsat mostrará precisión total para la abundancia\ndel recurso con o sin ningun scaneo de biomas. - #autoLOC_SCANsat_resourceSettingsHelpInstant = Por defecto, el escaner de inspección orbital de recursos M700 base llenara todos los mapas de recursos de SCANsat.\nEsto se puede inhabilitar, requiriendo metodos de SCANsat para todos los escaneos de recursos.\nInhabilitado automáticamente cuando el escaneo de recursos base está inactivo. - #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Numerosas funciones de SCANsat requieren un escáner de recursos Narrow-Band a bordo\nde la nave activa o en órbita del cuerpo celestial para informacion de recursos totalmente precisa.\nDesactiva esto para evitar estas restricciones. - #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Inhabilita todas las funciones base de escaneo de recursos.\nMétodos de escaneo de SCANsat serán requeridos para toda la informacion de recursos.\nRemplaza varias funciones base de recursos con herramietnas de SCANsat.\nIncluye las lecturas del Click-Derecho, y los mapas de sobreposición. - #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Reinicia la cobertura de escaneo de recursos base para el cuerpo celeste actual.\nVolver a cargar o cambiar de escena quizás sea nescesario para que los cambios tengas efecto.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. - #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Reinicia la cobertura de escaneo de recursos base para todos los cuerpos celestes.\nVolver a cargar o cambiar de escena quizás sea nescesario para que los cambios tengas efecto.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. - #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Cambia el número de la abundancia de recursos medida en la creación del mapa\nde la sobreposición planetaria y del mapa grande.\nDisminuir el valor para aumentar la calidad y precisión del mapa.\nValores bajos resultaran en generacion de mapa relentizada. - #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Cambia el tamaño de textura (anchura del mapa es 2XAltura) usado en la construcctión\ndel mapa de sobreposición de recursos.\nAumenta el valor para aumentar la calidad y precisión del mapa.\nValores altos resultaran en generacion de mapa relentizada. - #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Cambia el tamaño de textura (anchura del mapa es 2XAltura) usado en la construcctión\ndel mapa de sobreposición de bioma. Aumenta el valor para aumentar\nla calidad y precisión del mapa.\nValores altos resultaran en generacion de mapa relentizada. - #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Crea un fondo gris para la sobreposición del mapa de recursos.\nUsado para dejar claro que secciones del cuerpo celeste\nhan sido escaneadas pero no tienen recursos. - #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Nivel límite usado para aplicar el escáner base a todos los cuerpos celestes después de escanear con los sensores de SCANsat.\nÚtil cuando contratos u otros requiere que un scáner base de recursos sea realizado.\nEstablece un valor entre 0-100 en la caja de texto y has cñocl en el botón Establecer.\nATodos los cuerpos celestes serán chequeados inmediatamente;\ncuerpos celestes tambien seran chequeados al cargar o al cambiar de escena.\nVolver a cargar quizás sea nescesario para que los cambios tengan efecto. - #autoLOC_SCANsat_colorTerrainHelpMin = Define la mínima altitud de corte para la paleta de color del terreno.\nCualquier valor debajo de esta altitud se mostrará con el mínimo color. - #autoLOC_SCANsat_colorTerrainHelpMax = Define la máxima altitud de corte para la paleta de color del terreno.\nCualquier valor encima de esta altitud se mostrará con el máximo color. - #autoLOC_SCANsat_colorTerrainHelpClampToggle = Used to define a cutoff between the low and high altitude values.\nThis is particularly useful for ocean planets where it helps to\ndefine a sharp distinction between land and ocean. - #autoLOC_SCANsat_colorTerrainHelpClamp = Define el límite grupal de corte.\nCualquier cosa menor será representado por los 2 primeros colores en la paleta de colores seleccionada.\nCualquier valor mayor será representado por el resto de colores. - #autoLOC_SCANsat_colorTerrainHelpReverse = Revierte el orden de la paleta\nde colores actualmente seleccionada. - #autoLOC_SCANsat_colorTerrainHelpDiscrete = Dibuja el mapa usando solo los colores especificados en la paleta,\nen vez de interpolarlos gradualmente. - #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Ajusta el número de colores disponible\nen la paleta de colores actuales. - #autoLOC_SCANsat_colorBiomeHelpStock = Usa el esquema de colores base para\nlos mapas de bioma de SCANsat. - #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Dibuja una frontera blanca entre biomas.\nNo aplica a la sobreposición de mapas de biomas. - #autoLOC_SCANsat_colorBiomeHelpTransparency = Ajusta la transparencia de los mapas de biomas.\nElevacion del terreno se muestra detrás del bioma.\nEstabler a 0% para inhabilitar el trazo del terreno. - #autoLOC_SCANsat_colorPickerHelpLow = La muestra de color superior muestra la selección\nactualizada para el mínimo color para este espectro.\nLa muestra de color inferior muestra el color activo. - #autoLOC_SCANsat_colorPickerHelpHigh = La muestra de color superior muestra la selección\nactualizada para el máximo color para este espectro.\nLa muestra de color inferior muestra el color activo. - #autoLOC_SCANsat_colorResourceHelpMin = El corte mínimo para la concentración de recursos en el cuerpo celeste seleccionado.\nDepósitos de recursos a este nivel seran mostrados\nusando el valor mínimo del espectro de color actual.\nDepósitos de recursos inferior a este valor no serán mostrados. - #autoLOC_SCANsat_colorResourceHelpMax = El corte máximo para la concentración de recursos en el cuerpo celeste seleccionado.\nDepósitos de recursos por encima de este nivel seran mostrados\nusando el valor máximo del espectro de color actual. - #autoLOC_SCANsat_colorResourceHelpTransparency = Define el nivel de transparencia para la sobreposición de recursos.\nAumentar para permitir ver mas del terreno, pendiente o bioma.\nEsto tambien afecta la transparencia de la sobreposiciñon de recursos en el mapa. - #autoLOC_SCANsat_colorResourceHelpApply = Aplica los valores actuales para el\nrecurso y cuerpo celeste seleccionado. - #autoLOC_SCANsat_colorResourceHelpApplyAll = Aplica los valores actuales para todos\nlos recursos y cuerpos celestes. - #autoLOC_SCANsat_colorResourceHelpDefault = Revierte los valores de fábrica para el\nrecurso y cuerpo celeste seleccionado. - #autoLOC_SCANsat_colorResourceHelpDefaultAll = Revierte los valores de fábrica para el\nrecurso seleccionado para todos los cuerpos celestes. - #autoLOC_SCANsat_colorHelpSaveToConfig = Guarda toda la configuracion de colores en\nel archivo de configuracion encontrado en el folder SCANsat/Resources.\nEstos valores sirven como base para nuevas partidas\ny para todos los botones de Revertir a Defecto.\nLos valores no necesitan guardarse al archivo de configuración para ser aplicados en esta partida. - #autoLOC_SCANsat_colorSlopeHelpCutoff = Ajusta el nivel de corte entre\nentre los 2 pares de colores seleccionados. - } - zh-cn - { - #autoLOC_SCANsat_settingsHelpScanningToggle = 开关所有SCANsat扫描。 - #autoLOC_SCANsat_settingsHelpBackground = 开关选中天体的\n后台扫描。 - #autoLOC_SCANsat_settingsHelpTimeWarp = 调整时间加速时的扫描频率。\n值越高扫描越精确,\n但在高时间加速倍率下可能导致性能问题。 - #autoLOC_SCANsat_settingsHelpGroundTracks = 在星图模式显示一个可见的\n扫描活动标识。 - #autoLOC_SCANsat_settingsHelpGroundTracksActive = 地面追踪标识可被限制为\n仅显示活动中的载具。 - #autoLOC_SCANsat_settingsHelpStockUIStyle = 在默认KSP风格界面和Unity风格界面之间切换。 - #autoLOC_SCANsat_settingsHelpOverlayTooltips = 当星球标识可用时,在鼠标当前位置显示一个提示框,\n内容包括坐标,地形高度,坡度,生物群系名称\n和资源储量。仅对已扫描地区有效。 - #autoLOC_SCANsat_settingsHelpWindowTooltips = 显示地图窗口按钮的提示框,\n主要用来识别图标按钮。 - #autoLOC_SCANsat_settingsHelpLegendTooltips = 在图例上显示提示框,\n关闭的同时也会关闭生物群系图例。 - #autoLOC_SCANsat_settingsHelpStockToolbar = 使用原版工具栏,\n可以和Blizzy78的工具栏一起使用。 - #autoLOC_SCANsat_settingsHelpToolbarMenu = 使用原版工具栏的弹出式菜单显示所有可用窗口。 - #autoLOC_SCANsat_settingsHelpMechJeb = SCANsat缩放地图和大地图的导航点选择模式\n可以用来选择MJ自动着陆地点。 - #autoLOC_SCANsat_settingsHelpMechJebLoad = 载入一个已保存的MJ自动着陆目标,\n这仅在飞行界面且载具MJ有效时可用。 - #autoLOC_SCANsat_settingsHelpMapGenSpeed = 调整所有SCANsat地图的生成速度,\n数值调低可以节约CPU资源并减小生成\n地图对性能的影响。 - #autoLOC_SCANsat_settingsHelpResetWindows = 重置所有窗口的位置和缩放,\n当窗口完全覆盖屏幕或者\n某些窗口不可见时使用。 - #autoLOC_SCANsat_settingsHelpResetPlanetData = 重置当前天体选中的SCANsat数据,\n执行前会弹出一个确认窗口。\n本操作无法撤销。 - #autoLOC_SCANsat_settingsHelpResetAllData = 重置所有天体选中的SCANsat数据,\n执行前会弹出一个确认窗口。\n本操作无法撤销。 - #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = 当前激活的SCANsat传感器信息。\n载具表示配备已激活传感器的载具数量;\n传感器表示传感器总数,\n拥有多个传感器的仪器将对每一个传感器分别计数;\n帧率表示每秒钟传感器刷新次数,\n这个数值受时间加速倍率设置的影响。 - #autoLOC_SCANsat_settingsHelpGreyScale = 为黑白SCANsat地图启用灰度图模式。\n高度图的每一个像素均介于黑色与白色之间,\n最大和最小值将由天体的最高和最低地形高度定义。 - #autoLOC_SCANsat_settingsHelpExportCSV = 大地图模式下使用这个导出按钮将和地图贴图一起导出一个后缀为.csv的文件,\n该文件包含每个像素的坐标和地形高度,\n像素排列方式为先左后右,先上后下。 - #autoLOC_SCANsat_settingsHelpSetMapWidth = 为SCANsat大地图贴图指定一个宽度,\n数值必须在550 - 8192之间,\n按设置键应用这个数值。 - #autoLOC_SCANsat_settingsHelpWindowScale = 调整所有SCANsat窗口的缩放。 - #autoLOC_SCANsat_settingsHelpFillPlanet = 为当前天体填入选中的SCANsat数据。 - #autoLOC_SCANsat_settingsHelpFillAll = 为所有天体填入选中的SCANsat数据。 - #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = 避免对原版地表生物群系扫描的需求,\nSCANsat视图会显示完整精确的附带或不附带\n地表生物群系的资源储量图。 - #autoLOC_SCANsat_resourceSettingsHelpInstant = 默认情况下,原版M700资源扫描仪的轨道观察会填满整个SCANsat资源地图,\n禁用后就需要标准SCANsat方法来扫描资源地图。\n当原版资源扫描仪不可用时自动禁用。 - #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = 大量的SCANsat功能需要载具或轨道上有一个\n窄带资源扫描仪,以此获得完整精确的资源储藏数据,\n禁用此项以避免这些制约。 - #autoLOC_SCANsat_resourceSettingsHelpDisableStock = 禁用所有原版资源扫描仪的功能。\n所有资源数据必须使用SCANsat扫描方法来扫描,\n用SCANsat的工具替代许多原版的功能,\n包括右键读数以及行星总览资源图。 - #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = 重置当前天体原版资源扫描信息,\n需要重新载入或者切换场景才可生效,\n执行前将弹出确认窗口,\n本操作无法撤销。 - #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = 重置所有天体原版资源扫描信息,\n需要重新载入或者切换场景才可生效,\n执行前将弹出确认窗口,\n本操作无法撤销。 - #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = 改变生成行星视图和大地图资源地图时的\n资源储量单位度量范围,\n降低该数值可以提高地图的质量和精度,\n越低的数值生成地图越慢。 - #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = 改变生成行星视图和大地图资源地图\n时的贴图尺寸(地图宽高比2比1),\n提高该数值可以提高地图的质量和精度,\n越高的数值生成地图越慢。 - #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = 改变生成行星视图生物群系地图\n时的贴图尺寸(地图宽高比2比1),\n提高该数值可以提高地图的质量和精度,\n越高的数值生成地图越慢。 - #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = 为行星视图资源地图创建一个灰色背景,\n用来辨识天体的哪些部分\n已经被扫描出没有资源储量而不是未扫描。 - #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = 当使用SCANsat传感器扫描到一个临界水平时对一个天体启用原版资源扫描,\n这对某些需要原版资源扫描可用的合同或其他mod而言很有用。\n填入一个0-100之间的数值并点击设置按钮。\n所有天体将被立刻检查,\n当载入或场景切换时也会执行检查。\n可能需要重新载入来生效。 - #autoLOC_SCANsat_colorTerrainHelpMin = 定义地形图颜色板的高度下限,\n所有低于这一下限的高度都被显示为最低高度的颜色。 - #autoLOC_SCANsat_colorTerrainHelpMax = 定义地形图颜色板的高度上限,\n所有低于这一上限的高度都被显示为最高高度的颜色。 - #autoLOC_SCANsat_colorTerrainHelpClampToggle = 定义一个最低和最高高度之间的分界线,类似海平面高度线,\n这在明确区分有海洋星球的海洋\n和陆地时尤其有用。 - #autoLOC_SCANsat_colorTerrainHelpClamp = 定义高度截止线,\n所有低于这一高度的地方将用地形图颜色板的前两个颜色标识,\n高于这一高度的则使用剩余的颜色。 - #autoLOC_SCANsat_colorTerrainHelpReverse = 反转当前颜色板\n的颜色排列顺序。 - #autoLOC_SCANsat_colorTerrainHelpDiscrete = 只使用每个颜色版定义的特殊颜色绘制地图,\n而不使用其中的渐变色。 - #autoLOC_SCANsat_colorTerrainHelpPaletteSize = 调整当前选中颜色板\n的可用颜色数目。 - #autoLOC_SCANsat_colorBiomeHelpStock = 为SCANsat生物群系图使用\n原版生物群系上色模式。 - #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = 不同生物群系之间绘制白色边界,\n在行星视图的生物群系图中无效。 - #autoLOC_SCANsat_colorBiomeHelpTransparency = 调整生物群系图的透明度,\n地形高度在生物群系图下方显示,\n设为0%可禁用地形图绘制。 - #autoLOC_SCANsat_colorPickerHelpLow = 上方颜色表示更新后的\n颜色板最低一端的颜色,\n下方的颜色表示当前使用中的颜色。 - #autoLOC_SCANsat_colorPickerHelpHigh = 上方颜色表示更新后的\n颜色板最高一端的颜色,\n下方的颜色表示当前使用中的颜色。 - #autoLOC_SCANsat_colorResourceHelpMin = 选中天体的资源丰富度下限,\n这一水平下的资源储量将\n显示为当前资源视图颜色板最低一端的颜色,\n低于此水平的资源储量将不被显示。 - #autoLOC_SCANsat_colorResourceHelpMax = 选中天体的资源丰富度上限,\n不低于这一水平的资源储量将\n显示为当前资源视图颜色板最高一端的颜色。 - #autoLOC_SCANsat_colorResourceHelpTransparency = 定义资源视图的透明度水平,\n升高数值可使背景的地形、坡度或生物群系图更清晰,\n这一设置同时也影响行星视图的资源地图。 - #autoLOC_SCANsat_colorResourceHelpApply = 仅应用当前设定数值到\n选中的资源和天体。 - #autoLOC_SCANsat_colorResourceHelpApplyAll = 为所有天体选中的\n资源应用当前设定数值。 - #autoLOC_SCANsat_colorResourceHelpDefault = 仅将当前选中的资源和天体\n设定数值恢复为默认值。 - #autoLOC_SCANsat_colorResourceHelpDefaultAll = 将所有天体选中的\n资源的设定数值恢复为默认值。 - #autoLOC_SCANsat_colorHelpSaveToConfig = 保存所有颜色设置到\nSCANsat/Resources文件夹里的配置文件中,\n这些数值将默认给新存档\n和所有“重置为默认值”按钮使用,\n仅本存档使用的设定不必保存到配置文件。 - #autoLOC_SCANsat_colorSlopeHelpCutoff = 调整两个选中坡度\n颜色组的分割线。 - } - de - { - #autoLOC_SCANsat_settingsHelpScanningToggle = Gesamtes SCANsat-Scanning umschalten. - #autoLOC_SCANsat_settingsHelpBackground = Hintergrund-Scanning auf gewählten\nHimmelskörpern umschalten. - #autoLOC_SCANsat_settingsHelpTimeWarp = Einstellung der Scan-Frequenz während Zeitbeschleunigung.\nHöhere Werte reduzieren das Auftreten von Lücken im Scan, können jedoch die Performance bei\nhoher Zeitbeschleunigung beeinträchtigen. - #autoLOC_SCANsat_settingsHelpGroundTracks = Zeigt in der Kartenansicht den Scan-Bereich. - #autoLOC_SCANsat_settingsHelpGroundTracksActive = Der Scan-Bereich kann nur auf das\nAktive Vehikel oder alle angewandt werden. - #autoLOC_SCANsat_settingsHelpStockUIStyle = Schaltet das UI zwischen\nStandard-KSP-Style und Unity-Style um. - #autoLOC_SCANsat_settingsHelpOverlayTooltips = Zeigt Tooltips zur Mausposition auf der Overlay-Karte an.\nDiese Tooltips beinhalten Cursor-Koordinaten, Geländehöhe, Geländeneigung, Biomname und Ressourcen-Verfügbarkeit. - #autoLOC_SCANsat_settingsHelpWindowTooltips = Zeigt Tooltips zu Fensterkarten-Buttons an.\nDiese dienen hauptsächlich dem Identifizieren von Buttons mit Icons. - #autoLOC_SCANsat_settingsHelpLegendTooltips = Zeigt Tooltips zur Kartenlegende.\nAusschalten deaktiviert ebenso die Biomkartenlegende. - #autoLOC_SCANsat_settingsHelpStockToolbar = Nutze die Standard-Toolbar.\nKann gleichzeitig mit Blizzy78's Toolbar angewandt werden. - #autoLOC_SCANsat_settingsHelpToolbarMenu = Nutze ein Pop-Out-Menü, an Stelle der Standard-Toolbar um alle verfügbaren Fenster an zu zeigen. - #autoLOC_SCANsat_settingsHelpMechJeb = Die SCANsat Zoom-Karte nutzen, um Wegpunkte zu wählen und MechJeb-Landeplätze aus zu suchen. - #autoLOC_SCANsat_settingsHelpMechJebLoad = Lädt einen gespeicherten MechJeb-Landeplatz.\nDies funktioniert nur in aktiven Vehikeln mit einem gültigen MechJeb-Modul. - #autoLOC_SCANsat_settingsHelpMapGenSpeed = Einstellung der Kartengenerierungsgeschwindigkeit aller SCANsat-Karten.\nNiedrigere Werte reduzieren CPU-Auslastung und möglicherweise Leistungseinbrüche beim Generieren von Karten. - #autoLOC_SCANsat_settingsHelpResetWindows = Zurücksetzen aller Fensterpositionen und deren Skalierung.\nNutze dies, falls etwaige Fenster aus dem sichtbaren Bereich verschoben wurden oder gänzlich fehlen. - #autoLOC_SCANsat_settingsHelpResetPlanetData = Zurücksetzen der gewählten SCANsat-Daten des aktuellen Himmelskörper.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! - #autoLOC_SCANsat_settingsHelpResetAllData = Zurücksetzen der gewählten SCANsat-Daten ALLER Himmelskörper.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! - #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Informationen über momentan aktive SCANsat-Sensoren.\n'Vehikel' zeigt die Anzahl aller Vehikel mit aktiven Sensoren.\n'Sensoren' zeigt die Gesamtzahl aller Sensoren;\nInstrumente mit mehreren Sensoren werden als individuelle Sensoren gezählt.\n'Durchgänge' zeigt die Anzahl an Sensor-Auffrischungen pro sekunde.\nDieser Wert wird vom Zeitbeschleunigungsfaktor beeinflusst. - #autoLOC_SCANsat_settingsHelpGreyScale = Nutze ein echtes Graustufenfarbspektrum an Stelle der schwarz/weiß SCANsat-Karten.\nPixel auf der Höhenkarte werden zwischen schwarz und weiß interpoliert;\n die min/max Geländehöhe für jeden einzelnen Himmelkörper definieren das Limit. - #autoLOC_SCANsat_settingsHelpExportCSV = Exportiert eine .CSV-Datei, zusammen mit einer Kartentextur, falls die Exportfunktion auf der großen Karte verwendet wird.\nDie Datei enthält Koordinaten und die Geländehöhe für jedes Pixel.\nPixel werden von links nach rechts und von oben nach unten beschrieben. - #autoLOC_SCANsat_settingsHelpSetMapWidth = Gebe einen exakten Wert für die Breite der großen SCANsat-Kartentextur an.\nWerte sind auf 550 - 8192 pixel beschränkt.\nKlicke den 'Setzen'-Button um die Werte an zu wenden. - #autoLOC_SCANsat_settingsHelpWindowScale = Stellt alle SCANsat Fensterskalierungen ein. - #autoLOC_SCANsat_settingsHelpFillPlanet = Füllt die gewälten SCANsat-Daten des momentan Himmelskörpers auf. - #autoLOC_SCANsat_settingsHelpFillAll = Füllt die gewälten SCANsat-Daten ALLER Himmelskörpers auf. - #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Umgeht die Notwendigkeit vorhergehender Standard-Oberflächen-Biom-Scans.\nDie SCANsat-Anzeigen werden die Ressourcen mit voller Präzision anzeigen, ohne vorhergehende Biom-Scans. - #autoLOC_SCANsat_resourceSettingsHelpInstant = Als Standard füllt der M700-Scanner die gesamte Ressourcenkarte.\nDies kann deaktiviert werden. In diesem Falle werden SCANsat-Scanner für alle Ressourcen-Scans benötigt.\nWird automatisch deaktiviert, sollte das Standard-Ressourcen-Scan-System deaktiviert sein. - #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Viele SCANsat-Funktionen benötigen einen Schmalband-Ressourcen-Scanner an Bord\ndes momentanen Vehikels oder innerhalb des Orbit eines Himmelskörper, für maximale Genauigkeit der Ressourcen-Daten.\nDeaktiviere dies um diese Einschränkungen zu umgehen. - #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Deaktiviert alle Standard-Resourcen-Scan-Funktionen.\nSCANsat-Scan-Methoden werden für alle Resourcen-Scans benötigt.\nErsetzt mehrere Standardfunktionen mit SCANsat-funktionen.\nDies schließt ebenso das Rechtsklickmenü und alle Overlay-Karten mit ein. - #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Setzt die Standard-Resourcen-Abdeckung für den momentanen Himmelskörper zurück.\nNeuladen oder ein Szenenwechsel könnten nötig sein um die Änderungen zu übernehmen.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! - #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Setzt die Standard-Resourcen-Abdeckung für ALLE Himmelskörper zurück.\nNeuladen oder ein Szenenwechsel könnten nötig sein um die Änderungen zu übernehmen.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! - #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Ändert die Anzahl an Resourcen-Messungen welche beim generieren\n des planetaren Overlays und der großen Resourcenkarte verwendet werden.\nVerringere den Wert um die Genauigkeit der Karte zu erhöhen.\nNiedrigere Werte verringern die Geschwindigkeit der Kartengenerierung. - #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Ändert die Texturgröße (Kartenbreite = 2x Höhe) welche beim konstruieren\n des planetaren Overlays und der großen Ressourcenkarte verwendet wird.\nHöhere Werte verringern die Geschwindigkeit der Kartengenerierung. - #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Ändert die Texturgröße (Kartenbreite = 2x Höhe) welche beim konstruieren\n des planetaren Overlays und der großen Biomkarte verwendet wird.\nHöhere Werte erhöhen die Genauigkeit und Qualität der Karte.\nHöhere Werte verringern die Geschwindigkeit der Kartengenerierung. - #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Generiert einen grauen Hintergrund für die planetare Resourcen-Overlay-Karte\nWird verwendet um Bereiche zu verdeutlichen, welche gescannt \nwurden, jedoch keine Resourcen enthalten. - #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Ein Schwellwert, welcher angibt, ab wann das Standard-Ressourcen-Scan-System nach vorherigem SCANsat-scannen angewendet wird. Notwendig bei Verträgen, welche einen Standard-Scan zur Erfüllung benötigen\nSetze einen Wert zwischen 0 und 100 und klicke den 'Setzen'-button.\nAlles Himmelskörper werden sofort überprüft;\nHimmelskörper werden ebenso bei einer Landung oder einem Szenenwechsel geprüft.\nNeuladen könnte notwendig sein, um die Einstellung zu übernehmen. - #autoLOC_SCANsat_colorTerrainHelpMin = Definiert die untere Höhenbegrenzung der Geländefarbpalette.\nAlles unterhalb dieser Höhe wird mit dem niedrigsten Farbwert dargestellt. - #autoLOC_SCANsat_colorTerrainHelpMax = Definiert die obere Höhenbegrenzung der Geländefarbpalette.\nAlles oberhalb dieser Höhe wird mit dem höchsten Farbwert dargestellt. - #autoLOC_SCANsat_colorTerrainHelpClampToggle = Definiert eine Abgranzung zwischen oberer und unterer Höhenbegrenzung.\nDies ist besonders bei Ozeanplaneten nützlich, um den Ozean scharf von den Landmassen ab zu grenzen. - #autoLOC_SCANsat_colorTerrainHelpClamp = Definiert die Höhe der Höhenbegrenzung.\n Alles unterhalb diese Begrenzung wird durch die ersten zwei Farben der momentan gewählten Palette dargestellt.\nAlles Oberhalb dieser Grenze wird mit den übrigen Farben dargestellt. - #autoLOC_SCANsat_colorTerrainHelpReverse = Invertiert die Reihenfolge der\nmomentan gewählten Palette. - #autoLOC_SCANsat_colorTerrainHelpDiscrete = Zeichnet die Karte nur an Hand der Farben der gewählten Palette,\nohne diese weich zu interpolieren. - #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Ändert die Anzahl an Farben,\nin der momentan gewählten Palette. - #autoLOC_SCANsat_colorBiomeHelpStock = Nutze das Standardfarbschema auf\nSCANsat-Biomkarten. - #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Zeichnet eine weiße Grenzlinie zwischen den Biomen.\nDies gilt jedoch nicht für die planetare Overlay-Biomkarte. - #autoLOC_SCANsat_colorBiomeHelpTransparency = Ändert die Transparenz an Biomkarten.\nGeländerhöhungen werden unterhalb der Biomkarte angezeigt.\nSetze auf 0%, um das Zeichnen des Geländes ab zu schalten. - #autoLOC_SCANsat_colorPickerHelpLow = Der obere Farbraum zeigt die aktualisierte Auswahl an Farben des unteren Farbspektrums an.\nDer untere Farbraum zeigt die momentan aktive Farbe. - #autoLOC_SCANsat_colorPickerHelpHigh = Der obere Farbraum zeigt die aktualisierte Auswahl an Farben des oberen Farbspektrums an.\nDer untere Farbraum zeigt die momentan aktive Farbe. - #autoLOC_SCANsat_colorResourceHelpMin = Die Untergrenze der Resourcenkonzentration des momentan gewählten Himmelskörper.\nRessourcen-Lagerstätten auf diesem Level werden mit dem unteren Ende des Farbraumes der Momentan gewählten Farbpalette angezeigt.\nResourcenlagerstätten unterhalb dieses Levels werden nicht angezeigt. - #autoLOC_SCANsat_colorResourceHelpMax = Die Obergrenze der Resourcenkonzentration des momentan gewählten Himmelskörper.\nRessourcen-Lagerstätten auf diesem Level werden mit dem oberend ende des Farbraumes der momentan gewählten Farbpalette angezeigt. - #autoLOC_SCANsat_colorResourceHelpTransparency = Definiert den Transparenzgrad der Recourcen-Overlays.\nErhöhe diesen Wert um mehr von den Unterlagerten Gelände-/Bodenwinkel- oder Biomkarte darzustellen.\nDies beeinflußt ebenso die Transparenz der Ressourcen-Lagerstätten auf der planetaren Overlay-Karte. - #autoLOC_SCANsat_colorResourceHelpApply = Bestätigt die eingegebenen Werte nur für den momentan gewählten Himmelskörper. - #autoLOC_SCANsat_colorResourceHelpApplyAll = Bestätigt die eingegebenen Werte der gewählten Resource für alle Himmelskörper. - #autoLOC_SCANsat_colorResourceHelpDefault = Setzt nur ausgewählte Resourcen und Himmelskörper auf Standardwerte zurück. - #autoLOC_SCANsat_colorResourceHelpDefaultAll = Setzt ausgewählte Resourcen auf ALLEN Himmelskörpern zurück. - #autoLOC_SCANsat_colorHelpSaveToConfig = Speichert alle Farbeinstellungen in die config-Datei innerhalb des SCANsat/Resources-Verzeichnis.\nDiese Werte dienen als Standardwerte für neu erstellte Spielstände und alle Rücksetzfunktionen.\nDie Werte müssen nicht in die config-Datei gespeichert werden, um Diese auf diesen Spielstand an zu wenden. - #autoLOC_SCANsat_colorSlopeHelpCutoff = Ändert den Grenzwert zwischen den beiden ausgewählten Farbpaaren für Geländeneigung. - } -} diff --git a/SCANassets/Resources/Localization/OtherText.cfg b/SCANassets/Resources/Localization/OtherText.cfg deleted file mode 100644 index fe67e937a..000000000 --- a/SCANassets/Resources/Localization/OtherText.cfg +++ /dev/null @@ -1,145 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_Analyze = Analyze Data - #autoLOC_SCANsat_StartScan = Start Scan - #autoLOC_SCANsat_StopScan = Stop Scan - #autoLOC_SCANsat_ToggleScan = Toggle Scan - #autoLOC_SCANsat_Extend = Extend - #autoLOC_SCANsat_Retract = Retract - #autoLOC_SCANsat_Unknown = Unknown - #autoLOC_SCANsat_All_Disabled = All Scanning Disabled - #autoLOC_SCANsat_Disabled = Scanning Disabled - #autoLOC_SCANsat_TooLow = Too Low - #autoLOC_SCANsat_SubOptimal = Sub-Optimal - #autoLOC_SCANsat_Ideal = Ideal - #autoLOC_SCANsat_TooHigh = Too High - #autoLOC_SCANsat_NoData = No Data - #autoLOC_SCANsat_Abundance = Abundance - #autoLOC_SCANsat_Surface = Surf - #autoLOC_SCANsat_AltitudeMin = Altitude ( min): <<1>>km\n - #autoLOC_SCANsat_AltitudeBest = Altitude (best): <<1>>km\n - #autoLOC_SCANsat_AltitudeMax = Altitude ( max): <<1>>km\n - #autoLOC_SCANsat_FOV = FOV: <<1>> - #autoLOC_SCANsat_MapProjection = Projection - #autoLOC_SCANsat_MapType = Map Type - #autoLOC_SCANsat_MapResource = Resource - #autoLOC_SCANsat_MapBody = Celestial Body - #autoLOC_SCANsat_GeneralSettings = General Settings - #autoLOC_SCANsat_BackgroundSettings = Background Settings - #autoLOC_SCANsat_ResourceSettings = Resource Settings - #autoLOC_SCANsat_DataManagement = Data Management - #autoLOC_SCANsat_ColorManagement = Color Management - } - ru - { - #autoLOC_SCANsat_Analyze = Анализировать данные - #autoLOC_SCANsat_StartScan = Запустить сканирование - #autoLOC_SCANsat_StopScan = Остановить сканирование - #autoLOC_SCANsat_ToggleScan = Переключить сканирование - #autoLOC_SCANsat_Extend = Расширить - #autoLOC_SCANsat_Retract = Свернуть - #autoLOC_SCANsat_Unknown = Неизвестно - #autoLOC_SCANsat_All_Disabled = Все сканирование отключено - #autoLOC_SCANsat_Disabled = Сканирование отключено - #autoLOC_SCANsat_TooLow = Слишком низко - #autoLOC_SCANsat_SubOptimal = Полуоптимально - #autoLOC_SCANsat_Ideal = Идеально - #autoLOC_SCANsat_TooHigh = Слишком высоко - #autoLOC_SCANsat_NoData = Нет данных - #autoLOC_SCANsat_Abundance = Богатство - #autoLOC_SCANsat_Surface = Поверхность - #autoLOC_SCANsat_AltitudeMin = Высота (мин): <<1>>km\n - #autoLOC_SCANsat_AltitudeBest = Высота (лучшая): <<1>>km\n - #autoLOC_SCANsat_AltitudeMax = Высота (макс): <<1>>km\n - #autoLOC_SCANsat_FOV = Угол обзора: <<1>> - #autoLOC_SCANsat_MapProjection = Проекция - #autoLOC_SCANsat_MapType = Тип карты - #autoLOC_SCANsat_MapResource = Ресурс(ы) - #autoLOC_SCANsat_MapBody = Небесное тело - #autoLOC_SCANsat_GeneralSettings = Общие настройки - #autoLOC_SCANsat_BackgroundSettings = Настройки фона - #autoLOC_SCANsat_ResourceSettings = Настройки ресурсов - #autoLOC_SCANsat_DataManagement = Управление данными - #autoLOC_SCANsat_ColorManagement = Управление цветом - } - es-es - { - #autoLOC_SCANsat_Analyze = Analizar datos - #autoLOC_SCANsat_StartScan = Empezar Escaneo - #autoLOC_SCANsat_StopScan = Terminar Escaneo - #autoLOC_SCANsat_ToggleScan = Cambiar Escaneo - #autoLOC_SCANsat_Extend = Extender - #autoLOC_SCANsat_Retract = Retractar - #autoLOC_SCANsat_Unknown = Desconocido - #autoLOC_SCANsat_All_Disabled = Todo el Escaneo Desabilitado - #autoLOC_SCANsat_Disabled = Escaneo Desabilitado - #autoLOC_SCANsat_TooLow = Muy Bajo - #autoLOC_SCANsat_SubOptimal = Sub-Óptimo - #autoLOC_SCANsat_Ideal = Ideal - #autoLOC_SCANsat_TooHigh = Muy Alto - #autoLOC_SCANsat_NoData = Sin datos - #autoLOC_SCANsat_Abundance = Abundancia - #autoLOC_SCANsat_Surface = Superf - #autoLOC_SCANsat_AltitudeMin = Altitud ( mín): <<1>>km\n - #autoLOC_SCANsat_AltitudeBest = Altitud (ideal): <<1>>km\n - #autoLOC_SCANsat_AltitudeMax = Altitud ( máx): <<1>>km\n - #autoLOC_SCANsat_FOV = FOV: <<1>> - } - zh-cn - { - #autoLOC_SCANsat_Analyze = 分析数据 - #autoLOC_SCANsat_StartScan = 开始扫描 - #autoLOC_SCANsat_StopScan = 停止扫描 - #autoLOC_SCANsat_ToggleScan = 开关扫描器 - #autoLOC_SCANsat_Extend = 展开 - #autoLOC_SCANsat_Retract = 收起 - #autoLOC_SCANsat_Unknown = 未知 - #autoLOC_SCANsat_All_Disabled = 所有扫描器已禁用 - #autoLOC_SCANsat_Disabled = 扫描器禁用 - #autoLOC_SCANsat_TooLow = 高度过低 - #autoLOC_SCANsat_SubOptimal = 欠佳 - #autoLOC_SCANsat_Ideal = 理想 - #autoLOC_SCANsat_TooHigh = 高度过高 - #autoLOC_SCANsat_NoData = 无数据 - #autoLOC_SCANsat_Abundance = 丰富 - #autoLOC_SCANsat_Surface = 表面 - #autoLOC_SCANsat_AltitudeMin = 最低高度: <<1>>km\n - #autoLOC_SCANsat_AltitudeBest = 最佳高度: <<1>>km\n - #autoLOC_SCANsat_AltitudeMax = 最大高度: <<1>>km\n - #autoLOC_SCANsat_FOV = 扫描锥角: <<1>> - #autoLOC_SCANsat_MapProjection = 地图设计 - #autoLOC_SCANsat_MapType = 地图类型 - #autoLOC_SCANsat_MapResource = 资源 - #autoLOC_SCANsat_MapBody = 天体 - #autoLOC_SCANsat_GeneralSettings = 全局设置 - #autoLOC_SCANsat_BackgroundSettings = 背景设置 - #autoLOC_SCANsat_ResourceSettings = 资源设置 - #autoLOC_SCANsat_DataManagement = 数据管理 - #autoLOC_SCANsat_ColorManagement = 颜色管理 - } - de - { - #autoLOC_SCANsat_Analyze = Daten Analysieren - #autoLOC_SCANsat_StartScan = Scan Starten - #autoLOC_SCANsat_StopScan = Scan Stoppen - #autoLOC_SCANsat_ToggleScan = Scan Ein/Aus - #autoLOC_SCANsat_Extend = Ausfahren - #autoLOC_SCANsat_Retract = Einfahren - #autoLOC_SCANsat_Unknown = Unbekannt - #autoLOC_SCANsat_All_Disabled = Alle Scans Deaktiviert - #autoLOC_SCANsat_Disabled = Scans Deaktiviert - #autoLOC_SCANsat_TooLow = Zu Niedrig - #autoLOC_SCANsat_SubOptimal = Sub-Optimal - #autoLOC_SCANsat_Ideal = Ideal - #autoLOC_SCANsat_TooHigh = Zu Hoch - #autoLOC_SCANsat_NoData = Keine Daten - #autoLOC_SCANsat_Abundance = Ausbeute - #autoLOC_SCANsat_Surface = Oberfläche - #autoLOC_SCANsat_AltitudeMin = Höhe (min): <<1>>km\n - #autoLOC_SCANsat_AltitudeBest = Höhe (ideal): <<1>>km\n - #autoLOC_SCANsat_AltitudeMax = Höhe (max): <<1>>km\n - #autoLOC_SCANsat_FOV = Sichtwinkel: <<1>> - } -} diff --git a/SCANassets/Resources/Localization/Parts.cfg b/SCANassets/Resources/Localization/Parts.cfg deleted file mode 100644 index 2df962e43..000000000 --- a/SCANassets/Resources/Localization/Parts.cfg +++ /dev/null @@ -1,38 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_Radar = SCAN brings you this high performance RADAR altimetry sensor. This is the entry-level model in this sensor family, and commonly sold in a bundle with toy rockets and remote-controlled model planes. After focus group testing revealed that 95% of the target audience tried to duct tape it to the exhaust pipe of their rocket engines, this new and improved model has been made even easier to use. - #autoLOC_SCANsat_Multi = This multichannel sensor detects radiation across several infrared, visible light, and RADAR bands. This gives it the capability to differentiate between terrain types and biomes. It can also detect anomalies such as structures on the ground. - #autoLOC_SCANsat_SAR = This Synthetic Aperture RADAR sensor uses its flight path to simulate a much larger antenna. This makes it possible to detect terrain elevation at much higher resolution. The downside is that its field of view is comparatively small, and it works better at higher altitudes. - #autoLOC_SCANsat_BTDT = This small sensor can automatically identify nearby anomalies. Since it only works over very short distances and at very low altitudes, it's primarily useful to track identified anomalies that have been visited. - } - ru - { - #autoLOC_SCANsat_Radar = SCAN представляет высокопроизводительный РАДАРный сенсор высоты! Это модель начального уровня в данном семействе датчиков, и она обычно продается в комплекте с игрушечными ракетами и радиоуправляемыми самолетиками. После того, как тестирование на потребителях показало, что 95% целевой аудитории пытались примотать датчик скотчем к выхлопной трубе своих ракетных двигателей, эта новая и улучшенная модель стала еще проще в использовании! - #autoLOC_SCANsat_Multi = Этот многоканальный датчик детектирует излучение на инфракрасном, световом и радио диапазонах. Это позволяет различать при сканировании типы ландшафтов и биомы небесного тела, а так же обнаруживать аномалии, такие как структуры на поверхности. - #autoLOC_SCANsat_SAR = Этот РАДАР с синтезированной апертурой требует своеобразную траекторию полета для имитации гораздо большей антенны. Это позволяет распознавать параметры местности при гораздо большем разрешении. Узким местом является то, что поле зрения датчика сравнительно невелико, и он лучше работает на больших высотах. - #autoLOC_SCANsat_BTDT = Этот небольшой датчик может автоматически идентифицировать близлежащие аномалии. Поскольку он работает только на очень коротких расстояниях и на очень малых высотах, в первую очередь рекомендуется распознать уже выявленные аномалии. - } - es-es - { - #autoLOC_SCANsat_Radar = SCAN te brinda este sensor de altimetría RADAR de alto rendimiento. Este es el modelo de entrada en esta familia de sensores, y comúnmente vendido en conjunto con cohetes de juguete y modelos de aviones a control remoto. Después de que una prueba grupal revelara que el 95% de la audiencia determinada tratase de pegarlo con cinta adhesiva al tubo de escape de sus motores de cohetes, este nuevo y mejorado modelo ah sido hecho más fácil de usar. - #autoLOC_SCANsat_Multi = Este sensor multicanal detecta radiación a través de bandas de infrarojo, luz visible y RADAR. Esto le da la capacidad de diferenciar entre diferentes tipos de terrenos y biomas. También puesde detectar anomalias tales como estructuras en el suelo. - #autoLOC_SCANsat_SAR = Este sensor de Apertura Sintética RADAR usa su trayectoria de vuelo para simular una antena mas larga. Haciendo esto posible detectar la elevacion del terreno a una mayor resolución. El inconveniente es que su campo de vision es comparativamente pequeño, y funciona mejor a mayores altitudes. - #autoLOC_SCANsat_BTDT = Este pequeño sensor puede detectar automáticamente anomalias cercanas. Ya que solo trabaja a muy corta distancia y a muy baja altitud, es principalmente útil para tener un historial de las anomalias identificadas que han sido visitadas. - } - zh-cn - { - #autoLOC_SCANsat_Radar = SCAN给你带来高性能雷达测高传感器。它是这个传感器家族的入门型,通常和玩具火箭、遥控飞机模型捆绑销售。研究小组经研究得知95%的目标受众尝试用胶带把它粘到火箭排气口上,这种改进似乎使之更容易使用。 - #autoLOC_SCANsat_Multi = 这个多谱段传感器检测到的辐射包括了红外波段,可见光波段与雷达波段,这给了它区分地形类型和生物群系的能力。它也可以用于扫描异常点,比如地表特殊结构。 - #autoLOC_SCANsat_SAR = 这种合成孔径雷达测高传感器使用它的飞行路径来模拟一个更大的天线,这使得其可以使用更高的分辨率扫描地形,缺点是视野比较小,并且它在更高的地方才能获得最佳工作状态。 - #autoLOC_SCANsat_BTDT = 这个小的传感器能自动识别附近的异常,就算它只在非常短的距离内和非常低的高度上工作,可用于跟踪已识别的异常点,非常有用。 - } - de - { - #autoLOC_SCANsat_Radar = SCAN bringt Euch diesen Hochleistungs-RADAR-altimetrie-Sensor. Dies ist das Einstiegsmodell dieser Sensorfamilie und wird üblicherweise zusammen mit Spielzeugraketen und ferngesteuerten Modellflugzeugen ausgeliefert. Als nach gezieltem Gruppentesten herausgefunden wurde, daß 95% des Zielklientels einfach versuchen das Gerät mit Panzer-Tape an das Auspuffrohr einer Raketenturbopumpe zu befestigen, wurde dieses verbesserte Modell in seiner Handhabung deutlich vereinfacht. - #autoLOC_SCANsat_Multi = Dieser Multispektrale Mehrkanalsensor detektiert Strahlung über mehrere Infrarot, visuelle und Radar-Frequenzbänder. Dies gibt ihm die Fähigkeit zwischen verschiedenen Biomen und Geländearten zu unterscheiden. Ebenso kann er Anomalien und Strukturen auf dem Boden detektieren. - #autoLOC_SCANsat_SAR = Dieses Radar mit synthetischer Apertur (SAR) nutzt seinen Orbit um eine deutlich größere Antenne zu simulieren. Dies ermöglicht es äußerst hoch auflösende Terrain-Elevationsdaten zu erhalten. Die Kehrseite jedoch ist der relativ kleine Sichtwinkel und die Anforderung an größere Orbitale höhen. - #autoLOC_SCANsat_BTDT = Dieser kleine Sensor kann automatisch Anomalien in geringer Entfernung identifizieren. Da er nur auf sehr kurzen Reichweiten arbeitet, ist er hauptsächlich zum detaillierten scannen bereits aufgespürter Anomalien nützlich. - } -} diff --git a/SCANassets/Resources/Localization/Science.cfg b/SCANassets/Resources/Localization/Science.cfg deleted file mode 100644 index d08c5d422..000000000 --- a/SCANassets/Resources/Localization/Science.cfg +++ /dev/null @@ -1,429 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_Science_Lo_Title = Low Resolution Altimetry Scan - #autoLOC_SCANsat_Science_Lo_Default1 = Analyzed low resolution altimetry data. - #autoLOC_SCANsat_Science_Lo_Defualt2 = "RADAR Altimetry Sensor is reporting in. I don't know how, but we have a strong signal and are getting data. This calls for a celebratory round of snacks!" - #autoLOC_SCANsat_Science_Lo_Sun = You wonder if the sensor is malfunctioning. - #autoLOC_SCANsat_Science_Lo_Moho = Well, at least this low resolution data makes Moho look kind of cool. Not quite giant lakes of lava, but still cool. - #autoLOC_SCANsat_Science_Lo_Eve = You contemplate the grainy, rough altitude estimates returned by the scanner and wish that you had sent the high resolution scanner instead. Oh well, it's a great reason to launch more rockets! (As if we really needed a reason anyway.) - #autoLOC_SCANsat_Science_Lo_Gilly = Your low resolution scanning confirms what you already knew: Gilly is just a lumpy rock floating in space. At least you don't have to strain your eyes looking at the report. - #autoLOC_SCANsat_Science_Lo_Kerbin = Even this low resolution data of the planets surface is amazingly useful. You can't wait to deploy this technology on the Mun or beyond. - #autoLOC_SCANsat_Science_Lo_Mun = The data shows broad, sweeping strokes of the landscape below. A high resolution scan would be more helpful, but you can probably find a suitable landing site using this data. - #autoLOC_SCANsat_Science_Lo_Minmus = You grudgingly acknowledge that the guys over at the Kerbal Astronomical Society were right: Minmus really is a moon. You wouldn't have believed it if you hadn't seen the altimetry scan with your own eyes. - #autoLOC_SCANsat_Science_Lo_Duna = This low resolution data is a bit grainy and distorted, but it will still be invaluable in searching for a proper landing site on Duna. Suddenly a long-term Duna mission just became a real prospect. - #autoLOC_SCANsat_Science_Lo_Ike = As you pore over the data you are struck by how similar Ike appears to the Mun. You wonder about their comparative surface geology. - #autoLOC_SCANsat_Science_Lo_Dres = Even with the low resolution scanner it is quite apparent that Dres has some prominent mountains. You can't wait for the resource scan results because you're sure "there's gold in them their hills". - #autoLOC_SCANsat_Science_Lo_Jool = Altimetry, what altimetry? It's a gas giant for Kerbal's sake. Let's just pick a number at random and call it good. - #autoLOC_SCANsat_Science_Lo_Laythe = The sensor seems unable to penetrate the water. - #autoLOC_SCANsat_Science_Lo_Vall = Well, here it is: "The data you Vall been waiting for! Hahahahaha! Hahaha. Ha. Ha? What, SOMEONE has to find that funny." - #autoLOC_SCANsat_Science_Lo_Tylo = You're still not sure what the view from the surface with Laythe, Vall, and Jool overhead would be like, but this data will sure help you find a landing site so that you can find out. - #autoLOC_SCANsat_Science_Lo_Bop = Well, the low resolution altimetry data is in, and you decide to package it up and send it back to KSC. You just hope that there is enough juice left in the batteries to get it all sent and keep basic systems running at the same time. - #autoLOC_SCANsat_Science_Lo_Pol = The low resolution scan confirms that Pol does indeed look like a giant pollen grain. Until you upgrade to a high resolution scan, and advance the field of electron microscopy, you will still be left with the question of how strong this resemblance truly is. - #autoLOC_SCANsat_Science_Lo_Eeloo = The scientists back on Kerbin have been waiting for this data for a long time. No doubt there will be celebrations and snacks for all when it gets there. - #autoLOC_SCANsat_Science_Hi_Title = High Resolution Altimetry Scan - #autoLOC_SCANsat_Science_Hi_Default1 = Analyzed high resolution altimetry data. - #autoLOC_SCANsat_Science_Hi_Default2 = "The High Resolution Altimetry Scan definitely is better then the low resolution one. SCAN has once again proven their scanning skills." - #autoLOC_SCANsat_Science_Hi_Sun = You realize that you could have saved some money if you had trusted the low resolution sensor in the first place. - #autoLOC_SCANsat_Science_Hi_Moho = Finally, the awesomeness has returned to Moho! It may not be giant flowing rivers of lava, but this data is spectacular! - #autoLOC_SCANsat_Science_Hi_Eve = The high resolution sensor cut through the hazy purple atmosphere well, and you are able to distinguish minute details on the surface. The scientists back at KSC will be relieved. - #autoLOC_SCANsat_Science_Hi_Gilly = Even in super-high resolution Gilly somehow seems to be in low resolution. That is one seriously lumpy surface. - #autoLOC_SCANsat_Science_Hi_Kerbin = You become mesmerised by all the colors in the data that the new high resolution technology provides. Suddenly Mission Control awakes you from your stupor, and you quickly wipe the drool from the corner of your mouth. - #autoLOC_SCANsat_Science_Hi_Mun = "Hah! No more boring grey moon. Just look at all the colors in that scan! Now we can really pinpoint a prime landing site." - #autoLOC_SCANsat_Science_Hi_Minmus = Wow, not only is Minmus real, it has some amazing topography! You can't wait to land in one of those flat areas. - #autoLOC_SCANsat_Science_Hi_Duna = This high resolution data is amazing. You begin analyzing the hills and valleys, searching for the perfect landing spot. - #autoLOC_SCANsat_Science_Hi_Ike = The data confirms the presence of large sloping hills and craters. Hopefully the analysts back at KSC can use this to find a suitable landing place. - #autoLOC_SCANsat_Science_Hi_Dres = Those... are some serious mountains. You are glad to be analysing this data, rather than trying to climb up some of those hills. - #autoLOC_SCANsat_Science_Hi_Jool = Even in high resolution there does not appear to be a surface on Jool. So much for that theory. At least we still have the grant money! - #autoLOC_SCANsat_Science_Hi_Laythe = The map shows mostly negative heights. You consider draining Laythe just so you can climb its mountains. - #autoLOC_SCANsat_Science_Hi_Vall = The data from the high resolution scanner confirms that the surface of Vall is, indeed, "crinkly". Guess Gene owes you fifty funds. - #autoLOC_SCANsat_Science_Hi_Tylo = Tylo may have been the first of Jool's moons to be discovered, but this data makes it feel like you are discovering the moon for the first time. - #autoLOC_SCANsat_Science_Hi_Bop = Wow, look at all those colors. You have no idea what all that data means, but you're sure that this high resolution data will impress everyone back at KSC. - #autoLOC_SCANsat_Science_Hi_Pol = Even with this amount of high-quality data it is still difficult to find a suitable landing site. How the heck was this moon made, anyway? - #autoLOC_SCANsat_Science_Hi_Eeloo = The cracks and fissures on the surface stand out in striking detail as you examine the data from the SAR Altimetry Sensor. Just look at all those potential landing sites. - #autoLOC_SCANsat_Science_Multi_Title = Multispectral Analysis - #autoLOC_SCANsat_Science_Multi_Default1 = Analyzed multispectral sensor data. - #autoLOC_SCANsat_Science_Multi_Default2 = "Wow, how are we even receiving this data right now? Those SCAN engineers really know what they are doing. Either that or they have not the slightest idea what they are doing. Either way, it's time for some snacks!" - #autoLOC_SCANsat_Science_Multi_Sun1 = You are surprised by the lack of biometric data. - #autoLOC_SCANsat_Science_Multi_Sun2 = you wonder why there are no poles visible on the biome map. - #autoLOC_SCANsat_Science_Multi_Moho = As you pore through the data you wonder if you will find the elusive lava lake biome that so many scientists had speculated about. - #autoLOC_SCANsat_Science_Multi_Eve = The intricately swirled lines of Eve's biome map remind you of lava lamps and tie dyed shirts. Man those were the days. Next spacecraft to Eve will have a mandatory disco ball! - #autoLOC_SCANsat_Science_Multi_Gilly = Even with all that squinting those astronomers couldn't see the biomes here. Hah! Dumb astronomers! That's 1 point for science and 0 points for uhhhh... science. - #autoLOC_SCANsat_Science_Multi_Kerbin = This biome data is truly astounding. You just hope that it is crumb-resistant, as you remember eating a particularly messy box of snacks the day that the sensor was installed. - #autoLOC_SCANsat_Science_Multi_Mun = Huh, never knew the moon had biomes. Wonder which one the cheese is in. And if there are any other snacks there as well. - #autoLOC_SCANsat_Science_Multi_Minmus = You contemplate how fitting the name "Greater Flats" is as you pore over the data. Whoever thinks up these names is one smart Kerbal, unlike the engineers we have around here. - #autoLOC_SCANsat_Science_Multi_Duna = You comb through the biome data looking for just the right spot to gather all that sweet, sweet science data from. Mmmmm, science... and snacks. - #autoLOC_SCANsat_Science_Multi_Ike = As you pore over the data coming back from Ike you are surprised at the biome diversity. After all it's just a moon. You can't wait to get your hands on some of the scientific data locked up down there. - #autoLOC_SCANsat_Science_Multi_Dres = Poles, check. Highlands, check. Midlands, check. Lowlands, check. Ridges, check. Impact Ejecta, check. Impact Craters, check. Canyons, check. I think we got it all. Time to shut down the scanner and have some snacks! - #autoLOC_SCANsat_Science_Multi_Jool1 = You are surprised by the lack of biometric data. - #autoLOC_SCANsat_Science_Multi_Jool2 = you wonder why there are no poles visible on the biome map. - #autoLOC_SCANsat_Science_Multi_Laythe = You want to throw a party every time the sensor detects a land biome. - #autoLOC_SCANsat_Science_Multi_Vall = Pretty straightforward data: Poles, Highlands, Midlands, and Lowlands. That's a wrap. Now let's have some snacks! - #autoLOC_SCANsat_Science_Multi_Tylo = You are struck by the diversity of the biomes in the report. Not only is Tylo cool to look up from, it's cool to look down at too. - #autoLOC_SCANsat_Science_Multi_Bop = This detailed analysis of Bop's biomes will advance our understanding of the little moon beyond anything we could have hoped. It's been a great day. Snacks all around! - #autoLOC_SCANsat_Science_Multi_Pol = As you take in the biome data coming from Pol you begin to contemplate the possibility that pollen grains have biomes too. Then you quickly squash the thought, knowing what the activists would be like if they got a hold of that idea. - #autoLOC_SCANsat_Science_Multi_Eeloo = It is astounding to have such detailed biome data on a planet so far from Kerbin. You gaze in awe at the report as the data comes in. - #autoLOC_SCANsat_Science_Resource_Title = Resources Scan - #autoLOC_SCANsat_Science_Resource_Default1 = Analyzed low resolution resource data. - #autoLOC_SCANsat_Science_Resource_Default2 = "We are receiving resource sensor data now; this information looks way better than what we were getting from that other group..." - #autoLOC_SCANsat_Science_Resource_Sun = Perhaps the sun is not the best place to find surface resources. - #autoLOC_SCANsat_Science_Resource_Moho = We finally have some information about resources on Moho's surface, now we just need to figure out why anyone would want to land there. - #autoLOC_SCANsat_Science_Resource_Eve = We're getting lots of good data on Eve's surface resources, this will be great when we need to figure out how to get off of the planet. - #autoLOC_SCANsat_Science_Resource_Gilly = Initial resource scans of Gilly look interesting; it's almost like asteroid mining. - #autoLOC_SCANsat_Science_Resource_Kerbin = We finally have some data about resources on Kerbin, because, as everyone knows, if you want basic information about your own planet nothing beats sending an expensive, complicated satellite into orbit. - #autoLOC_SCANsat_Science_Resource_Mun = This resource data gives us our first good look at how suitable the Mun may be for mining purposes. - #autoLOC_SCANsat_Science_Resource_Minmus = At last, we have some resource data on Minmus, every Kerbonaut's first choice for a starter mining facility. - #autoLOC_SCANsat_Science_Resource_Duna = This resource data brings us one step closer to reliving all of our favorite lines from that recent hit Kerbal movie. - #autoLOC_SCANsat_Science_Resource_Ike = Ike may not be the solar system's most interesting celestial body, but that doesn't make this resource data any less useful. - #autoLOC_SCANsat_Science_Resource_Dres = We might as well just search some of the nearby asteroids for resources; who would ever want to bother with Dres. - #autoLOC_SCANsat_Science_Resource_Jool = Hmm, maybe a gas giant isn't the best place to go looking for surface resources... - #autoLOC_SCANsat_Science_Resource_Laythe = Well, there's lots of good data here, but precious little area on the surface where we might actually be able to land and take advantage of the resources. - #autoLOC_SCANsat_Science_Resource_Vall = Resource scans of icy Vall provide lots of interesting data. - #autoLOC_SCANsat_Science_Resource_Tylo = We'll take any resource information we can get on scary looking Tylo. - #autoLOC_SCANsat_Science_Resource_Bop = Bop may not be anyone's first choice for deciding where to look for resources, but this data may still come in handy some day. - #autoLOC_SCANsat_Science_Resource_Pol = In addition to pollen grains and strange lumpy things, Pol appears to have some interesting resource deposits. - #autoLOC_SCANsat_Science_Resource_Eeloo = Now that we've made it all the way out to Eeloo, we might as strip mine the place and move on to whatever is beyond. - } - ru - { - #autoLOC_SCANsat_Science_Lo_Title = Сканирование высоты низкого разрешения - #autoLOC_SCANsat_Science_Lo_Default1 = Обработынные карты высот низкого разрешения - #autoLOC_SCANsat_Science_Lo_Defualt2 = "РАДАРный сканер высоты докладывает. Я не знаю, как, но мы имеем сильный сигнал и получаем данные. Это требует праздничных закусок!" - #autoLOC_SCANsat_Science_Lo_Sun = Вы задаетесь вопросом, работает ли датчик? - #autoLOC_SCANsat_Science_Lo_Moho = Ну, по крайней мере, данные с низким разрешением заставляют Мохо выглядеть классно. Это не совсем гигантские озера лавы, но все выглядит круто! - #autoLOC_SCANsat_Science_Lo_Eve = Вы рассматриваете зернистые, грубые расчеты высоты, возвращаемые сканером, и хотите отправить сканер с высоким разрешением. Ну, это отличная причина для запуска большего количества ракет! (Как будто нам действительно нужна причина) - #autoLOC_SCANsat_Science_Lo_Gilly = Сканирование с низким разрешением подтверждает то, что вы уже знали: Джилли - это просто кусок камня, плавающий в космосе. По крайней мере, вам не нужно напрягать глаза, глядя на отчет. - #autoLOC_SCANsat_Science_Lo_Kerbin = Даже данные с низким разрешением поверхности планет удивительно полезны. Вы ждете не дождетесь, чтобы применить эту технологию на Мун или за ее пределами. - #autoLOC_SCANsat_Science_Lo_Mun = Данные показывают широкие, расчерченные штрихи ландшафта ниже. Сканирование с высоким разрешением было бы более полезным, но даже сейчас вы, вероятно, найдете подходящую площадку для посадки, используя эти данные. - #autoLOC_SCANsat_Science_Lo_Minmus = Вы неохотно признаете, что ребята в Кербальском астрономическом обществе были правы: Минмус действительно луна. Вы бы не поверили, если бы не видели сканирование альтиметрии собственными глазами. - #autoLOC_SCANsat_Science_Lo_Duna = Данные с низким разрешением немного зернистые и искаженные, но все равно будет иметь неоценимое значение для поиска подходящего посадочного места на Дюне. Внезапно долгосрочная миссия Дюны стала настоящей перспективой. - #autoLOC_SCANsat_Science_Lo_Ike = По мере того, как вы порываете данные, вы поражаетесь тому, как подобное Ик проявляется в Муне. Вы интересуетесь их сравнительной поверхностной геологией. - #autoLOC_SCANsat_Science_Lo_Dres = Даже с помощью сканера с низким разрешением вполне очевидно, что у Дреса есть некоторые выдающиеся горы. Вы ждете не дождетесь результатов сканирования ресурсов, потому что уверены: «в них есть золото на холмах». - #autoLOC_SCANsat_Science_Lo_Jool = Альтиметрия, какая альтиметрия? Это газовый гигант Кербола. Давайте просто выберите номер наугад и назовите это хорошо. - #autoLOC_SCANsat_Science_Lo_Laythe = Датчик кажется неспособным проникнуть в воду. - #autoLOC_SCANsat_Science_Lo_Vall = Ну, вот он: «Данные, которые вы ожидали, Валл! Ха-ха-ха-ха! Ха-ха-ха. Ха-ха. Что, КТО-ТО нужно найти это смешно». - #autoLOC_SCANsat_Science_Lo_Tylo = Вы по-прежнему не уверены в том, что будет выглядеть вид сверху с помощью тотализатора Лейт, шара Дреса и Джула, но эти данные обязательно помогут вам найти место для посадки, чтобы вы могли это выяснить. - #autoLOC_SCANsat_Science_Lo_Bop = Ну, данные с низкой разрешающей способностью имеются, и вы решили их упаковать и отправить в ККЦ. Вы просто надеетесь, что в батареях осталось достаточное количество энергии, чтобы получить все это, и одновременно поддерживать базовые системы. - #autoLOC_SCANsat_Science_Lo_Pol = Сканирование с низким разрешением подтверждает, что Пол действительно выглядит как гигантское зерно пыльцы. Пока вы не перейдете на сканирование с высоким разрешением и не продвинетесь в область электронной микроскопии, вам все равно останется вопрос о том, насколько сильно это сходство действительно. - #autoLOC_SCANsat_Science_Lo_Eeloo = Ученые, вернувшиеся на Кербин, долгое время ждали этих данных. Без сомнения, там будут празднования и закуски для всех, когда данные туда попадут. - #autoLOC_SCANsat_Science_Hi_Title = Сканирование высоты Высокого разрешения - #autoLOC_SCANsat_Science_Hi_Default1 = Обработанная карта Высокого разрешения. - #autoLOC_SCANsat_Science_Hi_Default2 = «Высокое разрешение определенно лучше, чем низкое. СКАН еще раз доказал свои навыки сканирования». - #autoLOC_SCANsat_Science_Hi_Sun = Вы понимаете, что могли бы сэкономить деньги, если бы вы доверяли датчику низкого разрешения. - #autoLOC_SCANsat_Science_Hi_Moho = Наконец, удивительность вернулась в Мохо! Это могут быть не гигантские текучие реки лавы, но эти данные впечатляют! - #autoLOC_SCANsat_Science_Hi_Eve = Датчик высокого разрешения пробивается сквозь туманную фиолетовую атмосферу, и вы можете отличить мельчайшие детали на поверхности. Ученые в ККЦ будут спокойны. - #autoLOC_SCANsat_Science_Hi_Gilly = Даже в сверхвысоком разрешении Джилли каким-то образом кажется в низком разрешении. Это одна серьезная кусковая поверхность. - #autoLOC_SCANsat_Science_Hi_Kerbin = Вы становитесь загипнотизированными всеми цветами в данных, которые предоставляет новая технология высокого разрешения. Внезапно Звонок на обед пробуждает вас от вашего оцепенения, и вы быстро вытираете слюну из угла рта. - #autoLOC_SCANsat_Science_Hi_Mun = «Нет, теперь это не скучная серая луна, просто посмотри на все цвета в этом сканировании! Теперь мы можем точно определить место посадки». - #autoLOC_SCANsat_Science_Hi_Minmus = Вау, это не только Минмуские площадки, но и потрясающая топография! Вы не можете дождаться приземления в одной из этих плоских областей. - #autoLOC_SCANsat_Science_Hi_Duna = Это данные с высоким разрешением потрясающие. Вы начинаете анализировать холмы и долины, ища идеальное место для посадки. - #autoLOC_SCANsat_Science_Hi_Ike = Данные подтверждают наличие больших наклонных холмов и кратеров. Надеюсь, аналитики в ККЦ могут использовать это, чтобы найти подходящее место для посадки. - #autoLOC_SCANsat_Science_Hi_Dres = Это ... серьезные горы. Вы думаете как бы обработать эти данные вместо того, чтобы пытаться подняться на некоторые из этих пиков. - #autoLOC_SCANsat_Science_Hi_Jool = Даже в высоком разрешении, похоже, нет поверхности на Джул. Так много для этой теории. По крайней мере, у нас все еще есть деньги с гранта! - #autoLOC_SCANsat_Science_Hi_Laythe = На карте показаны преимущественно отрицательные высоты. Вы считаете, что вы сглаживаете Лайт, чтобы вы могли подняться на горы. - #autoLOC_SCANsat_Science_Hi_Vall = Данные из сканера с высоким разрешением подтверждают, что поверхность Волл, действительно, "измятая". Угадайте, Джин должен вам пятьдесят фондов. - #autoLOC_SCANsat_Science_Hi_Tylo = Тило, возможно, был первым из лун Джула, который должен быть обнаружен, но эти данные заставляют чувствовать, что вы впервые открываете луну. - #autoLOC_SCANsat_Science_Hi_Bop = Ничего себе, посмотри на все эти цвета. Вы не представляете, что означают все эти данные, но вы уверены, что данные с высоким разрешением поражают всех в ККЦ. - #autoLOC_SCANsat_Science_Hi_Pol = Даже при таком количестве высококачественных данных по-прежнему сложно найти подходящую площадку для посадки. Как все-таки эта луна сделалась? - #autoLOC_SCANsat_Science_Hi_Eeloo = Трещины и трещины на поверхности выделяются поразительной деталью, когда вы изучаете данные датчика. Просто посмотрите на все эти потенциальные площадки для посадки. - #autoLOC_SCANsat_Science_Multi_Title = Мультиспектральный анализ - #autoLOC_SCANsat_Science_Multi_Default1 = Обработанные данные датчика мультиспектрального анализа. - #autoLOC_SCANsat_Science_Multi_Default2 = «Вау, как мы получаем данные прямо сейчас? Эти инженеры SCAN действительно знают, что они делают. Либо это, либо они не имеют ни малейшего представления о том, что они делают. В любом случае, пришло время для некоторых закусок!» - #autoLOC_SCANsat_Science_Multi_Sun1 = Вы удивлены отсутствием биометрических данных. - #autoLOC_SCANsat_Science_Multi_Sun2 = Вы удивляетесь, почему на карте биома нет видимых полюсов. - #autoLOC_SCANsat_Science_Multi_Moho = По мере того, как вы просматриваете данные, вам интересно, обнаружите ли вы неуловимый биом озера лавы, о котором столько размышляли многие ученые. - #autoLOC_SCANsat_Science_Multi_Eve = Затейливо закрученные линии карты биомов Ив напоминают вам о ламповых лампах и галстуках, окрашенных в рубашки. Хорошо было тем временем. На следующем космическом корабле Еве будет обязательный бал. - #autoLOC_SCANsat_Science_Multi_Gilly = Даже при том, что эти косички эти астрономы не могли видеть здесь биомы. Хах! Тупые астрономы! Это 1 очко для науки и 0 баллов за уххх ... науку. - #autoLOC_SCANsat_Science_Multi_Kerbin = Данные биома действительно поразительны. Вы просто надеетесь, что он устойчив к крошке, поскольку вы помните, что в день, когда был установлен датчик, брали особенно крошашуюся коробку с печеньками. - #autoLOC_SCANsat_Science_Multi_Mun = Да, никогда не знал, что у луны есть биомы. Интересно, в какой из них сыр. И есть ли и другие закуски. - #autoLOC_SCANsat_Science_Multi_Minmus = Вы размышляете над тем, как подгонять название "Большие плоскости", как вы лениво смотрите данные. Кто бы ни думал об этих именах, тот умный Кербал, в отличие от инженеров, которых мы имеем здесь. - #autoLOC_SCANsat_Science_Multi_Duna = Вы расчесываете данные биома, ища только подходящее место, чтобы собрать все эти сладкие, сладкие научные данные. Ммммм, наука ... и закуски. - #autoLOC_SCANsat_Science_Multi_Ike = По мере того, как вы перебираете данные, возвращаемые с Айка, вы удивляетесь разнообразию биомов. В конце концов, это просто луна. Вы ждете не дождетесь, когда получите какие-то научные данные. - #autoLOC_SCANsat_Science_Multi_Dres = Поляки, проверка. Нагорье, проверьте. Мидлендс, проверьте. Низменность, проверка. Риджес, чек. Воздействие выброса, проверьте. Кратеры воздействия, проверка. Каньоны, проверьте. Думаю, у нас все получилось. Время выключить сканер и взять закуски! - #autoLOC_SCANsat_Science_Multi_Jool1 = Вы удивлены отсутствием биометрических данных. - #autoLOC_SCANsat_Science_Multi_Jool2 = Вы удивляетесь, почему на карте биома нет видимых полюсов. - #autoLOC_SCANsat_Science_Multi_Laythe = Вы хотите бросить вечеринку каждый раз, когда датчик обнаруживает наземный биом. - #autoLOC_SCANsat_Science_Multi_Vall = Довольно простые данные: поляки, нагорья, Мидлендс и Низменность. Это обертка. Теперь давай закуски! - #autoLOC_SCANsat_Science_Multi_Tylo = Вы поражены разнообразием биомов в отчете. Мало того, что Тило круто смотреть, здорово смотреть вниз. - #autoLOC_SCANsat_Science_Multi_Bop = Этот подробный анализ биомов Бопа будет способствовать нашему пониманию маленькой луны за пределами того, что мы могли бы надеяться. Это был отличный день. Закуски вокруг! - #autoLOC_SCANsat_Science_Multi_Pol = Когда вы берете данные биома, поступающие от Пол, вы начинаете рассматривать возможность того, что пыльцевые зерна также имеют биомы. Затем вы быстро давите эту мысль, зная, как будут выглядеть активисты зеленых, если они поймут эту идею. - #autoLOC_SCANsat_Science_Multi_Eeloo = Удивительно иметь такие подробные данные о биоме на планете, которая находится далеко от Кербина. Вы в восторге смотрите отчет, когда поступают данные. - #autoLOC_SCANsat_Science_Resource_Title = Сканирование ресурсов - #autoLOC_SCANsat_Science_Resource_Default1 = Обработанные данные о ресурсах низкого разрешения. - #autoLOC_SCANsat_Science_Resource_Default2 = «Сейчас мы получаем данные датчика ресурсов, эта информация выглядит лучше, чем то, что мы получали от другой группы ...» - #autoLOC_SCANsat_Science_Resource_Sun = Возможно, звезда не лучшее место для поиска ресурсов. - #autoLOC_SCANsat_Science_Resource_Moho = Наконец, у нас есть информация о ресурсах на поверхности Мохо, теперь же нам просто нужно выяснить, почему кто-то хочет туда приземляться. - #autoLOC_SCANsat_Science_Resource_Eve = Мы получаем много хороших данных о поверхностных ресурсах Ив, это будет здорово, когда нам нужно выяснить, как сойти с планеты. - #autoLOC_SCANsat_Science_Resource_Gilly = Первоначальные исследования ресурсов Гилли выглядят интересными; Это почти похоже на добычу астероидов. - #autoLOC_SCANsat_Science_Resource_Kerbin = Наконец, у нас есть некоторые данные о ресурсах на Кербине, потому что, как известно, если вы хотите, чтобы основная информация о вашей собственной планете ничего не делала, отправляя на орбиту дорогостоящий сложный спутник. - #autoLOC_SCANsat_Science_Resource_Mun = Эти данные о ресурсах дают нам наш первый хороший взгляд на то, насколько подходящим может быть Мун для целей добычи. - #autoLOC_SCANsat_Science_Resource_Minmus = Наконец, у нас есть некоторые данные о ресурсах на Минмусе, являющемся каждым первым выбором для начала добычи. - #autoLOC_SCANsat_Science_Resource_Duna = Эти данные о ресурсах приближают нас к тому, чтобы пережить все наши любимые строки из недавнего фильма «Кербал». - #autoLOC_SCANsat_Science_Resource_Ike = Айк может быть не самым интересным небесным телом Солнечной системы, но это не делает данные ресурса менее полезными. - #autoLOC_SCANsat_Science_Resource_Dres = Мы могли бы также просто найти некоторые из близлежащих астероидов для ресурсов; Который когда-нибудь захочет побеспокоиться с Дресом. - #autoLOC_SCANsat_Science_Resource_Jool = Хм, может быть, газовый гигант - не лучшее место для поиска поверхностных ресурсов ... - #autoLOC_SCANsat_Science_Resource_Laythe = Ну, здесь есть много хороших данных, но здесь очень мало места на поверхности, где мы могли бы реально приземлиться и воспользоваться ресурсами. - #autoLOC_SCANsat_Science_Resource_Vall = Сканирование ресурсов ледяного Валл предоставляет множество интересных данных. - #autoLOC_SCANsat_Science_Resource_Tylo = Мы возьмем любую информацию о ресурсах, которую мы можем получить от страшного Тило. - #autoLOC_SCANsat_Science_Resource_Bop = Bop не может быть первым выбором для решения, где искать ресурсы, но эти данные могут когда-нибудь пригодиться. - #autoLOC_SCANsat_Science_Resource_Pol = В дополнение к пыльцевым зернам и странным кусковым вещам у Пола, похоже, есть интересные вклады в ресурсы. - #autoLOC_SCANsat_Science_Resource_Eeloo = Теперь, когда мы добрались до Иилу, мы могли бы добыть все что нужно и перейти к тому, что за его пределами. - - } - es-es - { - #autoLOC_SCANsat_Science_Lo_Title = Scáner de Altimetría de Baja Resolucion - #autoLOC_SCANsat_Science_Lo_Default1 = Se analizaron los datos de altimetría de baja resolución. - #autoLOC_SCANsat_Science_Lo_Defualt2 = "Sensor de altimetría RADAR está reportando. No se como, pero tenemos una señal fuerte y esta obteniendo datos. Esto amerita una ronda de celebracion de Snacks!" - #autoLOC_SCANsat_Science_Lo_Sun = Te pregutnas si el sensor está funcionando mal. - #autoLOC_SCANsat_Science_Lo_Moho = Bueno, al menos estos datos de baja resolucion hacen parecer genial a Moho. No son lagos gigantes de lava, pero genial sin duda. - #autoLOC_SCANsat_Science_Lo_Eve = Contemplas los borrosos, y ásperos estimados de altitud regresados por el scáner y deseas haber enviado el escáner de alta resolucion. Oh bueno, ¡Es una gran razón para lanzar mas cohetes! (Como si necesitaramos una razon de todos modos) - #autoLOC_SCANsat_Science_Lo_Gilly = Tu scaneo de baja resolución confirma lo que ya sabías: Gilly solo es una roca grumosa flotando en el espacio. Al menos no tienes que esforzar tus ojos al ver el reporte. - #autoLOC_SCANsat_Science_Lo_Kerbin = Incluso estos datos de baja resolución de la superficie del planeta son sorprendentemente útiles. No puedes esperar para desplegar esta tecnología hacia Mun o más allá. - #autoLOC_SCANsat_Science_Lo_Mun = Los datos se muestran extensos, recorriendo trazos del terreno debajo. Un scaneo de alta resolucion ayudaria más, pero probablemente puedes usar estos datos para encontrar un punto de aterrizaje adecuado. - #autoLOC_SCANsat_Science_Lo_Minmus = Reconoces a regañadientes que los chicos en la Sociedad Astronómica de Kerbal tenian rezón: Minmus es realmente una luna. No lo hubieses creido si no hubieras visto el escáner de altimetría con tus propios ojos. - #autoLOC_SCANsat_Science_Lo_Duna = Estos datos de baja resolución son un poco borrosos y distorsionados, pero aun será invaluable en la busqueda de un punto de aterrizaje adecuado en Duna. De repente, una misión de largo plazo a Duna se vuelve una perspectiva real. - #autoLOC_SCANsat_Science_Lo_Ike = Mientras revisas los datos te sorprendes por los similar que es Ike con Mun . Te preguntas sobre la comparación entre la geología de sus superficies. - #autoLOC_SCANsat_Science_Lo_Dres = Incluso con este escáner de baja resolución es bastante aparente que Dres tiene algunas prominentes montañas. No puedes esperar por los resultados del escáner de recursos por que estás seguro que "¡Hay oro en esas montañas!". - #autoLOC_SCANsat_Science_Lo_Jool = ¿Altimetría, que altimetría? Es un gigante gaseoso por el amor de Kerbal. Solo escojamos un número aleatorio y listo. - #autoLOC_SCANsat_Science_Lo_Laythe = El sensor parece incapaz de penetrar el agua. - #autoLOC_SCANsat_Science_Lo_Vall = Bueno, aquí está: "Los Vall-iosos datos que todos estaban esperando. JAJAJAJA. Jajaja. Ja. Ja? ¿Qué? Al menos ALGUIEN tiene que pensar que fue chistoso." - #autoLOC_SCANsat_Science_Lo_Tylo = Aún no estás seguro como la vista desde arriba va a ser en Laythe, Vall y Jool; pero estos datos de seguro te van a ayudar a encontrar un punto de aterrizaje para poder averiguarlo. - #autoLOC_SCANsat_Science_Lo_Bop = Bueno, los datos de altimetría de baja resolucion están aqui, y decides empacarlo y enviarlo de vuelta al CSK. Solo esperas que haya suficiente jugo en las baterías para enviar todo y matener los sistemas basicos funcionando al mismo tiempo. - #autoLOC_SCANsat_Science_Lo_Pol = El scaneo de baja resolución confirma que Pol luce como un grano gigante de polen. Hasta que mejores a un escáner de alta resolución, y avances en el campo de los microscopios de electrones, te quedaras con la duda de que tan fuerte es está similitud realmente. - #autoLOC_SCANsat_Science_Lo_Eeloo = Los científicos en Kerbin han estado esperando por estos datos por mucho tiempo. No hay duda de que habra una celebración y muchos snacks para todos cuando lleguen los datos. - #autoLOC_SCANsat_Science_Hi_Title = Scáner de Altimetría de Alta Resolución - #autoLOC_SCANsat_Science_Hi_Default1 = Se analizaron los datos de altimetría de alta resolución. - #autoLOC_SCANsat_Science_Hi_Default2 = "El Scáner de Altimetría de Alta Resolución se definitivamente mejor que el de baja resolución. SCAN una vez mas ah demostrado sus habilidades de escaneo." - #autoLOC_SCANsat_Science_Hi_Sun = Te das cuenta que hubieras ahorrado dinero si le hubieses creido al escáner de baja resolución en primer lugar. - #autoLOC_SCANsat_Science_Hi_Moho = ¡Finalmente, lo asombroso ah regresado a Moho! Quizás no sean ríos gigantes de lava, pero estos datos son espectaculares! - #autoLOC_SCANsat_Science_Hi_Eve = El sensor de alta definición atravesó bien la brumosa atmósfera morada,y eres capaz de distinguir detalles minusiosos en la superficie. Los científicos en el CSK estaran alividados. - #autoLOC_SCANsat_Science_Hi_Gilly = Incluso en super alta resolución parece que Gilly estuviera en baja resolución. Esa es una superficie realmente grumosa. - #autoLOC_SCANsat_Science_Hi_Kerbin = Te quedas hipnotizado por todos los colores en los datos que la nueva tecnología de alta resolución provee. De rependete,Control de Misión te despierta de tu trance, rapidamente te quitas la baba de la comisura de tu boca. - #autoLOC_SCANsat_Science_Hi_Mun = "¡Ajá! No mas aburrida luna gris. ¡Solo mira todos elos colores en el escáner! Ahora podemos escoger un punto de aterrizaje de primera calidad." - #autoLOC_SCANsat_Science_Hi_Minmus = Wow, no solo Minmus es real, ¡Tiene una toporafía sorprendente! No puedes esperar para aterrizar en una de esas grandes llanuras. - #autoLOC_SCANsat_Science_Hi_Duna = Estos datos de alta resolución son asombrosos. Empiezas a analirzar las colinas y valles, buscando por el punto de aterrizaje perfecto. - #autoLOC_SCANsat_Science_Hi_Ike = Los datos confirman la prescencia de crateres y colinas con grandes pendientes. Ojalá los analistas en el CSK pueden encontrar un punto de aterrizaje adecuado. - #autoLOC_SCANsat_Science_Hi_Dres = Esas... son unas montañas algo misteriosas. Estás contento de estar analizando estos datos, en vez de tratar de colinas. - #autoLOC_SCANsat_Science_Hi_Jool = Incluso en alta definición parece no haber una superficie en Jool. Tanto por esa teoría. ¡Al menos aun tenemos el dinero del contrato! - #autoLOC_SCANsat_Science_Hi_Laythe = El mapa muestra mayormente alturas negativas. consideras drenar Laythe para poder escalar una de esas montañas. - #autoLOC_SCANsat_Science_Hi_Vall = Los datos del escáner de alta resolucion muestra que la superficie de Vall es, en efecto, "crujiente". Supongo que Gene te debe dinero. - #autoLOC_SCANsat_Science_Hi_Tylo = Tylo quizás haya sido una de las priemras lunas de Jool en ser descubiertas, pero estos datos te hacen sentir como si estuvieras descubriendo esta luna por la primera vez. - #autoLOC_SCANsat_Science_Hi_Bop = Wow, mira todos esos colores. No tienes idea que significan todos estos datos, pero estás seguro que estos datos de alta resolución impresionaran a todos de regreso en el CSP. - #autoLOC_SCANsat_Science_Hi_Pol = Incluso con estos datos de alta resolucion, aun es difícil encontrar un bueno punto de aterrizaje. ¿De todas formas, como rayos se formo esta luna? - #autoLOC_SCANsat_Science_Hi_Eeloo = Las gritas y fisuras en la superficie sobresalen con sorprendente definición mientras examinas los datos del sensor. Solo mira todos esos posible puntos de aterrizaje. - #autoLOC_SCANsat_Science_Multi_Title = Análisis de Multiespectro - #autoLOC_SCANsat_Science_Multi_Default1 = Se analizaron los datos del sensor de Multiespectro. - #autoLOC_SCANsat_Science_Multi_Default2 = "¿Wow, como es que siquiera estamos reciviendo estos datos? Esos ingenieros de SCAN realmente saben lo que hacen. O es eso, o no tienen la mas mínima idea de lo que hacen. De cualquier forma. es tiempo de unos Snacks!" - #autoLOC_SCANsat_Science_Multi_Sun1 = Te sorprende la falta de datos biométricos. - #autoLOC_SCANsat_Science_Multi_Sun2 = Te preguntas por que los polos no son visibles en el mapa. - #autoLOC_SCANsat_Science_Multi_Moho = Mientras revisas los datos, te preguntas si encontrarás el elusivo bioma de el "Lago de Lava" el cual muchos científicos han especualado. - #autoLOC_SCANsat_Science_Multi_Eve = Las intrincadas lineas curveadas del mapa de biomas de Eve te recuerdan lámparas de lava y camisetas teñidas. ¡Esos eran los días!. ¡La siguiente nave espacial hacia Eve tendra una bola disco obligatoria! - #autoLOC_SCANsat_Science_Multi_Gilly = Incluso poniendo los ojos bizcos, los astrónomos no podian ver los biomas. ¡Ja! ¡Astrónomos tontos! 1 punto para la ciencia y 0 puntos para, este.... sciencia. - #autoLOC_SCANsat_Science_Multi_Kerbin = Estos datos de bioma son sorprendentes. Solo esperas de que sea resistente a las migajas, ya que recuerdas haber comido una bolsas de Snacks el dia que instalaron los sensores. - #autoLOC_SCANsat_Science_Multi_Mun = Ja, nunca supe que la luna Mun tenia biomas. Me pregunto en cual de ellos estará el queso. Y si hay otros Snacks por ahí tambien. - #autoLOC_SCANsat_Science_Multi_Minmus = Contemplas que acertado es el nombre "Grandes Planicies" mientras revisas los datos. Quien sea que piensa estos nombres es un Kerbal inteligente, a diferencia de los ingenieros que tenemos por aquí. - #autoLOC_SCANsat_Science_Multi_Duna = Peinas todos los datos de bioma solo para encontrar el punto corrector para recolectar todos los dulces, dulces datos científicos. Mmmmm, ciencia... y snacks. - #autoLOC_SCANsat_Science_Multi_Ike = Mientras revisas los datos que regresan de Ika, te sorprendes con la diversidad de biomas. Despues de todo, es solo una luna. No puedes esperar por poner tus manos en uno de los datos científicos atrapados ahí abajo. - #autoLOC_SCANsat_Science_Multi_Dres = Polos, listo. Tierras altas, listo. Tierras medias, listo. Tierras bajas, listo. Crestas, listo. Impact Ejecta, clisto. Impact Cráteres, listo. Cañones, listo. Creo que los tenemos a todos. Hora de apagar el escáner y tener unos snacks! - #autoLOC_SCANsat_Science_Multi_Jool1 = Te sorprende la falta de datos biométricos. - #autoLOC_SCANsat_Science_Multi_Jool2 = Te preguntas por que no se ven los polos en el mapa. - #autoLOC_SCANsat_Science_Multi_Laythe = Quieres lanzar una fiesta cada vez que el sensor detecta un bioma de tierra. - #autoLOC_SCANsat_Science_Multi_Vall = Datos muy sencillos: Polos, Tierras altas, Tierras medias, y Tierras bajas. Listo, ahora vamos a por unos snacks. - #autoLOC_SCANsat_Science_Multi_Tylo = Te sorprende la diversidad de biomas en el reporte. No solomente es genial mirar hacia arriba desde Tylo, tambien es genial mirar hacia abajo. - #autoLOC_SCANsat_Science_Multi_Bop = Este detalaldo análisis De los biomas de Bob aumentaran nuestro entendimientos más allá de lo que cualquiera hubiera esperado. Ah sido un gran día. Snacks para todos! - #autoLOC_SCANsat_Science_Multi_Pol = Mientras recibes los datos de biomas provinientes de Pol empiezas a contemplat la posibilidad de que los granos de polen tambien tengan biomas. Pero inmediatametne destruyes esa ídea, sabiendo lo que los activistas harian si se enterasen de esta. - #autoLOC_SCANsat_Science_Multi_Eeloo = Es sorprendente tener datos de biomas de un planeta tan lejos de Kerbin. Te quedas mirando sorprendido al reporte mientras los datos van llegando. - #autoLOC_SCANsat_Science_Resource_Title = Scáner de Recursos - #autoLOC_SCANsat_Science_Resource_Default1 = Se analizaron los datos de baja resolucion de recursos. - #autoLOC_SCANsat_Science_Resource_Default2 = "Estamos recibiendo ahora los datos de recursos; esta informacion luce mucho mejor de lo que estábamos recibiendo del otro grupo..." - #autoLOC_SCANsat_Science_Resource_Sun = Quizás el sol no es el mejor lugar para buscar recursos en la superficie. - #autoLOC_SCANsat_Science_Resource_Moho = Finalmente tenemos algo de informacion sobre los recursos de la superficie de Moho, ahora solo tenemos que saber por que alguien quisiera aterrizar ahí. - #autoLOC_SCANsat_Science_Resource_Eve = Estamos obteniendo montones de excelentes datos sobre los recursos en la superficie de Eve, esto será genial para cuando tengamos que buscar uan manera de dejar el planeta. - #autoLOC_SCANsat_Science_Resource_Gilly = El escáner de recursos inicial de Gilly luce bien; es casi como minar asteroides. - #autoLOC_SCANsat_Science_Resource_Kerbin = Finalmente tenemos datos sobre los recursos de Kerbin, por que como todo el mundo sabe, si quieres informacionbásica sobre tu propio planeta nada supera mandar un costoso, complicado satélite a orbita. - #autoLOC_SCANsat_Science_Resource_Mun = Estos datos de recursos nos dan nuestra primera mirada a que tan apropiada es Mun para minar. - #autoLOC_SCANsat_Science_Resource_Minmus = Al menos, tenemos algunos datos de recursos en Minmus, primera opción de todo Kerbonauta para empezar sus instalaciones mineras. - #autoLOC_SCANsat_Science_Resource_Duna = Estos datos de recursos nos traen un paso mas cerca a revivir todas nuestras lineas favoritas en la última película Kerbalexitosa del año. - #autoLOC_SCANsat_Science_Resource_Ike = Quizas Ike no sea el cuerpo celeste más interesante del sistema solar, pero eso no hace estos datos de recursos menos útiles. - #autoLOC_SCANsat_Science_Resource_Dres =Podriamos mejor buscar recursos en los asteroides próximos; quien si quiera se molestaría con Dres. - #autoLOC_SCANsat_Science_Resource_Jool = Hmm, quizás un gigante gaseoso no sea el mejor lugar para ir a buscar recursos en la superficie... - #autoLOC_SCANsat_Science_Resource_Laythe = Bueno, hay un monton de buenos datos, pero muy poca area de preciada tierra donde podamos aterrizar y tomar ventaja de los recursos. - #autoLOC_SCANsat_Science_Resource_Vall = Escáner de recursos de la helada Vall provee datos interesantes. - #autoLOC_SCANsat_Science_Resource_Tylo = Tomaremos cualquier informacion de recursos que podamos del aterrador Tylo. - #autoLOC_SCANsat_Science_Resource_Bop = Quizas Bob no sea la primera opcion de nadie al decidir donde ir en busca de recursos, pero estos datos quizas sean útiles algún día. - #autoLOC_SCANsat_Science_Resource_Pol = Ademas de granos de polen y cosas muy grumosas, parece que Pol tiene unos depósitos de recursos interesantes. - #autoLOC_SCANsat_Science_Resource_Eeloo = Ahora que hicimos todo el camino hasta Eeloo, podríamos minar hasta vaciar el lugar y movernos a lo que sea que esté más allá. - } - zh-cn - { - #autoLOC_SCANsat_Science_Lo_Title = 低精度高度扫描 - #autoLOC_SCANsat_Science_Lo_Default1 = 分析低精度高度数据。 - #autoLOC_SCANsat_Science_Lo_Defualt2 = “雷达高度传感器正在报告数据,我不知道它是怎么做到的,但信号很强,数据也拿到了。是时候摆庆功宴了!” - #autoLOC_SCANsat_Science_Lo_Sun = 你想搞清楚传感器是不是出故障了。 - #autoLOC_SCANsat_Science_Lo_Moho = 好吧,至少这份低精度高度图让Moho看起来有那么一点酷,虽然并没有什么巨大的熔岩湖。 - #autoLOC_SCANsat_Science_Lo_Eve = 你注视着这份扫描仪传回的粗略地图,心想当初送去的是高精度的扫描仪就好了。哦好吧,这或许也是个发射更多火箭的好理由!(说得好像你需要理由一样。) - #autoLOC_SCANsat_Science_Lo_Gilly = 这份低精度地图证实了你的想法:Gilly仅仅是一块飘在太空中凹凸不平的石头,你不用盯着这份报告看上老半天了。 - #autoLOC_SCANsat_Science_Lo_Kerbin = 即使是这份低精度地图也惊人地有用,你已经迫不及待要把这项科技用在Mun或者更远的地方。 - #autoLOC_SCANsat_Science_Lo_Mun = 这份数据显示了Mun表面遭受了重创,一次高精度扫描可能会更有用,不过也许你可以用这份数据寻找合适的登陆点。 - #autoLOC_SCANsat_Science_Lo_Minmus = 你很不情愿地承认坎巴拉天文协会那帮家伙是对的:Minmus真的只是一个卫星而不是什么好吃的。如果你没有亲眼看到这份扫描数据的话你根本不会相信他们。 - #autoLOC_SCANsat_Science_Lo_Duna = 这份低精度地图有些模糊而扭曲,但它仍然能帮助你在Duna上寻找一个合适的着陆点,长期的Duna任务成为未来可展望的前景。 - #autoLOC_SCANsat_Science_Lo_Ike = 当你收到这份数据时,你被Ike和Mun惊人的相似度震惊了,你想比较它们的地表地质。 - #autoLOC_SCANsat_Science_Lo_Dres = 即使在这份低精度地图上也能清楚看到Dres上有着高耸的山峰,你等不及要看资源扫描结果了,因为你确信“这些山里有金子!” - #autoLOC_SCANsat_Science_Lo_Jool = 高度图,什么是高度图?Jool是个气态行星,随机取些数据放上去就当是弄好了吧。 - #autoLOC_SCANsat_Science_Lo_Laythe = 传感器似乎不能穿透水面看到水底。 - #autoLOC_SCANsat_Science_Lo_Vall = 喏,这就是数据,“你们希Vall拿到的数据!哈哈哈哈!哈哈哈,哈,蛤?喂,应该有人觉得好笑才对!” - #autoLOC_SCANsat_Science_Lo_Tylo = 你仍然不确定在这里抬头看Laythe,Vall和Jool是什么样子,但这份数据能帮你找到合适的着陆点,然后你就可以亲自去看看了。 - #autoLOC_SCANsat_Science_Lo_Bop = 低精度数据收到了,你准备打包后发回给KSC,你只希望电池里的电量还足够发送数据和支撑系统运转用。 - #autoLOC_SCANsat_Science_Lo_Pol = 低精度扫描证实了Pol的确看起来像一个巨大的花粉粒,在你更新了高精度扫描仪和电子显微镜之前,你永远不会知道它们两个到底有多像。 - #autoLOC_SCANsat_Science_Lo_Eeloo = Kerbin上的科学家们已经等着这份数据很久了,当数据传回之后,无疑将会有一个全员的庆祝会。 - #autoLOC_SCANsat_Science_Hi_Title = 高精度高度扫描 - #autoLOC_SCANsat_Science_Hi_Default1 = 分析高精度高度数据。 - #autoLOC_SCANsat_Science_Hi_Default2 = “高精度扫描确实比低精度好多了,SCAN再次证明了他们的扫描技能。” - #autoLOC_SCANsat_Science_Hi_Sun = 你现在意识到如果相信低精度扫描结果的话或许能省下这笔钱。 - #autoLOC_SCANsat_Science_Hi_Moho = Moho真酷!也许这里没有流动的岩浆河流,但数据真的引人注意! - #autoLOC_SCANsat_Science_Hi_Eve = 高精度传感器很好地穿透了浓厚的紫色大气,你能够分析识别表面细节了,KSC的科学家们会收到结果的。 - #autoLOC_SCANsat_Science_Hi_Gilly = 即使是超高精度扫描看起来也像是低精度的一样,真是崎岖不平的表面。 - #autoLOC_SCANsat_Science_Hi_Kerbin = 你快被高精度扫描提供的各种各样的数据催眠了,突然任务控制中心的人把你从昏睡中叫醒,你赶紧擦去了嘴角的口水。 - #autoLOC_SCANsat_Science_Hi_Mun = “啊哈!灰色的卫星不再那么无聊了,赶紧看看扫描仪上那些颜色!现在我们可以定下一个最棒的着陆场了。” - #autoLOC_SCANsat_Science_Hi_Minmus = 哇哦!Minmus不仅是真实的,它还有一些惊人的地貌!你迫不及待地想在其中一块平坦的地方着陆了。 - #autoLOC_SCANsat_Science_Hi_Duna = 这份高精度数据非常惊人,你开始分析这些山脉和峡谷,并寻找完美的着陆场。 - #autoLOC_SCANsat_Science_Hi_Ike = 这份数据证实了陡峭的山峰和火山口的存在,希望KSC的分析员能找到一个合适的地方着陆。 - #autoLOC_SCANsat_Science_Hi_Dres = 这里...有一些险峻的山峰,你很高兴能分析这份数据而不用尝试爬这些山。 - #autoLOC_SCANsat_Science_Hi_Jool = 即使是高精度也没法扫出Jool的表面,理论意义重大,至少我们还有大笔的拨款! - #autoLOC_SCANsat_Science_Hi_Laythe = 地图显示有很多负高度,你想抽干Laythe,这样你就可以爬山了。 - #autoLOC_SCANsat_Science_Hi_Vall = 高精度扫描仪的数据证明Vall的确“起伏不平”,猜想基因欠你五十块。 - #autoLOC_SCANsat_Science_Hi_Tylo = Tylo或许是第一个被发现的Jool卫星,但这份数据让你感觉你是第一次发现它。 - #autoLOC_SCANsat_Science_Hi_Bop = 哇哦!看看这些颜色,你不知道这些数据都是什么意思,但你确信这份高精度数据会给KSC的每个人留下深刻印象。 - #autoLOC_SCANsat_Science_Hi_Pol = 即使有这么多高质量的数据也难以找到一个合适的着陆点,这颗卫星TM是怎么做出来的? - #autoLOC_SCANsat_Science_Hi_Eeloo = 你在分析高精度扫描仪的数据时,表面的裂隙是最引人注意的细节,那些都可能是潜在的着陆点。 - #autoLOC_SCANsat_Science_Multi_Title = 多频段分析 - #autoLOC_SCANsat_Science_Multi_Default1 = 分析多频段传感器数据。 - #autoLOC_SCANsat_Science_Multi_Default2 = “哇哦!为什么我们现在才收到这份数据?那些SCAN工程师个个都是人才!也许他们并不知道自己在做什么。不管怎样,是时候享用一些零食了!” - #autoLOC_SCANsat_Science_Multi_Sun1 = 你惊奇于生物群系数据的匮乏。 - #autoLOC_SCANsat_Science_Multi_Sun2 = 你想知道为什么生物群系图上什么都没有。 - #autoLOC_SCANsat_Science_Multi_Moho = 你在研究这些数据时想知道能不能找到很多科学家推测存在的隐藏的岩浆湖。 - #autoLOC_SCANsat_Science_Multi_Eve = Eve那漩涡纹状的生物群系图让你想到了熔岩灯和扎染衬衫,下一艘去Eve的宇宙飞船可以装一个舞厅迪斯科球灯! - #autoLOC_SCANsat_Science_Multi_Gilly = 天文学家们眯着眼睛也看不清这里的生物群系,啊哈!沉默的天文学家们!现在比分是1比0,科学对...嗯...科学。 - #autoLOC_SCANsat_Science_Multi_Kerbin = 这份生物群系数据多得令人震惊,你希望这是安装传感器时吃零食留下来的碎屑造成的。 - #autoLOC_SCANsat_Science_Multi_Mun = 嗯,从没想到这颗卫星还有生物群系,你想知道奶酪在哪里,以及有没有其他零食碎屑在里面。 - #autoLOC_SCANsat_Science_Multi_Minmus = 你注视着这些数据,觉得“大平原”这个名字实在太棒了,想出这个名字的一定是个聪明的坎巴拉人,不像周围的这些工程师。 - #autoLOC_SCANsat_Science_Multi_Duna = 你扫视着这份数据,试图寻找收集所有香甜美味的科技点的地方,嗯...科技点...以及零食。 - #autoLOC_SCANsat_Science_Multi_Ike = 查看从Ike发回的生物群系数据时,你惊叹于那里的生物群系多样性,别忘了它仅仅是一颗卫星,你等不及要获取一些它表面的科学数据了。 - #autoLOC_SCANsat_Science_Multi_Dres = 极地,已检查;高原,已检查;内陆,已检查;低底,已检查;山脊,已检查;撞击喷出物,已检查;陨石坑,已检查;峡谷,已检查。我认为所有数据都得到了,是时候关闭扫描仪并来点零食了! - #autoLOC_SCANsat_Science_Multi_Jool1 = 你惊奇于生物群系数据的匮乏。 - #autoLOC_SCANsat_Science_Multi_Jool2 = 你想知道为什么生物群系图上什么都没有。 - #autoLOC_SCANsat_Science_Multi_Laythe = 每当传感器扫出一块陆地时你都想办一个派对来庆祝一下。 - #autoLOC_SCANsat_Science_Multi_Vall = 直接了当的数据:极地,高原,内陆和低地,缠绕在星球上。现在来吃零食吧! - #autoLOC_SCANsat_Science_Multi_Tylo = 报告中显示出生物群系惊人的多样性,Tylo不仅在高处看很酷,在表面看也同样地令人赞叹。 - #autoLOC_SCANsat_Science_Multi_Bop = 这份Bop生物群系的详细数据使我们对这颗小卫星的理解大大超出了预期,真是美好的一天,来食香香鸡! - #autoLOC_SCANsat_Science_Multi_Pol = 当你拿到这份Pol的生物群系数据之后,你开始沉思花粉粒拥有生物群系的可能性,很快你平复思绪,你明白抱有那种思想的人会是什么样。 - #autoLOC_SCANsat_Science_Multi_Eeloo = 你对于除了Kerbin之外还能找到生物群系如此丰富的行星感到震惊,你抱着敬畏的心情凝视着数据报告。 - #autoLOC_SCANsat_Science_Resource_Title = 资源扫描 - #autoLOC_SCANsat_Science_Resource_Default1 = 分析低精度资源数据。 - #autoLOC_SCANsat_Science_Resource_Default2 = “我们正在接收资源传感器的数据,这项信息看起来比其他的那些信息好多了...” - #autoLOC_SCANsat_Science_Resource_Sun = 也许太阳不是一个寻找地表资源的好地方。 - #autoLOC_SCANsat_Science_Resource_Moho = 我们终于获取了一些Moho表面的资源数据,现在我们只需要搞清楚为什么任何人都想在那里着陆。 - #autoLOC_SCANsat_Science_Resource_Eve = 我们获取了许多关于Eve表面资源的优质数据,当我们寻找离开这颗星球的办法时这些数据很有用。 - #autoLOC_SCANsat_Science_Resource_Gilly = Gilly的初次资源扫描结果很有趣,他几乎就是个小行星矿场。 - #autoLOC_SCANsat_Science_Resource_Kerbin = 我们最终拥有了Kerbin的资源数据,众所周知,如果我们想了解自己母星的基本信息,没什么比发射一颗昂贵而又复杂的卫星更好的方法了。 - #autoLOC_SCANsat_Science_Resource_Mun = 资源数据告诉我们Mun是多么适合开发资源。 - #autoLOC_SCANsat_Science_Resource_Minmus = 最后,我们拥有了Minmus的资源数据,每一个坎巴拉宇航员建立初级采矿建筑的首选地。 - #autoLOC_SCANsat_Science_Resource_Duna = 这份资源数据让我们离实现最近风靡坎巴拉的电影里的情节更近了一步。 - #autoLOC_SCANsat_Science_Resource_Ike = Ike也许不是星系中最有趣的天体,但这并不会影响其资源数据的实用性。 - #autoLOC_SCANsat_Science_Resource_Dres = 也许我们会去搜寻周边小行星上的资源,谁会想去打扰Dres呢? - #autoLOC_SCANsat_Science_Resource_Jool = 嗯...也许气态行星不是一个寻找地表资源的好地方... - #autoLOC_SCANsat_Science_Resource_Laythe = 很好,这里有很多很棒的数据,但其表面只有很少的地方适合着陆并享受其资源带来的好处。 - #autoLOC_SCANsat_Science_Resource_Vall = 对冰冻的Vall进行的资源扫描提供了很多有趣的数据。 - #autoLOC_SCANsat_Science_Resource_Tylo = 我们将带走所有在看起来很可怕的Tylo获取的资源数据。 - #autoLOC_SCANsat_Science_Resource_Bop = Bop也许不是人们搜寻资源的首选之地,但这份数据早晚会带来方便。 - #autoLOC_SCANsat_Science_Resource_Pol = 除了花粉粒和奇怪的块状物之外,Pol还有一些有趣的资源存储。 - #autoLOC_SCANsat_Science_Resource_Eeloo = 至此我们已经完全探索了Eeloo,我们也需要开始清除这里的矿产,并探索其外还有什么。 - } - de - { - #autoLOC_SCANsat_Science_Lo_Title = Altimetrie-Scan mir geringer Auflösung - #autoLOC_SCANsat_Science_Lo_Default1 = Niedrigauflösende Altimetrie-Daten analysiert. - #autoLOC_SCANsat_Science_Lo_Defualt2 = "RADAR-Altimetrie-Sensor erstattet Bericht. Keine Ahnung warum, aber wir haben ein gutes Signal und bekommen Daten. Das schreit geradezu nach einer ordentlichen Runde Kekse!" - #autoLOC_SCANsat_Science_Lo_Sun = Du wunderst Dich, ob der Sensor möglicherweise eine Fehlfunktion hat. - #autoLOC_SCANsat_Science_Lo_Moho = Nun, wenigstens lassen diese niedrig auflösenden Daten Moho halbwegs cool aussehen. Nicht gerade gigantische Lavaseen, aber trotzdem irgendwie cool. - #autoLOC_SCANsat_Science_Lo_Eve = Du betrachtests die grieseligen und ungenauen Höhendaten, welche vom Scanner angezeigt werden und wünschst insgeheim den hochauflösenden Sensor losgeschickt zu haben. Nur ein weiterer Grund noch mehr Raketen zu starten! (Als ob wir dafür irgendwelche Gründe bräuchten.) - #autoLOC_SCANsat_Science_Lo_Gilly = Der niederauflösende Scan bestätigt was bereits bekannt war: Gilly ist nur ein unförmiger Fels der mitten durchs nirgendwo treibt. Wenigstens muss man seine Augen nicht anstrengen, um den Bericht zu lesen. - #autoLOC_SCANsat_Science_Lo_Kerbin = Selbst diese niedrig auflösenden Scan-Daten der Planetenoberfläche sind aufregend nützlich. Du kannst es kaum erwarten diese Technologie auf dem Mun oder sogar weiter entfernt anzuwenden. - #autoLOC_SCANsat_Science_Lo_Mun = Die daten zeigen breite Streifen der Landschaft darunter. Ein hochauflösender Scan wäre hilfreicher, aber mit diesen Daten kannst Du wahrscheinlich trotzdem einen Landeplatz ausfindig machen. - #autoLOC_SCANsat_Science_Lo_Minmus = Widerwillig akzeptierst Du, daß die Jungs an der Kerbal Astronomical Society recht hatten: Minmus ist tatsächlich ein Mond. Du hättest es nicht geglaubt, hättest Du die Altimetriedaten nicht mit Deinen eigenen Augen gesehen. - #autoLOC_SCANsat_Science_Lo_Duna = Diese Niedrig Auflösenden Scan-Daten sind etwas verrauscht und verzerrt, sind aber nichts desto trotz unschätzbar beim ausfindigmachen eines Landeplatzes auf Duna. Plötzliche Aussichten auf eine echte Duna-Mission. - #autoLOC_SCANsat_Science_Lo_Ike = Beim Grübeln über die Daten fällt Dir schlagartig die Ähnlichkeit zwischen Ike und dem Mun auf. Du wunderst die über eine möglicherweise vergleichbare Geologie. - #autoLOC_SCANsat_Science_Lo_Dres = Selbt mit den niedrig auflösenden Daten ist es glasklar, das Dres einige recht prominente Gebirge hat. Du kannst die Ressourcen-Scan-Resultate kaum abwarten, weil Du davon überzeugt bist, daß "Dort seie Gold in den Euren Hügeln!" - #autoLOC_SCANsat_Science_Lo_Jool = Altimetrie, welche Altimetrie? Es ist ein Gasriese, Kerbalskinder! Lasst uns einfach irgendeine zufällige nummer auswählen und es gut sein lassen. - #autoLOC_SCANsat_Science_Lo_Laythe = Der Sensor scheint nicht in der Lage zu sein das Wasser zu penetrieren. - #autoLOC_SCANsat_Science_Lo_Vall = Nun, hier ist er: "Ein Präzedenz-Vall für alle Volgefälle! Hahahahaha! Hahaha. Ha. Ha? Was jetzt, irgendwer muss das doch lustig finden. - #autoLOC_SCANsat_Science_Lo_Tylo = Du bist Dir immer noch nicht Sicher, welche eine Aussicht es wäre, von der Oberfläche von Laythe aus Vall und Jool im Hintergrund darüber zu sehen, aber diese Scan-Daten sollten beim finden eines Landeplatzes helfen, um es heraus zu finden. - #autoLOC_SCANsat_Science_Lo_Bop = Nun, die niedrig auflösenden Scan-Daten sind drin und Du entscheidest Dich diese zu packen und an das KSC zu senden. Du hoffst daß noch genug Saft in den Batterien ist, um die Daten los zu schicken und gleichzeitig die Hauptsysteme aufrecht zu erhalten. - #autoLOC_SCANsat_Science_Lo_Pol = Der niedrig auflösenden Scan zeigt, daß Pol in der Tat wie ein großer Pollen aussieht. Bis zur Modernisierung zu einem hochauflösenden Scan und Fortschritte in Elektronenmikroskopie wirst Du trotzdem mit der Frage zurück gelassen, wie stark die Ähnlichkeiten wirklich sind. - #autoLOC_SCANsat_Science_Lo_Eeloo = Die Wissenschaftler auf Kerbin haben lange Zeit auf diese Daten gewartet. Zweifelsohne wird es jede Menge Partys und Kekse für alle geben. - #autoLOC_SCANsat_Science_Hi_Title = Hochauflösender Altimetrie-Scan - #autoLOC_SCANsat_Science_Hi_Default1 = Hochauflösende Altimetriedaten analysiert. - #autoLOC_SCANsat_Science_Hi_Default2 = "Der Hochauflösende Altimetrie-Scan ist definitiv besser als der niedrigauflösende. SCAN hat wieder einmal seine Scan-Künste unter Beweis gestellt." - #autoLOC_SCANsat_Science_Hi_Sun = Dir wird klar, daß Du einen Haufen Geld hättest sparen können, wenn Du dem niedrig auflösenden Scanner vertraut hättest. - #autoLOC_SCANsat_Science_Hi_Moho = Na Endlich! Die Abgefahrenheit kehrt nach Moho zurück! Es mögen zwar nicht gerade gigantische Lavaflüsse sein, aber diese Daten sind einfach spektakulär! - #autoLOC_SCANsat_Science_Hi_Eve = Der hochauflösende Scanner hat die Purpur nebulöse Atmosphäre recht gut durchdrungen und Du bist nun in der Lage winzige Details in der Oberfläche aus zu machen. Die Wissenschaftler am KSC werden erleichtert sein. - #autoLOC_SCANsat_Science_Hi_Gilly = Gilly erscheint selbst in hoher Auflösung irgendwie mit geringer Auflösung. Dies ist eine ernsthaft deformierte Oberfläche. - #autoLOC_SCANsat_Science_Hi_Kerbin = All die bunten Farben der neuen hochauflösenden Scan-Technologie hypnotisieren Dich geradezu. Die Missionsleitung weckt Dich aus Deiner Benommenheit und Du wischst Dir schnell einigen Sabber aus Deinen Mundwinkeln. - #autoLOC_SCANsat_Science_Hi_Mun = "Ha! Kein langweilig grauer Mond mehr. Seht Euch einfach all die bunten Farben des Scans an! Nun können wir wirklich einen Hauptlandeplatz bestimmen. - #autoLOC_SCANsat_Science_Hi_Minmus = Wow, Minmus ist nicht nur echt, er hat eine recht aufregende Topographie! Du kannst es kaum erwarten in einer der flachen Gebiete zu landen. - #autoLOC_SCANsat_Science_Hi_Duna = Diese hochauflösenden Daten sind atemberaubend. Du beginnst damit, die Hügel und Täler zu analysieren, ausschau haltend nach einem guten Landeplatz. - #autoLOC_SCANsat_Science_Hi_Ike = Die Daten bestätigen die Anwesenheit abschüssiger Hügel und Krater. Hoffentlich nutzen die Analysten im KSC diese Daten um einen vernünftigen Landeplatz aus zu machen. - #autoLOC_SCANsat_Science_Hi_Dres = Dies... sind einige wirklich ernst zu nehmende Gebirge. Du bist froh darüber diese Daten zu analysieren, an Stelle einen dieser Berge zu erklimmen. - #autoLOC_SCANsat_Science_Hi_Jool = Jool scheint trotz hochauflösendem Scan keine Oberfläche zu haben. Soviel zu dieser Theorie. Wenigstens haben wir noch die Zuschussgelder. - #autoLOC_SCANsat_Science_Hi_Laythe = Die Karte zeigt hauptsächlich negative höhenangaben. Du ziehst es in Betracht Laythe trocken zu legen, um seine Gebirge erklimmen zu können. - #autoLOC_SCANsat_Science_Hi_Vall = Die Daten des hochauflösenden Scanners zeigen, daß die Oberfläche, in der Tat, "knitterig" ist. Ich denke Gene schuldet Dir fünfzig Mäuse. - #autoLOC_SCANsat_Science_Hi_Tylo = Tylo mag zwar der erste entdeckte Mond um Jool gewesen sein, aber diese Daten fühlen sich an, als würde man ihn völlig neu entdecken. - #autoLOC_SCANsat_Science_Hi_Bop = Wow, schaut Euch all die Farben an. Du hast keine Ahnung was diese Daten bedeuten, Du bist Dir jedoch sicher, daß diese hochauflösenden Daten jeden am KSC beeindrucken werden. - #autoLOC_SCANsat_Science_Hi_Pol = Selbst bei dieser Menge an hochauflösenden Daten ist es immer noch schwierig einen brauchbaren Landeplatz aus zu machen. Wie zum Geier ist der Mond überhaupt entstanden? - #autoLOC_SCANsat_Science_Hi_Eeloo = Die Risse und Spalten heben sich mit schlagfesten Details von der Oberfläche ab, während Du die daten des SAR Altimetrie-Sensors untersuchst. Sieh Dir all die Landeplätze an! - #autoLOC_SCANsat_Science_Multi_Title = Multispektrale Analyse - #autoLOC_SCANsat_Science_Multi_Default1 = Multispektrale Sensordaten analysiert. - #autoLOC_SCANsat_Science_Multi_Default2 = "Wow, wie empfangen wir diese Daten überhaupt? Diese SCAN-Ingenieure wissen wirklich was sie tun. Entweder das, oder sie haben absolut überhaupt keine Ahnung. Wie auch immer, Zeit für ein paar Kekse!" - #autoLOC_SCANsat_Science_Multi_Sun1 = Das abhandensein biometrischer Daten überrascht Dich. - #autoLOC_SCANsat_Science_Multi_Sun2 = Du wunderst Dich, warum keine Pole auf der Biomkarte sichbar sind. - #autoLOC_SCANsat_Science_Multi_Moho = Beim Grübeln über die Daten wunderst Du Dich, ob das schwer erfassbare und Sagenumwobene Lavaseebiom auffindbar ist. - #autoLOC_SCANsat_Science_Multi_Eve = Die kompliziert verwobenen Linien auf Eve's Biomkarte erinnern Dich stark an Lavalampen und Batik-Shirts. Mann das waren Zeiten. Das nächste Raumschiff richtung Eve wird auf jeden Fall eine Diskokugel bekommen! - #autoLOC_SCANsat_Science_Multi_Gilly = Selbst bei all dem Geschiele und Geblinzel konnten die Astronomen keine Biome ausmachen. Hah! Dämliche Astronomen! Ein Punkt für die Wissenschaft und null punkte für die, äh... Wissenschaft. - #autoLOC_SCANsat_Science_Multi_Kerbin = Diese Biomdaten sind wahrhaftig erstaunlich. Du hoffst nur, daß sie Krümelfest sind, da Du an dem, Tag an welchem der Sensor installiert wurde eine Schachtel extra krümeliger Kekse verspeist hast. - #autoLOC_SCANsat_Science_Multi_Mun = Tja, hätte nicht gedacht daß der Mond auch biome hat. Ich wundere mich auf welchem sich all der Käse befindet. Und ob es dort eventuell auch andere Köstlichkeiten gibt. - #autoLOC_SCANsat_Science_Multi_Minmus = Du siehst, wie passend die Bezeichnung "Größeres Flachland" ist, während Du Dir die Daten ansiehst. Wer auch immer sich diese Namen ausdenkt muss schon ein sehr schlauer Kerbal sein, im Gegensatz zu den Ingenieuren die wir hier haben. - #autoLOC_SCANsat_Science_Multi_Duna = Du durchkämmst die Biomdaten, Ausschau haltend nach genau dem richtigen Plätzchen um all die Wissenschaft zu betreiben. Plätzchen... Klingt wie Kekse, hmmm... - #autoLOC_SCANsat_Science_Multi_Ike = Beim stöbern in den Daten, welche uns von Ike erreichen überrascht Dich die hohe diversität an unterschiedlichen Biomen. Immerhin ist es bloß ein Mond. Du kannst es kaum erwarten an die Daten zu kommen, welche dort unten verborgen liegen. - #autoLOC_SCANsat_Science_Multi_Dres = Pole, check. Hochland, check. Mittelebene, check. Tiefebene, check. Gebirgsrücken, check. Impaktauswurf, check. Impaktkrater, check. Schluchten, check. Ich denke wir haben alles. Zeit den Scanner herunter zu fahren und sich ein paar Kekse zu gönnen. - #autoLOC_SCANsat_Science_Multi_Jool1 = Das Abhandensein biometrischer Daten überrascht Dich. - #autoLOC_SCANsat_Science_Multi_Jool2 = Du wunderst Dich, warum auf der Biomkarte keine Pole zu sehen sind. - #autoLOC_SCANsat_Science_Multi_Laythe = Du möchtest jedes mal, wenn der Biom-Scanner eine Landmasse entdeckt, eine kleine Party feiern. - #autoLOC_SCANsat_Science_Multi_Vall = Recht eindeutige Daten: Pole, Hochland, Mittelebene und Tiefebene. Mal was anderes. Nun lasset uns Kekse verspeisen! - #autoLOC_SCANsat_Science_Multi_Tylo = Die Diversität der unterschiedlichen Biome trifft Dich wie der Schlag. Tylo sieht nicht nur nett aus, es ist ebenso nett ihn an zu schauen. - #autoLOC_SCANsat_Science_Multi_Bop = Diese detaillierte Analyse von Bop's Biomen wird unser Verständnis über diesen Mond über alles erwartete hinaus erhöhen. Es war ein guter Tag. Kekse für alle! - #autoLOC_SCANsat_Science_Multi_Pol = Beim Aufnehmen der Biomdaten von Pol ziehst Du die Möglichkeit in Betracht, daß Pollen ebenso Biome aufweisen. Schnell verdrängst Du diesen Gedanken unter dem Bewusstsein, was all die Aktivisten tun würden, wenn die Wind davon bekommen. - #autoLOC_SCANsat_Science_Multi_Eeloo = Es ist erstaunlich auf einem Planet so fern von Kerbin detaillierte Biomdaten zu erhalten. In Ehrfurcht starrst Du auf den Bericht, während die Daten hereinkommen. - #autoLOC_SCANsat_Science_Resource_Title = Resourcen-Scan - #autoLOC_SCANsat_Science_Resource_Default1 = Niederauflösende Ressourcen-Daten analysiert. - #autoLOC_SCANsat_Science_Resource_Default2 = "Wir empfangen nun Resourcen-Daten; diese Informationen sehen deutlich besser aus als die von den Vorgängern..." - #autoLOC_SCANsat_Science_Resource_Sun = Die Sonne mag möglicherweise nicht der idealste Ort sein, um nach Ressourcen zu scannen. - #autoLOC_SCANsat_Science_Resource_Moho = Endlich haben wir einige Informationen über die Ressource-Verfügbarkeit auf Moho's Oberfläche. Wir müssen nur noch herausfinden, warum dort jemand landen würde. - #autoLOC_SCANsat_Science_Resource_Eve = Wir bekommen jede Menge guter Daten über die Oberflächenresourcenverfügbarkeit auf Eve. Dies sollte sich beim wieder Verlassen des Planeten als äußerst nützlich erweisen. - #autoLOC_SCANsat_Science_Resource_Gilly = Die ersten Ressourcen-Scans von Gilly sehen interessant aus; es ist beinahe wie Asteroidenbergbau. - #autoLOC_SCANsat_Science_Resource_Kerbin = Endlich haben wir einige Ressourcen-Daten über Kerbin, weil, wie jeder weiß, geht nichts darüber hinaus, eine sauteuere und hochkomplizierte Sonde in den Orbit zu befördern, nur um etwas über seinen eigenen Planeten heraus zu finden. - #autoLOC_SCANsat_Science_Resource_Mun = Diese Ressourcen-Daten geben uns den ersten guten Blick darauf, wie brauchbar der Mond für Bergbauzwecke sein könnte. - #autoLOC_SCANsat_Science_Resource_Minmus = Endlich haben wir ein paar Resourcen-Daten über Minmus, eines jeden Kerbonauten erste Wahl in Sachen Bergbau. - #autoLOC_SCANsat_Science_Resource_Duna = This resource data brings us one step closer to reliving all of our favorite lines from that recent hit Kerbal movie. - #autoLOC_SCANsat_Science_Resource_Ike = Ike mag zwar nicht gerade der Interessanteste aller planetarer Kandidaten sein, das macht die Ressourcen-Daten allerdings nicht weniger brauchbar. - #autoLOC_SCANsat_Science_Resource_Dres = Wir könnten genau so gut einige der näheren Asteroiden auf Ressourcen untersuchen; wer würde sich schon gerne mit Dres abgeben. - #autoLOC_SCANsat_Science_Resource_Jool = Hmm, vielleicht ist ja ein Gasriese nicht gerade der idealste Ort um nach Ressourcen zu suchen. - #autoLOC_SCANsat_Science_Resource_Laythe = Nun, jede Menge guter Daten, jedoch recht wenig wertvoller Orte auf der Oberfläche wo man halbwegs vernünftig landen und von den Ressourcen gebrauch machen kann. - #autoLOC_SCANsat_Science_Resource_Vall = Ressourcen-Scans vom eisigen Vall ergeben jede Menge guter Daten. - #autoLOC_SCANsat_Science_Resource_Tylo = Wir wollen beim unheimlich aussehenden Tylo nicht unsere Nase rümpfen, wir nehmen alle Ressourcen-Daten die wir kriegen können. - #autoLOC_SCANsat_Science_Resource_Bop = Bop mag zwar nicht gerade die erste wahl in Sachen Ressourcen-Förderung sein, aber die Daten könnten sich eines Tages doch als nützlich erweisen. - #autoLOC_SCANsat_Science_Resource_Pol = Zusätzlich zu Pollen und klumpigen Dingen scheint Pol einige recht interessante Ressourcen zu enthalten. - #autoLOC_SCANsat_Science_Resource_Eeloo = Nun, da wir es den ganzen Weg raus bis zum Eeloo geschafft haben, können wir das Örtchen getrost Leergraben und dann einfach irgendwo anders weiter machen, mit was auch immer sich dahinter befinden mag. - } -} diff --git a/SCANassets/Resources/Localization/Tooltips.cfg b/SCANassets/Resources/Localization/Tooltips.cfg deleted file mode 100644 index a1b5c4e5f..000000000 --- a/SCANassets/Resources/Localization/Tooltips.cfg +++ /dev/null @@ -1,228 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_mainMapToggle = Main Map - #autoLOC_SCANsat_bigMapToggle = Big Map - #autoLOC_SCANsat_zoomMapToggle = Zoom Map - #autoLOC_SCANsat_overlayToggle = Planetary Overlay - #autoLOC_SCANsat_instrumentsToggle = Instruments Readout - #autoLOC_SCANsat_settingsToggle = Settings - #autoLOC_SCANsat_mainMapColor = Map Color - #autoLOC_SCANsat_mainMapTerminator = Map Day/Night Terminator - #autoLOC_SCANsat_mainMapType = Terrain/Biome Toggle - #autoLOC_SCANsat_mainMapMinimize = Show/Hide Vessel Info - #autoLOC_SCANsat_mainMapStatus = Scanner Status Indicators - #autoLOC_SCANsat_mainMapPercentage = Active Scanner Completion Percentage - #autoLOC_SCANsat_bigMapRefresh = Map Refresh - #autoLOC_SCANsat_bigMapColor = Map Color - #autoLOC_SCANsat_bigMapTerminator = Map Day/Night Terminator - #autoLOC_SCANsat_bigMapGrid = Grid Overlay - #autoLOC_SCANsat_bigMapOrbit = Orbit Overlay - #autoLOC_SCANsat_bigMapWaypoints = Waypoints - #autoLOC_SCANsat_bigMapAnomaly = Anomalies - #autoLOC_SCANsat_bigMapFlags = Flags - #autoLOC_SCANsat_bigMapLegend = Map Legend - #autoLOC_SCANsat_bigMapResource = Resource Overlay - #autoLOC_SCANsat_bigMapExport = Export Map To Disk - #autoLOC_SCANsat_overlayRefresh = Map Refresh - #autoLOC_SCANsat_insNextResource = Next Resource - #autoLOC_SCANsat_insPreviousResource = Previous Resource - #autoLOC_SCANsat_zoomVesselSync = Sync Current Vessel - #autoLOC_SCANsat_zoomVesselLock = Lock Position To Vessel - #autoLOC_SCANsat_zoomMapRefresh = Map Refresh - #autoLOC_SCANsat_zoomMapWindowState = Toggle Window Size - #autoLOC_SCANsat_zoomMapIn = Zoom In - #autoLOC_SCANsat_zoomMapOut = Zoom Out - #autoLOC_SCANsat_zoomMapLeft = Shift Left - #autoLOC_SCANsat_zoomMapRight = Shift Right - #autoLOC_SCANsat_zoomMapUp = Shift Up - #autoLOC_SCANsat_zoomMapDown = Shift Down - #autoLOC_SCANsat_zoomMapIcons = Map Icons - #autoLOC_SCANsat_waypointToggle = Waypoint Selector - #autoLOC_SCANsat_waypointSet = Create Waypoint - #autoLOC_SCANsat_waypointCancel = Cancel Waypoint - #autoLOC_SCANsat_waypointMechJeb = Set MechJeb Landing Target - #autoLOC_SCANsat_waypointNameRefresh = Reset Waypoint - } - ru - { - #autoLOC_SCANsat_mainMapToggle = Основная Карта - #autoLOC_SCANsat_bigMapToggle = Большая Карта - #autoLOC_SCANsat_zoomMapToggle = Детальная Карта - #autoLOC_SCANsat_overlayToggle = Планетарный Оверлей - #autoLOC_SCANsat_instrumentsToggle = Инструментальные Показания - #autoLOC_SCANsat_settingsToggle = Настройки - #autoLOC_SCANsat_mainMapColor = Цвета Карты - #autoLOC_SCANsat_mainMapTerminator = Терминатор (День/Ночь) - #autoLOC_SCANsat_mainMapType = Ландшафт/Биомы - #autoLOC_SCANsat_mainMapMinimize = Вкл/Выкл Данные Корабля - #autoLOC_SCANsat_mainMapStatus = Индикаторы Статуса Сканера - #autoLOC_SCANsat_mainMapPercentage = Процент Завершения Активного Сканирования - #autoLOC_SCANsat_bigMapRefresh = Обновить Карту - #autoLOC_SCANsat_bigMapColor = Цвета Карты - #autoLOC_SCANsat_bigMapTerminator = Терминатор (День/Ночь) - #autoLOC_SCANsat_bigMapGrid = Сетка - #autoLOC_SCANsat_bigMapOrbit = Орбиты - #autoLOC_SCANsat_bigMapWaypoints = Вэйпоинты - #autoLOC_SCANsat_bigMapAnomaly = Аномалии - #autoLOC_SCANsat_bigMapFlags = Флаги - #autoLOC_SCANsat_bigMapLegend = Легенда Карты - #autoLOC_SCANsat_bigMapResource = Оверлей Ресурсов - #autoLOC_SCANsat_bigMapExport = Экспорт Карты на Диск - #autoLOC_SCANsat_overlayRefresh = Обновить Карту - #autoLOC_SCANsat_insNextResource = След. Ресурс - #autoLOC_SCANsat_insPreviousResource = Пред. Ресурс - #autoLOC_SCANsat_zoomVesselSync = Синх. Текущего Корабля - #autoLOC_SCANsat_zoomVesselLock = Закрепить Поз. Корабля - #autoLOC_SCANsat_zoomMapRefresh = Обновить Карту - #autoLOC_SCANsat_zoomMapWindowState = Размер Окна - #autoLOC_SCANsat_zoomMapIn = Увеличить - #autoLOC_SCANsat_zoomMapOut = Уменьшить - #autoLOC_SCANsat_zoomMapLeft = Влево - #autoLOC_SCANsat_zoomMapRight = Вправо - #autoLOC_SCANsat_zoomMapUp = Вверх - #autoLOC_SCANsat_zoomMapDown = Вниз - #autoLOC_SCANsat_zoomMapIcons = Символы Карты - #autoLOC_SCANsat_waypointToggle = Выбор Вэйпоинта - #autoLOC_SCANsat_waypointSet = Создать Вэйпоинт - #autoLOC_SCANsat_waypointCancel = Отменить Вэйпоинт - #autoLOC_SCANsat_waypointMechJeb = Зона Посадки MechJeb - #autoLOC_SCANsat_waypointNameRefresh = Обновить Вэйпоинт - } - es-es - { - #autoLOC_SCANsat_mainMapToggle = Mapa Principal - #autoLOC_SCANsat_bigMapToggle = Mapa Grande - #autoLOC_SCANsat_zoomMapToggle = Mapa con Zoom - #autoLOC_SCANsat_overlayToggle = Sobreposición Planetaria - #autoLOC_SCANsat_instrumentsToggle = Instrumentos de Lectura - #autoLOC_SCANsat_settingsToggle = Ajustes - #autoLOC_SCANsat_mainMapColor = Color de Mapa - #autoLOC_SCANsat_mainMapTerminator = Terminador de Día/Noche del Mapa - #autoLOC_SCANsat_mainMapType = Cambiar Terreno/Bioma - #autoLOC_SCANsat_mainMapMinimize = Mostrar/ocultar informacion de la nave - #autoLOC_SCANsat_mainMapStatus = Indicadores del Estado del Scáner - #autoLOC_SCANsat_mainMapPercentage = Porcentaje de Terminación del Escáner Activo - #autoLOC_SCANsat_bigMapRefresh = Refrescar Mapa - #autoLOC_SCANsat_bigMapColor = Color de Mapa - #autoLOC_SCANsat_bigMapTerminator = Terminador de Día/Noche del Mapa - #autoLOC_SCANsat_bigMapGrid = Sobreposición de Cuadrícula - #autoLOC_SCANsat_bigMapOrbit = Sobreposición de Órbita - #autoLOC_SCANsat_bigMapWaypoints = Waypoints - #autoLOC_SCANsat_bigMapAnomaly = Anomalias - #autoLOC_SCANsat_bigMapFlags = Banderas - #autoLOC_SCANsat_bigMapLegend = Map Leyenda - #autoLOC_SCANsat_bigMapResource = Sobreposición de Recursos - #autoLOC_SCANsat_bigMapExport = Exporta Mapa al Disco - #autoLOC_SCANsat_overlayRefresh = Refrescar Mapa - #autoLOC_SCANsat_insNextResource = Siguiente Recurso - #autoLOC_SCANsat_insPreviousResource = Anterior Recurso - #autoLOC_SCANsat_zoomVesselSync = Sincronizar Nave Actual - #autoLOC_SCANsat_zoomVesselLock = Mantener Posición en la Nave - #autoLOC_SCANsat_zoomMapRefresh = Refrescar Mapa - #autoLOC_SCANsat_zoomMapWindowState = Cambiar Camaño de Mapa - #autoLOC_SCANsat_zoomMapIn = Aumentar Zoom - #autoLOC_SCANsat_zoomMapOut = Reducir Zoom - #autoLOC_SCANsat_zoomMapLeft = Cambiar a la Izquierda - #autoLOC_SCANsat_zoomMapRight = Cambiar a la Derecha - #autoLOC_SCANsat_zoomMapUp = Cambiar Arriba - #autoLOC_SCANsat_zoomMapDown = Cambiar Abajo - #autoLOC_SCANsat_zoomMapIcons = Íconos del Mapa - #autoLOC_SCANsat_waypointToggle = Seleccionador de Waypoints - #autoLOC_SCANsat_waypointSet = Crear Waypoint - #autoLOC_SCANsat_waypointCancel = Cancelar Waypoint - #autoLOC_SCANsat_waypointMechJeb = Establer MechJeb Aterrizaje en Objetivo - #autoLOC_SCANsat_waypointNameRefresh = Reiniciar Waypoint - } - zh-cn - { - #autoLOC_SCANsat_mainMapToggle = 主地图 - #autoLOC_SCANsat_bigMapToggle = 大地图 - #autoLOC_SCANsat_zoomMapToggle = 缩放地图 - #autoLOC_SCANsat_overlayToggle = 行星显示 - #autoLOC_SCANsat_instrumentsToggle = 仪器读数 - #autoLOC_SCANsat_settingsToggle = 设置 - #autoLOC_SCANsat_mainMapColor = 地图颜色 - #autoLOC_SCANsat_mainMapTerminator = 地图晨昏线 - #autoLOC_SCANsat_mainMapType = 开关地形/生物群系 - #autoLOC_SCANsat_mainMapMinimize = 显示/隐藏载具信息 - #autoLOC_SCANsat_mainMapStatus = 扫描器状态标识 - #autoLOC_SCANsat_mainMapPercentage = 显示扫描完成度 - #autoLOC_SCANsat_bigMapRefresh = 刷新地图 - #autoLOC_SCANsat_bigMapColor = 地图颜色 - #autoLOC_SCANsat_bigMapTerminator = 地图晨昏线 - #autoLOC_SCANsat_bigMapGrid = 网格显示 - #autoLOC_SCANsat_bigMapOrbit = 轨道显示 - #autoLOC_SCANsat_bigMapWaypoints = 导航点 - #autoLOC_SCANsat_bigMapAnomaly = 异常点 - #autoLOC_SCANsat_bigMapFlags = 旗帜 - #autoLOC_SCANsat_bigMapLegend = 图例 - #autoLOC_SCANsat_bigMapResource = 资源显示 - #autoLOC_SCANsat_bigMapExport = 导出地图到硬盘 - #autoLOC_SCANsat_overlayRefresh = 刷新地图 - #autoLOC_SCANsat_insNextResource = 下一资源 - #autoLOC_SCANsat_insPreviousResource = 上一资源 - #autoLOC_SCANsat_zoomVesselSync = 同步当前载具 - #autoLOC_SCANsat_zoomVesselLock = 锁定视角到载具位置 - #autoLOC_SCANsat_zoomMapRefresh = 刷新地图 - #autoLOC_SCANsat_zoomMapWindowState = 切换窗口大小 - #autoLOC_SCANsat_zoomMapIn = 放大 - #autoLOC_SCANsat_zoomMapOut = 缩小 - #autoLOC_SCANsat_zoomMapLeft = 左移 - #autoLOC_SCANsat_zoomMapRight = 右移 - #autoLOC_SCANsat_zoomMapUp = 上移 - #autoLOC_SCANsat_zoomMapDown = 下移 - #autoLOC_SCANsat_zoomMapIcons = 地图图标 - #autoLOC_SCANsat_waypointToggle = 导航点选择器 - #autoLOC_SCANsat_waypointSet = 创建导航点 - #autoLOC_SCANsat_waypointCancel = 取消导航点 - #autoLOC_SCANsat_waypointMechJeb = 设定MJ着陆目标 - #autoLOC_SCANsat_waypointNameRefresh = 重置导航点 - } - de - { - #autoLOC_SCANsat_mainMapToggle = Karte - #autoLOC_SCANsat_bigMapToggle = Große Karte - #autoLOC_SCANsat_zoomMapToggle = Zoom Karte - #autoLOC_SCANsat_overlayToggle = Planetares Overlay - #autoLOC_SCANsat_instrumentsToggle = Instrumentenanzeige - #autoLOC_SCANsat_settingsToggle = Einstellungen - #autoLOC_SCANsat_mainMapColor = Kartenfarbe - #autoLOC_SCANsat_mainMapTerminator = Tag/Nacht Terminator - #autoLOC_SCANsat_mainMapType = Umschalten Gelände/Biom - #autoLOC_SCANsat_mainMapMinimize = Ein-/Ausblenden Fahrzeuginfo - #autoLOC_SCANsat_mainMapStatus = Scanner-Statusanzeige - #autoLOC_SCANsat_mainMapPercentage = Vollständigkeit des aktuellen Scans - #autoLOC_SCANsat_bigMapRefresh = Karte Auffrischen - #autoLOC_SCANsat_bigMapColor = Kartenfarbe - #autoLOC_SCANsat_bigMapTerminator = Tag/Nacht Terminator - #autoLOC_SCANsat_bigMapGrid = Gitternetz Overlay - #autoLOC_SCANsat_bigMapOrbit = Orbit Overlay - #autoLOC_SCANsat_bigMapWaypoints = Wegpunkte - #autoLOC_SCANsat_bigMapAnomaly = Anomalien - #autoLOC_SCANsat_bigMapFlags = Flaggen - #autoLOC_SCANsat_bigMapLegend = Kartenlegende - #autoLOC_SCANsat_bigMapResource = Resourcen-Overlay - #autoLOC_SCANsat_bigMapExport = Karte auf Festplatte exportieren - #autoLOC_SCANsat_overlayRefresh = Karte Auffrischen - #autoLOC_SCANsat_insNextResource = Nächste Resource - #autoLOC_SCANsat_insPreviousResource = Vorherige Resource - #autoLOC_SCANsat_zoomVesselSync = Auf Vehikel Synchronisieren - #autoLOC_SCANsat_zoomVesselLock = Position auf Vehikel Einrasten - #autoLOC_SCANsat_zoomMapRefresh = Karte Auffrischen - #autoLOC_SCANsat_zoomMapWindowState = Fenstergröße Umschalten - #autoLOC_SCANsat_zoomMapIn = Vergrößern - #autoLOC_SCANsat_zoomMapOut = Verkleinern - #autoLOC_SCANsat_zoomMapLeft = Nach Links Verschieben - #autoLOC_SCANsat_zoomMapRight = Nach Rechts Verschieben - #autoLOC_SCANsat_zoomMapUp = Nach Oben Verschieben - #autoLOC_SCANsat_zoomMapDown = Nach Unten Verschieben - #autoLOC_SCANsat_zoomMapIcons = Karten-Icons - #autoLOC_SCANsat_waypointToggle = Wegpunkt Auswählen - #autoLOC_SCANsat_waypointSet = Wegpunkt Erstellen - #autoLOC_SCANsat_waypointCancel = Wegpunkt Abbrechen - #autoLOC_SCANsat_waypointMechJeb = MechJeb Landezieleingabe - #autoLOC_SCANsat_waypointNameRefresh = Wegpunkt Zurücksetzen - } -} diff --git a/SCANassets/Resources/Localization/Warnings.cfg b/SCANassets/Resources/Localization/Warnings.cfg deleted file mode 100644 index 581ff0d73..000000000 --- a/SCANassets/Resources/Localization/Warnings.cfg +++ /dev/null @@ -1,58 +0,0 @@ -Localization -{ - en-us - { - #autoLOC_SCANsat_Warning_DataResetCurrent = Erase <<1>> map for <<2>>? - #autoLOC_SCANsat_Warning_DataResetAll = Erase <<1>> for all celestial bodies? - #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Erase stock resource data for <<1>>? - #autoLOC_SCANsat_Warning_StockResourceResetAll = Erase stock resource data for all celestial bodies? - #autoLOC_SCANsat_Warning_MapFillCurrent = Fill in <<1>> map for <<2>>? - #autoLOC_SCANsat_Warning_MapFillAll = Fill in <<1>> for all celestial bodies? - #autoLOC_SCANsat_Warning_ModuleManagerResource = Warning\nModule Manager is required for all SCANsat resource scanning functions. - #autoLOC_SCANsat_Warning_SaveToConfig = Overwrite existing config file on disk? - } - ru - { - #autoLOC_SCANsat_Warning_DataResetCurrent = Удалить карту <<1>> для <<2>>? - #autoLOC_SCANsat_Warning_DataResetAll = Удалить <<1>> для всех небесных тел? - #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Удалить стоковые данные ресурсов для <<1>>? - #autoLOC_SCANsat_Warning_StockResourceResetAll = Удалить стоковые данные ресурсов для всех небесных тел? - #autoLOC_SCANsat_Warning_MapFillCurrent = Заполнить карту <<1>> для <<2>>? - #autoLOC_SCANsat_Warning_MapFillAll = Заполнить <<1>> для всех небесных тел? - #autoLOC_SCANsat_Warning_ModuleManagerResource = Внимание\nДля всех функций сканирования ресурсов SCANsat необходим Module Manager. - #autoLOC_SCANsat_Warning_SaveToConfig = Перезаписать существующий файл настроек? - } - es-es - { - #autoLOC_SCANsat_Warning_DataResetCurrent = ¿Borrar <<1>> para mapa <<2>>? - #autoLOC_SCANsat_Warning_DataResetAll = ¿Borrar <<1>> para todos los cuerpos celestes? - #autoLOC_SCANsat_Warning_StockResourceResetCurrent = ¿Borrar datos de recursos del juego base para <<1>>? - #autoLOC_SCANsat_Warning_StockResourceResetAll = ¿Borrar datos de recursos del juego base para todos los cuerpos celestes? - #autoLOC_SCANsat_Warning_MapFillCurrent = ¿Llenar <<1>> para mapa <<2>>? - #autoLOC_SCANsat_Warning_MapFillAll = ¿Llenar <<1>> para todos los cuerpos celestes? - #autoLOC_SCANsat_Warning_ModuleManagerResource = Advertencia\nModule Manager es requerido para todas las funciones de escaneo de recursos de SCANsat. - #autoLOC_SCANsat_Warning_SaveToConfig = ¿Sobrescribir archivo de configuración existente en el disco? - } - zh-cn - { - #autoLOC_SCANsat_Warning_DataResetCurrent = 确认删除<<2>>的<<1>>图? - #autoLOC_SCANsat_Warning_DataResetAll = 确认删除所有天体的<<1>>? - #autoLOC_SCANsat_Warning_StockResourceResetCurrent = 确认删除<<1>>的资源储藏数据? - #autoLOC_SCANsat_Warning_StockResourceResetAll = 确认删除所有天体的资源储藏数据? - #autoLOC_SCANsat_Warning_MapFillCurrent = 确认填充<<2>>的<<1>>图? - #autoLOC_SCANsat_Warning_MapFillAll = 确认填充所有天体的<<1>>? - #autoLOC_SCANsat_Warning_ModuleManagerResource = 警告\nSCANsat所有的资源扫描功能都需要Module Manager。 - #autoLOC_SCANsat_Warning_SaveToConfig = 确认覆盖现有的设置文件? - } - de - { - #autoLOC_SCANsat_Warning_DataResetCurrent = Lösche die <<1>>-Karte von <<2>>? - #autoLOC_SCANsat_Warning_DataResetAll = Lösche <<1>> von ALLEN Himmelskörpern? - #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Lösche Standard-Ressourcen-Daten von <<1>>? - #autoLOC_SCANsat_Warning_StockResourceResetAll = Lösche Standard-Ressourcen-Daten ALLER Himmelskörper? - #autoLOC_SCANsat_Warning_MapFillCurrent = Fülle die <<1>>-Karte von <<2>> auf? - #autoLOC_SCANsat_Warning_MapFillAll = Fülle die <<1>>-Karte aller Himmelskörper auf? - #autoLOC_SCANsat_Warning_ModuleManagerResource = Warnung!\nModule Manager wird für SCANsat-Funktionalität benötigt. - #autoLOC_SCANsat_Warning_SaveToConfig = Bereits existierende Datei überschreiben? - } -} diff --git a/SCANassets/Resources/SCANlocalization.cfg b/SCANassets/Resources/SCANlocalization.cfg deleted file mode 100644 index f9e1382b2..000000000 --- a/SCANassets/Resources/SCANlocalization.cfg +++ /dev/null @@ -1,119 +0,0 @@ -SCAN_Localization -{ - Language_Packs - { - Item - { - activePack = True - language = English (USA) - settingsHelpAnomalies = Select the marker used to display\nanomalies on the map. - settingsHelpScanningToggle = Toggle all SCANsat scanning. - settingsHelpBackground = Toggle background scanning on\nselected celestial bodies. - settingsHelpTimeWarp = Adjust the scanning frequency during TimeWarp.\nHigher settings result in fewer gaps in the maps\nbut may have a performance impact at high TimeWarp. - settingsHelpGroundTracks = Display a visible indicator of\nscanning activity in map mode. - settingsHelpGroundTracksActive = The ground track indicator can be limited\nto only be displayed for the active vessel. - settingsHelpStockUIStyle = Switch between stock KSP-style UI elements and Unity-style elements. - settingsHelpOverlayTooltips = Displays tooltips for the current mouse position when a planetary overlay map is activated.\nThese tooltips include The cursor coordinates, terrain height, slope, biome name,\nand resource abundance, depending on scanning coverage. - settingsHelpWindowTooltips = Display tooltips on some map window buttons.\nThese are primarily used to identify icon buttons. - settingsHelpLegendTooltips = Display tooltips on the map legend.\nDisabling will also disable biome map legends. - settingsHelpStockToolbar = Use the stock toolbar.\nCan be used concurrently with the Blizzy78 Toolbar. - settingsHelpToolbarMenu = Use a pop-out menu for the stock toolbar to show all available windows. - settingsHelpMechJeb = The SCANsat zoom map and big map waypoint selection modes\ncan be used to select a MechJeb landing site. - settingsHelpMechJebLoad = Load a saved MechJeb landing target.\nThis only works while in the flight scene with a valid MechJeb vessel. - settingsHelpMapGenSpeed = Adjust all SCANsat map generation speeds.\nLower values will save CPU resources and may reduce the\nperformance impact of generating maps. - settingsHelpResetWindows = Reset all window positions and scale.\nUse this in case a window has been dragged completely\noff screen or if any windows are not visible. - settingsHelpResetPlanetData = Resets all SCANsat data for the current celestial body.\nA confirmation window will open before activating.\nCannot be reversed. - settingsHelpResetAllData = Resets all SCANsat data for all celestial bodies.\nA confirmation window will open before activating.\nCannot be reversed. - settingsHelpVesselsSensorsPasses = Information about the currently active SCANsat sensors.\nVessels indicates the number of vessels with active sensors.\nSensors indicates the total number of sensors;\ninstruments with multiple sensor types count each individual sensor.\nPasses indicates the number of sensor updates performed per second.\nThis value is affected by the TimeWarp Resolution setting. - settingsHelpGreyScale = Use a true grey-scale color spectrum for black-and-white SCANsat maps.\nPixels on the altitude map will interpolate between black and white;\nthe min and max terrain heights for each celestial body define the limits. - settingsHelpExportCSV = Export a .csv file along with map texture when using the Export button on the big map.\nThe file contains coordinates and the terrain height for each pixel.\nPixels are labeled from left to right and from top to bottom. - settingsHelpSetMapWidth = Enter an exact value for the SCANsat big map texture width.\nValues are limited to 550 - 8192 pixels wide.\nPress the Set button to apply the value. - settingsHelpWindowScale = Adjust all SCANsat window scales. - settingsHelpFillPlanet = Fill in all SCANsat data for the current celestial body. - settingsHelpFillAll = Fill in all SCANsat data for all celestial bodies. - resourceSettingsHelpBiomeLock = Circumvents the requirement for stock surface biome scans.\nSCANsat displays will show the full accuracy for resource\nabundance with or without any surface biome scans. - resourceSettingsHelpInstant = By default, the stock M700 resource scanner's orbital survey will fill in all SCANsat resource maps.\nThis can be disabled, requiring standard SCANsat methods for all resource scanning.\nDisabled automatically when stock resource scanning is disabled. - resourceSettingsHelpNarrowBand = Numerous SCANsat functions require a Narrow-Band resource scanner on-board\nthe current vessel or in orbit of a celestial body for fully accurate resource abundance data.\nDisable this to circumvent these restrictions. - resourceSettingsHelpDisableStock = Disables all stock resource scanning functions.\nSCANsat scanning methods will be required for all resource data.\nReplaces several stock resource functions with SCANsat tools.\nThese include The right-click readouts, and the planetary overlay maps. - resourceSettingsHelpResetSCANsatResource = Resets all SCANsat resource data for the current celestial body.\nOther SCANsat data is not affected.\nA confirmation window will open before activating.\nCannot be reversed. - resourceSettingsHelpResetStockResource = Resets the stock resource scanning coverage for the current celestial body.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. - resourceSettingsHelpOverlayInterpolation = Change the number of resource abundance measurements used in constructing\nthe planetary overlay and big map resource overlay.\nDecrease the value to increase the accuracy of the map.\nLower values will result in slower map generation. - resourceSettingsHelpOverlayHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay and big map resource overlay.\nIncrease the value to increase the quality and accuracy of the map.\nHigher values will result in slower map generation. - resourceSettingsHelpOverlayBiomeHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay biome map. Increase the value to increase\nthe quality and accuracy of the map.\nHigher values will result in slower map generation. - resourceSettingsHelpOverlayTransparency = Create a grey background for planetary overlay resource maps.\nUsed to make clear which sections of the celestial body\nhave been scanned but contain no resources. - resourceSettingsHelpScanThreshold = A threshold level used to apply the stock resource scan to a celestial body after scanning with SCANsat sensors.\nThis is useful when contracts or other addons require that a stock resource scan be performed.\nSet a value from 0-100 in the text box and click on the Set button.\nAll celestial bodies will be checked immediately;\ncelestial bodies will also be checked upon loading or a scene change.\nA reload may be required for the changes to take effect. - colorTerrainHelpMin = Defines the low altitude cutoff for the terrain color palette.\nAnything below this altitude will be shown with the lowest color. - colorTerrainHelpMax = Defines the high altitude cutoff for the terrain color palette.\nAnything above this altitude will be shown with the highest color. - colorTerrainHelpClampToggle = Used to define a cutoff between the low and high altitude values.\nThis is particularly useful for ocean planets where it helps to\ndefine a sharp distinction between land and ocean. - colorTerrainHelpClamp = Defines the clamp altitude cutoff.\nAnything below the cutoff will be represented by the first two colors in the selected color palette.\nAnything above the cutoff will be represented with the remaining colors. - colorTerrainHelpReverse = Reverses the order of the currently\nselected color palette. - colorTerrainHelpDiscrete = Draws the map using only the specific colors defined by each palette,\ninstead of smoothly interpolating between them. - colorTerrainHelpPaletteSize = Adjust the number of colors available\nin the currently selected color palette. - colorBiomeHelpStock = Use the stock biome color scheme for\nSCANsat biome maps. - colorBiomeHelpWhiteBorder = Draw a white border between biomes.\nDoes not apply to the planetary overlay biome maps. - colorBiomeHelpTransparency = Adjust the transparency of biome maps.\nTerrain elevation is shown behind the biome maps.\nSet to 0% to disable terrain drawing. - colorPickerHelpLow = The top color swatch shows the updated\ncolor selection for the low end of this color spectrum.\nThe bottom color swatch shows the currently active color. - colorPickerHelpHigh = The top color swatch shows the updated\ncolor selection for the high end of this color spectrum.\nThe bottom color swatch shows the currently active color. - colorResourceHelpMin = The low cutoff for resource concentration on the selected celestial body.\nResource deposits at this level will be displayed\nusing the low end of the current resource overlay color spectrum.\nResource deposits below this value will not be shown. - colorResourceHelpMax = The high cutoff for resource concentration on the selected celestial body.\nResource deposits above this value will be displayed\nusing the high end of the current resource overlay color spectrum. - colorResourceHelpTransparency = Defines the level of transparency for resource overlays.\nIncrease to allow more of the underlying terrain, slope, or biome map to be visible.\nThis also affect the transparency of resource deposits on the planetary overlay resource map. - colorResourceHelpApply = Applies the current values for the\nselected resource and celestial body only. - colorResourceHelpApplyAll = Applies the current values for the\nselected resource for all celestial bodies. - colorResourceHelpDefault = Reverts to the default values for the\nselected resource and celestial body only. - colorResourceHelpDefaultAll = Reverts to the default values for the\nselected resource for all celestial bodies. - colorHelpSaveToConfig = Save all color configuration values to\nthe config file found in your SCANsat/Resources folder.\nThese values serve as the defaults for new saves\nand for all Revert To Default buttons.\nValues do not need to be saved to the config file to be applied for this save file. - colorSlopeHelpCutoff = Adjust the cutoff level between\nthe two selected slope color pairs. - mainMapToggle = Main Map - bigMapToggle = Big Map - zoomMapToggle = Zoom Map - overlayToggle = Planetary Overlay - instrumentsToggle = Instruments Readout - settingsToggle = Settings - mainMapColor = Map Color - mainMapTerminator = Map Day/Night Terminator - mainMapType = Terrain/Biome Toggle - mainMapMinimize = Show/Hide Vessel Info - mainMapStatus = Scanner Status Indicators - mainMapPercentage = Active Scanner Completion Percentage - bigMapRefresh = Map Refresh - bigMapColor = Map Color - bigMapTerminator = Map Day/Night Terminator - bigMapGrid = Grid Overlay - bigMapOrbit = Orbit Overlay - bigMapWaypoints = Waypoints - bigMapAnomaly = Anomalies - bigMapFlags = Flags - bigMapLegend = Map Legend - bigMapResource = Resource Overlay - bigMapExport = Export Map To Disk - overlayRefresh = Map Refresh - insNextResource = Next Resource - insPreviousResource = Previous Resource - zoomVesselSync = Sync Current Vessel - zoomVesselLock = Lock Position To Vessel - zoomMapRefresh = Map Refresh - zoomMapWindowState = Toggle Window Size - zoomMapIn = Zoom In - zoomMapOut = Zoom Out - zoomMapLeft = Shift Left - zoomMapRight = Shift Right - zoomMapUp = Shift Up - zoomMapDown = Shift Down - zoomMapIcons = Map Icons - waypointToggle = Waypoint Selector - waypointSet = Create Waypoint - waypointCancel = Cancel Waypoint - waypointMechJeb = Set MechJeb Landing Target - waypointNameRefresh = Reset Waypoint - warningDataResetCurrent = Erase [0] map for [1]? - warningDataResetAll = Erase [0] for all celestial bodies? - warningStockResourceResetCurrent = Erase stock resource data for [0]? - warningStockResourceResetAll = Erase stock resource data for all celestial bodies? - warningStockResourceResetAll = Erase stock resource data for all celestial bodies? - warningMapFillCurrent = Fill in [0] map for [1]? - warningMapFillAll = Fill in [0] for all celestial bodies? - warningModuleManagerResource = Warning\nModule Manager is required for all SCANsat resource scanning functions. - warningSaveToConfig = Overwrite existing config file on disk? - } - } -} From 79bd851f7b95b276d542b50e5d5f705bab5799ba Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 11:34:40 -0500 Subject: [PATCH 11/19] Localization files separated by language --- .../Resources/Localization/de/Contracts.cfg | 39 ++++++++ .../Resources/Localization/de/Flags.cfg | 9 ++ .../Resources/Localization/de/Helptips.cfg | 62 +++++++++++++ .../Resources/Localization/de/OtherText.cfg | 26 ++++++ .../Resources/Localization/de/Parts.cfg | 22 +++++ .../Resources/Localization/de/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/de/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/de/Warnings.cfg | 14 +++ .../Localization/en-us/Contracts.cfg | 39 ++++++++ .../Resources/Localization/en-us/Flags.cfg | 9 ++ .../Resources/Localization/en-us/Helptips.cfg | 62 +++++++++++++ .../Localization/en-us/OtherText.cfg | 35 +++++++ .../Resources/Localization/en-us/Parts.cfg | 17 ++++ .../Resources/Localization/en-us/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/en-us/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/en-us/Warnings.cfg | 14 +++ .../Localization/es-es/Contracts.cfg | 39 ++++++++ .../Resources/Localization/es-es/Flags.cfg | 9 ++ .../Resources/Localization/es-es/Helptips.cfg | 62 +++++++++++++ .../Localization/es-es/OtherText.cfg | 26 ++++++ .../Resources/Localization/es-es/Parts.cfg | 22 +++++ .../Resources/Localization/es-es/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/es-es/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/es-es/Warnings.cfg | 14 +++ .../Localization/pt-br/Contracts.cfg | 39 ++++++++ .../Resources/Localization/pt-br/Flags.cfg | 9 ++ .../Resources/Localization/pt-br/Helptips.cfg | 69 ++++++++++++++ .../Localization/pt-br/OtherText.cfg | 35 +++++++ .../Resources/Localization/pt-br/Parts.cfg | 22 +++++ .../Resources/Localization/pt-br/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/pt-br/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/pt-br/Warnings.cfg | 14 +++ .../Resources/Localization/ru/Contracts.cfg | 39 ++++++++ .../Resources/Localization/ru/Flags.cfg | 9 ++ .../Resources/Localization/ru/Helptips.cfg | 62 +++++++++++++ .../Resources/Localization/ru/OtherText.cfg | 35 +++++++ .../Resources/Localization/ru/Parts.cfg | 22 +++++ .../Resources/Localization/ru/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/ru/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/ru/Warnings.cfg | 14 +++ .../Localization/zh-cn/Contracts.cfg | 39 ++++++++ .../Resources/Localization/zh-cn/Flags.cfg | 9 ++ .../Resources/Localization/zh-cn/Helptips.cfg | 62 +++++++++++++ .../Localization/zh-cn/OtherText.cfg | 35 +++++++ .../Resources/Localization/zh-cn/Parts.cfg | 22 +++++ .../Resources/Localization/zh-cn/Science.cfg | 91 +++++++++++++++++++ .../Resources/Localization/zh-cn/Tooltips.cfg | 48 ++++++++++ .../Resources/Localization/zh-cn/Warnings.cfg | 14 +++ 48 files changed, 1904 insertions(+) create mode 100644 SCANassets/Resources/Localization/de/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/de/Flags.cfg create mode 100644 SCANassets/Resources/Localization/de/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/de/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/de/Parts.cfg create mode 100644 SCANassets/Resources/Localization/de/Science.cfg create mode 100644 SCANassets/Resources/Localization/de/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/de/Warnings.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Flags.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/en-us/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Parts.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Science.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/en-us/Warnings.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Flags.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/es-es/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Parts.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Science.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/es-es/Warnings.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Flags.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Parts.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Science.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/pt-br/Warnings.cfg create mode 100644 SCANassets/Resources/Localization/ru/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/ru/Flags.cfg create mode 100644 SCANassets/Resources/Localization/ru/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/ru/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/ru/Parts.cfg create mode 100644 SCANassets/Resources/Localization/ru/Science.cfg create mode 100644 SCANassets/Resources/Localization/ru/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/ru/Warnings.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Contracts.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Flags.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Helptips.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/OtherText.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Parts.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Science.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Tooltips.cfg create mode 100644 SCANassets/Resources/Localization/zh-cn/Warnings.cfg diff --git a/SCANassets/Resources/Localization/de/Contracts.cfg b/SCANassets/Resources/Localization/de/Contracts.cfg new file mode 100644 index 000000000..8bdb2f862 --- /dev/null +++ b/SCANassets/Resources/Localization/de/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + de + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_exceptional0004 = Perform several high resolution scans of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = We now have a detailed map and survey for the surface of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Must have less than a 90% high resolution altimetry scan of the target body. + #autoLOC_SCANsat_exceptional0007 = Must have less than a 90% ore scan of the target body. + #autoLOC_SCANsat_exceptional0008 = Must have orbited the target body, or the target body must be next on the list. + + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SACNsat_trivial_0006 = Target is part of home system. + #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/de/Flags.cfg b/SCANassets/Resources/Localization/de/Flags.cfg new file mode 100644 index 000000000..5ff6c2b62 --- /dev/null +++ b/SCANassets/Resources/Localization/de/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + de + { + #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/de/Helptips.cfg b/SCANassets/Resources/Localization/de/Helptips.cfg new file mode 100644 index 000000000..4fafed41f --- /dev/null +++ b/SCANassets/Resources/Localization/de/Helptips.cfg @@ -0,0 +1,62 @@ +Localization +{ + de + { + #autoLOC_SCANsat_settingsHelpScanningToggle = Gesamtes SCANsat-Scanning umschalten. + #autoLOC_SCANsat_settingsHelpBackground = Hintergrund-Scanning auf gewählten\nHimmelskörpern umschalten. + #autoLOC_SCANsat_settingsHelpTimeWarp = Einstellung der Scan-Frequenz während Zeitbeschleunigung.\nHöhere Werte reduzieren das Auftreten von Lücken im Scan, können jedoch die Performance bei\nhoher Zeitbeschleunigung beeinträchtigen. + #autoLOC_SCANsat_settingsHelpGroundTracks = Zeigt in der Kartenansicht den Scan-Bereich. + #autoLOC_SCANsat_settingsHelpGroundTracksActive = Der Scan-Bereich kann nur auf das\nAktive Vehikel oder alle angewandt werden. + #autoLOC_SCANsat_settingsHelpStockUIStyle = Schaltet das UI zwischen\nStandard-KSP-Style und Unity-Style um. + #autoLOC_SCANsat_settingsHelpOverlayTooltips = Zeigt Tooltips zur Mausposition auf der Overlay-Karte an.\nDiese Tooltips beinhalten Cursor-Koordinaten, Geländehöhe, Geländeneigung, Biomname und Ressourcen-Verfügbarkeit. + #autoLOC_SCANsat_settingsHelpWindowTooltips = Zeigt Tooltips zu Fensterkarten-Buttons an.\nDiese dienen hauptsächlich dem Identifizieren von Buttons mit Icons. + #autoLOC_SCANsat_settingsHelpLegendTooltips = Zeigt Tooltips zur Kartenlegende.\nAusschalten deaktiviert ebenso die Biomkartenlegende. + #autoLOC_SCANsat_settingsHelpStockToolbar = Nutze die Standard-Toolbar.\nKann gleichzeitig mit Blizzy78's Toolbar angewandt werden. + #autoLOC_SCANsat_settingsHelpToolbarMenu = Nutze ein Pop-Out-Menü, an Stelle der Standard-Toolbar um alle verfügbaren Fenster an zu zeigen. + #autoLOC_SCANsat_settingsHelpMechJeb = Die SCANsat Zoom-Karte nutzen, um Wegpunkte zu wählen und MechJeb-Landeplätze aus zu suchen. + #autoLOC_SCANsat_settingsHelpMechJebLoad = Lädt einen gespeicherten MechJeb-Landeplatz.\nDies funktioniert nur in aktiven Vehikeln mit einem gültigen MechJeb-Modul. + #autoLOC_SCANsat_settingsHelpMapGenSpeed = Einstellung der Kartengenerierungsgeschwindigkeit aller SCANsat-Karten.\nNiedrigere Werte reduzieren CPU-Auslastung und möglicherweise Leistungseinbrüche beim Generieren von Karten. + #autoLOC_SCANsat_settingsHelpResetWindows = Zurücksetzen aller Fensterpositionen und deren Skalierung.\nNutze dies, falls etwaige Fenster aus dem sichtbaren Bereich verschoben wurden oder gänzlich fehlen. + #autoLOC_SCANsat_settingsHelpResetPlanetData = Zurücksetzen der gewählten SCANsat-Daten des aktuellen Himmelskörper.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! + #autoLOC_SCANsat_settingsHelpResetAllData = Zurücksetzen der gewählten SCANsat-Daten ALLER Himmelskörper.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Informationen über momentan aktive SCANsat-Sensoren.\n'Vehikel' zeigt die Anzahl aller Vehikel mit aktiven Sensoren.\n'Sensoren' zeigt die Gesamtzahl aller Sensoren;\nInstrumente mit mehreren Sensoren werden als individuelle Sensoren gezählt.\n'Durchgänge' zeigt die Anzahl an Sensor-Auffrischungen pro sekunde.\nDieser Wert wird vom Zeitbeschleunigungsfaktor beeinflusst. + #autoLOC_SCANsat_settingsHelpGreyScale = Nutze ein echtes Graustufenfarbspektrum an Stelle der schwarz/weiß SCANsat-Karten.\nPixel auf der Höhenkarte werden zwischen schwarz und weiß interpoliert;\n die min/max Geländehöhe für jeden einzelnen Himmelkörper definieren das Limit. + #autoLOC_SCANsat_settingsHelpExportCSV = Exportiert eine .CSV-Datei, zusammen mit einer Kartentextur, falls die Exportfunktion auf der großen Karte verwendet wird.\nDie Datei enthält Koordinaten und die Geländehöhe für jedes Pixel.\nPixel werden von links nach rechts und von oben nach unten beschrieben. + #autoLOC_SCANsat_settingsHelpSetMapWidth = Gebe einen exakten Wert für die Breite der großen SCANsat-Kartentextur an.\nWerte sind auf 550 - 8192 pixel beschränkt.\nKlicke den 'Setzen'-Button um die Werte an zu wenden. + #autoLOC_SCANsat_settingsHelpWindowScale = Stellt alle SCANsat Fensterskalierungen ein. + #autoLOC_SCANsat_settingsHelpFillPlanet = Füllt die gewälten SCANsat-Daten des momentan Himmelskörpers auf. + #autoLOC_SCANsat_settingsHelpFillAll = Füllt die gewälten SCANsat-Daten ALLER Himmelskörpers auf. + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Umgeht die Notwendigkeit vorhergehender Standard-Oberflächen-Biom-Scans.\nDie SCANsat-Anzeigen werden die Ressourcen mit voller Präzision anzeigen, ohne vorhergehende Biom-Scans. + #autoLOC_SCANsat_resourceSettingsHelpInstant = Als Standard füllt der M700-Scanner die gesamte Ressourcenkarte.\nDies kann deaktiviert werden. In diesem Falle werden SCANsat-Scanner für alle Ressourcen-Scans benötigt.\nWird automatisch deaktiviert, sollte das Standard-Ressourcen-Scan-System deaktiviert sein. + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Viele SCANsat-Funktionen benötigen einen Schmalband-Ressourcen-Scanner an Bord\ndes momentanen Vehikels oder innerhalb des Orbit eines Himmelskörper, für maximale Genauigkeit der Ressourcen-Daten.\nDeaktiviere dies um diese Einschränkungen zu umgehen. + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Deaktiviert alle Standard-Resourcen-Scan-Funktionen.\nSCANsat-Scan-Methoden werden für alle Resourcen-Scans benötigt.\nErsetzt mehrere Standardfunktionen mit SCANsat-funktionen.\nDies schließt ebenso das Rechtsklickmenü und alle Overlay-Karten mit ein. + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Setzt die Standard-Resourcen-Abdeckung für den momentanen Himmelskörper zurück.\nNeuladen oder ein Szenenwechsel könnten nötig sein um die Änderungen zu übernehmen.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Setzt die Standard-Resourcen-Abdeckung für ALLE Himmelskörper zurück.\nNeuladen oder ein Szenenwechsel könnten nötig sein um die Änderungen zu übernehmen.\nEin Bestätigungsfenster wird sich vor Durchführung öffnen.\nKann nicht rückgängig gemacht werden! + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Ändert die Anzahl an Resourcen-Messungen welche beim generieren\n des planetaren Overlays und der großen Resourcenkarte verwendet werden.\nVerringere den Wert um die Genauigkeit der Karte zu erhöhen.\nNiedrigere Werte verringern die Geschwindigkeit der Kartengenerierung. + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Ändert die Texturgröße (Kartenbreite = 2x Höhe) welche beim konstruieren\n des planetaren Overlays und der großen Ressourcenkarte verwendet wird.\nHöhere Werte verringern die Geschwindigkeit der Kartengenerierung. + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Ändert die Texturgröße (Kartenbreite = 2x Höhe) welche beim konstruieren\n des planetaren Overlays und der großen Biomkarte verwendet wird.\nHöhere Werte erhöhen die Genauigkeit und Qualität der Karte.\nHöhere Werte verringern die Geschwindigkeit der Kartengenerierung. + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Generiert einen grauen Hintergrund für die planetare Resourcen-Overlay-Karte\nWird verwendet um Bereiche zu verdeutlichen, welche gescannt \nwurden, jedoch keine Resourcen enthalten. + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Ein Schwellwert, welcher angibt, ab wann das Standard-Ressourcen-Scan-System nach vorherigem SCANsat-scannen angewendet wird. Notwendig bei Verträgen, welche einen Standard-Scan zur Erfüllung benötigen\nSetze einen Wert zwischen 0 und 100 und klicke den 'Setzen'-button.\nAlles Himmelskörper werden sofort überprüft;\nHimmelskörper werden ebenso bei einer Landung oder einem Szenenwechsel geprüft.\nNeuladen könnte notwendig sein, um die Einstellung zu übernehmen. + #autoLOC_SCANsat_colorTerrainHelpMin = Definiert die untere Höhenbegrenzung der Geländefarbpalette.\nAlles unterhalb dieser Höhe wird mit dem niedrigsten Farbwert dargestellt. + #autoLOC_SCANsat_colorTerrainHelpMax = Definiert die obere Höhenbegrenzung der Geländefarbpalette.\nAlles oberhalb dieser Höhe wird mit dem höchsten Farbwert dargestellt. + #autoLOC_SCANsat_colorTerrainHelpClampToggle = Definiert eine Abgranzung zwischen oberer und unterer Höhenbegrenzung.\nDies ist besonders bei Ozeanplaneten nützlich, um den Ozean scharf von den Landmassen ab zu grenzen. + #autoLOC_SCANsat_colorTerrainHelpClamp = Definiert die Höhe der Höhenbegrenzung.\n Alles unterhalb diese Begrenzung wird durch die ersten zwei Farben der momentan gewählten Palette dargestellt.\nAlles Oberhalb dieser Grenze wird mit den übrigen Farben dargestellt. + #autoLOC_SCANsat_colorTerrainHelpReverse = Invertiert die Reihenfolge der\nmomentan gewählten Palette. + #autoLOC_SCANsat_colorTerrainHelpDiscrete = Zeichnet die Karte nur an Hand der Farben der gewählten Palette,\nohne diese weich zu interpolieren. + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Ändert die Anzahl an Farben,\nin der momentan gewählten Palette. + #autoLOC_SCANsat_colorBiomeHelpStock = Nutze das Standardfarbschema auf\nSCANsat-Biomkarten. + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Zeichnet eine weiße Grenzlinie zwischen den Biomen.\nDies gilt jedoch nicht für die planetare Overlay-Biomkarte. + #autoLOC_SCANsat_colorBiomeHelpTransparency = Ändert die Transparenz an Biomkarten.\nGeländerhöhungen werden unterhalb der Biomkarte angezeigt.\nSetze auf 0%, um das Zeichnen des Geländes ab zu schalten. + #autoLOC_SCANsat_colorPickerHelpLow = Der obere Farbraum zeigt die aktualisierte Auswahl an Farben des unteren Farbspektrums an.\nDer untere Farbraum zeigt die momentan aktive Farbe. + #autoLOC_SCANsat_colorPickerHelpHigh = Der obere Farbraum zeigt die aktualisierte Auswahl an Farben des oberen Farbspektrums an.\nDer untere Farbraum zeigt die momentan aktive Farbe. + #autoLOC_SCANsat_colorResourceHelpMin = Die Untergrenze der Resourcenkonzentration des momentan gewählten Himmelskörper.\nRessourcen-Lagerstätten auf diesem Level werden mit dem unteren Ende des Farbraumes der Momentan gewählten Farbpalette angezeigt.\nResourcenlagerstätten unterhalb dieses Levels werden nicht angezeigt. + #autoLOC_SCANsat_colorResourceHelpMax = Die Obergrenze der Resourcenkonzentration des momentan gewählten Himmelskörper.\nRessourcen-Lagerstätten auf diesem Level werden mit dem oberend ende des Farbraumes der momentan gewählten Farbpalette angezeigt. + #autoLOC_SCANsat_colorResourceHelpTransparency = Definiert den Transparenzgrad der Recourcen-Overlays.\nErhöhe diesen Wert um mehr von den Unterlagerten Gelände-/Bodenwinkel- oder Biomkarte darzustellen.\nDies beeinflußt ebenso die Transparenz der Ressourcen-Lagerstätten auf der planetaren Overlay-Karte. + #autoLOC_SCANsat_colorResourceHelpApply = Bestätigt die eingegebenen Werte nur für den momentan gewählten Himmelskörper. + #autoLOC_SCANsat_colorResourceHelpApplyAll = Bestätigt die eingegebenen Werte der gewählten Resource für alle Himmelskörper. + #autoLOC_SCANsat_colorResourceHelpDefault = Setzt nur ausgewählte Resourcen und Himmelskörper auf Standardwerte zurück. + #autoLOC_SCANsat_colorResourceHelpDefaultAll = Setzt ausgewählte Resourcen auf ALLEN Himmelskörpern zurück. + #autoLOC_SCANsat_colorHelpSaveToConfig = Speichert alle Farbeinstellungen in die config-Datei innerhalb des SCANsat/Resources-Verzeichnis.\nDiese Werte dienen als Standardwerte für neu erstellte Spielstände und alle Rücksetzfunktionen.\nDie Werte müssen nicht in die config-Datei gespeichert werden, um Diese auf diesen Spielstand an zu wenden. + #autoLOC_SCANsat_colorSlopeHelpCutoff = Ändert den Grenzwert zwischen den beiden ausgewählten Farbpaaren für Geländeneigung. + } +} diff --git a/SCANassets/Resources/Localization/de/OtherText.cfg b/SCANassets/Resources/Localization/de/OtherText.cfg new file mode 100644 index 000000000..ac8038b63 --- /dev/null +++ b/SCANassets/Resources/Localization/de/OtherText.cfg @@ -0,0 +1,26 @@ +Localization +{ + de + { + #autoLOC_SCANsat_Analyze = Daten Analysieren + #autoLOC_SCANsat_StartScan = Scan Starten + #autoLOC_SCANsat_StopScan = Scan Stoppen + #autoLOC_SCANsat_ToggleScan = Scan Ein/Aus + #autoLOC_SCANsat_Extend = Ausfahren + #autoLOC_SCANsat_Retract = Einfahren + #autoLOC_SCANsat_Unknown = Unbekannt + #autoLOC_SCANsat_All_Disabled = Alle Scans Deaktiviert + #autoLOC_SCANsat_Disabled = Scans Deaktiviert + #autoLOC_SCANsat_TooLow = Zu Niedrig + #autoLOC_SCANsat_SubOptimal = Sub-Optimal + #autoLOC_SCANsat_Ideal = Ideal + #autoLOC_SCANsat_TooHigh = Zu Hoch + #autoLOC_SCANsat_NoData = Keine Daten + #autoLOC_SCANsat_Abundance = Ausbeute + #autoLOC_SCANsat_Surface = Oberfläche + #autoLOC_SCANsat_AltitudeMin = Höhe (min): <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = Höhe (ideal): <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = Höhe (max): <<1>>km\n + #autoLOC_SCANsat_FOV = Sichtwinkel: <<1>> + } +} diff --git a/SCANassets/Resources/Localization/de/Parts.cfg b/SCANassets/Resources/Localization/de/Parts.cfg new file mode 100644 index 000000000..e4ae327eb --- /dev/null +++ b/SCANassets/Resources/Localization/de/Parts.cfg @@ -0,0 +1,22 @@ +Localization +{ + de + { + #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation + + #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Description = Dieser kleine Sensor kann automatisch Anomalien in geringer Entfernung identifizieren. Da er nur auf sehr kurzen Reichweiten arbeitet, ist er hauptsächlich zum detaillierten scannen bereits aufgespürter Anomalien nützlich. + + #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® + #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. + + #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor + #autoLOC_SCANsat_Multi_Description = Dieser Multispektrale Mehrkanalsensor detektiert Strahlung über mehrere Infrarot, visuelle und Radar-Frequenzbänder. Dies gibt ihm die Fähigkeit zwischen verschiedenen Biomen und Geländearten zu unterscheiden. Ebenso kann er Anomalien und Strukturen auf dem Boden detektieren. + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Altimetry Sensor + #autoLOC_SCANsat_Radar_Description = SCAN bringt Euch diesen Hochleistungs-RADAR-altimetrie-Sensor. Dies ist das Einstiegsmodell dieser Sensorfamilie und wird üblicherweise zusammen mit Spielzeugraketen und ferngesteuerten Modellflugzeugen ausgeliefert. Als nach gezieltem Gruppentesten herausgefunden wurde, daß 95% des Zielklientels einfach versuchen das Gerät mit Panzer-Tape an das Auspuffrohr einer Raketenturbopumpe zu befestigen, wurde dieses verbesserte Modell in seiner Handhabung deutlich vereinfacht. + + #autoLOC_SCANsat_SAR_Title = SCAN SCAN SAR Altimetry Sensor + #autoLOC_SCANsat_SAR_Description = Dieses Radar mit synthetischer Apertur (SAR) nutzt seinen Orbit um eine deutlich größere Antenne zu simulieren. Dies ermöglicht es äußerst hoch auflösende Terrain-Elevationsdaten zu erhalten. Die Kehrseite jedoch ist der relativ kleine Sichtwinkel und die Anforderung an größere Orbitale höhen. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/de/Science.cfg b/SCANassets/Resources/Localization/de/Science.cfg new file mode 100644 index 000000000..fac146cf0 --- /dev/null +++ b/SCANassets/Resources/Localization/de/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + de + { + #autoLOC_SCANsat_Science_Lo_Title = Altimetrie-Scan mir geringer Auflösung + #autoLOC_SCANsat_Science_Lo_Default1 = Niedrigauflösende Altimetrie-Daten analysiert. + #autoLOC_SCANsat_Science_Lo_Defualt2 = "RADAR-Altimetrie-Sensor erstattet Bericht. Keine Ahnung warum, aber wir haben ein gutes Signal und bekommen Daten. Das schreit geradezu nach einer ordentlichen Runde Kekse!" + #autoLOC_SCANsat_Science_Lo_Sun = Du wunderst Dich, ob der Sensor möglicherweise eine Fehlfunktion hat. + #autoLOC_SCANsat_Science_Lo_Moho = Nun, wenigstens lassen diese niedrig auflösenden Daten Moho halbwegs cool aussehen. Nicht gerade gigantische Lavaseen, aber trotzdem irgendwie cool. + #autoLOC_SCANsat_Science_Lo_Eve = Du betrachtests die grieseligen und ungenauen Höhendaten, welche vom Scanner angezeigt werden und wünschst insgeheim den hochauflösenden Sensor losgeschickt zu haben. Nur ein weiterer Grund noch mehr Raketen zu starten! (Als ob wir dafür irgendwelche Gründe bräuchten.) + #autoLOC_SCANsat_Science_Lo_Gilly = Der niederauflösende Scan bestätigt was bereits bekannt war: Gilly ist nur ein unförmiger Fels der mitten durchs nirgendwo treibt. Wenigstens muss man seine Augen nicht anstrengen, um den Bericht zu lesen. + #autoLOC_SCANsat_Science_Lo_Kerbin = Selbst diese niedrig auflösenden Scan-Daten der Planetenoberfläche sind aufregend nützlich. Du kannst es kaum erwarten diese Technologie auf dem Mun oder sogar weiter entfernt anzuwenden. + #autoLOC_SCANsat_Science_Lo_Mun = Die daten zeigen breite Streifen der Landschaft darunter. Ein hochauflösender Scan wäre hilfreicher, aber mit diesen Daten kannst Du wahrscheinlich trotzdem einen Landeplatz ausfindig machen. + #autoLOC_SCANsat_Science_Lo_Minmus = Widerwillig akzeptierst Du, daß die Jungs an der Kerbal Astronomical Society recht hatten: Minmus ist tatsächlich ein Mond. Du hättest es nicht geglaubt, hättest Du die Altimetriedaten nicht mit Deinen eigenen Augen gesehen. + #autoLOC_SCANsat_Science_Lo_Duna = Diese Niedrig Auflösenden Scan-Daten sind etwas verrauscht und verzerrt, sind aber nichts desto trotz unschätzbar beim ausfindigmachen eines Landeplatzes auf Duna. Plötzliche Aussichten auf eine echte Duna-Mission. + #autoLOC_SCANsat_Science_Lo_Ike = Beim Grübeln über die Daten fällt Dir schlagartig die Ähnlichkeit zwischen Ike und dem Mun auf. Du wunderst die über eine möglicherweise vergleichbare Geologie. + #autoLOC_SCANsat_Science_Lo_Dres = Selbt mit den niedrig auflösenden Daten ist es glasklar, das Dres einige recht prominente Gebirge hat. Du kannst die Ressourcen-Scan-Resultate kaum abwarten, weil Du davon überzeugt bist, daß "Dort seie Gold in den Euren Hügeln!" + #autoLOC_SCANsat_Science_Lo_Jool = Altimetrie, welche Altimetrie? Es ist ein Gasriese, Kerbalskinder! Lasst uns einfach irgendeine zufällige nummer auswählen und es gut sein lassen. + #autoLOC_SCANsat_Science_Lo_Laythe = Der Sensor scheint nicht in der Lage zu sein das Wasser zu penetrieren. + #autoLOC_SCANsat_Science_Lo_Vall = Nun, hier ist er: "Ein Präzedenz-Vall für alle Volgefälle! Hahahahaha! Hahaha. Ha. Ha? Was jetzt, irgendwer muss das doch lustig finden. + #autoLOC_SCANsat_Science_Lo_Tylo = Du bist Dir immer noch nicht Sicher, welche eine Aussicht es wäre, von der Oberfläche von Laythe aus Vall und Jool im Hintergrund darüber zu sehen, aber diese Scan-Daten sollten beim finden eines Landeplatzes helfen, um es heraus zu finden. + #autoLOC_SCANsat_Science_Lo_Bop = Nun, die niedrig auflösenden Scan-Daten sind drin und Du entscheidest Dich diese zu packen und an das KSC zu senden. Du hoffst daß noch genug Saft in den Batterien ist, um die Daten los zu schicken und gleichzeitig die Hauptsysteme aufrecht zu erhalten. + #autoLOC_SCANsat_Science_Lo_Pol = Der niedrig auflösenden Scan zeigt, daß Pol in der Tat wie ein großer Pollen aussieht. Bis zur Modernisierung zu einem hochauflösenden Scan und Fortschritte in Elektronenmikroskopie wirst Du trotzdem mit der Frage zurück gelassen, wie stark die Ähnlichkeiten wirklich sind. + #autoLOC_SCANsat_Science_Lo_Eeloo = Die Wissenschaftler auf Kerbin haben lange Zeit auf diese Daten gewartet. Zweifelsohne wird es jede Menge Partys und Kekse für alle geben. + + #autoLOC_SCANsat_Science_Hi_Title = Hochauflösender Altimetrie-Scan + #autoLOC_SCANsat_Science_Hi_Default1 = Hochauflösende Altimetriedaten analysiert. + #autoLOC_SCANsat_Science_Hi_Default2 = "Der Hochauflösende Altimetrie-Scan ist definitiv besser als der niedrigauflösende. SCAN hat wieder einmal seine Scan-Künste unter Beweis gestellt." + #autoLOC_SCANsat_Science_Hi_Sun = Dir wird klar, daß Du einen Haufen Geld hättest sparen können, wenn Du dem niedrig auflösenden Scanner vertraut hättest. + #autoLOC_SCANsat_Science_Hi_Moho = Na Endlich! Die Abgefahrenheit kehrt nach Moho zurück! Es mögen zwar nicht gerade gigantische Lavaflüsse sein, aber diese Daten sind einfach spektakulär! + #autoLOC_SCANsat_Science_Hi_Eve = Der hochauflösende Scanner hat die Purpur nebulöse Atmosphäre recht gut durchdrungen und Du bist nun in der Lage winzige Details in der Oberfläche aus zu machen. Die Wissenschaftler am KSC werden erleichtert sein. + #autoLOC_SCANsat_Science_Hi_Gilly = Gilly erscheint selbst in hoher Auflösung irgendwie mit geringer Auflösung. Dies ist eine ernsthaft deformierte Oberfläche. + #autoLOC_SCANsat_Science_Hi_Kerbin = All die bunten Farben der neuen hochauflösenden Scan-Technologie hypnotisieren Dich geradezu. Die Missionsleitung weckt Dich aus Deiner Benommenheit und Du wischst Dir schnell einigen Sabber aus Deinen Mundwinkeln. + #autoLOC_SCANsat_Science_Hi_Mun = "Ha! Kein langweilig grauer Mond mehr. Seht Euch einfach all die bunten Farben des Scans an! Nun können wir wirklich einen Hauptlandeplatz bestimmen. + #autoLOC_SCANsat_Science_Hi_Minmus = Wow, Minmus ist nicht nur echt, er hat eine recht aufregende Topographie! Du kannst es kaum erwarten in einer der flachen Gebiete zu landen. + #autoLOC_SCANsat_Science_Hi_Duna = Diese hochauflösenden Daten sind atemberaubend. Du beginnst damit, die Hügel und Täler zu analysieren, ausschau haltend nach einem guten Landeplatz. + #autoLOC_SCANsat_Science_Hi_Ike = Die Daten bestätigen die Anwesenheit abschüssiger Hügel und Krater. Hoffentlich nutzen die Analysten im KSC diese Daten um einen vernünftigen Landeplatz aus zu machen. + #autoLOC_SCANsat_Science_Hi_Dres = Dies... sind einige wirklich ernst zu nehmende Gebirge. Du bist froh darüber diese Daten zu analysieren, an Stelle einen dieser Berge zu erklimmen. + #autoLOC_SCANsat_Science_Hi_Jool = Jool scheint trotz hochauflösendem Scan keine Oberfläche zu haben. Soviel zu dieser Theorie. Wenigstens haben wir noch die Zuschussgelder. + #autoLOC_SCANsat_Science_Hi_Laythe = Die Karte zeigt hauptsächlich negative höhenangaben. Du ziehst es in Betracht Laythe trocken zu legen, um seine Gebirge erklimmen zu können. + #autoLOC_SCANsat_Science_Hi_Vall = Die Daten des hochauflösenden Scanners zeigen, daß die Oberfläche, in der Tat, "knitterig" ist. Ich denke Gene schuldet Dir fünfzig Mäuse. + #autoLOC_SCANsat_Science_Hi_Tylo = Tylo mag zwar der erste entdeckte Mond um Jool gewesen sein, aber diese Daten fühlen sich an, als würde man ihn völlig neu entdecken. + #autoLOC_SCANsat_Science_Hi_Bop = Wow, schaut Euch all die Farben an. Du hast keine Ahnung was diese Daten bedeuten, Du bist Dir jedoch sicher, daß diese hochauflösenden Daten jeden am KSC beeindrucken werden. + #autoLOC_SCANsat_Science_Hi_Pol = Selbst bei dieser Menge an hochauflösenden Daten ist es immer noch schwierig einen brauchbaren Landeplatz aus zu machen. Wie zum Geier ist der Mond überhaupt entstanden? + #autoLOC_SCANsat_Science_Hi_Eeloo = Die Risse und Spalten heben sich mit schlagfesten Details von der Oberfläche ab, während Du die daten des SAR Altimetrie-Sensors untersuchst. Sieh Dir all die Landeplätze an! + + #autoLOC_SCANsat_Science_Multi_Title = Multispektrale Analyse + #autoLOC_SCANsat_Science_Multi_Default1 = Multispektrale Sensordaten analysiert. + #autoLOC_SCANsat_Science_Multi_Default2 = "Wow, wie empfangen wir diese Daten überhaupt? Diese SCAN-Ingenieure wissen wirklich was sie tun. Entweder das, oder sie haben absolut überhaupt keine Ahnung. Wie auch immer, Zeit für ein paar Kekse!" + #autoLOC_SCANsat_Science_Multi_Sun1 = Das abhandensein biometrischer Daten überrascht Dich. + #autoLOC_SCANsat_Science_Multi_Sun2 = Du wunderst Dich, warum keine Pole auf der Biomkarte sichbar sind. + #autoLOC_SCANsat_Science_Multi_Moho = Beim Grübeln über die Daten wunderst Du Dich, ob das schwer erfassbare und Sagenumwobene Lavaseebiom auffindbar ist. + #autoLOC_SCANsat_Science_Multi_Eve = Die kompliziert verwobenen Linien auf Eve's Biomkarte erinnern Dich stark an Lavalampen und Batik-Shirts. Mann das waren Zeiten. Das nächste Raumschiff richtung Eve wird auf jeden Fall eine Diskokugel bekommen! + #autoLOC_SCANsat_Science_Multi_Gilly = Selbst bei all dem Geschiele und Geblinzel konnten die Astronomen keine Biome ausmachen. Hah! Dämliche Astronomen! Ein Punkt für die Wissenschaft und null punkte für die, äh... Wissenschaft. + #autoLOC_SCANsat_Science_Multi_Kerbin = Diese Biomdaten sind wahrhaftig erstaunlich. Du hoffst nur, daß sie Krümelfest sind, da Du an dem, Tag an welchem der Sensor installiert wurde eine Schachtel extra krümeliger Kekse verspeist hast. + #autoLOC_SCANsat_Science_Multi_Mun = Tja, hätte nicht gedacht daß der Mond auch biome hat. Ich wundere mich auf welchem sich all der Käse befindet. Und ob es dort eventuell auch andere Köstlichkeiten gibt. + #autoLOC_SCANsat_Science_Multi_Minmus = Du siehst, wie passend die Bezeichnung "Größeres Flachland" ist, während Du Dir die Daten ansiehst. Wer auch immer sich diese Namen ausdenkt muss schon ein sehr schlauer Kerbal sein, im Gegensatz zu den Ingenieuren die wir hier haben. + #autoLOC_SCANsat_Science_Multi_Duna = Du durchkämmst die Biomdaten, Ausschau haltend nach genau dem richtigen Plätzchen um all die Wissenschaft zu betreiben. Plätzchen... Klingt wie Kekse, hmmm... + #autoLOC_SCANsat_Science_Multi_Ike = Beim stöbern in den Daten, welche uns von Ike erreichen überrascht Dich die hohe diversität an unterschiedlichen Biomen. Immerhin ist es bloß ein Mond. Du kannst es kaum erwarten an die Daten zu kommen, welche dort unten verborgen liegen. + #autoLOC_SCANsat_Science_Multi_Dres = Pole, check. Hochland, check. Mittelebene, check. Tiefebene, check. Gebirgsrücken, check. Impaktauswurf, check. Impaktkrater, check. Schluchten, check. Ich denke wir haben alles. Zeit den Scanner herunter zu fahren und sich ein paar Kekse zu gönnen. + #autoLOC_SCANsat_Science_Multi_Jool1 = Das Abhandensein biometrischer Daten überrascht Dich. + #autoLOC_SCANsat_Science_Multi_Jool2 = Du wunderst Dich, warum auf der Biomkarte keine Pole zu sehen sind. + #autoLOC_SCANsat_Science_Multi_Laythe = Du möchtest jedes mal, wenn der Biom-Scanner eine Landmasse entdeckt, eine kleine Party feiern. + #autoLOC_SCANsat_Science_Multi_Vall = Recht eindeutige Daten: Pole, Hochland, Mittelebene und Tiefebene. Mal was anderes. Nun lasset uns Kekse verspeisen! + #autoLOC_SCANsat_Science_Multi_Tylo = Die Diversität der unterschiedlichen Biome trifft Dich wie der Schlag. Tylo sieht nicht nur nett aus, es ist ebenso nett ihn an zu schauen. + #autoLOC_SCANsat_Science_Multi_Bop = Diese detaillierte Analyse von Bop's Biomen wird unser Verständnis über diesen Mond über alles erwartete hinaus erhöhen. Es war ein guter Tag. Kekse für alle! + #autoLOC_SCANsat_Science_Multi_Pol = Beim Aufnehmen der Biomdaten von Pol ziehst Du die Möglichkeit in Betracht, daß Pollen ebenso Biome aufweisen. Schnell verdrängst Du diesen Gedanken unter dem Bewusstsein, was all die Aktivisten tun würden, wenn die Wind davon bekommen. + #autoLOC_SCANsat_Science_Multi_Eeloo = Es ist erstaunlich auf einem Planet so fern von Kerbin detaillierte Biomdaten zu erhalten. In Ehrfurcht starrst Du auf den Bericht, während die Daten hereinkommen. + + #autoLOC_SCANsat_Science_Resource_Title = Resourcen-Scan + #autoLOC_SCANsat_Science_Resource_Default1 = Niederauflösende Ressourcen-Daten analysiert. + #autoLOC_SCANsat_Science_Resource_Default2 = "Wir empfangen nun Resourcen-Daten; diese Informationen sehen deutlich besser aus als die von den Vorgängern..." + #autoLOC_SCANsat_Science_Resource_Sun = Die Sonne mag möglicherweise nicht der idealste Ort sein, um nach Ressourcen zu scannen. + #autoLOC_SCANsat_Science_Resource_Moho = Endlich haben wir einige Informationen über die Ressource-Verfügbarkeit auf Moho's Oberfläche. Wir müssen nur noch herausfinden, warum dort jemand landen würde. + #autoLOC_SCANsat_Science_Resource_Eve = Wir bekommen jede Menge guter Daten über die Oberflächenresourcenverfügbarkeit auf Eve. Dies sollte sich beim wieder Verlassen des Planeten als äußerst nützlich erweisen. + #autoLOC_SCANsat_Science_Resource_Gilly = Die ersten Ressourcen-Scans von Gilly sehen interessant aus; es ist beinahe wie Asteroidenbergbau. + #autoLOC_SCANsat_Science_Resource_Kerbin = Endlich haben wir einige Ressourcen-Daten über Kerbin, weil, wie jeder weiß, geht nichts darüber hinaus, eine sauteuere und hochkomplizierte Sonde in den Orbit zu befördern, nur um etwas über seinen eigenen Planeten heraus zu finden. + #autoLOC_SCANsat_Science_Resource_Mun = Diese Ressourcen-Daten geben uns den ersten guten Blick darauf, wie brauchbar der Mond für Bergbauzwecke sein könnte. + #autoLOC_SCANsat_Science_Resource_Minmus = Endlich haben wir ein paar Resourcen-Daten über Minmus, eines jeden Kerbonauten erste Wahl in Sachen Bergbau. + #autoLOC_SCANsat_Science_Resource_Duna = This resource data brings us one step closer to reliving all of our favorite lines from that recent hit Kerbal movie. + #autoLOC_SCANsat_Science_Resource_Ike = Ike mag zwar nicht gerade der Interessanteste aller planetarer Kandidaten sein, das macht die Ressourcen-Daten allerdings nicht weniger brauchbar. + #autoLOC_SCANsat_Science_Resource_Dres = Wir könnten genau so gut einige der näheren Asteroiden auf Ressourcen untersuchen; wer würde sich schon gerne mit Dres abgeben. + #autoLOC_SCANsat_Science_Resource_Jool = Hmm, vielleicht ist ja ein Gasriese nicht gerade der idealste Ort um nach Ressourcen zu suchen. + #autoLOC_SCANsat_Science_Resource_Laythe = Nun, jede Menge guter Daten, jedoch recht wenig wertvoller Orte auf der Oberfläche wo man halbwegs vernünftig landen und von den Ressourcen gebrauch machen kann. + #autoLOC_SCANsat_Science_Resource_Vall = Ressourcen-Scans vom eisigen Vall ergeben jede Menge guter Daten. + #autoLOC_SCANsat_Science_Resource_Tylo = Wir wollen beim unheimlich aussehenden Tylo nicht unsere Nase rümpfen, wir nehmen alle Ressourcen-Daten die wir kriegen können. + #autoLOC_SCANsat_Science_Resource_Bop = Bop mag zwar nicht gerade die erste wahl in Sachen Ressourcen-Förderung sein, aber die Daten könnten sich eines Tages doch als nützlich erweisen. + #autoLOC_SCANsat_Science_Resource_Pol = Zusätzlich zu Pollen und klumpigen Dingen scheint Pol einige recht interessante Ressourcen zu enthalten. + #autoLOC_SCANsat_Science_Resource_Eeloo = Nun, da wir es den ganzen Weg raus bis zum Eeloo geschafft haben, können wir das Örtchen getrost Leergraben und dann einfach irgendwo anders weiter machen, mit was auch immer sich dahinter befinden mag. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/de/Tooltips.cfg b/SCANassets/Resources/Localization/de/Tooltips.cfg new file mode 100644 index 000000000..41307056d --- /dev/null +++ b/SCANassets/Resources/Localization/de/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + de + { + #autoLOC_SCANsat_mainMapToggle = Karte + #autoLOC_SCANsat_bigMapToggle = Große Karte + #autoLOC_SCANsat_zoomMapToggle = Zoom Karte + #autoLOC_SCANsat_overlayToggle = Planetares Overlay + #autoLOC_SCANsat_instrumentsToggle = Instrumentenanzeige + #autoLOC_SCANsat_settingsToggle = Einstellungen + #autoLOC_SCANsat_mainMapColor = Kartenfarbe + #autoLOC_SCANsat_mainMapTerminator = Tag/Nacht Terminator + #autoLOC_SCANsat_mainMapType = Umschalten Gelände/Biom + #autoLOC_SCANsat_mainMapMinimize = Ein-/Ausblenden Fahrzeuginfo + #autoLOC_SCANsat_mainMapStatus = Scanner-Statusanzeige + #autoLOC_SCANsat_mainMapPercentage = Vollständigkeit des aktuellen Scans + #autoLOC_SCANsat_bigMapRefresh = Karte Auffrischen + #autoLOC_SCANsat_bigMapColor = Kartenfarbe + #autoLOC_SCANsat_bigMapTerminator = Tag/Nacht Terminator + #autoLOC_SCANsat_bigMapGrid = Gitternetz Overlay + #autoLOC_SCANsat_bigMapOrbit = Orbit Overlay + #autoLOC_SCANsat_bigMapWaypoints = Wegpunkte + #autoLOC_SCANsat_bigMapAnomaly = Anomalien + #autoLOC_SCANsat_bigMapFlags = Flaggen + #autoLOC_SCANsat_bigMapLegend = Kartenlegende + #autoLOC_SCANsat_bigMapResource = Resourcen-Overlay + #autoLOC_SCANsat_bigMapExport = Karte auf Festplatte exportieren + #autoLOC_SCANsat_overlayRefresh = Karte Auffrischen + #autoLOC_SCANsat_insNextResource = Nächste Resource + #autoLOC_SCANsat_insPreviousResource = Vorherige Resource + #autoLOC_SCANsat_zoomVesselSync = Auf Vehikel Synchronisieren + #autoLOC_SCANsat_zoomVesselLock = Position auf Vehikel Einrasten + #autoLOC_SCANsat_zoomMapRefresh = Karte Auffrischen + #autoLOC_SCANsat_zoomMapWindowState = Fenstergröße Umschalten + #autoLOC_SCANsat_zoomMapIn = Vergrößern + #autoLOC_SCANsat_zoomMapOut = Verkleinern + #autoLOC_SCANsat_zoomMapLeft = Nach Links Verschieben + #autoLOC_SCANsat_zoomMapRight = Nach Rechts Verschieben + #autoLOC_SCANsat_zoomMapUp = Nach Oben Verschieben + #autoLOC_SCANsat_zoomMapDown = Nach Unten Verschieben + #autoLOC_SCANsat_zoomMapIcons = Karten-Icons + #autoLOC_SCANsat_waypointToggle = Wegpunkt Auswählen + #autoLOC_SCANsat_waypointSet = Wegpunkt Erstellen + #autoLOC_SCANsat_waypointCancel = Wegpunkt Abbrechen + #autoLOC_SCANsat_waypointMechJeb = MechJeb Landezieleingabe + #autoLOC_SCANsat_waypointNameRefresh = Wegpunkt Zurücksetzen + } +} diff --git a/SCANassets/Resources/Localization/de/Warnings.cfg b/SCANassets/Resources/Localization/de/Warnings.cfg new file mode 100644 index 000000000..7dbbcfda4 --- /dev/null +++ b/SCANassets/Resources/Localization/de/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + de + { + #autoLOC_SCANsat_Warning_DataResetCurrent = Lösche die <<1>>-Karte von <<2>>? + #autoLOC_SCANsat_Warning_DataResetAll = Lösche <<1>> von ALLEN Himmelskörpern? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Lösche Standard-Ressourcen-Daten von <<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetAll = Lösche Standard-Ressourcen-Daten ALLER Himmelskörper? + #autoLOC_SCANsat_Warning_MapFillCurrent = Fülle die <<1>>-Karte von <<2>> auf? + #autoLOC_SCANsat_Warning_MapFillAll = Fülle die <<1>>-Karte aller Himmelskörper auf? + #autoLOC_SCANsat_Warning_ModuleManagerResource = Warnung!\nModule Manager wird für SCANsat-Funktionalität benötigt. + #autoLOC_SCANsat_Warning_SaveToConfig = Bereits existierende Datei überschreiben? + } +} diff --git a/SCANassets/Resources/Localization/en-us/Contracts.cfg b/SCANassets/Resources/Localization/en-us/Contracts.cfg new file mode 100644 index 000000000..7d6a59547 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + en-us + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_exceptional0004 = Perform several high resolution scans of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = We now have a detailed map and survey for the surface of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Must have less than a 90% high resolution altimetry scan of the target body. + #autoLOC_SCANsat_exceptional0007 = Must have less than a 90% ore scan of the target body. + #autoLOC_SCANsat_exceptional0008 = Must have orbited the target body, or the target body must be next on the list. + + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SACNsat_trivial_0006 = Target is part of home system. + #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Flags.cfg b/SCANassets/Resources/Localization/en-us/Flags.cfg new file mode 100644 index 000000000..84abd3624 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Helptips.cfg b/SCANassets/Resources/Localization/en-us/Helptips.cfg new file mode 100644 index 000000000..5c3830fd7 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Helptips.cfg @@ -0,0 +1,62 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_settingsHelpScanningToggle = Toggle all SCANsat scanning. + #autoLOC_SCANsat_settingsHelpBackground = Toggle background scanning on\nselected celestial bodies. + #autoLOC_SCANsat_settingsHelpTimeWarp = Adjust the scanning frequency during TimeWarp.\nHigher settings result in fewer gaps in the maps\nbut may have a performance impact at high TimeWarp. + #autoLOC_SCANsat_settingsHelpGroundTracks = Display a visible indicator of\nscanning activity in map mode. + #autoLOC_SCANsat_settingsHelpGroundTracksActive = The ground track indicator can be limited\nto only be displayed for the active vessel. + #autoLOC_SCANsat_settingsHelpStockUIStyle = Switch between stock KSP-style UI elements and Unity-style elements. + #autoLOC_SCANsat_settingsHelpOverlayTooltips = Displays tooltips for the current mouse position when a planetary overlay map is activated.\nThese tooltips include The cursor coordinates, terrain height, slope, biome name,\nand resource abundance, depending on scanning coverage. + #autoLOC_SCANsat_settingsHelpWindowTooltips = Display tooltips on some map window buttons.\nThese are primarily used to identify icon buttons. + #autoLOC_SCANsat_settingsHelpLegendTooltips = Display tooltips on the map legend.\nDisabling will also disable biome map legends. + #autoLOC_SCANsat_settingsHelpStockToolbar = Use the stock toolbar.\nCan be used concurrently with the Blizzy78 Toolbar. + #autoLOC_SCANsat_settingsHelpToolbarMenu = Use a pop-out menu for the stock toolbar to show all available windows. + #autoLOC_SCANsat_settingsHelpMechJeb = The SCANsat zoom map and big map waypoint selection modes\ncan be used to select a MechJeb landing site. + #autoLOC_SCANsat_settingsHelpMechJebLoad = Load a saved MechJeb landing target.\nThis only works while in the flight scene with a valid MechJeb vessel. + #autoLOC_SCANsat_settingsHelpMapGenSpeed = Adjust all SCANsat map generation speeds.\nLower values will save CPU resources and may reduce the\nperformance impact of generating maps. + #autoLOC_SCANsat_settingsHelpResetWindows = Reset all window positions and scale.\nUse this in case a window has been dragged completely\noff screen or if any windows are not visible. + #autoLOC_SCANsat_settingsHelpResetPlanetData = Resets the selected SCANsat data for the current celestial body.\nA confirmation window will open before activating.\nCannot be reversed. + #autoLOC_SCANsat_settingsHelpResetAllData = Resets the selected SCANsat data for all celestial bodies.\nA confirmation window will open before activating.\nCannot be reversed. + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Information about the currently active SCANsat sensors.\nVessels indicates the number of vessels with active sensors.\nSensors indicates the total number of sensors;\ninstruments with multiple sensor types count each individual sensor.\nPasses indicates the number of sensor updates performed per second.\nThis value is affected by the TimeWarp Resolution setting. + #autoLOC_SCANsat_settingsHelpGreyScale = Use a true grey-scale color spectrum for black-and-white SCANsat maps.\nPixels on the altitude map will interpolate between black and white;\nthe min and max terrain heights for each celestial body define the limits. + #autoLOC_SCANsat_settingsHelpExportCSV = Export a .csv file along with map texture when using the Export button on the big map.\nThe file contains coordinates and the terrain height for each pixel.\nPixels are labeled from left to right and from top to bottom. + #autoLOC_SCANsat_settingsHelpSetMapWidth = Enter an exact value for the SCANsat big map texture width.\nValues are limited to 550 - 8192 pixels wide.\nPress the Set button to apply the value. + #autoLOC_SCANsat_settingsHelpWindowScale = Adjust all SCANsat window scales. + #autoLOC_SCANsat_settingsHelpFillPlanet = Fill in the selected SCANsat data for the current celestial body. + #autoLOC_SCANsat_settingsHelpFillAll = Fill in the selected SCANsat data for all celestial bodies. + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Circumvents the requirement for stock surface biome scans.\nSCANsat displays will show the full accuracy for resource\nabundance with or without any surface biome scans. + #autoLOC_SCANsat_resourceSettingsHelpInstant = By default, the stock M700 resource scanner's orbital survey will fill in all SCANsat resource maps.\nThis can be disabled, requiring standard SCANsat methods for all resource scanning.\nDisabled automatically when stock resource scanning is disabled. + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Numerous SCANsat functions require a Narrow-Band resource scanner on-board\nthe current vessel or in orbit of a celestial body for fully accurate resource abundance data.\nDisable this to circumvent these restrictions. + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Disables all stock resource scanning functions.\nSCANsat scanning methods will be required for all resource data.\nReplaces several stock resource functions with SCANsat tools.\nThese include The right-click readouts, and the planetary overlay maps. + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Resets the stock resource scanning coverage for the current celestial body.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Resets the stock resource scanning coverage for all celestial bodies.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Change the number of resource abundance measurements used in constructing\nthe planetary overlay and big map resource overlay.\nDecrease the value to increase the accuracy of the map.\nLower values will result in slower map generation. + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay and big map resource overlay.\nIncrease the value to increase the quality and accuracy of the map.\nHigher values will result in slower map generation. + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Change the texture size (map width is 2XHeight) used in constructing\nthe planetary overlay biome map. Increase the value to increase\nthe quality and accuracy of the map.\nHigher values will result in slower map generation. + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Create a grey background for planetary overlay resource maps.\nUsed to make clear which sections of the celestial body\nhave been scanned but contain no resources. + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = A threshold level used to apply the stock resource scan to a celestial body after scanning with SCANsat sensors.\nThis is useful when contracts or other addons require that a stock resource scan be performed.\nSet a value from 0-100 in the text box and click on the Set button.\nAll celestial bodies will be checked immediately;\ncelestial bodies will also be checked upon loading or a scene change.\nA reload may be required for the changes to take effect. + #autoLOC_SCANsat_colorTerrainHelpMin = Defines the low altitude cutoff for the terrain color palette.\nAnything below this altitude will be shown with the lowest color. + #autoLOC_SCANsat_colorTerrainHelpMax = Defines the high altitude cutoff for the terrain color palette.\nAnything above this altitude will be shown with the highest color. + #autoLOC_SCANsat_colorTerrainHelpClampToggle = Used to define a cutoff between the low and high altitude values.\nThis is particularly useful for ocean planets where it helps to\ndefine a sharp distinction between land and ocean. + #autoLOC_SCANsat_colorTerrainHelpClamp = Defines the clamp altitude cutoff.\nAnything below the cutoff will be represented by the first two colors in the selected color palette.\nAnything above the cutoff will be represented with the remaining colors. + #autoLOC_SCANsat_colorTerrainHelpReverse = Reverses the order of the currently\nselected color palette. + #autoLOC_SCANsat_colorTerrainHelpDiscrete = Draws the map using only the specific colors defined by each palette,\ninstead of smoothly interpolating between them. + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Adjust the number of colors available\nin the currently selected color palette. + #autoLOC_SCANsat_colorBiomeHelpStock = Use the stock biome color scheme for\nSCANsat biome maps. + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Draw a white border between biomes.\nDoes not apply to the planetary overlay biome maps. + #autoLOC_SCANsat_colorBiomeHelpTransparency = Adjust the transparency of biome maps.\nTerrain elevation is shown behind the biome maps.\nSet to 0% to disable terrain drawing. + #autoLOC_SCANsat_colorPickerHelpLow = The top color swatch shows the updated\ncolor selection for the low end of this color spectrum.\nThe bottom color swatch shows the currently active color. + #autoLOC_SCANsat_colorPickerHelpHigh = The top color swatch shows the updated\ncolor selection for the high end of this color spectrum.\nThe bottom color swatch shows the currently active color. + #autoLOC_SCANsat_colorResourceHelpMin = The low cutoff for resource concentration on the selected celestial body.\nResource deposits at this level will be displayed\nusing the low end of the current resource overlay color spectrum.\nResource deposits below this value will not be shown. + #autoLOC_SCANsat_colorResourceHelpMax = The high cutoff for resource concentration on the selected celestial body.\nResource deposits above this value will be displayed\nusing the high end of the current resource overlay color spectrum. + #autoLOC_SCANsat_colorResourceHelpTransparency = Defines the level of transparency for resource overlays.\nIncrease to allow more of the underlying terrain, slope, or biome map to be visible.\nThis also affect the transparency of resource deposits on the planetary overlay resource map. + #autoLOC_SCANsat_colorResourceHelpApply = Applies the current values for the\nselected resource and celestial body only. + #autoLOC_SCANsat_colorResourceHelpApplyAll = Applies the current values for the\nselected resource for all celestial bodies. + #autoLOC_SCANsat_colorResourceHelpDefault = Reverts to the default values for the\nselected resource and celestial body only. + #autoLOC_SCANsat_colorResourceHelpDefaultAll = Reverts to the default values for the\nselected resource for all celestial bodies. + #autoLOC_SCANsat_colorHelpSaveToConfig = Save all color configuration values to\nthe config file found in your SCANsat/Resources folder.\nThese values serve as the defaults for new saves\nand for all Revert To Default buttons.\nValues do not need to be saved to the config file to be applied for this save file. + #autoLOC_SCANsat_colorSlopeHelpCutoff = Adjust the cutoff level between\nthe two selected slope color pairs. + } +} diff --git a/SCANassets/Resources/Localization/en-us/OtherText.cfg b/SCANassets/Resources/Localization/en-us/OtherText.cfg new file mode 100644 index 000000000..e39126f50 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/OtherText.cfg @@ -0,0 +1,35 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_Analyze = Analyze Data + #autoLOC_SCANsat_StartScan = Start Scan + #autoLOC_SCANsat_StopScan = Stop Scan + #autoLOC_SCANsat_ToggleScan = Toggle Scan + #autoLOC_SCANsat_Extend = Extend + #autoLOC_SCANsat_Retract = Retract + #autoLOC_SCANsat_Unknown = Unknown + #autoLOC_SCANsat_All_Disabled = All Scanning Disabled + #autoLOC_SCANsat_Disabled = Scanning Disabled + #autoLOC_SCANsat_TooLow = Too Low + #autoLOC_SCANsat_SubOptimal = Sub-Optimal + #autoLOC_SCANsat_Ideal = Ideal + #autoLOC_SCANsat_TooHigh = Too High + #autoLOC_SCANsat_NoData = No Data + #autoLOC_SCANsat_Abundance = Abundance + #autoLOC_SCANsat_Surface = Surf + #autoLOC_SCANsat_AltitudeMin = Altitude ( min): <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = Altitude (best): <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = Altitude ( max): <<1>>km\n + #autoLOC_SCANsat_FOV = FOV: <<1>> + #autoLOC_SCANsat_MapProjection = Projection + #autoLOC_SCANsat_MapType = Map Type + #autoLOC_SCANsat_MapResource = Resource + #autoLOC_SCANsat_MapBody = Celestial Body + #autoLOC_SCANsat_GeneralSettings = General Settings + #autoLOC_SCANsat_BackgroundSettings = Background Settings + #autoLOC_SCANsat_ResourceSettings = Resource Settings + #autoLOC_SCANsat_DataManagement = Data Management + #autoLOC_SCANsat_ColorManagement = Color Management + } +} diff --git a/SCANassets/Resources/Localization/en-us/Parts.cfg b/SCANassets/Resources/Localization/en-us/Parts.cfg new file mode 100644 index 000000000..bcc370e3a --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Parts.cfg @@ -0,0 +1,17 @@ +Localization +{ + en-us + { + #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Description = This small sensor can automatically identify nearby anomalies. Since it only works over very short distances and at very low altitudes, it's primarily useful to track identified anomalies that have been visited. + + #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor + #autoLOC_SCANsat_Multi_Description = This multichannel sensor detects radiation across several infrared, visible light, and RADAR bands. This gives it the capability to differentiate between terrain types and biomes. It can also detect anomalies such as structures on the ground. + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Altimetry Sensor + #autoLOC_SCANsat_Radar_Description = SCAN brings you this high performance RADAR altimetry sensor. This is the entry-level model in this sensor family, and commonly sold in a bundle with toy rockets and remote-controlled model planes. After focus group testing revealed that 95% of the target audience tried to duct tape it to the exhaust pipe of their rocket engines, this new and improved model has been made even easier to use. + + #autoLOC_SCANsat_SAR_Title = SCAN SCAN SAR Altimetry Sensor + #autoLOC_SCANsat_SAR_Description = This Synthetic Aperture RADAR sensor uses its flight path to simulate a much larger antenna. This makes it possible to detect terrain elevation at much higher resolution. The downside is that its field of view is comparatively small, and it works better at higher altitudes. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Science.cfg b/SCANassets/Resources/Localization/en-us/Science.cfg new file mode 100644 index 000000000..44cb2c4f4 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_Science_Lo_Title = Low Resolution Altimetry Scan + #autoLOC_SCANsat_Science_Lo_Default1 = Analyzed low resolution altimetry data. + #autoLOC_SCANsat_Science_Lo_Defualt2 = "RADAR Altimetry Sensor is reporting in. I don't know how, but we have a strong signal and are getting data. This calls for a celebratory round of snacks!" + #autoLOC_SCANsat_Science_Lo_Sun = You wonder if the sensor is malfunctioning. + #autoLOC_SCANsat_Science_Lo_Moho = Well, at least this low resolution data makes Moho look kind of cool. Not quite giant lakes of lava, but still cool. + #autoLOC_SCANsat_Science_Lo_Eve = You contemplate the grainy, rough altitude estimates returned by the scanner and wish that you had sent the high resolution scanner instead. Oh well, it's a great reason to launch more rockets! (As if we really needed a reason anyway.) + #autoLOC_SCANsat_Science_Lo_Gilly = Your low resolution scanning confirms what you already knew: Gilly is just a lumpy rock floating in space. At least you don't have to strain your eyes looking at the report. + #autoLOC_SCANsat_Science_Lo_Kerbin = Even this low resolution data of the planets surface is amazingly useful. You can't wait to deploy this technology on the Mun or beyond. + #autoLOC_SCANsat_Science_Lo_Mun = The data shows broad, sweeping strokes of the landscape below. A high resolution scan would be more helpful, but you can probably find a suitable landing site using this data. + #autoLOC_SCANsat_Science_Lo_Minmus = You grudgingly acknowledge that the guys over at the Kerbal Astronomical Society were right: Minmus really is a moon. You wouldn't have believed it if you hadn't seen the altimetry scan with your own eyes. + #autoLOC_SCANsat_Science_Lo_Duna = This low resolution data is a bit grainy and distorted, but it will still be invaluable in searching for a proper landing site on Duna. Suddenly a long-term Duna mission just became a real prospect. + #autoLOC_SCANsat_Science_Lo_Ike = As you pore over the data you are struck by how similar Ike appears to the Mun. You wonder about their comparative surface geology. + #autoLOC_SCANsat_Science_Lo_Dres = Even with the low resolution scanner it is quite apparent that Dres has some prominent mountains. You can't wait for the resource scan results because you're sure "there's gold in them their hills". + #autoLOC_SCANsat_Science_Lo_Jool = Altimetry, what altimetry? It's a gas giant for Kerbal's sake. Let's just pick a number at random and call it good. + #autoLOC_SCANsat_Science_Lo_Laythe = The sensor seems unable to penetrate the water. + #autoLOC_SCANsat_Science_Lo_Vall = Well, here it is: "The data you Vall been waiting for! Hahahahaha! Hahaha. Ha. Ha? What, SOMEONE has to find that funny." + #autoLOC_SCANsat_Science_Lo_Tylo = You're still not sure what the view from the surface with Laythe, Vall, and Jool overhead would be like, but this data will sure help you find a landing site so that you can find out. + #autoLOC_SCANsat_Science_Lo_Bop = Well, the low resolution altimetry data is in, and you decide to package it up and send it back to KSC. You just hope that there is enough juice left in the batteries to get it all sent and keep basic systems running at the same time. + #autoLOC_SCANsat_Science_Lo_Pol = The low resolution scan confirms that Pol does indeed look like a giant pollen grain. Until you upgrade to a high resolution scan, and advance the field of electron microscopy, you will still be left with the question of how strong this resemblance truly is. + #autoLOC_SCANsat_Science_Lo_Eeloo = The scientists back on Kerbin have been waiting for this data for a long time. No doubt there will be celebrations and snacks for all when it gets there. + + #autoLOC_SCANsat_Science_Hi_Title = High Resolution Altimetry Scan + #autoLOC_SCANsat_Science_Hi_Default1 = Analyzed high resolution altimetry data. + #autoLOC_SCANsat_Science_Hi_Default2 = "The High Resolution Altimetry Scan definitely is better then the low resolution one. SCAN has once again proven their scanning skills." + #autoLOC_SCANsat_Science_Hi_Sun = You realize that you could have saved some money if you had trusted the low resolution sensor in the first place. + #autoLOC_SCANsat_Science_Hi_Moho = Finally, the awesomeness has returned to Moho! It may not be giant flowing rivers of lava, but this data is spectacular! + #autoLOC_SCANsat_Science_Hi_Eve = The high resolution sensor cut through the hazy purple atmosphere well, and you are able to distinguish minute details on the surface. The scientists back at KSC will be relieved. + #autoLOC_SCANsat_Science_Hi_Gilly = Even in super-high resolution Gilly somehow seems to be in low resolution. That is one seriously lumpy surface. + #autoLOC_SCANsat_Science_Hi_Kerbin = You become mesmerised by all the colors in the data that the new high resolution technology provides. Suddenly Mission Control awakes you from your stupor, and you quickly wipe the drool from the corner of your mouth. + #autoLOC_SCANsat_Science_Hi_Mun = "Hah! No more boring grey moon. Just look at all the colors in that scan! Now we can really pinpoint a prime landing site." + #autoLOC_SCANsat_Science_Hi_Minmus = Wow, not only is Minmus real, it has some amazing topography! You can't wait to land in one of those flat areas. + #autoLOC_SCANsat_Science_Hi_Duna = This high resolution data is amazing. You begin analyzing the hills and valleys, searching for the perfect landing spot. + #autoLOC_SCANsat_Science_Hi_Ike = The data confirms the presence of large sloping hills and craters. Hopefully the analysts back at KSC can use this to find a suitable landing place. + #autoLOC_SCANsat_Science_Hi_Dres = Those... are some serious mountains. You are glad to be analysing this data, rather than trying to climb up some of those hills. + #autoLOC_SCANsat_Science_Hi_Jool = Even in high resolution there does not appear to be a surface on Jool. So much for that theory. At least we still have the grant money! + #autoLOC_SCANsat_Science_Hi_Laythe = The map shows mostly negative heights. You consider draining Laythe just so you can climb its mountains. + #autoLOC_SCANsat_Science_Hi_Vall = The data from the high resolution scanner confirms that the surface of Vall is, indeed, "crinkly". Guess Gene owes you fifty funds. + #autoLOC_SCANsat_Science_Hi_Tylo = Tylo may have been the first of Jool's moons to be discovered, but this data makes it feel like you are discovering the moon for the first time. + #autoLOC_SCANsat_Science_Hi_Bop = Wow, look at all those colors. You have no idea what all that data means, but you're sure that this high resolution data will impress everyone back at KSC. + #autoLOC_SCANsat_Science_Hi_Pol = Even with this amount of high-quality data it is still difficult to find a suitable landing site. How the heck was this moon made, anyway? + #autoLOC_SCANsat_Science_Hi_Eeloo = The cracks and fissures on the surface stand out in striking detail as you examine the data from the SAR Altimetry Sensor. Just look at all those potential landing sites. + + #autoLOC_SCANsat_Science_Multi_Title = Multispectral Analysis + #autoLOC_SCANsat_Science_Multi_Default1 = Analyzed multispectral sensor data. + #autoLOC_SCANsat_Science_Multi_Default2 = "Wow, how are we even receiving this data right now? Those SCAN engineers really know what they are doing. Either that or they have not the slightest idea what they are doing. Either way, it's time for some snacks!" + #autoLOC_SCANsat_Science_Multi_Sun1 = You are surprised by the lack of biometric data. + #autoLOC_SCANsat_Science_Multi_Sun2 = you wonder why there are no poles visible on the biome map. + #autoLOC_SCANsat_Science_Multi_Moho = As you pore through the data you wonder if you will find the elusive lava lake biome that so many scientists had speculated about. + #autoLOC_SCANsat_Science_Multi_Eve = The intricately swirled lines of Eve's biome map remind you of lava lamps and tie dyed shirts. Man those were the days. Next spacecraft to Eve will have a mandatory disco ball! + #autoLOC_SCANsat_Science_Multi_Gilly = Even with all that squinting those astronomers couldn't see the biomes here. Hah! Dumb astronomers! That's 1 point for science and 0 points for uhhhh... science. + #autoLOC_SCANsat_Science_Multi_Kerbin = This biome data is truly astounding. You just hope that it is crumb-resistant, as you remember eating a particularly messy box of snacks the day that the sensor was installed. + #autoLOC_SCANsat_Science_Multi_Mun = Huh, never knew the moon had biomes. Wonder which one the cheese is in. And if there are any other snacks there as well. + #autoLOC_SCANsat_Science_Multi_Minmus = You contemplate how fitting the name "Greater Flats" is as you pore over the data. Whoever thinks up these names is one smart Kerbal, unlike the engineers we have around here. + #autoLOC_SCANsat_Science_Multi_Duna = You comb through the biome data looking for just the right spot to gather all that sweet, sweet science data from. Mmmmm, science... and snacks. + #autoLOC_SCANsat_Science_Multi_Ike = As you pore over the data coming back from Ike you are surprised at the biome diversity. After all it's just a moon. You can't wait to get your hands on some of the scientific data locked up down there. + #autoLOC_SCANsat_Science_Multi_Dres = Poles, check. Highlands, check. Midlands, check. Lowlands, check. Ridges, check. Impact Ejecta, check. Impact Craters, check. Canyons, check. I think we got it all. Time to shut down the scanner and have some snacks! + #autoLOC_SCANsat_Science_Multi_Jool1 = You are surprised by the lack of biometric data. + #autoLOC_SCANsat_Science_Multi_Jool2 = you wonder why there are no poles visible on the biome map. + #autoLOC_SCANsat_Science_Multi_Laythe = You want to throw a party every time the sensor detects a land biome. + #autoLOC_SCANsat_Science_Multi_Vall = Pretty straightforward data: Poles, Highlands, Midlands, and Lowlands. That's a wrap. Now let's have some snacks! + #autoLOC_SCANsat_Science_Multi_Tylo = You are struck by the diversity of the biomes in the report. Not only is Tylo cool to look up from, it's cool to look down at too. + #autoLOC_SCANsat_Science_Multi_Bop = This detailed analysis of Bop's biomes will advance our understanding of the little moon beyond anything we could have hoped. It's been a great day. Snacks all around! + #autoLOC_SCANsat_Science_Multi_Pol = As you take in the biome data coming from Pol you begin to contemplate the possibility that pollen grains have biomes too. Then you quickly squash the thought, knowing what the activists would be like if they got a hold of that idea. + #autoLOC_SCANsat_Science_Multi_Eeloo = It is astounding to have such detailed biome data on a planet so far from Kerbin. You gaze in awe at the report as the data comes in. + + #autoLOC_SCANsat_Science_Resource_Title = Resources Scan + #autoLOC_SCANsat_Science_Resource_Default1 = Analyzed low resolution resource data. + #autoLOC_SCANsat_Science_Resource_Default2 = "We are receiving resource sensor data now; this information looks way better than what we were getting from that other group..." + #autoLOC_SCANsat_Science_Resource_Sun = Perhaps the sun is not the best place to find surface resources. + #autoLOC_SCANsat_Science_Resource_Moho = We finally have some information about resources on Moho's surface, now we just need to figure out why anyone would want to land there. + #autoLOC_SCANsat_Science_Resource_Eve = We're getting lots of good data on Eve's surface resources, this will be great when we need to figure out how to get off of the planet. + #autoLOC_SCANsat_Science_Resource_Gilly = Initial resource scans of Gilly look interesting; it's almost like asteroid mining. + #autoLOC_SCANsat_Science_Resource_Kerbin = We finally have some data about resources on Kerbin, because, as everyone knows, if you want basic information about your own planet nothing beats sending an expensive, complicated satellite into orbit. + #autoLOC_SCANsat_Science_Resource_Mun = This resource data gives us our first good look at how suitable the Mun may be for mining purposes. + #autoLOC_SCANsat_Science_Resource_Minmus = At last, we have some resource data on Minmus, every Kerbonaut's first choice for a starter mining facility. + #autoLOC_SCANsat_Science_Resource_Duna = This resource data brings us one step closer to reliving all of our favorite lines from that recent hit Kerbal movie. + #autoLOC_SCANsat_Science_Resource_Ike = Ike may not be the solar system's most interesting celestial body, but that doesn't make this resource data any less useful. + #autoLOC_SCANsat_Science_Resource_Dres = We might as well just search some of the nearby asteroids for resources; who would ever want to bother with Dres. + #autoLOC_SCANsat_Science_Resource_Jool = Hmm, maybe a gas giant isn't the best place to go looking for surface resources... + #autoLOC_SCANsat_Science_Resource_Laythe = Well, there's lots of good data here, but precious little area on the surface where we might actually be able to land and take advantage of the resources. + #autoLOC_SCANsat_Science_Resource_Vall = Resource scans of icy Vall provide lots of interesting data. + #autoLOC_SCANsat_Science_Resource_Tylo = We'll take any resource information we can get on scary looking Tylo. + #autoLOC_SCANsat_Science_Resource_Bop = Bop may not be anyone's first choice for deciding where to look for resources, but this data may still come in handy some day. + #autoLOC_SCANsat_Science_Resource_Pol = In addition to pollen grains and strange lumpy things, Pol appears to have some interesting resource deposits. + #autoLOC_SCANsat_Science_Resource_Eeloo = Now that we've made it all the way out to Eeloo, we might as strip mine the place and move on to whatever is beyond. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Tooltips.cfg b/SCANassets/Resources/Localization/en-us/Tooltips.cfg new file mode 100644 index 000000000..e1fa66668 --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_mainMapToggle = Main Map + #autoLOC_SCANsat_bigMapToggle = Big Map + #autoLOC_SCANsat_zoomMapToggle = Zoom Map + #autoLOC_SCANsat_overlayToggle = Planetary Overlay + #autoLOC_SCANsat_instrumentsToggle = Instruments Readout + #autoLOC_SCANsat_settingsToggle = Settings + #autoLOC_SCANsat_mainMapColor = Map Color + #autoLOC_SCANsat_mainMapTerminator = Map Day/Night Terminator + #autoLOC_SCANsat_mainMapType = Terrain/Biome Toggle + #autoLOC_SCANsat_mainMapMinimize = Show/Hide Vessel Info + #autoLOC_SCANsat_mainMapStatus = Scanner Status Indicators + #autoLOC_SCANsat_mainMapPercentage = Active Scanner Completion Percentage + #autoLOC_SCANsat_bigMapRefresh = Map Refresh + #autoLOC_SCANsat_bigMapColor = Map Color + #autoLOC_SCANsat_bigMapTerminator = Map Day/Night Terminator + #autoLOC_SCANsat_bigMapGrid = Grid Overlay + #autoLOC_SCANsat_bigMapOrbit = Orbit Overlay + #autoLOC_SCANsat_bigMapWaypoints = Waypoints + #autoLOC_SCANsat_bigMapAnomaly = Anomalies + #autoLOC_SCANsat_bigMapFlags = Flags + #autoLOC_SCANsat_bigMapLegend = Map Legend + #autoLOC_SCANsat_bigMapResource = Resource Overlay + #autoLOC_SCANsat_bigMapExport = Export Map To Disk + #autoLOC_SCANsat_overlayRefresh = Map Refresh + #autoLOC_SCANsat_insNextResource = Next Resource + #autoLOC_SCANsat_insPreviousResource = Previous Resource + #autoLOC_SCANsat_zoomVesselSync = Sync Current Vessel + #autoLOC_SCANsat_zoomVesselLock = Lock Position To Vessel + #autoLOC_SCANsat_zoomMapRefresh = Map Refresh + #autoLOC_SCANsat_zoomMapWindowState = Toggle Window Size + #autoLOC_SCANsat_zoomMapIn = Zoom In + #autoLOC_SCANsat_zoomMapOut = Zoom Out + #autoLOC_SCANsat_zoomMapLeft = Shift Left + #autoLOC_SCANsat_zoomMapRight = Shift Right + #autoLOC_SCANsat_zoomMapUp = Shift Up + #autoLOC_SCANsat_zoomMapDown = Shift Down + #autoLOC_SCANsat_zoomMapIcons = Map Icons + #autoLOC_SCANsat_waypointToggle = Waypoint Selector + #autoLOC_SCANsat_waypointSet = Create Waypoint + #autoLOC_SCANsat_waypointCancel = Cancel Waypoint + #autoLOC_SCANsat_waypointMechJeb = Set MechJeb Landing Target + #autoLOC_SCANsat_waypointNameRefresh = Reset Waypoint + } +} diff --git a/SCANassets/Resources/Localization/en-us/Warnings.cfg b/SCANassets/Resources/Localization/en-us/Warnings.cfg new file mode 100644 index 000000000..ea894326a --- /dev/null +++ b/SCANassets/Resources/Localization/en-us/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + en-us + { + #autoLOC_SCANsat_Warning_DataResetCurrent = Erase <<1>> map for <<2>>? + #autoLOC_SCANsat_Warning_DataResetAll = Erase <<1>> for all celestial bodies? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Erase stock resource data for <<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetAll = Erase stock resource data for all celestial bodies? + #autoLOC_SCANsat_Warning_MapFillCurrent = Fill in <<1>> map for <<2>>? + #autoLOC_SCANsat_Warning_MapFillAll = Fill in <<1>> for all celestial bodies? + #autoLOC_SCANsat_Warning_ModuleManagerResource = Warning\nModule Manager is required for all SCANsat resource scanning functions. + #autoLOC_SCANsat_Warning_SaveToConfig = Overwrite existing config file on disk? + } +} diff --git a/SCANassets/Resources/Localization/es-es/Contracts.cfg b/SCANassets/Resources/Localization/es-es/Contracts.cfg new file mode 100644 index 000000000..8242319a3 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + es-es + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_exceptional0004 = Perform several high resolution scans of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = We now have a detailed map and survey for the surface of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Must have less than a 90% high resolution altimetry scan of the target body. + #autoLOC_SCANsat_exceptional0007 = Must have less than a 90% ore scan of the target body. + #autoLOC_SCANsat_exceptional0008 = Must have orbited the target body, or the target body must be next on the list. + + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SACNsat_trivial_0006 = Target is part of home system. + #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Flags.cfg b/SCANassets/Resources/Localization/es-es/Flags.cfg new file mode 100644 index 000000000..b219744d0 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Helptips.cfg b/SCANassets/Resources/Localization/es-es/Helptips.cfg new file mode 100644 index 000000000..3c3338f31 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Helptips.cfg @@ -0,0 +1,62 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_settingsHelpScanningToggle = Activa/Desactiva todos los escaneos de SCANsat. + #autoLOC_SCANsat_settingsHelpBackground = Activa/Desactiva escaneo en segundo plano en\ncuerpos celestes seleccionados. + #autoLOC_SCANsat_settingsHelpTimeWarp = Ajustar la frecuencia de escaneo durante acelaración del tiempo.\nMayor valor resulta en menos brechas en el mapa\npero puede impactar la performancia a gmayor acelarión del tiempo. + #autoLOC_SCANsat_settingsHelpGroundTracks = Mostrar un indicador visual de\nla actividad de escaneo durante la vista de mapa. + #autoLOC_SCANsat_settingsHelpGroundTracksActive = El indicador del seguimiento desde base\npuede ser limitado a solo mostrar la nave activa. + #autoLOC_SCANsat_settingsHelpStockUIStyle = Cambiar elementos de la UI entre el estilo de KSP base y el estilo de Unity. + #autoLOC_SCANsat_settingsHelpOverlayTooltips = Mostrar tooltips para la posición actual del mouse cuando la sobreposición planetaria está activada.\nEstos tooltips incluyen las coordenadas del cursor, Altura del terreno, pendiente, nombre de bioma,\ny abundancia de recurso, dependiendo de la cobertura del escaneo. + #autoLOC_SCANsat_settingsHelpWindowTooltips = Mostrar tooltips en algunos botones de la vista de mapa.\nEstos son principalmente usados para identificar íconos de botones + #autoLOC_SCANsat_settingsHelpLegendTooltips = Mostrar tooltips en la leyenda del mapa.\nInhabilitar esto tambien ocultara la leyenda del mapa de bioma. + #autoLOC_SCANsat_settingsHelpStockToolbar = Usar la barra de herramientas base.\nPuede usarse al mismo tiempo con la barra de herramientas de Blizzy78. + #autoLOC_SCANsat_settingsHelpToolbarMenu = Usa un menú emergente para la barra de herramietnas base para mostrar todas las ventanas disponibles. + #autoLOC_SCANsat_settingsHelpMechJeb = El modo de selección de los mapa con zoom de SCANsat y le mapa grande de waypoints\npueden ser usados para seleccionar una zona de aterrizaje para MechJeb. + #autoLOC_SCANsat_settingsHelpMechJebLoad = Cargar un punto de aterrizaje guardado de MechJeb.\nEsto solo funciona en la escena de vuelo con una nave válida con Mechjeb. + #autoLOC_SCANsat_settingsHelpMapGenSpeed = Ajustar todas las velocidades de generacion de mapa de SCANsat\nReducir valores ahorrara recursos del CPU y quizá reduzca\nla calidad en la generacion de mapa. + #autoLOC_SCANsat_settingsHelpResetWindows = Reiniciar la escala y posición de todas las ventanas.\nUsa esto si una ventana se movió fuera\ncompletamente o si no son visibles. + #autoLOC_SCANsat_settingsHelpResetPlanetData = Reinicia los datos de SCANsat para el cuerpo celeste actual.\nUna ventana de confirmación se abrira antes de\nactivarse. No puede revertirse. + #autoLOC_SCANsat_settingsHelpResetAllData = Reinicia los datos de SCANsat para todos los cuerpos celestes.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Información acerca del sensor activo de SCANsat.\nNaves indica el número de naves con el sensor activo.\nSensores indica el número total de sensores\nInstrumentos cuenta cada sensor individual.\nPasadas indica el número de actualizaciones por segundo del sensor\nEste valor es afectado por el ajuste de Resolución de acelaración del Tiempo. + #autoLOC_SCANsat_settingsHelpGreyScale = Usar una verdadera escala de grises para los mapas de blanco y negro de SCANsat.\nPíxeles en el mapa de altitud se van a sobreponer entre negro y blanco\nla altura mínima y máxima del terreno de cada cuerpo celeste define los límites + #autoLOC_SCANsat_settingsHelpExportCSV = Exporta un archivo .csv junto con la textura del mapa cuando se usa el botón de Exportar en el Mapa Grande.\nEl archuvo contiene coordeenas y altura del terreno de cada píxel.\nPixeles están nombrados de izquierda a derecha y de arriba a abajo. + #autoLOC_SCANsat_settingsHelpSetMapWidth = Ingresa un valor exacto para el ancho de textura del mapa grande de SCANsat.\nValores están limitados a 550 - 8192 píxeles de ancho.\nPresiona el botón establecer para aplicar el valor. + #autoLOC_SCANsat_settingsHelpWindowScale = Ajusta todas las escalas de las ventanas de SCANsat. + #autoLOC_SCANsat_settingsHelpFillPlanet = Llena los datos de SCANsat para el cuerpo celeste actual. + #autoLOC_SCANsat_settingsHelpFillAll = Llena los datos de SCANsat para todos los cuerpos celestes. + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Evita el requerimiento para el escaneo base de biomas.\nSCANsat mostrará precisión total para la abundancia\ndel recurso con o sin ningun scaneo de biomas. + #autoLOC_SCANsat_resourceSettingsHelpInstant = Por defecto, el escaner de inspección orbital de recursos M700 base llenara todos los mapas de recursos de SCANsat.\nEsto se puede inhabilitar, requiriendo metodos de SCANsat para todos los escaneos de recursos.\nInhabilitado automáticamente cuando el escaneo de recursos base está inactivo. + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Numerosas funciones de SCANsat requieren un escáner de recursos Narrow-Band a bordo\nde la nave activa o en órbita del cuerpo celestial para informacion de recursos totalmente precisa.\nDesactiva esto para evitar estas restricciones. + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Inhabilita todas las funciones base de escaneo de recursos.\nMétodos de escaneo de SCANsat serán requeridos para toda la informacion de recursos.\nRemplaza varias funciones base de recursos con herramietnas de SCANsat.\nIncluye las lecturas del Click-Derecho, y los mapas de sobreposición. + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Reinicia la cobertura de escaneo de recursos base para el cuerpo celeste actual.\nVolver a cargar o cambiar de escena quizás sea nescesario para que los cambios tengas efecto.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Reinicia la cobertura de escaneo de recursos base para todos los cuerpos celestes.\nVolver a cargar o cambiar de escena quizás sea nescesario para que los cambios tengas efecto.\nUna ventana de confirmación se abrira antes de activarse.\nNo puede revertirse. + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Cambia el número de la abundancia de recursos medida en la creación del mapa\nde la sobreposición planetaria y del mapa grande.\nDisminuir el valor para aumentar la calidad y precisión del mapa.\nValores bajos resultaran en generacion de mapa relentizada. + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Cambia el tamaño de textura (anchura del mapa es 2XAltura) usado en la construcctión\ndel mapa de sobreposición de recursos.\nAumenta el valor para aumentar la calidad y precisión del mapa.\nValores altos resultaran en generacion de mapa relentizada. + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Cambia el tamaño de textura (anchura del mapa es 2XAltura) usado en la construcctión\ndel mapa de sobreposición de bioma. Aumenta el valor para aumentar\nla calidad y precisión del mapa.\nValores altos resultaran en generacion de mapa relentizada. + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Crea un fondo gris para la sobreposición del mapa de recursos.\nUsado para dejar claro que secciones del cuerpo celeste\nhan sido escaneadas pero no tienen recursos. + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Nivel límite usado para aplicar el escáner base a todos los cuerpos celestes después de escanear con los sensores de SCANsat.\nÚtil cuando contratos u otros requiere que un scáner base de recursos sea realizado.\nEstablece un valor entre 0-100 en la caja de texto y has cñocl en el botón Establecer.\nATodos los cuerpos celestes serán chequeados inmediatamente;\ncuerpos celestes tambien seran chequeados al cargar o al cambiar de escena.\nVolver a cargar quizás sea nescesario para que los cambios tengan efecto. + #autoLOC_SCANsat_colorTerrainHelpMin = Define la mínima altitud de corte para la paleta de color del terreno.\nCualquier valor debajo de esta altitud se mostrará con el mínimo color. + #autoLOC_SCANsat_colorTerrainHelpMax = Define la máxima altitud de corte para la paleta de color del terreno.\nCualquier valor encima de esta altitud se mostrará con el máximo color. + #autoLOC_SCANsat_colorTerrainHelpClampToggle = Used to define a cutoff between the low and high altitude values.\nThis is particularly useful for ocean planets where it helps to\ndefine a sharp distinction between land and ocean. + #autoLOC_SCANsat_colorTerrainHelpClamp = Define el límite grupal de corte.\nCualquier cosa menor será representado por los 2 primeros colores en la paleta de colores seleccionada.\nCualquier valor mayor será representado por el resto de colores. + #autoLOC_SCANsat_colorTerrainHelpReverse = Revierte el orden de la paleta\nde colores actualmente seleccionada. + #autoLOC_SCANsat_colorTerrainHelpDiscrete = Dibuja el mapa usando solo los colores especificados en la paleta,\nen vez de interpolarlos gradualmente. + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Ajusta el número de colores disponible\nen la paleta de colores actuales. + #autoLOC_SCANsat_colorBiomeHelpStock = Usa el esquema de colores base para\nlos mapas de bioma de SCANsat. + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Dibuja una frontera blanca entre biomas.\nNo aplica a la sobreposición de mapas de biomas. + #autoLOC_SCANsat_colorBiomeHelpTransparency = Ajusta la transparencia de los mapas de biomas.\nElevacion del terreno se muestra detrás del bioma.\nEstabler a 0% para inhabilitar el trazo del terreno. + #autoLOC_SCANsat_colorPickerHelpLow = La muestra de color superior muestra la selección\nactualizada para el mínimo color para este espectro.\nLa muestra de color inferior muestra el color activo. + #autoLOC_SCANsat_colorPickerHelpHigh = La muestra de color superior muestra la selección\nactualizada para el máximo color para este espectro.\nLa muestra de color inferior muestra el color activo. + #autoLOC_SCANsat_colorResourceHelpMin = El corte mínimo para la concentración de recursos en el cuerpo celeste seleccionado.\nDepósitos de recursos a este nivel seran mostrados\nusando el valor mínimo del espectro de color actual.\nDepósitos de recursos inferior a este valor no serán mostrados. + #autoLOC_SCANsat_colorResourceHelpMax = El corte máximo para la concentración de recursos en el cuerpo celeste seleccionado.\nDepósitos de recursos por encima de este nivel seran mostrados\nusando el valor máximo del espectro de color actual. + #autoLOC_SCANsat_colorResourceHelpTransparency = Define el nivel de transparencia para la sobreposición de recursos.\nAumentar para permitir ver mas del terreno, pendiente o bioma.\nEsto tambien afecta la transparencia de la sobreposiciñon de recursos en el mapa. + #autoLOC_SCANsat_colorResourceHelpApply = Aplica los valores actuales para el\nrecurso y cuerpo celeste seleccionado. + #autoLOC_SCANsat_colorResourceHelpApplyAll = Aplica los valores actuales para todos\nlos recursos y cuerpos celestes. + #autoLOC_SCANsat_colorResourceHelpDefault = Revierte los valores de fábrica para el\nrecurso y cuerpo celeste seleccionado. + #autoLOC_SCANsat_colorResourceHelpDefaultAll = Revierte los valores de fábrica para el\nrecurso seleccionado para todos los cuerpos celestes. + #autoLOC_SCANsat_colorHelpSaveToConfig = Guarda toda la configuracion de colores en\nel archivo de configuracion encontrado en el folder SCANsat/Resources.\nEstos valores sirven como base para nuevas partidas\ny para todos los botones de Revertir a Defecto.\nLos valores no necesitan guardarse al archivo de configuración para ser aplicados en esta partida. + #autoLOC_SCANsat_colorSlopeHelpCutoff = Ajusta el nivel de corte entre\nentre los 2 pares de colores seleccionados. + } +} diff --git a/SCANassets/Resources/Localization/es-es/OtherText.cfg b/SCANassets/Resources/Localization/es-es/OtherText.cfg new file mode 100644 index 000000000..a92907b4d --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/OtherText.cfg @@ -0,0 +1,26 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_Analyze = Analizar datos + #autoLOC_SCANsat_StartScan = Empezar Escaneo + #autoLOC_SCANsat_StopScan = Terminar Escaneo + #autoLOC_SCANsat_ToggleScan = Cambiar Escaneo + #autoLOC_SCANsat_Extend = Extender + #autoLOC_SCANsat_Retract = Retractar + #autoLOC_SCANsat_Unknown = Desconocido + #autoLOC_SCANsat_All_Disabled = Todo el Escaneo Desabilitado + #autoLOC_SCANsat_Disabled = Escaneo Desabilitado + #autoLOC_SCANsat_TooLow = Muy Bajo + #autoLOC_SCANsat_SubOptimal = Sub-Óptimo + #autoLOC_SCANsat_Ideal = Ideal + #autoLOC_SCANsat_TooHigh = Muy Alto + #autoLOC_SCANsat_NoData = Sin datos + #autoLOC_SCANsat_Abundance = Abundancia + #autoLOC_SCANsat_Surface = Superf + #autoLOC_SCANsat_AltitudeMin = Altitud ( mín): <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = Altitud (ideal): <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = Altitud ( máx): <<1>>km\n + #autoLOC_SCANsat_FOV = FOV: <<1>> + } +} diff --git a/SCANassets/Resources/Localization/es-es/Parts.cfg b/SCANassets/Resources/Localization/es-es/Parts.cfg new file mode 100644 index 000000000..fc897af87 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Parts.cfg @@ -0,0 +1,22 @@ +Localization +{ + en-us + { + #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation + + #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Description = Este pequeño sensor puede detectar automáticamente anomalias cercanas. Ya que solo trabaja a muy corta distancia y a muy baja altitud, es principalmente útil para tener un historial de las anomalias identificadas que han sido visitadas. + + #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® + #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. + + #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor + #autoLOC_SCANsat_Multi_Description = Este sensor multicanal detecta radiación a través de bandas de infrarojo, luz visible y RADAR. Esto le da la capacidad de diferenciar entre diferentes tipos de terrenos y biomas. También puesde detectar anomalias tales como estructuras en el suelo. + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Altimetry Sensor + #autoLOC_SCANsat_Radar_Description = SCAN te brinda este sensor de altimetría RADAR de alto rendimiento. Este es el modelo de entrada en esta familia de sensores, y comúnmente vendido en conjunto con cohetes de juguete y modelos de aviones a control remoto. Después de que una prueba grupal revelara que el 95% de la audiencia determinada tratase de pegarlo con cinta adhesiva al tubo de escape de sus motores de cohetes, este nuevo y mejorado modelo ah sido hecho más fácil de usar. + + #autoLOC_SCANsat_SAR_Title = SCAN SCAN SAR Altimetry Sensor + #autoLOC_SCANsat_SAR_Description = Este sensor de Apertura Sintética RADAR usa su trayectoria de vuelo para simular una antena mas larga. Haciendo esto posible detectar la elevacion del terreno a una mayor resolución. El inconveniente es que su campo de vision es comparativamente pequeño, y funciona mejor a mayores altitudes. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Science.cfg b/SCANassets/Resources/Localization/es-es/Science.cfg new file mode 100644 index 000000000..ed6961d1a --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_Science_Lo_Title = Scáner de Altimetría de Baja Resolucion + #autoLOC_SCANsat_Science_Lo_Default1 = Se analizaron los datos de altimetría de baja resolución. + #autoLOC_SCANsat_Science_Lo_Defualt2 = "Sensor de altimetría RADAR está reportando. No se como, pero tenemos una señal fuerte y esta obteniendo datos. Esto amerita una ronda de celebracion de Snacks!" + #autoLOC_SCANsat_Science_Lo_Sun = Te pregutnas si el sensor está funcionando mal. + #autoLOC_SCANsat_Science_Lo_Moho = Bueno, al menos estos datos de baja resolucion hacen parecer genial a Moho. No son lagos gigantes de lava, pero genial sin duda. + #autoLOC_SCANsat_Science_Lo_Eve = Contemplas los borrosos, y ásperos estimados de altitud regresados por el scáner y deseas haber enviado el escáner de alta resolucion. Oh bueno, ¡Es una gran razón para lanzar mas cohetes! (Como si necesitaramos una razon de todos modos) + #autoLOC_SCANsat_Science_Lo_Gilly = Tu scaneo de baja resolución confirma lo que ya sabías: Gilly solo es una roca grumosa flotando en el espacio. Al menos no tienes que esforzar tus ojos al ver el reporte. + #autoLOC_SCANsat_Science_Lo_Kerbin = Incluso estos datos de baja resolución de la superficie del planeta son sorprendentemente útiles. No puedes esperar para desplegar esta tecnología hacia Mun o más allá. + #autoLOC_SCANsat_Science_Lo_Mun = Los datos se muestran extensos, recorriendo trazos del terreno debajo. Un scaneo de alta resolucion ayudaria más, pero probablemente puedes usar estos datos para encontrar un punto de aterrizaje adecuado. + #autoLOC_SCANsat_Science_Lo_Minmus = Reconoces a regañadientes que los chicos en la Sociedad Astronómica de Kerbal tenian rezón: Minmus es realmente una luna. No lo hubieses creido si no hubieras visto el escáner de altimetría con tus propios ojos. + #autoLOC_SCANsat_Science_Lo_Duna = Estos datos de baja resolución son un poco borrosos y distorsionados, pero aun será invaluable en la busqueda de un punto de aterrizaje adecuado en Duna. De repente, una misión de largo plazo a Duna se vuelve una perspectiva real. + #autoLOC_SCANsat_Science_Lo_Ike = Mientras revisas los datos te sorprendes por los similar que es Ike con Mun . Te preguntas sobre la comparación entre la geología de sus superficies. + #autoLOC_SCANsat_Science_Lo_Dres = Incluso con este escáner de baja resolución es bastante aparente que Dres tiene algunas prominentes montañas. No puedes esperar por los resultados del escáner de recursos por que estás seguro que "¡Hay oro en esas montañas!". + #autoLOC_SCANsat_Science_Lo_Jool = ¿Altimetría, que altimetría? Es un gigante gaseoso por el amor de Kerbal. Solo escojamos un número aleatorio y listo. + #autoLOC_SCANsat_Science_Lo_Laythe = El sensor parece incapaz de penetrar el agua. + #autoLOC_SCANsat_Science_Lo_Vall = Bueno, aquí está: "Los Vall-iosos datos que todos estaban esperando. JAJAJAJA. Jajaja. Ja. Ja? ¿Qué? Al menos ALGUIEN tiene que pensar que fue chistoso." + #autoLOC_SCANsat_Science_Lo_Tylo = Aún no estás seguro como la vista desde arriba va a ser en Laythe, Vall y Jool; pero estos datos de seguro te van a ayudar a encontrar un punto de aterrizaje para poder averiguarlo. + #autoLOC_SCANsat_Science_Lo_Bop = Bueno, los datos de altimetría de baja resolucion están aqui, y decides empacarlo y enviarlo de vuelta al CSK. Solo esperas que haya suficiente jugo en las baterías para enviar todo y matener los sistemas basicos funcionando al mismo tiempo. + #autoLOC_SCANsat_Science_Lo_Pol = El scaneo de baja resolución confirma que Pol luce como un grano gigante de polen. Hasta que mejores a un escáner de alta resolución, y avances en el campo de los microscopios de electrones, te quedaras con la duda de que tan fuerte es está similitud realmente. + #autoLOC_SCANsat_Science_Lo_Eeloo = Los científicos en Kerbin han estado esperando por estos datos por mucho tiempo. No hay duda de que habra una celebración y muchos snacks para todos cuando lleguen los datos. + + #autoLOC_SCANsat_Science_Hi_Title = Scáner de Altimetría de Alta Resolución + #autoLOC_SCANsat_Science_Hi_Default1 = Se analizaron los datos de altimetría de alta resolución. + #autoLOC_SCANsat_Science_Hi_Default2 = "El Scáner de Altimetría de Alta Resolución se definitivamente mejor que el de baja resolución. SCAN una vez mas ah demostrado sus habilidades de escaneo." + #autoLOC_SCANsat_Science_Hi_Sun = Te das cuenta que hubieras ahorrado dinero si le hubieses creido al escáner de baja resolución en primer lugar. + #autoLOC_SCANsat_Science_Hi_Moho = ¡Finalmente, lo asombroso ah regresado a Moho! Quizás no sean ríos gigantes de lava, pero estos datos son espectaculares! + #autoLOC_SCANsat_Science_Hi_Eve = El sensor de alta definición atravesó bien la brumosa atmósfera morada,y eres capaz de distinguir detalles minusiosos en la superficie. Los científicos en el CSK estaran alividados. + #autoLOC_SCANsat_Science_Hi_Gilly = Incluso en super alta resolución parece que Gilly estuviera en baja resolución. Esa es una superficie realmente grumosa. + #autoLOC_SCANsat_Science_Hi_Kerbin = Te quedas hipnotizado por todos los colores en los datos que la nueva tecnología de alta resolución provee. De rependete,Control de Misión te despierta de tu trance, rapidamente te quitas la baba de la comisura de tu boca. + #autoLOC_SCANsat_Science_Hi_Mun = "¡Ajá! No mas aburrida luna gris. ¡Solo mira todos elos colores en el escáner! Ahora podemos escoger un punto de aterrizaje de primera calidad." + #autoLOC_SCANsat_Science_Hi_Minmus = Wow, no solo Minmus es real, ¡Tiene una toporafía sorprendente! No puedes esperar para aterrizar en una de esas grandes llanuras. + #autoLOC_SCANsat_Science_Hi_Duna = Estos datos de alta resolución son asombrosos. Empiezas a analirzar las colinas y valles, buscando por el punto de aterrizaje perfecto. + #autoLOC_SCANsat_Science_Hi_Ike = Los datos confirman la prescencia de crateres y colinas con grandes pendientes. Ojalá los analistas en el CSK pueden encontrar un punto de aterrizaje adecuado. + #autoLOC_SCANsat_Science_Hi_Dres = Esas... son unas montañas algo misteriosas. Estás contento de estar analizando estos datos, en vez de tratar de colinas. + #autoLOC_SCANsat_Science_Hi_Jool = Incluso en alta definición parece no haber una superficie en Jool. Tanto por esa teoría. ¡Al menos aun tenemos el dinero del contrato! + #autoLOC_SCANsat_Science_Hi_Laythe = El mapa muestra mayormente alturas negativas. consideras drenar Laythe para poder escalar una de esas montañas. + #autoLOC_SCANsat_Science_Hi_Vall = Los datos del escáner de alta resolucion muestra que la superficie de Vall es, en efecto, "crujiente". Supongo que Gene te debe dinero. + #autoLOC_SCANsat_Science_Hi_Tylo = Tylo quizás haya sido una de las priemras lunas de Jool en ser descubiertas, pero estos datos te hacen sentir como si estuvieras descubriendo esta luna por la primera vez. + #autoLOC_SCANsat_Science_Hi_Bop = Wow, mira todos esos colores. No tienes idea que significan todos estos datos, pero estás seguro que estos datos de alta resolución impresionaran a todos de regreso en el CSP. + #autoLOC_SCANsat_Science_Hi_Pol = Incluso con estos datos de alta resolucion, aun es difícil encontrar un bueno punto de aterrizaje. ¿De todas formas, como rayos se formo esta luna? + #autoLOC_SCANsat_Science_Hi_Eeloo = Las gritas y fisuras en la superficie sobresalen con sorprendente definición mientras examinas los datos del sensor. Solo mira todos esos posible puntos de aterrizaje. + + #autoLOC_SCANsat_Science_Multi_Title = Análisis de Multiespectro + #autoLOC_SCANsat_Science_Multi_Default1 = Se analizaron los datos del sensor de Multiespectro. + #autoLOC_SCANsat_Science_Multi_Default2 = "¿Wow, como es que siquiera estamos reciviendo estos datos? Esos ingenieros de SCAN realmente saben lo que hacen. O es eso, o no tienen la mas mínima idea de lo que hacen. De cualquier forma. es tiempo de unos Snacks!" + #autoLOC_SCANsat_Science_Multi_Sun1 = Te sorprende la falta de datos biométricos. + #autoLOC_SCANsat_Science_Multi_Sun2 = Te preguntas por que los polos no son visibles en el mapa. + #autoLOC_SCANsat_Science_Multi_Moho = Mientras revisas los datos, te preguntas si encontrarás el elusivo bioma de el "Lago de Lava" el cual muchos científicos han especualado. + #autoLOC_SCANsat_Science_Multi_Eve = Las intrincadas lineas curveadas del mapa de biomas de Eve te recuerdan lámparas de lava y camisetas teñidas. ¡Esos eran los días!. ¡La siguiente nave espacial hacia Eve tendra una bola disco obligatoria! + #autoLOC_SCANsat_Science_Multi_Gilly = Incluso poniendo los ojos bizcos, los astrónomos no podian ver los biomas. ¡Ja! ¡Astrónomos tontos! 1 punto para la ciencia y 0 puntos para, este.... sciencia. + #autoLOC_SCANsat_Science_Multi_Kerbin = Estos datos de bioma son sorprendentes. Solo esperas de que sea resistente a las migajas, ya que recuerdas haber comido una bolsas de Snacks el dia que instalaron los sensores. + #autoLOC_SCANsat_Science_Multi_Mun = Ja, nunca supe que la luna Mun tenia biomas. Me pregunto en cual de ellos estará el queso. Y si hay otros Snacks por ahí tambien. + #autoLOC_SCANsat_Science_Multi_Minmus = Contemplas que acertado es el nombre "Grandes Planicies" mientras revisas los datos. Quien sea que piensa estos nombres es un Kerbal inteligente, a diferencia de los ingenieros que tenemos por aquí. + #autoLOC_SCANsat_Science_Multi_Duna = Peinas todos los datos de bioma solo para encontrar el punto corrector para recolectar todos los dulces, dulces datos científicos. Mmmmm, ciencia... y snacks. + #autoLOC_SCANsat_Science_Multi_Ike = Mientras revisas los datos que regresan de Ika, te sorprendes con la diversidad de biomas. Despues de todo, es solo una luna. No puedes esperar por poner tus manos en uno de los datos científicos atrapados ahí abajo. + #autoLOC_SCANsat_Science_Multi_Dres = Polos, listo. Tierras altas, listo. Tierras medias, listo. Tierras bajas, listo. Crestas, listo. Impact Ejecta, clisto. Impact Cráteres, listo. Cañones, listo. Creo que los tenemos a todos. Hora de apagar el escáner y tener unos snacks! + #autoLOC_SCANsat_Science_Multi_Jool1 = Te sorprende la falta de datos biométricos. + #autoLOC_SCANsat_Science_Multi_Jool2 = Te preguntas por que no se ven los polos en el mapa. + #autoLOC_SCANsat_Science_Multi_Laythe = Quieres lanzar una fiesta cada vez que el sensor detecta un bioma de tierra. + #autoLOC_SCANsat_Science_Multi_Vall = Datos muy sencillos: Polos, Tierras altas, Tierras medias, y Tierras bajas. Listo, ahora vamos a por unos snacks. + #autoLOC_SCANsat_Science_Multi_Tylo = Te sorprende la diversidad de biomas en el reporte. No solomente es genial mirar hacia arriba desde Tylo, tambien es genial mirar hacia abajo. + #autoLOC_SCANsat_Science_Multi_Bop = Este detalaldo análisis De los biomas de Bob aumentaran nuestro entendimientos más allá de lo que cualquiera hubiera esperado. Ah sido un gran día. Snacks para todos! + #autoLOC_SCANsat_Science_Multi_Pol = Mientras recibes los datos de biomas provinientes de Pol empiezas a contemplat la posibilidad de que los granos de polen tambien tengan biomas. Pero inmediatametne destruyes esa ídea, sabiendo lo que los activistas harian si se enterasen de esta. + #autoLOC_SCANsat_Science_Multi_Eeloo = Es sorprendente tener datos de biomas de un planeta tan lejos de Kerbin. Te quedas mirando sorprendido al reporte mientras los datos van llegando. + + #autoLOC_SCANsat_Science_Resource_Title = Scáner de Recursos + #autoLOC_SCANsat_Science_Resource_Default1 = Se analizaron los datos de baja resolucion de recursos. + #autoLOC_SCANsat_Science_Resource_Default2 = "Estamos recibiendo ahora los datos de recursos; esta informacion luce mucho mejor de lo que estábamos recibiendo del otro grupo..." + #autoLOC_SCANsat_Science_Resource_Sun = Quizás el sol no es el mejor lugar para buscar recursos en la superficie. + #autoLOC_SCANsat_Science_Resource_Moho = Finalmente tenemos algo de informacion sobre los recursos de la superficie de Moho, ahora solo tenemos que saber por que alguien quisiera aterrizar ahí. + #autoLOC_SCANsat_Science_Resource_Eve = Estamos obteniendo montones de excelentes datos sobre los recursos en la superficie de Eve, esto será genial para cuando tengamos que buscar uan manera de dejar el planeta. + #autoLOC_SCANsat_Science_Resource_Gilly = El escáner de recursos inicial de Gilly luce bien; es casi como minar asteroides. + #autoLOC_SCANsat_Science_Resource_Kerbin = Finalmente tenemos datos sobre los recursos de Kerbin, por que como todo el mundo sabe, si quieres informacionbásica sobre tu propio planeta nada supera mandar un costoso, complicado satélite a orbita. + #autoLOC_SCANsat_Science_Resource_Mun = Estos datos de recursos nos dan nuestra primera mirada a que tan apropiada es Mun para minar. + #autoLOC_SCANsat_Science_Resource_Minmus = Al menos, tenemos algunos datos de recursos en Minmus, primera opción de todo Kerbonauta para empezar sus instalaciones mineras. + #autoLOC_SCANsat_Science_Resource_Duna = Estos datos de recursos nos traen un paso mas cerca a revivir todas nuestras lineas favoritas en la última película Kerbalexitosa del año. + #autoLOC_SCANsat_Science_Resource_Ike = Quizas Ike no sea el cuerpo celeste más interesante del sistema solar, pero eso no hace estos datos de recursos menos útiles. + #autoLOC_SCANsat_Science_Resource_Dres = Podriamos mejor buscar recursos en los asteroides próximos; quien si quiera se molestaría con Dres. + #autoLOC_SCANsat_Science_Resource_Jool = Hmm, quizás un gigante gaseoso no sea el mejor lugar para ir a buscar recursos en la superficie... + #autoLOC_SCANsat_Science_Resource_Laythe = Bueno, hay un monton de buenos datos, pero muy poca area de preciada tierra donde podamos aterrizar y tomar ventaja de los recursos. + #autoLOC_SCANsat_Science_Resource_Vall = Escáner de recursos de la helada Vall provee datos interesantes. + #autoLOC_SCANsat_Science_Resource_Tylo = Tomaremos cualquier informacion de recursos que podamos del aterrador Tylo. + #autoLOC_SCANsat_Science_Resource_Bop = Quizas Bob no sea la primera opcion de nadie al decidir donde ir en busca de recursos, pero estos datos quizas sean útiles algún día. + #autoLOC_SCANsat_Science_Resource_Pol = Ademas de granos de polen y cosas muy grumosas, parece que Pol tiene unos depósitos de recursos interesantes. + #autoLOC_SCANsat_Science_Resource_Eeloo = Ahora que hicimos todo el camino hasta Eeloo, podríamos minar hasta vaciar el lugar y movernos a lo que sea que esté más allá. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Tooltips.cfg b/SCANassets/Resources/Localization/es-es/Tooltips.cfg new file mode 100644 index 000000000..78404b579 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_mainMapToggle = Mapa Principal + #autoLOC_SCANsat_bigMapToggle = Mapa Grande + #autoLOC_SCANsat_zoomMapToggle = Mapa con Zoom + #autoLOC_SCANsat_overlayToggle = Sobreposición Planetaria + #autoLOC_SCANsat_instrumentsToggle = Instrumentos de Lectura + #autoLOC_SCANsat_settingsToggle = Ajustes + #autoLOC_SCANsat_mainMapColor = Color de Mapa + #autoLOC_SCANsat_mainMapTerminator = Terminador de Día/Noche del Mapa + #autoLOC_SCANsat_mainMapType = Cambiar Terreno/Bioma + #autoLOC_SCANsat_mainMapMinimize = Mostrar/ocultar informacion de la nave + #autoLOC_SCANsat_mainMapStatus = Indicadores del Estado del Scáner + #autoLOC_SCANsat_mainMapPercentage = Porcentaje de Terminación del Escáner Activo + #autoLOC_SCANsat_bigMapRefresh = Refrescar Mapa + #autoLOC_SCANsat_bigMapColor = Color de Mapa + #autoLOC_SCANsat_bigMapTerminator = Terminador de Día/Noche del Mapa + #autoLOC_SCANsat_bigMapGrid = Sobreposición de Cuadrícula + #autoLOC_SCANsat_bigMapOrbit = Sobreposición de Órbita + #autoLOC_SCANsat_bigMapWaypoints = Waypoints + #autoLOC_SCANsat_bigMapAnomaly = Anomalias + #autoLOC_SCANsat_bigMapFlags = Banderas + #autoLOC_SCANsat_bigMapLegend = Map Leyenda + #autoLOC_SCANsat_bigMapResource = Sobreposición de Recursos + #autoLOC_SCANsat_bigMapExport = Exporta Mapa al Disco + #autoLOC_SCANsat_overlayRefresh = Refrescar Mapa + #autoLOC_SCANsat_insNextResource = Siguiente Recurso + #autoLOC_SCANsat_insPreviousResource = Anterior Recurso + #autoLOC_SCANsat_zoomVesselSync = Sincronizar Nave Actual + #autoLOC_SCANsat_zoomVesselLock = Mantener Posición en la Nave + #autoLOC_SCANsat_zoomMapRefresh = Refrescar Mapa + #autoLOC_SCANsat_zoomMapWindowState = Cambiar Camaño de Mapa + #autoLOC_SCANsat_zoomMapIn = Aumentar Zoom + #autoLOC_SCANsat_zoomMapOut = Reducir Zoom + #autoLOC_SCANsat_zoomMapLeft = Cambiar a la Izquierda + #autoLOC_SCANsat_zoomMapRight = Cambiar a la Derecha + #autoLOC_SCANsat_zoomMapUp = Cambiar Arriba + #autoLOC_SCANsat_zoomMapDown = Cambiar Abajo + #autoLOC_SCANsat_zoomMapIcons = Íconos del Mapa + #autoLOC_SCANsat_waypointToggle = Seleccionador de Waypoints + #autoLOC_SCANsat_waypointSet = Crear Waypoint + #autoLOC_SCANsat_waypointCancel = Cancelar Waypoint + #autoLOC_SCANsat_waypointMechJeb = Establer MechJeb Aterrizaje en Objetivo + #autoLOC_SCANsat_waypointNameRefresh = Reiniciar Waypoint + } +} diff --git a/SCANassets/Resources/Localization/es-es/Warnings.cfg b/SCANassets/Resources/Localization/es-es/Warnings.cfg new file mode 100644 index 000000000..6fc978d44 --- /dev/null +++ b/SCANassets/Resources/Localization/es-es/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + es-es + { + #autoLOC_SCANsat_Warning_DataResetCurrent = ¿Borrar <<1>> para mapa <<2>>? + #autoLOC_SCANsat_Warning_DataResetAll = ¿Borrar <<1>> para todos los cuerpos celestes? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = ¿Borrar datos de recursos del juego base para <<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetAll = ¿Borrar datos de recursos del juego base para todos los cuerpos celestes? + #autoLOC_SCANsat_Warning_MapFillCurrent = ¿Llenar <<1>> para mapa <<2>>? + #autoLOC_SCANsat_Warning_MapFillAll = ¿Llenar <<1>> para todos los cuerpos celestes? + #autoLOC_SCANsat_Warning_ModuleManagerResource = Advertencia\nModule Manager es requerido para todas las funciones de escaneo de recursos de SCANsat. + #autoLOC_SCANsat_Warning_SaveToConfig = ¿Sobrescribir archivo de configuración existente en el disco? + } +} diff --git a/SCANassets/Resources/Localization/pt-br/Contracts.cfg b/SCANassets/Resources/Localization/pt-br/Contracts.cfg new file mode 100644 index 000000000..90e0e6c12 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + pt-br + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Conduza um levantamento de pesquisas SCANsat de alta resolução em @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Conduza um levantamento de pesquisas SCANsat de alta resolução em @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. + #autoLOC_SCANsat_exceptional0004 = Execute várias varreduras de alta resolução em @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = Agora temos um mapa topográfico detalhado para a superfície em @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Necessário menos de 90% de varredura altimétrica de alta resolução do alvo. + #autoLOC_SCANsat_exceptional0007 = Necessário menos de 90% de varredura de minério de alta resolução do alvo. + #autoLOC_SCANsat_exceptional0008 = Necessário ter orbitado o alvo, ou o alvo deve ser o próximo na lista. +. + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. + #autoLOC_SACNsat_significant_0004 = Execute várias varreduras em @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excelente trabalho, essas varreduras fornecerão dados valiosos para nossas equipes de pesquisa. + #autoLOC_SACNsat_significant_0006 = Necessário menos de 80% de varredura altimétrica de baixa resolução do alvo. + #autoLOC_SACNsat_significant_0007 = Necessário menos de 80% de varredura de bioma do alvo. + #autoLOC_SACNsat_significant_0008 = Necessário menos de 80% de varredura de recursos M700 do alvo. + #autoLOC_SACNsat_significant_0009 = Necessário ter orbitado o alvo. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. + #autoLOC_SACNsat_trivial_0004 = Conduza uma varredura simples em @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excelente trabalho, esta simples pesquisa dará muito material de estudo aos nossos especialistas. + #autoLOC_SACNsat_trivial_0006 = O alvo é parte do sistema doméstico. + #autoLOC_SACNsat_trivial_0007 = Necessário ter escaneado menos de 70% do alvo. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/pt-br/Flags.cfg b/SCANassets/Resources/Localization/pt-br/Flags.cfg new file mode 100644 index 000000000..40e401545 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_Agents_Name = SCAN: Comitê Científico de Navegação Avançada + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = A agência SCAN dedica-se a mapear e pesquisar todos os planetas no sistema solar. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/pt-br/Helptips.cfg b/SCANassets/Resources/Localization/pt-br/Helptips.cfg new file mode 100644 index 000000000..27441a1ce --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Helptips.cfg @@ -0,0 +1,69 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_settingsHelpScanningToggle = Alternar toda a varredura SCANsat. + #autoLOC_SCANsat_settingsHelpBackground = Alternar varredura de fundo em corpos celestes selecionados. + #autoLOC_SCANsat_settingsHelpTimeWarp = Ajuste a frequência de varreduras durante o TimeWarp.\nConfigurações mais elevadas resultam em menos lacunas nos mapas,\nmas podem ter um impacto no desempenho em TimeWarp elevado. + #autoLOC_SCANsat_settingsHelpGroundTracks = Exibe um indicador visível da atividade de varredura no modo de mapa. + #autoLOC_SCANsat_settingsHelpGroundTracksActive = O indicador de aterrissagem pode ser limitado para\nser exibido apenas pela nave ativa. + #autoLOC_SCANsat_settingsHelpStockUIStyle = Alternar entre elementos de UI no estilo KSP e elementos no estilo Unity. + #autoLOC_SCANsat_settingsHelpOverlayTooltips = Exibe dicas de ferramentas para a posição atual do mouse\nquando um mapa de sobreposição planetária é ativado.\nEssas dicas incluem as coordenadas do cursor,\naltura do terreno, inclinação, nome do bioma e abundância de recursos,\ndependendo da cobertura da varredura. + #autoLOC_SCANsat_settingsHelpWindowTooltips = Exibe dicas de ferramentas em alguns botões da janela do mapa.\nEstes são usados principalmente para identificar ícones de botões. + #autoLOC_SCANsat_settingsHelpLegendTooltips = Exibe dicas de ferramentas na legenda do mapa.\nTambém desativará as legendas do mapa do bioma. + #autoLOC_SCANsat_settingsHelpStockToolbar = Use a barra de ferramentas suspensa.\nPode ser usado simultaneamente com a barra de ferramentas Blizzy78. + #autoLOC_SCANsat_settingsHelpToolbarMenu = Use um menu suspenso para que a barra de ferramentas suspensa\nmostre todas as janelas disponíveis. + #autoLOC_SCANsat_settingsHelpMechJeb = O mapa de zoom SCANsat e os modos de seleção do Ponto Fixo do mapa grande\npodem ser usados para selecionar um ponto de aterrissagem MechJeb. + #autoLOC_SCANsat_settingsHelpMechJebLoad = Carregue um alvo de destino MechJeb salvo.\nSomente funciona durante a cena do voo com uma nave MechJeb válida. + #autoLOC_SCANsat_settingsHelpMapGenSpeed = Ajuste todas as velocidades de geração do mapa SCANsat.\nValores menores irão economizar recursos da CPU e podem\nreduzir o impacto no desempenho da geração de mapas. + #autoLOC_SCANsat_settingsHelpResetWindows = Redefine todas as posições e escalas das janelas.\nUse no caso de uma janela ter sido arrastada completamente para fora\nda tela ou se qualquer janela não estiver visível. + #autoLOC_SCANsat_settingsHelpResetPlanetData = Redefine os dados SCANsat selecionados para o corpo celeste atual.\nUma janela de confirmação será aberta antes de ativar.\nNão pode ser revertida. + #autoLOC_SCANsat_settingsHelpResetAllData = Redefine os dados SCANsat selecionados para todos os corpos celestes.\nUma janela de confirmação será aberta antes de ativar.\nNão pode ser revertida. + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Informações sobre os sensores SCANsat atualmente ativos.\nAs naves indicam o número de naves com sensores ativos.\nOs sensores indicam o número total de sensores;\nInstrumentos com vários tipos de sensores contam como um sensor individual.\nPasses indica o número de atualizações do sensor executadas por segundo.\nEsse valor é afetado pela configuração TimeWarp Resolution. + #autoLOC_SCANsat_settingsHelpGreyScale = Use um espectro real de cores em escala de cinza para mapas SCANsat em preto e branco.\nOs pixels no mapa de altitude interpolam entre preto e branco;\nas altitudes mínimas e máximas definem os limites para cada corpo celeste. + #autoLOC_SCANsat_settingsHelpExportCSV = Exporte um arquivo .csv juntamente com a textura do mapa ao usar o botão Exportar no mapa grande.\nO arquivo contém coordenadas e a altura do terreno para cada pixel.\nOs pixels são rotulados da esquerda para a direita e de cima para baixo. + #autoLOC_SCANsat_settingsHelpSetMapWidth = Digite um valor exato para a largura da textura do mapa grande do SCANsat.\nOs valores são limitados a 550 - 8192 pixels de largura.\nPressione o botão Set para aplicar o valor. + #autoLOC_SCANsat_settingsHelpWindowScale = Ajuste todas as escalas de janela SCANsat. + #autoLOC_SCANsat_settingsHelpFillPlanet = Preencha os dados SCANsat selecionados para o corpo celeste atual. + #autoLOC_SCANsat_settingsHelpFillAll = Preencha os dados SCANsat selecionados para todos os corpos celestes. + + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Requisito circunstante para as varreduras de biomas da superfície do estoque.\nOs ecrãs da SCANsat mostrarão a precisão total para\nabundância de recursos com ou sem exames de biome de superfície. + #autoLOC_SCANsat_resourceSettingsHelpInstant = Por padrão, o levantamento orbital do escâner de recursos do estoque M700\npreencherá todos os mapas de recursos SCANsat.\nIsso pode ser desativado, exigindo métodos SCANsat padrão\npara toda a verificação de recursos.\nDesabilitada automaticamente quando a varredura do\nrecurso de estoque está desabilitada. + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Numerosas funções de SCANsat requerem um escâner de recursos\nde Banda-Estreita a bordo da nave atual ou em órbita\nde um corpo celestial para dados de abundância de recursos completamente precisos.\nDisponha isso para contornar essas restrições. + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Desabilita todas as funções de varredura de recursos de estoque.\nOs métodos de varredura SCANsat serão necessários para todos os dados do recurso.\nSubstitui várias funções de recursos de estoque com ferramentas SCANsat.\nIncluem as leituras do botão direito e os mapas de sobreposição planetários. + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Redefine a cobertura de varredura de estoque de recursos para o corpo celeste atual.\nPode ser necessário uma recarga ou\nmudança de cena para que todas as alterações entrem em vigor.\nUma janela de confirmação será aberta antes de ativar.\nNão pode ser revertido. + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Redefine a cobertura de varredura de estoque de recursos para todos os corpos celestes.\nPode ser necessário uma recarga ou\nmudança de cena para que todas as alterações entrem em vigor.\nUma janela de confirmação será aberta antes de ativar.\nNão pode ser revertido. + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Mude o número de medidas de abundância de recursos usadas na construção\nda sobreposição planetária e da sobreposição de recursos do mapa grande.\nDiminua o valor para aumentar a precisão do mapa.\nValores mais reduzidos resultarão em uma geração de mapa mais lenta. + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Altere o tamanho da textura (a largura do mapa é 2XHeight) usada na construção da\nsobreposição planetária e da sobreposição de recursos do mapa grande.\nAumente o valor para aumentar a qualidade e a precisão do mapa.\nValores mais elevados resultarão em geração de mapa mais lenta. + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Altere o tamanho da textura (a largura do mapa é 2XHeight) usada na construção do\nmapa do bioma de sobreposição planetária.\nAumente o valor para aumentar a qualidade e precisão do mapa.\nValores mais elevados resultarão em uma geração de mapa mais lenta. + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Cria um fundo cinza para mapas de recursos de sobreposição planetária.\nUsado para deixar claro quais seções do corpo celeste\nforam digitalizadas, mas não possuem recursos. + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Um nível limiar usado para aplicar a varredura de recursos de estoque\npara um corpo celeste após a varredura com sensores SCANsat.\nIsso é útil quando os contratos ou outros complementos\nexigem que uma varredura de estoque seja realizada.\nDefina um valor de 0-100 na caixa de texto e clique no botão Definir.\nTodos os corpos celestes serão verificados imediatamente;\nOs corpos celestes também serão verificados\napós o carregamento ou uma mudança de cena.\nPode ser necessário recarregar para que as mudanças entrem em vigor. + + #autoLOC_SCANsat_colorTerrainHelpMin = Define o menor ponto de corte de altitude para a paleta de cores do terreno.\nQualquer coisa abaixo desta altitude será mostrada com uma cor menor. + #autoLOC_SCANsat_colorTerrainHelpMax = Define o maior ponto de corte de altitude para a paleta de cores do terreno.\nQualquer coisa acima desta altitude será mostrada com a cor maior. + #autoLOC_SCANsat_colorTerrainHelpClampToggle = Usado para definir um ponto de corte entre os valores de altitude baixa e alta.\nÉ particularmente útil para planetas oceânicos, onde ajuda a definir\numa distinção nítida entre terra e oceano. + #autoLOC_SCANsat_colorTerrainHelpClamp = Define o limite de altitude dos montes.\nQualquer coisa abaixo do ponto de corte será representada\npelas duas primeiras cores na paleta de cores selecionada.\nQualquer coisa acima do ponto de corte será representada\ncom as cores restantes. + #autoLOC_SCANsat_colorTerrainHelpReverse = Inverte a ordem da paleta de cores atualmente selecionada. + #autoLOC_SCANsat_colorTerrainHelpDiscrete = Desenha o mapa usando apenas as cores específicas definidas por cada paleta,\nem vez de interpolar suavemente entre elas. + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Ajuste o número de cores disponíveis\nna paleta de cores atualmente selecionada. + + #autoLOC_SCANsat_colorBiomeHelpStock = Use o esquema de cores do bioma do estoque para o mapa SCANsat de biomas. + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Desenhe uma borda branca entre os biomas.\nNão se aplica aos mapas de bioma de sobreposição planetária. + #autoLOC_SCANsat_colorBiomeHelpTransparency = Ajuste a transparência do mapa de biomas.\nA elevação do terreno é exibida atrás do mapa de bioma.\nDefina para 0% para desativar o desenho do terreno. + + #autoLOC_SCANsat_colorPickerHelpLow = A amostra de cores superiores mostra a seleção de cores\natualizadas para a extremidade baixa deste espectro de cores.\nA amostra de cor inferior mostra a cor atualmente ativa. + #autoLOC_SCANsat_colorPickerHelpHigh = A amostra de cores superiores mostra a seleção de cores\natualizadas para a extremidade alta deste espectro de cores.\nA amostra de cor inferior mostra a cor atualmente ativa. + + #autoLOC_SCANsat_colorResourceHelpMin = Diminui o ponto de corte para a concentração de recursos no corpo celeste selecionado.\nOs depósitos de recursos neste nível serão exibidos usando a\nextremidade baixa do espectro atual de cores de sobreposição de recursos.\nOs depósitos de recursos abaixo deste valor não serão exibidos. + #autoLOC_SCANsat_colorResourceHelpMax = Aumenta o ponto de corte para a concentração de recursos no corpo celeste selecionado.\nOs depósitos de recursos acima deste valor serão exibidos usando a\nextremidade alta do espectro atual de cores de sobreposição de recursos. + #autoLOC_SCANsat_colorResourceHelpTransparency = Define o nível de transparência para as sobreposições de recursos.\nAumente para permitir que mais do mapa subjacente do terreno, inclinação ou bioma seja visível.\nIsso também afeta a transparência dos depósitos de recursos\nno mapa de recursos de sobreposição planetária. + #autoLOC_SCANsat_colorResourceHelpApply = Aplica os valores atuais para o recurso selecionado\naplicado apenas ao corpo celeste selecionado. + #autoLOC_SCANsat_colorResourceHelpApplyAll = Aplica os valores atuais para o recurso selecionado\naplicado para todos os corpos celestes. + #autoLOC_SCANsat_colorResourceHelpDefault = Reverte o recurso selecionado para os valores padrão\naplicado apenas ao corpo celeste selecionado. + #autoLOC_SCANsat_colorResourceHelpDefaultAll = Reverte o recurso selecionado para os valores padrão\naplicado para todos os corpos celestes. + + #autoLOC_SCANsat_colorHelpSaveToConfig = Salva todos os valores de configuração de cores no arquivo de configuração\nencontrado na sua pasta SCANsat/Resources.\nEsses valores servem como padrão para novos arquivos e\npara todos os botões Reverter Para Padrão.\nOs valores não precisam ser salvos no arquivo de configuração a ser\naplicado para este arquivo salvo. + + #autoLOC_SCANsat_colorSlopeHelpCutoff = Ajusta o nível de corte entre os dois pares de cores de inclinação selecionados. + } +} diff --git a/SCANassets/Resources/Localization/pt-br/OtherText.cfg b/SCANassets/Resources/Localization/pt-br/OtherText.cfg new file mode 100644 index 000000000..36723dbc4 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/OtherText.cfg @@ -0,0 +1,35 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_Analyze = Analisar Dados + #autoLOC_SCANsat_StartScan = Iniciar Varredura + #autoLOC_SCANsat_StopScan = Finalizar Varredura + #autoLOC_SCANsat_ToggleScan = Alterar Varredura + #autoLOC_SCANsat_Extend = Estender + #autoLOC_SCANsat_Retract = Retrair + #autoLOC_SCANsat_Unknown = Desconhecido + #autoLOC_SCANsat_All_Disabled = Desabilitar Escâneres + #autoLOC_SCANsat_Disabled = Desabilitar Escâner + #autoLOC_SCANsat_TooLow = Muito Baixo + #autoLOC_SCANsat_SubOptimal = Sub-Optimum + #autoLOC_SCANsat_Ideal = Ideal + #autoLOC_SCANsat_TooHigh = Muito Alto + #autoLOC_SCANsat_NoData = Sem Dados + #autoLOC_SCANsat_Abundance = Abundante + #autoLOC_SCANsat_Surface = Superfície + #autoLOC_SCANsat_AltitudeMin = Altitude ( min ): <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = Altitude (ideal): <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = Altitude ( max ): <<1>>km\n + #autoLOC_SCANsat_FOV = FOV: <<1>> + #autoLOC_SCANsat_MapProjection = Projeção + #autoLOC_SCANsat_MapType = Mapa + #autoLOC_SCANsat_MapResource = Recurso + #autoLOC_SCANsat_MapBody = Corpo Celeste + #autoLOC_SCANsat_GeneralSettings = Configurações Gerais + #autoLOC_SCANsat_BackgroundSettings = Configurações de Fundo + #autoLOC_SCANsat_ResourceSettings = Configurações de Recursos + #autoLOC_SCANsat_DataManagement = Gestão de Dados + #autoLOC_SCANsat_ColorManagement = Gestão de Cores + } +} diff --git a/SCANassets/Resources/Localization/pt-br/Parts.cfg b/SCANassets/Resources/Localization/pt-br/Parts.cfg new file mode 100644 index 000000000..a935ab21d --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Parts.cfg @@ -0,0 +1,22 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_Manufacturer = SCAN: Comitê Científico de Navegação Avançada + + #autoLOC_SCANsat_BTDT_Title = SCAN Já Foi Feito Isso® + #autoLOC_SCANsat_BTDT_Description = Este pequeno sensor pode detectar automaticamente anomalias na proximidade. Funcionando apenas em baixa altitude e a pequenas distancias, é muito útil para identificar anomalias que já foram visitadas. + + #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® + #autoLOC_SCANsat_MPTQ_Description = Originalmente destinado ao mercado consumidor, este pequeno dispositivo pode se comunicar com uma rede de satélites de mapeamento e exibir um mapa e sua posição nele. Como ninguém realmente construiu essa rede de satélites, esses dispositivos podem atualmente ser adquiridos de forma muito barata a granel. + + #autoLOC_SCANsat_Multi_Title = SCAN Sensor Multispectral + #autoLOC_SCANsat_Multi_Description = Este sensor multicanal detecta a radiação através de luzes infravermelhas, visíveis e RADAR. Isso lhe dá a capacidade de diferenciar entre diferentes tipos de terrenos e biomas. Além disso, detecta anomalias como estruturas no solo. + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Sensor Altimétrico + #autoLOC_SCANsat_Radar_Description = SCAN presenteia este RADAR de altimetria de alto desempenho. Este é o modelo família de sensores, e comumente vendido em conjunto com foguetes de brinquedo e modelos de aeronaves com controle remoto. Após um teste de grupo revelou que 95% do público-alvo estava tentando enfiá-lo no tubo de escape de seus motores de foguete, este novo e melhorado modelo é mais fácil de usar. + + #autoLOC_SCANsat_SAR_Title = SCAN SAR Sensor Altimétrico + #autoLOC_SCANsat_SAR_Description = Este RADAR de Abertura Sintético usa um sensor que simula em seu percurso de vôo uma antena mais longa. Isso torna possível detectar a elevação do terreno com uma resolução maior. A desvantagem é que seu campo de visão é comparativamente pequeno e funciona melhor em altitudes mais elevadas. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/pt-br/Science.cfg b/SCANassets/Resources/Localization/pt-br/Science.cfg new file mode 100644 index 000000000..6d41d7517 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_Science_Lo_Title = Varredura de Altimetria de Baixa Resolução + #autoLOC_SCANsat_Science_Lo_Default1 = Dados de altimetria de baixa resolução foram analisados. + #autoLOC_SCANsat_Science_Lo_Defualt2 = "O sensor de altimetria RADAR está relatando, eu não sei como, mas temos um sinal forte e está recebendo dados, o que garante uma rodada de Salgadinhos!" + #autoLOC_SCANsat_Science_Lo_Sun = Você se pergunta se o sensor está funcionando mal. + #autoLOC_SCANsat_Science_Lo_Moho = Bem, pelo menos, esses dados de baixa resolução tornam Moho ótimo. Há lagos gigantes de lava, mas ótimos sem dúvida. + #autoLOC_SCANsat_Science_Lo_Eve = Contemple as estimativas de altitude difusas enviadas pelo escaner, você adoraria enviar o escaner de alta resolução. Ah, bem, essa é uma ótima razão para lançar mais foguetes! (Como se precisássemos de algum motivo) + #autoLOC_SCANsat_Science_Lo_Gilly = Sua varredura de baixa resolução confirma o que você já sabia: Gilly é apenas uma rocha grumosa flutuando no espaço. Pelo menos você não precisa esticar seus olhos para ver o relatório. + #autoLOC_SCANsat_Science_Lo_Kerbin = Mesmo esses dados de baixa resolução na superfície do planeta são surpreendentemente úteis. Você não pode esperar para implantar esta tecnologia para Mun ou além. + #autoLOC_SCANsat_Science_Lo_Mun = Os dados são extensos, atravessando os traços do terreno abaixo. Uma varredura de alta resolução ajudaria mais, mas você provavelmente pode usar esses dados para encontrar um ponto de pouso adequado. + #autoLOC_SCANsat_Science_Lo_Minmus = Você relutantemente reconhece que os meninos da Sociedade Astronômica Kerbal tiveram uma reputação: Minmus é realmente uma lua. Você não acreditaria se não visse o escaner de altimetria com seus próprios olhos. + #autoLOC_SCANsat_Science_Lo_Duna = Estes dados de baixa resolução são um pouco borrados e distorcidos, mas ainda serão inestimáveis ​​ao encontrar um ponto de pouso adequado em Dune. De repente, uma missão de longo prazo para Dune se torna uma perspectiva real. + #autoLOC_SCANsat_Science_Lo_Ike = Ao revisar os dados, você se surpreende com as semelhanças entre Ike e Mun. Você se pergunta sobre a comparação entre as geologias de suas superfícies. + #autoLOC_SCANsat_Science_Lo_Dres = Mesmo com este escaner de baixa resolução, é bastante evidente que Dres tem algumas montanhas proeminentes. Você não pode aguardar os resultados do escaner de recursos, porque você tem certeza de que "há ouro nessas montanhas!" + #autoLOC_SCANsat_Science_Lo_Jool = Altimetria, o que é altimetria? É um gigante gasoso pelo amor de Kerbal. Apenas escolha um número aleatório e é isso mesmo. + #autoLOC_SCANsat_Science_Lo_Laythe = O sensor parece incapaz de penetrar na água. + #autoLOC_SCANsat_Science_Lo_Vall = Bem, aqui está: "Os dados Vall-liosos que todos estavam esperando". Pelo menos, ALGUÉM poderia achar que foi engraçado." + #autoLOC_SCANsat_Science_Lo_Tylo = Você ainda não tem certeza que a vista da superfície é sobrecarregada, como é Laythe, Vall e Jool, mas esses dados podem ajudá-lo a encontrar um bom ponto de pouso, e então você pode ir vê-lo pessoalmente. + #autoLOC_SCANsat_Science_Lo_Bop = Bem, os dados de altimetria de baixa resolução estão aqui, e você decide empacotá-lo e enviá-lo de volta ao KSC. Você só espera ter fluido suficiente nas baterias para enviar tudo e manter os sistemas básicos em execução ao mesmo tempo. + #autoLOC_SCANsat_Science_Lo_Pol = A varredura de baixa resolução confirma que Pol parece ser um grão de pólen gigante. Até que você utilize um escaner de alta resolução e avançe no campo dos microscópios eletrônicos, ficará com a dúvida de que tão forte é essa semelhança. + #autoLOC_SCANsat_Science_Lo_Eeloo = Os cientistas de Kerbin estão aguardando esses dados há muito tempo. Não há dúvida de que haverá uma celebração e muitos lanches para todos quando os dados chegarem. + + #autoLOC_SCANsat_Science_Hi_Title = Varredura de Altimetria de Alta Resolução + #autoLOC_SCANsat_Science_Hi_Default1 = Dados de altimetria de alta resolução analisados. + #autoLOC_SCANsat_Science_Hi_Default2 = "A varredura de altimetria de alta resolução é melhor que a de baixa resolução. SCAN já comprovou suas habilidades de digitalização". + #autoLOC_SCANsat_Science_Hi_Sun = Você percebe que poderia ter economizado algum dinheiro se tivesse confiado no sensor de baixa resolução em primeiro lugar. + #autoLOC_SCANsat_Science_Hi_Moho = Finalmente, a grandeza retornou a Moho! Pode não ser gigantes rios de lava fluindo, mas esses dados são espetaculares! + #autoLOC_SCANsat_Science_Hi_Eve = O sensor de alta resolução corta bem a atmosfera púrpura nebulosa e você é capaz de distinguir detalhes minuciosos na superfície. Os cientistas do KSC estarão aliviados. + #autoLOC_SCANsat_Science_Hi_Gilly = Mesmo em resolução super-alta, Gilly parece estar com baixa resolução. Essa é uma superfície seriamente grosseira. + #autoLOC_SCANsat_Science_Hi_Kerbin = Você está hipnotizado por todas as cores nos dados que a nova tecnologia de alta resolução fornece. De repente, o Controle da Missão o desperta do seu estupor, e você rapidamente limpa a baba do canto da boca. + #autoLOC_SCANsat_Science_Hi_Mun = "Hah! Não há mais lua cinza chata. Basta olhar para todas as cores nessa digitalização! Agora, podemos realmente identificar o primeiro campo de pouso". + #autoLOC_SCANsat_Science_Hi_Minmus = Uau, não só Minmus é real, tem uma topografia incrível! Você não pode esperar para pousar em uma dessas áreas planas. + #autoLOC_SCANsat_Science_Hi_Duna = Este dado de alta resolução é incrível. Você começa a analisar as colinas e os vales, buscando o ponto de pouso perfeito. + #autoLOC_SCANsat_Science_Hi_Ike = Os dados confirmam a presença de grandes colinas e crateras inclinadas. Esperemos que os analistas do KSC possam usar isso para encontrar um local de desembarque adequado. + #autoLOC_SCANsat_Science_Hi_Dres = Aqueles... são algumas montanhas sérias. Você está contente por analisar esses dados, ao invés de tentar escalar algumas dessas colinas. + #autoLOC_SCANsat_Science_Hi_Jool = Mesmo em alta resolução, não parece haver uma superfície em Jool. Tanto para essa teoria. Pelo menos ainda temos o dinheiro da concessão! + #autoLOC_SCANsat_Science_Hi_Laythe = O mapa mostra a maioria das alturas negativas. Você considera drenar Laythe apenas para que possa escalar suas montanhas. + #autoLOC_SCANsat_Science_Hi_Vall = Os dados do escaner de alta resolução confirmam que a superfície de Vall é, de fato, "enrrugado". Guess Gene deve-lhe cinquenta fundos. + #autoLOC_SCANsat_Science_Hi_Tylo = Tylo pode ter sido a primeira das luas de Jool a ser descoberta, mas esta data faz com que sinta que está a descobrir a lua pela primeira vez. + #autoLOC_SCANsat_Science_Hi_Bop = Uau, veja todas essas cores. Você não tem idéia do que significa esse dado, mas você tem certeza de que esta alta resolução impressionará todos no KSC. + #autoLOC_SCANsat_Science_Hi_Pol = Mesmo com esta quantidade de dados de alta qualidade, ainda é difícil encontrar um local de pouso adequado. Como foi que essa lua foi feita, afinal? + #autoLOC_SCANsat_Science_Hi_Eeloo = As fissuras e gargantas na superfície se destacam em detalhes impressionantes enquanto você examina os dados do sensor de altimetria SAR. Basta olhar para todos os potenciais locais de pouso. + + #autoLOC_SCANsat_Science_Multi_Title = Análise de Multispectrum + #autoLOC_SCANsat_Science_Multi_Default1 = Os dados do sensor Multispectrum foram analisados. + #autoLOC_SCANsat_Science_Multi_Default2 = "Uau, por que estamos chegando até a obtenção desses dados? "Esses engenheiros do SCAN realmente sabem o que estão fazendo, ou é isso, ou não têm a menor idéia do que estão fazendo. Snacks!" + #autoLOC_SCANsat_Science_Multi_Sun1 = Você está surpreso com a falta de dados biométricos. + #autoLOC_SCANsat_Science_Multi_Sun2 = Você se pergunta por que os pólos não estão visíveis no mapa. + #autoLOC_SCANsat_Science_Multi_Moho = Ao analisar os dados, você se pergunta se encontrará o insólito bioma "Lago de Lava" que muitos cientistas especularam. + #autoLOC_SCANsat_Science_Multi_Eve = As intrincadas linhas curvadas do mapa de bioma de Eve lembram as lâmpadas de lava e golas-v. Aqueles foram os dias! A próxima nave espacial para Eve terá uma bola de disco compulsiva! + #autoLOC_SCANsat_Science_Multi_Gilly = Mesmo com os olhos cruzados, os astrônomos não conseguiram ver os biomas. Ha! Astrônomos tolos! 1 ponto para a ciência e 0 pontos para, isto... ciência. + #autoLOC_SCANsat_Science_Multi_Kerbin = Este dado de bioma é incrível. Apenas espere até que seja resistente às migalhas, como você lembra de ter comido um saco de lanches no dia em que instalaram os sensores. + #autoLOC_SCANsat_Science_Multi_Mun = Haha, eu nunca soube que a lua Mun tinha biomas. Pergunto-me onde estará o queijo. E se há outros Salgadinhos lá também. + #autoLOC_SCANsat_Science_Multi_Minmus = Você percebe que o nome "Grandes Planícies" está correto enquanto você revisa os dados. Quem pensa que esses nomes fazem um Kerbal inteligente, ao contrário dos engenheiros que temos por aqui. + #autoLOC_SCANsat_Science_Multi_Duna = Pebble todos os dados do bioma apenas para encontrar o ponto corrector para coletar todos os dados científicos doces e doces. Mmmmm, ciência... e lanches. + #autoLOC_SCANsat_Science_Multi_Ike = Ao analisar dados que retornaram de Ike, você está surpreso com a diversidade de biomas. Afinal, é apenas uma lua. Você não pode esperar para colocar as mãos em um dos dados científicos presos lá. + #autoLOC_SCANsat_Science_Multi_Dres = Polos, pronto. Terras Altas, pronto. Terras Medianas, pronto. Terras Baixas, pronto. Cordilheiras, pronto. Ejeção de Impacto, pronto. Crateras de Impacto, pronto. Cânions, pronto. Acho que é tudo. Tempo para desligar o escaner e ter alguns lanches! + #autoLOC_SCANsat_Science_Multi_Jool1 = Você está surpreso com a falta de dados biométricos. + #autoLOC_SCANsat_Science_Multi_Jool2 = Você se pergunta por que os pólos não estão visíveis no mapa. + #autoLOC_SCANsat_Science_Multi_Laythe = Você quer fazer uma festa toda vez que o sensor detecta um bioma terrestre. + #autoLOC_SCANsat_Science_Multi_Vall = Dados muito simples: Polos, Terras Altas, Terras Médias e Terras Baixas. Ok, agora vamos pegar alguns lanches. + #autoLOC_SCANsat_Science_Multi_Tylo = Você está surpreso com a diversidade de biomas no relatório. Não só é ótimo procurar Tylo, também é ótimo olhar para baixo. + #autoLOC_SCANsat_Science_Multi_Bop = Esta análise detalhada dos biomas de Bop aumentará nosso entendimento além do que esperado. Ah, foi um ótimo dia. Salgadinhos para todos! + #autoLOC_SCANsat_Science_Multi_Pol = Enquanto você está recebendo dados de pólen de Pol, você começa a contemplar a possibilidade de que os grãos de pólen também tenham biomas. Mas você imediatamente destruirá essa idéia, sabendo o que os ativistas fariam se descobrissem sobre isso. + #autoLOC_SCANsat_Science_Multi_Eeloo = É incrível ter dados do bioma de um planeta tão longe de Kerbin. Você olha surpreendido o relatório à medida que os dados chegam. + + #autoLOC_SCANsat_Science_Resource_Title = Varredura de Recursos + #autoLOC_SCANsat_Science_Resource_Default1 = Analisados dados de baixa resolução de recursos. + #autoLOC_SCANsat_Science_Resource_Default2 = "Agora estamos recebendo dados de recursos - esta informação parece muito melhor do que o que estávamos recebendo do outro grupo ..." + #autoLOC_SCANsat_Science_Resource_Sun = Talvez o sol não seja o melhor lugar para procurar recursos na superfície. + #autoLOC_SCANsat_Science_Resource_Moho = Finalmente, temos algumas informações sobre os recursos de superfície do Moho, agora precisamos saber por que alguém queria pousar lá. + #autoLOC_SCANsat_Science_Resource_Eve = Estamos recebendo muitos dados excelentes sobre os recursos de superfície de Eve, isso será ótimo para quando encontrarmos uma maneira de deixar o planeta. + #autoLOC_SCANsat_Science_Resource_Gilly = O escaner de recursos inicial de Gilly parece ser bom; É quase como os asteróides minerais. + #autoLOC_SCANsat_Science_Resource_Kerbin = Finalmente, temos dados sobre os recursos do Kerbin, porque, como todos sabem, se você quer informações básicas sobre seu próprio planeta, nada como transmitir de um caro e complicado satélite em órbita. + #autoLOC_SCANsat_Science_Resource_Mun = Estes dados de recursos nos dão nosso primeiro vislumbre de quanto Mun é apropriado para minerar. + #autoLOC_SCANsat_Science_Resource_Minmus = Pelo menos temos alguns dados de recursos no Minmus, a primeira escolha de Kerbonauta para começar a mineração. + #autoLOC_SCANsat_Science_Resource_Duna = Este dado de recursos nos aproxima um pouco da revitalização de todas as nossas linhas favoritas no último filme Kerbalexitosa do ano. + #autoLOC_SCANsat_Science_Resource_Ike = Talvez Ike não seja o corpo celestial mais interessante do sistema solar, mas isso não torna esses dados de recursos menos úteis. + #autoLOC_SCANsat_Science_Resource_Dres = Podemos pesquisar melhor os recursos nos asteróides nas proximidades; Quem incomodaria mesmo com os Drs. + #autoLOC_SCANsat_Science_Resource_Jool = Hmm, talvez um gigante gasoso não seja o melhor lugar para procurar recursos de superfície ... + #autoLOC_SCANsat_Science_Resource_Laythe = Bem, há muitos bons dados, mas muito pouca área de terra preciosa onde podemos pousar e aproveitar os recursos. + #autoLOC_SCANsat_Science_Resource_Vall = O escaner de recursos Vall Frost fornece dados interessantes. + #autoLOC_SCANsat_Science_Resource_Tylo = Tomaremos qualquer informação de recurso do terrível Tylo. + #autoLOC_SCANsat_Science_Resource_Bop = Talvez Bop não seja a primeira escolha de ninguém ao decidir onde ir a procura de recursos, mas esses dados podem ser úteis algum dia. + #autoLOC_SCANsat_Science_Resource_Pol = Além dos grãos de pólen e das coisas muito grumosas, parece que a Pol possui alguns depósitos de recursos interessantes. + #autoLOC_SCANsat_Science_Resource_Eeloo = Agora que fizemos todo o caminho até Eeloo, poderiamos minerar a esvaziar o lugar e então prosseguir para o que está além. + } +} diff --git a/SCANassets/Resources/Localization/pt-br/Tooltips.cfg b/SCANassets/Resources/Localization/pt-br/Tooltips.cfg new file mode 100644 index 000000000..54929c9a8 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_mainMapToggle = Mapa Principal + #autoLOC_SCANsat_bigMapToggle = Mapa Grande + #autoLOC_SCANsat_zoomMapToggle = Mapa Detalhado + #autoLOC_SCANsat_overlayToggle = Superposição Planetária + #autoLOC_SCANsat_instrumentsToggle = Ferramentas de Leitura + #autoLOC_SCANsat_settingsToggle = Configurações + #autoLOC_SCANsat_mainMapColor = Cor do Mapa + #autoLOC_SCANsat_mainMapTerminator = Mapa de Transição Dia/Noite + #autoLOC_SCANsat_mainMapType = Alternar Terreno/Bioma + #autoLOC_SCANsat_mainMapMimimize = Mostrar/Ocultar Informações da Nave + #autoLOC_SCANsat_mainMapStatus = Indicadores de Estatus dos Escâneres + #autoLOC_SCANsat_mainMapPercentage = Porcentagem Escaneada + #autoLOC_SCANsat_bigMapRefresh = Atualizar Mapa + #autoLOC_SCANsat_bigMapColor = Cores do Mapa + #autoLOC_SCANsat_bigMapTerminator = Mapa de Transição Dia/Noite + #autoLOC_SCANsat_bigMapGrid = Sobreposição da Grade + #autoLOC_SCANsat_bigMapOrbit = Sobreposição de Órbita + #autoLOC_SCANsat_bigMapWaypoints = Ponto Fixos + #autoLOC_SCANsat_bigMapAnomaly = Anomalias + #autoLOC_SCANsat_bigMapFlags = Bandeiras + #autoLOC_SCANsat_bigMapLegend = Legenda do Mapa + #autoLOC_SCANsat_bigMapResource = Sobreposição de Recursos + #autoLOC_SCANsat_bigMapExport = Exportar Mapa + #autoLOC_SCANsat_overlayRefresh = Atualizar Mapa + #autoLOC_SCANsat_insNextResource = Próximo + #autoLOC_SCANsat_insPreviousResource = Anterior + #autoLOC_SCANsat_zoomVesselSync = Sincronizar Nave Atual + #autoLOC_SCANsat_zoomVesselLock = Travar na Posição da Nave + #autoLOC_SCANsat_zoomMapRefresh = Atualizar Mapa + #autoLOC_SCANsat_zoomMapWindowState = Alternar Tamanho da Janela + #autoLOC_SCANsat_zoomMapIn = Ampliar Zoom + #autoLOC_SCANsat_zoomMapOut = Reduzir Zoom + #autoLOC_SCANsat_zoomMapLeft = Mover para a Esquerda + #autoLOC_SCANsat_zoomMapRight = Mover para a Direita + #autoLOC_SCANsat_zoomMapUp = Mover para Cima + #autoLOC_SCANsat_zoomMapDown = Mover para Baixo + #autoLOC_SCANsat_zoomMapIcons = Ícones do Mapa + #autoLOC_SCANsat_waypointToggle = Seletor de Marcadores + #autoLOC_SCANsat_waypointSet = Criar Marcador + #autoLOC_SCANsat_waypointCancel = Cancelar Marcador + #autoLOC_SCANsat_waypointMechJeb = Marcar Alvo de Pouso no MechJeb + #autoLOC_SCANsat_waypointNameRefresh = Reiniciar Marcador + } +} diff --git a/SCANassets/Resources/Localization/pt-br/Warnings.cfg b/SCANassets/Resources/Localization/pt-br/Warnings.cfg new file mode 100644 index 000000000..9bba60956 --- /dev/null +++ b/SCANassets/Resources/Localization/pt-br/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + pt-br + { + #autoLOC_SCANsat_Warning_DataResetCurrent = Eliminar <<1>> para o mapa <<2>>? + #autoLOC_SCANsat_Warning_DataResetAll = Eliminar <<1>> para todos os corpos celestes? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Apagar dados do recurso da base definida para <<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetAll = Apagar os estoques de recursos da base de dados para todos os corpos celestes? + #autoLOC_SCANsat_Warning_MapFillCurrent = Preencha <<1>> para o mapa <<2>>? + #autoLOC_SCANsat_Warning_MapFillAll = Preencha <<1>> para todos os corpos celestes? + #autoLOC_SCANsat_Warning_ModuleManagerResource = Aviso\nModule Manager é necessário para todas as funções de digitalização de recurso SCANsat. + #autoLOC_SCANsat_Warning_SaveToConfig = Substituir o arquivo de configuração existente no disco? + } +} diff --git a/SCANassets/Resources/Localization/ru/Contracts.cfg b/SCANassets/Resources/Localization/ru/Contracts.cfg new file mode 100644 index 000000000..39cea4d30 --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + ru + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_exceptional0004 = Perform several high resolution scans of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = We now have a detailed map and survey for the surface of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Must have less than a 90% high resolution altimetry scan of the target body. + #autoLOC_SCANsat_exceptional0007 = Must have less than a 90% ore scan of the target body. + #autoLOC_SCANsat_exceptional0008 = Must have orbited the target body, or the target body must be next on the list. + + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SACNsat_trivial_0006 = Target is part of home system. + #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Flags.cfg b/SCANassets/Resources/Localization/ru/Flags.cfg new file mode 100644 index 000000000..27a3711a8 --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Helptips.cfg b/SCANassets/Resources/Localization/ru/Helptips.cfg new file mode 100644 index 000000000..e74abe7e1 --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Helptips.cfg @@ -0,0 +1,62 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_settingsHelpScanningToggle = Включить/выключить сканирование. + #autoLOC_SCANsat_settingsHelpBackground = Включить/выключить фоновое\nсканирование выбранных тел. + #autoLOC_SCANsat_settingsHelpTimeWarp = Изменить частоту сканирования при ускорении\nвремени. Большие значения создают меньше пропусков\nна карте, однако могут повлиять на быстродействие. + #autoLOC_SCANsat_settingsHelpGroundTracks = Отображать индикатор процесса\nсканирования в режиме карты. + #autoLOC_SCANsat_settingsHelpGroundTracksActive = Показывать поверхностную траекторию\nтолько для активного корабля. + #autoLOC_SCANsat_settingsHelpStockUIStyle = Переключить вид интерфейса между обычным KSP и стилем Unity. + #autoLOC_SCANsat_settingsHelpOverlayTooltips = Отображать подсказки для текущего положения мыши при включенной карте планетарного оверлея.\nЭти подсказки содержат координаты курсора, высоту и наклон поверхности, название биома и количество ресурсов в зависимости от покрытия. + #autoLOC_SCANsat_settingsHelpWindowTooltips = Отображать подсказки на некоторых кнопках.\nИспользуется в основном для определения назначения кнопок. + #autoLOC_SCANsat_settingsHelpLegendTooltips = Отображать подсказки для легенды\nкарты. Отключаются вместе с легендой карты биомов. + #autoLOC_SCANsat_settingsHelpStockToolbar = Использовать панель\nинструментов игры. Также может быть использована панель Blizzy78. + #autoLOC_SCANsat_settingsHelpToolbarMenu = Использовать раскрывающееся меню для стоковой панели инструментов, показывающее все доступные окна. + #autoLOC_SCANsat_settingsHelpMechJeb = Использовать режим выбора вэйпоинтов Детальной и Большой\nкарт SCANsat для выбора зон посадки MechJeb. + #autoLOC_SCANsat_settingsHelpMechJebLoad = Загрузить зону посадки, сохранённую\nиз MechJeb. Работает только для полётной сцены и корабля с MechJeb. + #autoLOC_SCANsat_settingsHelpMapGenSpeed = Изменить все скорости генерации карт.\nМеньшие значения экономят ресурсы процессора\nи помогают улучшить производительность. + #autoLOC_SCANsat_settingsHelpResetWindows = Восстановить позиции и масштаб всех\nокон. Используйте в случае, если окно было скрыто за\nпределами экрана или какие-то окна не видны. + #autoLOC_SCANsat_settingsHelpResetPlanetData = Восстановить по-умолчанию все значения для текущего тела.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. + #autoLOC_SCANsat_settingsHelpResetAllData = Восстановить по-умолчанию значения для всех тел.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = Информация обо всех активных сенсорах SCANsat.\n"Vessels" - количество кораблей с активными сенсорами.\n"Sensors" - общее количество сенсоров;\nдля инструментов с несколькими сенсорами учитывается каждый отдельный сенсор.\n"Passes" - число обновлений сенсора, производимое за секунду.\nНа это значение влияет настройка "Разрешение ускорения времени". + #autoLOC_SCANsat_settingsHelpGreyScale = Использовать спектр оттенков серого для чёрно-белых карт SCANsat.\nПиксели на карте высот будут интерполированы между чёрным и белым;\nПределы определяются минимальными и максимальными значениями высот для каждого тела. + #autoLOC_SCANsat_settingsHelpExportCSV = Экспортировать файл .csv вместе с текстурой карты при нажатии на кнопку "Export"\nБольшой карты. Файл будет содержать координаты и высоты для каждого\nпикселя. Пиксели обозначаются слева направо и сверху вниз. + #autoLOC_SCANsat_settingsHelpSetMapWidth = Введите точное значение для ширины текстуры Большой карты.\nЗначения ограничены от 550 до 8192 пикселей.\nНажмите кнопку "Set", чтобы применить. + #autoLOC_SCANsat_settingsHelpWindowScale = Изменить масштаб всех окон SCANsat. + #autoLOC_SCANsat_settingsHelpFillPlanet = Заполнить все данные SCANsat для текущего небесного тела. + #autoLOC_SCANsat_settingsHelpFillAll = Заполнить все данные SCANsat для всех небесных тел. + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = Обойти требования поверхностного сканирования биомов в игре.\nSCANsat будет использовать максимальную точность отображения\nдоступности ресурсов независимо от поверхностного сканирования. + #autoLOC_SCANsat_resourceSettingsHelpInstant = По-умолчанию орбитальная съёмка стокового сканера M700 будет заполнять все карты ресурсов SCANsat.\nПри отключении, любое сканирование ресурсов потребует использования методов SCANsat.\nОтключается автоматически при отключении сканирования ресурсов в игре. + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = Многие функции SCANsat требуют наличия узкополосного сканера ресурсов\nна борту активного корабля или на орбите тела для максимально точных данных доступности ресурсов.\nОтключите, чтобы обойти это ограничение. + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = Выключить все стоковые функции сканирования\nресурсов. Методы сканирования SCANsat потребуются для всех данных\nо ресурсах. Заменяет некоторые стоковые функции для ресурсов,\nвключая показания по нажатию правой кнопки мыши и платенарных оверлеев. + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = Восстановить стоковое покрытие сканирования ресурсов для текущего тела.\nДля применения всех изменений может потребоваться перезагрузка или смена сцены.\nПеред выполнением будет запрошено подтверждение.\nДействие необратимо. + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = Resets the stock resource scanning coverage for all celestial bodies.\nA reload or scene change may be required for all changes to take effect.\nA confirmation window will open before activating.\nCannot be reversed. + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = Изменить количество измерений доступности ресурсов, используемых при\nпостроении оверлея ресурсов Большой карты и планетарного.\nУменьшите значение, чтобы повысить точность карты.\nЧем меньше, тем медленнее генерация карты. + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = Изменить размер текстуры (ширина карты=высотаX2), использумой при\nпостроении оверлея Большой карты и планетарного.\nУвеличьте значение, чтобы повысить качество и точность карты.\nЧем больше, тем медленнее генерация карты. + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = Изменить размер текстуры (ширина карты=высотаX2), использумой при\nпостроении планетарного оверлея карты биомов.\nУвеличьте значение, чтобы повысить качество и точность карты.\nЧем больше, тем медленнее генерация карты. + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = Использовать серый фон для карт планетарного оверлея ресурсов.\nИспользуется, чтобы определить, какие участки неб. тела\nбыли просканированы, но не содержат ресурсов. + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = Пороговый уровень применения стокового сканирования ресурсов после сканирования небесного тела сенсорами SCANsat.\nПолезно, если контракты или стороние аддоны требуют осуществления стокового сканирования.\nУстановите значение от 0 до 100 и нажмите кнопку "Set".\nБудет немедленно применено для всех небесных тел;\nНебесные тела также будут обновлены при загрузке или смены сцены.\nДля применения всех изменений может протребоваться перезагрузка. + #autoLOC_SCANsat_colorTerrainHelpMin = Задать нижний порог высоты для цветой схемы уровней высот.\nВсё, что ниже этого значения, будет показано цветом самой нижней высоты. + #autoLOC_SCANsat_colorTerrainHelpMax = Задать верхний порог высоты для цветой схемы уровней высот.\nВсё, что выше этого значения, будет показано цветом максимальной высоты. + #autoLOC_SCANsat_colorTerrainHelpClampToggle = Используется для задания порога между значениями малой и большой\nвысоты. В частности, это помогает различить границу между водой\nи сушей на планетах с океанами. + #autoLOC_SCANsat_colorTerrainHelpClamp = Задать предельные высоты.\nВсё, что ниже, будет представлено двумя первыми цветами выбранной цветовой схемы.\nВсё, что выше, будет представлено остальными цветами. + #autoLOC_SCANsat_colorTerrainHelpReverse = Изменить порядок выбранной цветовой\nсхемы на обратный. + #autoLOC_SCANsat_colorTerrainHelpDiscrete = Отобразить карту, используя вместо плавной интерполяции только цвета,\nзаданные заданные цветовой схемой. + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = Изменить количество цветов, доступных\nдля выбранной цветовой схемы. + #autoLOC_SCANsat_colorBiomeHelpStock = Использовать стоковую цветовую схему\nдля карт биомов SCANsat. + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = Отображать белым границу между биомами.\nНе влияет на карту биомов планетарного оверлея. + #autoLOC_SCANsat_colorBiomeHelpTransparency = Изменить прозрачность карт биомов.\nПревышение поверхности показывается под картами биомов.\nЗадайте 0%, чтобы скрыть ландшафт. + #autoLOC_SCANsat_colorPickerHelpLow = Верхний образец показывает выбранный\nцвет для нижней границы данного цветового спектра.\nНижний образец показывает текущий цвет. + #autoLOC_SCANsat_colorPickerHelpHigh = Верхний образец показывает выбранный\nцвет для верхней границы данного цветового спектра.\nНижний образец показывает текущий цвет. + #autoLOC_SCANsat_colorResourceHelpMin = Нижний порог концентрации ресурсов выбранного небесного тела.\nНа этом уровне залежи ресурсов будут показаны с использованием\nнижней границы текущего цветового спектра оверлея ресурсов.\nЗалежи ресурсов ниже этого значения показаны не будут. + #autoLOC_SCANsat_colorResourceHelpMax = Верхний порог концентрации ресурсов выбранного небесного тела.\nВыше этого значения залежи ресурсов будут показаны с использованием\nнверхней границы текущего цветового спектра оверлея ресурсов. + #autoLOC_SCANsat_colorResourceHelpTransparency = Задаёт прозрачность оверлеев ресурсов.\nУвеличьте, чтобы повысить видимость высоты, наклона поверхности и карты биомов.\nТакже влияет на прозрачность отображения залежей ресурсов на карте планетарного оверлея ресурсов. + #autoLOC_SCANsat_colorResourceHelpApply = Применить текущие значения только\nдля выбранных ресурсов и небесных тел. + #autoLOC_SCANsat_colorResourceHelpApplyAll = Применить текущие значения для\nвыбранных ресурсов всех небесных тел. + #autoLOC_SCANsat_colorResourceHelpDefault = Восстановить значения по-умолчанию\nтолько для выбранных ресурсов и небесных тел. + #autoLOC_SCANsat_colorResourceHelpDefaultAll = Восстановить значения по-умолчанию\nдля выбранных ресурсов всех небесных тел. + #autoLOC_SCANsat_colorHelpSaveToConfig = Сохранить все значения цветов\nв файл настроек в папке SCANsat/Resources.\nЭти значения будут использованы по-умолчанию при создании новой игры\nи при нажатии кнопок "Восстановление по-умолчанию".\nДля применения в текущей игре сохранение в файл не требуется. + #autoLOC_SCANsat_colorSlopeHelpCutoff = Изменить пороговый уровень между\nдвумя выбранными парами цветов наклона поверхности. + } +} diff --git a/SCANassets/Resources/Localization/ru/OtherText.cfg b/SCANassets/Resources/Localization/ru/OtherText.cfg new file mode 100644 index 000000000..bdabac89b --- /dev/null +++ b/SCANassets/Resources/Localization/ru/OtherText.cfg @@ -0,0 +1,35 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_Analyze = Анализировать данные + #autoLOC_SCANsat_StartScan = Запустить сканирование + #autoLOC_SCANsat_StopScan = Остановить сканирование + #autoLOC_SCANsat_ToggleScan = Переключить сканирование + #autoLOC_SCANsat_Extend = Расширить + #autoLOC_SCANsat_Retract = Свернуть + #autoLOC_SCANsat_Unknown = Неизвестно + #autoLOC_SCANsat_All_Disabled = Все сканирование отключено + #autoLOC_SCANsat_Disabled = Сканирование отключено + #autoLOC_SCANsat_TooLow = Слишком низко + #autoLOC_SCANsat_SubOptimal = Полуоптимально + #autoLOC_SCANsat_Ideal = Идеально + #autoLOC_SCANsat_TooHigh = Слишком высоко + #autoLOC_SCANsat_NoData = Нет данных + #autoLOC_SCANsat_Abundance = Богатство + #autoLOC_SCANsat_Surface = Поверхность + #autoLOC_SCANsat_AltitudeMin = Высота (мин): <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = Высота (лучшая): <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = Высота (макс): <<1>>km\n + #autoLOC_SCANsat_FOV = Угол обзора: <<1>> + #autoLOC_SCANsat_MapProjection = Проекция + #autoLOC_SCANsat_MapType = Тип карты + #autoLOC_SCANsat_MapResource = Ресурс(ы) + #autoLOC_SCANsat_MapBody = Небесное тело + #autoLOC_SCANsat_GeneralSettings = Общие настройки + #autoLOC_SCANsat_BackgroundSettings = Настройки фона + #autoLOC_SCANsat_ResourceSettings = Настройки ресурсов + #autoLOC_SCANsat_DataManagement = Управление данными + #autoLOC_SCANsat_ColorManagement = Управление цветом + } +} diff --git a/SCANassets/Resources/Localization/ru/Parts.cfg b/SCANassets/Resources/Localization/ru/Parts.cfg new file mode 100644 index 000000000..59c70cac2 --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Parts.cfg @@ -0,0 +1,22 @@ +Localization +{ + ru + { + #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation + + #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Description = Этот небольшой датчик может автоматически идентифицировать близлежащие аномалии. Поскольку он работает только на очень коротких расстояниях и на очень малых высотах, в первую очередь рекомендуется распознать уже выявленные аномалии. + + #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® + #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. + + #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor + #autoLOC_SCANsat_Multi_Description = Этот многоканальный датчик детектирует излучение на инфракрасном, световом и радио диапазонах. Это позволяет различать при сканировании типы ландшафтов и биомы небесного тела, а так же обнаруживать аномалии, такие как структуры на поверхности. + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Altimetry Sensor + #autoLOC_SCANsat_Radar_Description = SCAN представляет высокопроизводительный РАДАРный сенсор высоты! Это модель начального уровня в данном семействе датчиков, и она обычно продается в комплекте с игрушечными ракетами и радиоуправляемыми самолетиками. После того, как тестирование на потребителях показало, что 95% целевой аудитории пытались примотать датчик скотчем к выхлопной трубе своих ракетных двигателей, эта новая и улучшенная модель стала еще проще в использовании! + + #autoLOC_SCANsat_SAR_Title = SCAN SCAN SAR Altimetry Sensor + #autoLOC_SCANsat_SAR_Description = Этот РАДАР с синтезированной апертурой требует своеобразную траекторию полета для имитации гораздо большей антенны. Это позволяет распознавать параметры местности при гораздо большем разрешении. Узким местом является то, что поле зрения датчика сравнительно невелико, и он лучше работает на больших высотах. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Science.cfg b/SCANassets/Resources/Localization/ru/Science.cfg new file mode 100644 index 000000000..ad1e4c76e --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_Science_Lo_Title = Сканирование высоты низкого разрешения + #autoLOC_SCANsat_Science_Lo_Default1 = Обработынные карты высот низкого разрешения + #autoLOC_SCANsat_Science_Lo_Defualt2 = "РАДАРный сканер высоты докладывает. Я не знаю, как, но мы имеем сильный сигнал и получаем данные. Это требует праздничных закусок!" + #autoLOC_SCANsat_Science_Lo_Sun = Вы задаетесь вопросом, работает ли датчик? + #autoLOC_SCANsat_Science_Lo_Moho = Ну, по крайней мере, данные с низким разрешением заставляют Мохо выглядеть классно. Это не совсем гигантские озера лавы, но все выглядит круто! + #autoLOC_SCANsat_Science_Lo_Eve = Вы рассматриваете зернистые, грубые расчеты высоты, возвращаемые сканером, и хотите отправить сканер с высоким разрешением. Ну, это отличная причина для запуска большего количества ракет! (Как будто нам действительно нужна причина) + #autoLOC_SCANsat_Science_Lo_Gilly = Сканирование с низким разрешением подтверждает то, что вы уже знали: Джилли - это просто кусок камня, плавающий в космосе. По крайней мере, вам не нужно напрягать глаза, глядя на отчет. + #autoLOC_SCANsat_Science_Lo_Kerbin = Даже данные с низким разрешением поверхности планет удивительно полезны. Вы ждете не дождетесь, чтобы применить эту технологию на Мун или за ее пределами. + #autoLOC_SCANsat_Science_Lo_Mun = Данные показывают широкие, расчерченные штрихи ландшафта ниже. Сканирование с высоким разрешением было бы более полезным, но даже сейчас вы, вероятно, найдете подходящую площадку для посадки, используя эти данные. + #autoLOC_SCANsat_Science_Lo_Minmus = Вы неохотно признаете, что ребята в Кербальском астрономическом обществе были правы: Минмус действительно луна. Вы бы не поверили, если бы не видели сканирование альтиметрии собственными глазами. + #autoLOC_SCANsat_Science_Lo_Duna = Данные с низким разрешением немного зернистые и искаженные, но все равно будет иметь неоценимое значение для поиска подходящего посадочного места на Дюне. Внезапно долгосрочная миссия Дюны стала настоящей перспективой. + #autoLOC_SCANsat_Science_Lo_Ike = По мере того, как вы порываете данные, вы поражаетесь тому, как подобное Ик проявляется в Муне. Вы интересуетесь их сравнительной поверхностной геологией. + #autoLOC_SCANsat_Science_Lo_Dres = Даже с помощью сканера с низким разрешением вполне очевидно, что у Дреса есть некоторые выдающиеся горы. Вы ждете не дождетесь результатов сканирования ресурсов, потому что уверены: «в них есть золото на холмах». + #autoLOC_SCANsat_Science_Lo_Jool = Альтиметрия, какая альтиметрия? Это газовый гигант Кербола. Давайте просто выберите номер наугад и назовите это хорошо. + #autoLOC_SCANsat_Science_Lo_Laythe = Датчик кажется неспособным проникнуть в воду. + #autoLOC_SCANsat_Science_Lo_Vall = Ну, вот он: «Данные, которые вы ожидали, Валл! Ха-ха-ха-ха! Ха-ха-ха. Ха-ха. Что, КТО-ТО нужно найти это смешно». + #autoLOC_SCANsat_Science_Lo_Tylo = Вы по-прежнему не уверены в том, что будет выглядеть вид сверху с помощью тотализатора Лейт, шара Дреса и Джула, но эти данные обязательно помогут вам найти место для посадки, чтобы вы могли это выяснить. + #autoLOC_SCANsat_Science_Lo_Bop = Ну, данные с низкой разрешающей способностью имеются, и вы решили их упаковать и отправить в ККЦ. Вы просто надеетесь, что в батареях осталось достаточное количество энергии, чтобы получить все это, и одновременно поддерживать базовые системы. + #autoLOC_SCANsat_Science_Lo_Pol = Сканирование с низким разрешением подтверждает, что Пол действительно выглядит как гигантское зерно пыльцы. Пока вы не перейдете на сканирование с высоким разрешением и не продвинетесь в область электронной микроскопии, вам все равно останется вопрос о том, насколько сильно это сходство действительно. + #autoLOC_SCANsat_Science_Lo_Eeloo = Ученые, вернувшиеся на Кербин, долгое время ждали этих данных. Без сомнения, там будут празднования и закуски для всех, когда данные туда попадут. + + #autoLOC_SCANsat_Science_Hi_Title = Сканирование высоты Высокого разрешения + #autoLOC_SCANsat_Science_Hi_Default1 = Обработанная карта Высокого разрешения. + #autoLOC_SCANsat_Science_Hi_Default2 = «Высокое разрешение определенно лучше, чем низкое. СКАН еще раз доказал свои навыки сканирования». + #autoLOC_SCANsat_Science_Hi_Sun = Вы понимаете, что могли бы сэкономить деньги, если бы вы доверяли датчику низкого разрешения. + #autoLOC_SCANsat_Science_Hi_Moho = Наконец, удивительность вернулась в Мохо! Это могут быть не гигантские текучие реки лавы, но эти данные впечатляют! + #autoLOC_SCANsat_Science_Hi_Eve = Датчик высокого разрешения пробивается сквозь туманную фиолетовую атмосферу, и вы можете отличить мельчайшие детали на поверхности. Ученые в ККЦ будут спокойны. + #autoLOC_SCANsat_Science_Hi_Gilly = Даже в сверхвысоком разрешении Джилли каким-то образом кажется в низком разрешении. Это одна серьезная кусковая поверхность. + #autoLOC_SCANsat_Science_Hi_Kerbin = Вы становитесь загипнотизированными всеми цветами в данных, которые предоставляет новая технология высокого разрешения. Внезапно Звонок на обед пробуждает вас от вашего оцепенения, и вы быстро вытираете слюну из угла рта. + #autoLOC_SCANsat_Science_Hi_Mun = «Нет, теперь это не скучная серая луна, просто посмотри на все цвета в этом сканировании! Теперь мы можем точно определить место посадки». + #autoLOC_SCANsat_Science_Hi_Minmus = Вау, это не только Минмуские площадки, но и потрясающая топография! Вы не можете дождаться приземления в одной из этих плоских областей. + #autoLOC_SCANsat_Science_Hi_Duna = Это данные с высоким разрешением потрясающие. Вы начинаете анализировать холмы и долины, ища идеальное место для посадки. + #autoLOC_SCANsat_Science_Hi_Ike = Данные подтверждают наличие больших наклонных холмов и кратеров. Надеюсь, аналитики в ККЦ могут использовать это, чтобы найти подходящее место для посадки. + #autoLOC_SCANsat_Science_Hi_Dres = Это ... серьезные горы. Вы думаете как бы обработать эти данные вместо того, чтобы пытаться подняться на некоторые из этих пиков. + #autoLOC_SCANsat_Science_Hi_Jool = Даже в высоком разрешении, похоже, нет поверхности на Джул. Так много для этой теории. По крайней мере, у нас все еще есть деньги с гранта! + #autoLOC_SCANsat_Science_Hi_Laythe = На карте показаны преимущественно отрицательные высоты. Вы считаете, что вы сглаживаете Лайт, чтобы вы могли подняться на горы. + #autoLOC_SCANsat_Science_Hi_Vall = Данные из сканера с высоким разрешением подтверждают, что поверхность Волл, действительно, "измятая". Угадайте, Джин должен вам пятьдесят фондов. + #autoLOC_SCANsat_Science_Hi_Tylo = Тило, возможно, был первым из лун Джула, который должен быть обнаружен, но эти данные заставляют чувствовать, что вы впервые открываете луну. + #autoLOC_SCANsat_Science_Hi_Bop = Ничего себе, посмотри на все эти цвета. Вы не представляете, что означают все эти данные, но вы уверены, что данные с высоким разрешением поражают всех в ККЦ. + #autoLOC_SCANsat_Science_Hi_Pol = Даже при таком количестве высококачественных данных по-прежнему сложно найти подходящую площадку для посадки. Как все-таки эта луна сделалась? + #autoLOC_SCANsat_Science_Hi_Eeloo = Трещины и трещины на поверхности выделяются поразительной деталью, когда вы изучаете данные датчика. Просто посмотрите на все эти потенциальные площадки для посадки. + + #autoLOC_SCANsat_Science_Multi_Title = Мультиспектральный анализ + #autoLOC_SCANsat_Science_Multi_Default1 = Обработанные данные датчика мультиспектрального анализа. + #autoLOC_SCANsat_Science_Multi_Default2 = «Вау, как мы получаем данные прямо сейчас? Эти инженеры SCAN действительно знают, что они делают. Либо это, либо они не имеют ни малейшего представления о том, что они делают. В любом случае, пришло время для некоторых закусок!» + #autoLOC_SCANsat_Science_Multi_Sun1 = Вы удивлены отсутствием биометрических данных. + #autoLOC_SCANsat_Science_Multi_Sun2 = Вы удивляетесь, почему на карте биома нет видимых полюсов. + #autoLOC_SCANsat_Science_Multi_Moho = По мере того, как вы просматриваете данные, вам интересно, обнаружите ли вы неуловимый биом озера лавы, о котором столько размышляли многие ученые. + #autoLOC_SCANsat_Science_Multi_Eve = Затейливо закрученные линии карты биомов Ив напоминают вам о ламповых лампах и галстуках, окрашенных в рубашки. Хорошо было тем временем. На следующем космическом корабле Еве будет обязательный бал. + #autoLOC_SCANsat_Science_Multi_Gilly = Даже при том, что эти косички эти астрономы не могли видеть здесь биомы. Хах! Тупые астрономы! Это 1 очко для науки и 0 баллов за уххх ... науку. + #autoLOC_SCANsat_Science_Multi_Kerbin = Данные биома действительно поразительны. Вы просто надеетесь, что он устойчив к крошке, поскольку вы помните, что в день, когда был установлен датчик, брали особенно крошашуюся коробку с печеньками. + #autoLOC_SCANsat_Science_Multi_Mun = Да, никогда не знал, что у луны есть биомы. Интересно, в какой из них сыр. И есть ли и другие закуски. + #autoLOC_SCANsat_Science_Multi_Minmus = Вы размышляете над тем, как подгонять название "Большие плоскости", как вы лениво смотрите данные. Кто бы ни думал об этих именах, тот умный Кербал, в отличие от инженеров, которых мы имеем здесь. + #autoLOC_SCANsat_Science_Multi_Duna = Вы расчесываете данные биома, ища только подходящее место, чтобы собрать все эти сладкие, сладкие научные данные. Ммммм, наука ... и закуски. + #autoLOC_SCANsat_Science_Multi_Ike = По мере того, как вы перебираете данные, возвращаемые с Айка, вы удивляетесь разнообразию биомов. В конце концов, это просто луна. Вы ждете не дождетесь, когда получите какие-то научные данные. + #autoLOC_SCANsat_Science_Multi_Dres = Поляки, проверка. Нагорье, проверьте. Мидлендс, проверьте. Низменность, проверка. Риджес, чек. Воздействие выброса, проверьте. Кратеры воздействия, проверка. Каньоны, проверьте. Думаю, у нас все получилось. Время выключить сканер и взять закуски! + #autoLOC_SCANsat_Science_Multi_Jool1 = Вы удивлены отсутствием биометрических данных. + #autoLOC_SCANsat_Science_Multi_Jool2 = Вы удивляетесь, почему на карте биома нет видимых полюсов. + #autoLOC_SCANsat_Science_Multi_Laythe = Вы хотите бросить вечеринку каждый раз, когда датчик обнаруживает наземный биом. + #autoLOC_SCANsat_Science_Multi_Vall = Довольно простые данные: поляки, нагорья, Мидлендс и Низменность. Это обертка. Теперь давай закуски! + #autoLOC_SCANsat_Science_Multi_Tylo = Вы поражены разнообразием биомов в отчете. Мало того, что Тило круто смотреть, здорово смотреть вниз. + #autoLOC_SCANsat_Science_Multi_Bop = Этот подробный анализ биомов Бопа будет способствовать нашему пониманию маленькой луны за пределами того, что мы могли бы надеяться. Это был отличный день. Закуски вокруг! + #autoLOC_SCANsat_Science_Multi_Pol = Когда вы берете данные биома, поступающие от Пол, вы начинаете рассматривать возможность того, что пыльцевые зерна также имеют биомы. Затем вы быстро давите эту мысль, зная, как будут выглядеть активисты зеленых, если они поймут эту идею. + #autoLOC_SCANsat_Science_Multi_Eeloo = Удивительно иметь такие подробные данные о биоме на планете, которая находится далеко от Кербина. Вы в восторге смотрите отчет, когда поступают данные. + + #autoLOC_SCANsat_Science_Resource_Title = Сканирование ресурсов + #autoLOC_SCANsat_Science_Resource_Default1 = Обработанные данные о ресурсах низкого разрешения. + #autoLOC_SCANsat_Science_Resource_Default2 = «Сейчас мы получаем данные датчика ресурсов, эта информация выглядит лучше, чем то, что мы получали от другой группы ...» + #autoLOC_SCANsat_Science_Resource_Sun = Возможно, звезда не лучшее место для поиска ресурсов. + #autoLOC_SCANsat_Science_Resource_Moho = Наконец, у нас есть информация о ресурсах на поверхности Мохо, теперь же нам просто нужно выяснить, почему кто-то хочет туда приземляться. + #autoLOC_SCANsat_Science_Resource_Eve = Мы получаем много хороших данных о поверхностных ресурсах Ив, это будет здорово, когда нам нужно выяснить, как сойти с планеты. + #autoLOC_SCANsat_Science_Resource_Gilly = Первоначальные исследования ресурсов Гилли выглядят интересными; Это почти похоже на добычу астероидов. + #autoLOC_SCANsat_Science_Resource_Kerbin = Наконец, у нас есть некоторые данные о ресурсах на Кербине, потому что, как известно, если вы хотите, чтобы основная информация о вашей собственной планете ничего не делала, отправляя на орбиту дорогостоящий сложный спутник. + #autoLOC_SCANsat_Science_Resource_Mun = Эти данные о ресурсах дают нам наш первый хороший взгляд на то, насколько подходящим может быть Мун для целей добычи. + #autoLOC_SCANsat_Science_Resource_Minmus = Наконец, у нас есть некоторые данные о ресурсах на Минмусе, являющемся каждым первым выбором для начала добычи. + #autoLOC_SCANsat_Science_Resource_Duna = Эти данные о ресурсах приближают нас к тому, чтобы пережить все наши любимые строки из недавнего фильма «Кербал». + #autoLOC_SCANsat_Science_Resource_Ike = Айк может быть не самым интересным небесным телом Солнечной системы, но это не делает данные ресурса менее полезными. + #autoLOC_SCANsat_Science_Resource_Dres = Мы могли бы также просто найти некоторые из близлежащих астероидов для ресурсов; Который когда-нибудь захочет побеспокоиться с Дресом. + #autoLOC_SCANsat_Science_Resource_Jool = Хм, может быть, газовый гигант - не лучшее место для поиска поверхностных ресурсов ... + #autoLOC_SCANsat_Science_Resource_Laythe = Ну, здесь есть много хороших данных, но здесь очень мало места на поверхности, где мы могли бы реально приземлиться и воспользоваться ресурсами. + #autoLOC_SCANsat_Science_Resource_Vall = Сканирование ресурсов ледяного Валл предоставляет множество интересных данных. + #autoLOC_SCANsat_Science_Resource_Tylo = Мы возьмем любую информацию о ресурсах, которую мы можем получить от страшного Тило. + #autoLOC_SCANsat_Science_Resource_Bop = Bop не может быть первым выбором для решения, где искать ресурсы, но эти данные могут когда-нибудь пригодиться. + #autoLOC_SCANsat_Science_Resource_Pol = В дополнение к пыльцевым зернам и странным кусковым вещам у Пола, похоже, есть интересные вклады в ресурсы. + #autoLOC_SCANsat_Science_Resource_Eeloo = Теперь, когда мы добрались до Иилу, мы могли бы добыть все что нужно и перейти к тому, что за его пределами. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Tooltips.cfg b/SCANassets/Resources/Localization/ru/Tooltips.cfg new file mode 100644 index 000000000..96b8e19ed --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_mainMapToggle = Основная Карта + #autoLOC_SCANsat_bigMapToggle = Большая Карта + #autoLOC_SCANsat_zoomMapToggle = Детальная Карта + #autoLOC_SCANsat_overlayToggle = Планетарный Оверлей + #autoLOC_SCANsat_instrumentsToggle = Инструментальные Показания + #autoLOC_SCANsat_settingsToggle = Настройки + #autoLOC_SCANsat_mainMapColor = Цвета Карты + #autoLOC_SCANsat_mainMapTerminator = Терминатор (День/Ночь) + #autoLOC_SCANsat_mainMapType = Ландшафт/Биомы + #autoLOC_SCANsat_mainMapMinimize = Вкл/Выкл Данные Корабля + #autoLOC_SCANsat_mainMapStatus = Индикаторы Статуса Сканера + #autoLOC_SCANsat_mainMapPercentage = Процент Завершения Активного Сканирования + #autoLOC_SCANsat_bigMapRefresh = Обновить Карту + #autoLOC_SCANsat_bigMapColor = Цвета Карты + #autoLOC_SCANsat_bigMapTerminator = Терминатор (День/Ночь) + #autoLOC_SCANsat_bigMapGrid = Сетка + #autoLOC_SCANsat_bigMapOrbit = Орбиты + #autoLOC_SCANsat_bigMapWaypoints = Вэйпоинты + #autoLOC_SCANsat_bigMapAnomaly = Аномалии + #autoLOC_SCANsat_bigMapFlags = Флаги + #autoLOC_SCANsat_bigMapLegend = Легенда Карты + #autoLOC_SCANsat_bigMapResource = Оверлей Ресурсов + #autoLOC_SCANsat_bigMapExport = Экспорт Карты на Диск + #autoLOC_SCANsat_overlayRefresh = Обновить Карту + #autoLOC_SCANsat_insNextResource = След. Ресурс + #autoLOC_SCANsat_insPreviousResource = Пред. Ресурс + #autoLOC_SCANsat_zoomVesselSync = Синх. Текущего Корабля + #autoLOC_SCANsat_zoomVesselLock = Закрепить Поз. Корабля + #autoLOC_SCANsat_zoomMapRefresh = Обновить Карту + #autoLOC_SCANsat_zoomMapWindowState = Размер Окна + #autoLOC_SCANsat_zoomMapIn = Увеличить + #autoLOC_SCANsat_zoomMapOut = Уменьшить + #autoLOC_SCANsat_zoomMapLeft = Влево + #autoLOC_SCANsat_zoomMapRight = Вправо + #autoLOC_SCANsat_zoomMapUp = Вверх + #autoLOC_SCANsat_zoomMapDown = Вниз + #autoLOC_SCANsat_zoomMapIcons = Символы Карты + #autoLOC_SCANsat_waypointToggle = Выбор Вэйпоинта + #autoLOC_SCANsat_waypointSet = Создать Вэйпоинт + #autoLOC_SCANsat_waypointCancel = Отменить Вэйпоинт + #autoLOC_SCANsat_waypointMechJeb = Зона Посадки MechJeb + #autoLOC_SCANsat_waypointNameRefresh = Обновить Вэйпоинт + } +} diff --git a/SCANassets/Resources/Localization/ru/Warnings.cfg b/SCANassets/Resources/Localization/ru/Warnings.cfg new file mode 100644 index 000000000..83e91ab0d --- /dev/null +++ b/SCANassets/Resources/Localization/ru/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + ru + { + #autoLOC_SCANsat_Warning_DataResetCurrent = Удалить карту <<1>> для <<2>>? + #autoLOC_SCANsat_Warning_DataResetAll = Удалить <<1>> для всех небесных тел? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = Удалить стоковые данные ресурсов для <<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetAll = Удалить стоковые данные ресурсов для всех небесных тел? + #autoLOC_SCANsat_Warning_MapFillCurrent = Заполнить карту <<1>> для <<2>>? + #autoLOC_SCANsat_Warning_MapFillAll = Заполнить <<1>> для всех небесных тел? + #autoLOC_SCANsat_Warning_ModuleManagerResource = Внимание\nДля всех функций сканирования ресурсов SCANsat необходим Module Manager. + #autoLOC_SCANsat_Warning_SaveToConfig = Перезаписать существующий файл настроек? + } +} diff --git a/SCANassets/Resources/Localization/zh-cn/Contracts.cfg b/SCANassets/Resources/Localization/zh-cn/Contracts.cfg new file mode 100644 index 000000000..f7e4de6b0 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Contracts.cfg @@ -0,0 +1,39 @@ +Localization +{ + zh-cn + { + // *** Exceptional *** + + #autoLOC_SCANsat_exceptional0001 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0002 = Do a group of high resolution SCANsat surveys of @/targetBodyValid3. + #autoLOC_SCANsat_exceptional0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_exceptional0004 = Perform several high resolution scans of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0005 = We now have a detailed map and survey for the surface of @/targetBodyValid3 + #autoLOC_SCANsat_exceptional0006 = Must have less than a 90% high resolution altimetry scan of the target body. + #autoLOC_SCANsat_exceptional0007 = Must have less than a 90% ore scan of the target body. + #autoLOC_SCANsat_exceptional0008 = Must have orbited the target body, or the target body must be next on the list. + + // *** Significant *** + + #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + + // *** Trivial *** + + #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SACNsat_trivial_0006 = Target is part of home system. + #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Flags.cfg b/SCANassets/Resources/Localization/zh-cn/Flags.cfg new file mode 100644 index 000000000..457cddc0a --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Flags.cfg @@ -0,0 +1,9 @@ +Localization +{ + zh-cn + { + #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation + #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Helptips.cfg b/SCANassets/Resources/Localization/zh-cn/Helptips.cfg new file mode 100644 index 000000000..7f14231f0 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Helptips.cfg @@ -0,0 +1,62 @@ +Localization +{ + zh-cn + { + #autoLOC_SCANsat_settingsHelpScanningToggle = 开关所有SCANsat扫描。 + #autoLOC_SCANsat_settingsHelpBackground = 开关选中天体的\n后台扫描。 + #autoLOC_SCANsat_settingsHelpTimeWarp = 调整时间加速时的扫描频率。\n值越高扫描越精确,\n但在高时间加速倍率下可能导致性能问题。 + #autoLOC_SCANsat_settingsHelpGroundTracks = 在星图模式显示一个可见的\n扫描活动标识。 + #autoLOC_SCANsat_settingsHelpGroundTracksActive = 地面追踪标识可被限制为\n仅显示活动中的载具。 + #autoLOC_SCANsat_settingsHelpStockUIStyle = 在默认KSP风格界面和Unity风格界面之间切换。 + #autoLOC_SCANsat_settingsHelpOverlayTooltips = 当星球标识可用时,在鼠标当前位置显示一个提示框,\n内容包括坐标,地形高度,坡度,生物群系名称\n和资源储量。仅对已扫描地区有效。 + #autoLOC_SCANsat_settingsHelpWindowTooltips = 显示地图窗口按钮的提示框,\n主要用来识别图标按钮。 + #autoLOC_SCANsat_settingsHelpLegendTooltips = 在图例上显示提示框,\n关闭的同时也会关闭生物群系图例。 + #autoLOC_SCANsat_settingsHelpStockToolbar = 使用原版工具栏,\n可以和Blizzy78的工具栏一起使用。 + #autoLOC_SCANsat_settingsHelpToolbarMenu = 使用原版工具栏的弹出式菜单显示所有可用窗口。 + #autoLOC_SCANsat_settingsHelpMechJeb = SCANsat缩放地图和大地图的导航点选择模式\n可以用来选择MJ自动着陆地点。 + #autoLOC_SCANsat_settingsHelpMechJebLoad = 载入一个已保存的MJ自动着陆目标,\n这仅在飞行界面且载具MJ有效时可用。 + #autoLOC_SCANsat_settingsHelpMapGenSpeed = 调整所有SCANsat地图的生成速度,\n数值调低可以节约CPU资源并减小生成\n地图对性能的影响。 + #autoLOC_SCANsat_settingsHelpResetWindows = 重置所有窗口的位置和缩放,\n当窗口完全覆盖屏幕或者\n某些窗口不可见时使用。 + #autoLOC_SCANsat_settingsHelpResetPlanetData = 重置当前天体选中的SCANsat数据,\n执行前会弹出一个确认窗口。\n本操作无法撤销。 + #autoLOC_SCANsat_settingsHelpResetAllData = 重置所有天体选中的SCANsat数据,\n执行前会弹出一个确认窗口。\n本操作无法撤销。 + #autoLOC_SCANsat_settingsHelpVesselsSensorsPasses = 当前激活的SCANsat传感器信息。\n载具表示配备已激活传感器的载具数量;\n传感器表示传感器总数,\n拥有多个传感器的仪器将对每一个传感器分别计数;\n帧率表示每秒钟传感器刷新次数,\n这个数值受时间加速倍率设置的影响。 + #autoLOC_SCANsat_settingsHelpGreyScale = 为黑白SCANsat地图启用灰度图模式。\n高度图的每一个像素均介于黑色与白色之间,\n最大和最小值将由天体的最高和最低地形高度定义。 + #autoLOC_SCANsat_settingsHelpExportCSV = 大地图模式下使用这个导出按钮将和地图贴图一起导出一个后缀为.csv的文件,\n该文件包含每个像素的坐标和地形高度,\n像素排列方式为先左后右,先上后下。 + #autoLOC_SCANsat_settingsHelpSetMapWidth = 为SCANsat大地图贴图指定一个宽度,\n数值必须在550 - 8192之间,\n按设置键应用这个数值。 + #autoLOC_SCANsat_settingsHelpWindowScale = 调整所有SCANsat窗口的缩放。 + #autoLOC_SCANsat_settingsHelpFillPlanet = 为当前天体填入选中的SCANsat数据。 + #autoLOC_SCANsat_settingsHelpFillAll = 为所有天体填入选中的SCANsat数据。 + #autoLOC_SCANsat_resourceSettingsHelpBiomeLock = 避免对原版地表生物群系扫描的需求,\nSCANsat视图会显示完整精确的附带或不附带\n地表生物群系的资源储量图。 + #autoLOC_SCANsat_resourceSettingsHelpInstant = 默认情况下,原版M700资源扫描仪的轨道观察会填满整个SCANsat资源地图,\n禁用后就需要标准SCANsat方法来扫描资源地图。\n当原版资源扫描仪不可用时自动禁用。 + #autoLOC_SCANsat_resourceSettingsHelpNarrowBand = 大量的SCANsat功能需要载具或轨道上有一个\n窄带资源扫描仪,以此获得完整精确的资源储藏数据,\n禁用此项以避免这些制约。 + #autoLOC_SCANsat_resourceSettingsHelpDisableStock = 禁用所有原版资源扫描仪的功能。\n所有资源数据必须使用SCANsat扫描方法来扫描,\n用SCANsat的工具替代许多原版的功能,\n包括右键读数以及行星总览资源图。 + #autoLOC_SCANsat_resourceSettingsHelpResetStockResource = 重置当前天体原版资源扫描信息,\n需要重新载入或者切换场景才可生效,\n执行前将弹出确认窗口,\n本操作无法撤销。 + #autoLOC_SCANsat_resourceSettingsHelpResetAllStockResource = 重置所有天体原版资源扫描信息,\n需要重新载入或者切换场景才可生效,\n执行前将弹出确认窗口,\n本操作无法撤销。 + #autoLOC_SCANsat_resourceSettingsHelpOverlayInterpolation = 改变生成行星视图和大地图资源地图时的\n资源储量单位度量范围,\n降低该数值可以提高地图的质量和精度,\n越低的数值生成地图越慢。 + #autoLOC_SCANsat_resourceSettingsHelpOverlayHeight = 改变生成行星视图和大地图资源地图\n时的贴图尺寸(地图宽高比2比1),\n提高该数值可以提高地图的质量和精度,\n越高的数值生成地图越慢。 + #autoLOC_SCANsat_resourceSettingsHelpOverlayBiomeHeight = 改变生成行星视图生物群系地图\n时的贴图尺寸(地图宽高比2比1),\n提高该数值可以提高地图的质量和精度,\n越高的数值生成地图越慢。 + #autoLOC_SCANsat_resourceSettingsHelpOverlayTransparency = 为行星视图资源地图创建一个灰色背景,\n用来辨识天体的哪些部分\n已经被扫描出没有资源储量而不是未扫描。 + #autoLOC_SCANsat_resourceSettingsHelpScanThreshold = 当使用SCANsat传感器扫描到一个临界水平时对一个天体启用原版资源扫描,\n这对某些需要原版资源扫描可用的合同或其他mod而言很有用。\n填入一个0-100之间的数值并点击设置按钮。\n所有天体将被立刻检查,\n当载入或场景切换时也会执行检查。\n可能需要重新载入来生效。 + #autoLOC_SCANsat_colorTerrainHelpMin = 定义地形图颜色板的高度下限,\n所有低于这一下限的高度都被显示为最低高度的颜色。 + #autoLOC_SCANsat_colorTerrainHelpMax = 定义地形图颜色板的高度上限,\n所有低于这一上限的高度都被显示为最高高度的颜色。 + #autoLOC_SCANsat_colorTerrainHelpClampToggle = 定义一个最低和最高高度之间的分界线,类似海平面高度线,\n这在明确区分有海洋星球的海洋\n和陆地时尤其有用。 + #autoLOC_SCANsat_colorTerrainHelpClamp = 定义高度截止线,\n所有低于这一高度的地方将用地形图颜色板的前两个颜色标识,\n高于这一高度的则使用剩余的颜色。 + #autoLOC_SCANsat_colorTerrainHelpReverse = 反转当前颜色板\n的颜色排列顺序。 + #autoLOC_SCANsat_colorTerrainHelpDiscrete = 只使用每个颜色版定义的特殊颜色绘制地图,\n而不使用其中的渐变色。 + #autoLOC_SCANsat_colorTerrainHelpPaletteSize = 调整当前选中颜色板\n的可用颜色数目。 + #autoLOC_SCANsat_colorBiomeHelpStock = 为SCANsat生物群系图使用\n原版生物群系上色模式。 + #autoLOC_SCANsat_colorBiomeHelpWhiteBorder = 不同生物群系之间绘制白色边界,\n在行星视图的生物群系图中无效。 + #autoLOC_SCANsat_colorBiomeHelpTransparency = 调整生物群系图的透明度,\n地形高度在生物群系图下方显示,\n设为0%可禁用地形图绘制。 + #autoLOC_SCANsat_colorPickerHelpLow = 上方颜色表示更新后的\n颜色板最低一端的颜色,\n下方的颜色表示当前使用中的颜色。 + #autoLOC_SCANsat_colorPickerHelpHigh = 上方颜色表示更新后的\n颜色板最高一端的颜色,\n下方的颜色表示当前使用中的颜色。 + #autoLOC_SCANsat_colorResourceHelpMin = 选中天体的资源丰富度下限,\n这一水平下的资源储量将\n显示为当前资源视图颜色板最低一端的颜色,\n低于此水平的资源储量将不被显示。 + #autoLOC_SCANsat_colorResourceHelpMax = 选中天体的资源丰富度上限,\n不低于这一水平的资源储量将\n显示为当前资源视图颜色板最高一端的颜色。 + #autoLOC_SCANsat_colorResourceHelpTransparency = 定义资源视图的透明度水平,\n升高数值可使背景的地形、坡度或生物群系图更清晰,\n这一设置同时也影响行星视图的资源地图。 + #autoLOC_SCANsat_colorResourceHelpApply = 仅应用当前设定数值到\n选中的资源和天体。 + #autoLOC_SCANsat_colorResourceHelpApplyAll = 为所有天体选中的\n资源应用当前设定数值。 + #autoLOC_SCANsat_colorResourceHelpDefault = 仅将当前选中的资源和天体\n设定数值恢复为默认值。 + #autoLOC_SCANsat_colorResourceHelpDefaultAll = 将所有天体选中的\n资源的设定数值恢复为默认值。 + #autoLOC_SCANsat_colorHelpSaveToConfig = 保存所有颜色设置到\nSCANsat/Resources文件夹里的配置文件中,\n这些数值将默认给新存档\n和所有“重置为默认值”按钮使用,\n仅本存档使用的设定不必保存到配置文件。 + #autoLOC_SCANsat_colorSlopeHelpCutoff = 调整两个选中坡度\n颜色组的分割线。 + } +} diff --git a/SCANassets/Resources/Localization/zh-cn/OtherText.cfg b/SCANassets/Resources/Localization/zh-cn/OtherText.cfg new file mode 100644 index 000000000..12ebf5e84 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/OtherText.cfg @@ -0,0 +1,35 @@ +Localization +{ + zh-cn + { + #autoLOC_SCANsat_Analyze = 分析数据 + #autoLOC_SCANsat_StartScan = 开始扫描 + #autoLOC_SCANsat_StopScan = 停止扫描 + #autoLOC_SCANsat_ToggleScan = 开关扫描器 + #autoLOC_SCANsat_Extend = 展开 + #autoLOC_SCANsat_Retract = 收起 + #autoLOC_SCANsat_Unknown = 未知 + #autoLOC_SCANsat_All_Disabled = 所有扫描器已禁用 + #autoLOC_SCANsat_Disabled = 扫描器禁用 + #autoLOC_SCANsat_TooLow = 高度过低 + #autoLOC_SCANsat_SubOptimal = 欠佳 + #autoLOC_SCANsat_Ideal = 理想 + #autoLOC_SCANsat_TooHigh = 高度过高 + #autoLOC_SCANsat_NoData = 无数据 + #autoLOC_SCANsat_Abundance = 丰富 + #autoLOC_SCANsat_Surface = 表面 + #autoLOC_SCANsat_AltitudeMin = 最低高度: <<1>>km\n + #autoLOC_SCANsat_AltitudeBest = 最佳高度: <<1>>km\n + #autoLOC_SCANsat_AltitudeMax = 最大高度: <<1>>km\n + #autoLOC_SCANsat_FOV = 扫描锥角: <<1>> + #autoLOC_SCANsat_MapProjection = 地图设计 + #autoLOC_SCANsat_MapType = 地图类型 + #autoLOC_SCANsat_MapResource = 资源 + #autoLOC_SCANsat_MapBody = 天体 + #autoLOC_SCANsat_GeneralSettings = 全局设置 + #autoLOC_SCANsat_BackgroundSettings = 背景设置 + #autoLOC_SCANsat_ResourceSettings = 资源设置 + #autoLOC_SCANsat_DataManagement = 数据管理 + #autoLOC_SCANsat_ColorManagement = 颜色管理 + } +} diff --git a/SCANassets/Resources/Localization/zh-cn/Parts.cfg b/SCANassets/Resources/Localization/zh-cn/Parts.cfg new file mode 100644 index 000000000..b08bbb76b --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Parts.cfg @@ -0,0 +1,22 @@ +Localization +{ + zh-ch + { + #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation + + #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Description = 这个小的传感器能自动识别附近的异常,就算它只在非常短的距离内和非常低的高度上工作,可用于跟踪已识别的异常点,非常有用。 + + #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® + #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. + + #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor + #autoLOC_SCANsat_Multi_Description = 这个多谱段传感器检测到的辐射包括了红外波段,可见光波段与雷达波段,这给了它区分地形类型和生物群系的能力。它也可以用于扫描异常点,比如地表特殊结构。 + + #autoLOC_SCANsat_Radar_Title = SCAN RADAR Altimetry Sensor + #autoLOC_SCANsat_Radar_Description = SCAN给你带来高性能雷达测高传感器。它是这个传感器家族的入门型,通常和玩具火箭、遥控飞机模型捆绑销售。研究小组经研究得知95%的目标受众尝试用胶带把它粘到火箭排气口上,这种改进似乎使之更容易使用。 + + #autoLOC_SCANsat_SAR_Title = SCAN SCAN SAR Altimetry Sensor + #autoLOC_SCANsat_SAR_Description = 这种合成孔径雷达测高传感器使用它的飞行路径来模拟一个更大的天线,这使得其可以使用更高的分辨率扫描地形,缺点是视野比较小,并且它在更高的地方才能获得最佳工作状态。 + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Science.cfg b/SCANassets/Resources/Localization/zh-cn/Science.cfg new file mode 100644 index 000000000..ef5134434 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Science.cfg @@ -0,0 +1,91 @@ +Localization +{ + zh-ch + { + #autoLOC_SCANsat_Science_Lo_Title = 低精度高度扫描 + #autoLOC_SCANsat_Science_Lo_Default1 = 分析低精度高度数据。 + #autoLOC_SCANsat_Science_Lo_Defualt2 = “雷达高度传感器正在报告数据,我不知道它是怎么做到的,但信号很强,数据也拿到了。是时候摆庆功宴了!” + #autoLOC_SCANsat_Science_Lo_Sun = 你想搞清楚传感器是不是出故障了。 + #autoLOC_SCANsat_Science_Lo_Moho = 好吧,至少这份低精度高度图让Moho看起来有那么一点酷,虽然并没有什么巨大的熔岩湖。 + #autoLOC_SCANsat_Science_Lo_Eve = 你注视着这份扫描仪传回的粗略地图,心想当初送去的是高精度的扫描仪就好了。哦好吧,这或许也是个发射更多火箭的好理由!(说得好像你需要理由一样。) + #autoLOC_SCANsat_Science_Lo_Gilly = 这份低精度地图证实了你的想法:Gilly仅仅是一块飘在太空中凹凸不平的石头,你不用盯着这份报告看上老半天了。 + #autoLOC_SCANsat_Science_Lo_Kerbin = 即使是这份低精度地图也惊人地有用,你已经迫不及待要把这项科技用在Mun或者更远的地方。 + #autoLOC_SCANsat_Science_Lo_Mun = 这份数据显示了Mun表面遭受了重创,一次高精度扫描可能会更有用,不过也许你可以用这份数据寻找合适的登陆点。 + #autoLOC_SCANsat_Science_Lo_Minmus = 你很不情愿地承认坎巴拉天文协会那帮家伙是对的:Minmus真的只是一个卫星而不是什么好吃的。如果你没有亲眼看到这份扫描数据的话你根本不会相信他们。 + #autoLOC_SCANsat_Science_Lo_Duna = 这份低精度地图有些模糊而扭曲,但它仍然能帮助你在Duna上寻找一个合适的着陆点,长期的Duna任务成为未来可展望的前景。 + #autoLOC_SCANsat_Science_Lo_Ike = 当你收到这份数据时,你被Ike和Mun惊人的相似度震惊了,你想比较它们的地表地质。 + #autoLOC_SCANsat_Science_Lo_Dres = 即使在这份低精度地图上也能清楚看到Dres上有着高耸的山峰,你等不及要看资源扫描结果了,因为你确信“这些山里有金子!” + #autoLOC_SCANsat_Science_Lo_Jool = 高度图,什么是高度图?Jool是个气态行星,随机取些数据放上去就当是弄好了吧。 + #autoLOC_SCANsat_Science_Lo_Laythe = 传感器似乎不能穿透水面看到水底。 + #autoLOC_SCANsat_Science_Lo_Vall = 喏,这就是数据,“你们希Vall拿到的数据!哈哈哈哈!哈哈哈,哈,蛤?喂,应该有人觉得好笑才对!” + #autoLOC_SCANsat_Science_Lo_Tylo = 你仍然不确定在这里抬头看Laythe,Vall和Jool是什么样子,但这份数据能帮你找到合适的着陆点,然后你就可以亲自去看看了。 + #autoLOC_SCANsat_Science_Lo_Bop = 低精度数据收到了,你准备打包后发回给KSC,你只希望电池里的电量还足够发送数据和支撑系统运转用。 + #autoLOC_SCANsat_Science_Lo_Pol = 低精度扫描证实了Pol的确看起来像一个巨大的花粉粒,在你更新了高精度扫描仪和电子显微镜之前,你永远不会知道它们两个到底有多像。 + #autoLOC_SCANsat_Science_Lo_Eeloo = Kerbin上的科学家们已经等着这份数据很久了,当数据传回之后,无疑将会有一个全员的庆祝会。 + + #autoLOC_SCANsat_Science_Hi_Title = 高精度高度扫描 + #autoLOC_SCANsat_Science_Hi_Default1 = 分析高精度高度数据。 + #autoLOC_SCANsat_Science_Hi_Default2 = “高精度扫描确实比低精度好多了,SCAN再次证明了他们的扫描技能。” + #autoLOC_SCANsat_Science_Hi_Sun = 你现在意识到如果相信低精度扫描结果的话或许能省下这笔钱。 + #autoLOC_SCANsat_Science_Hi_Moho = Moho真酷!也许这里没有流动的岩浆河流,但数据真的引人注意! + #autoLOC_SCANsat_Science_Hi_Eve = 高精度传感器很好地穿透了浓厚的紫色大气,你能够分析识别表面细节了,KSC的科学家们会收到结果的。 + #autoLOC_SCANsat_Science_Hi_Gilly = 即使是超高精度扫描看起来也像是低精度的一样,真是崎岖不平的表面。 + #autoLOC_SCANsat_Science_Hi_Kerbin = 你快被高精度扫描提供的各种各样的数据催眠了,突然任务控制中心的人把你从昏睡中叫醒,你赶紧擦去了嘴角的口水。 + #autoLOC_SCANsat_Science_Hi_Mun = “啊哈!灰色的卫星不再那么无聊了,赶紧看看扫描仪上那些颜色!现在我们可以定下一个最棒的着陆场了。” + #autoLOC_SCANsat_Science_Hi_Minmus = 哇哦!Minmus不仅是真实的,它还有一些惊人的地貌!你迫不及待地想在其中一块平坦的地方着陆了。 + #autoLOC_SCANsat_Science_Hi_Duna = 这份高精度数据非常惊人,你开始分析这些山脉和峡谷,并寻找完美的着陆场。 + #autoLOC_SCANsat_Science_Hi_Ike = 这份数据证实了陡峭的山峰和火山口的存在,希望KSC的分析员能找到一个合适的地方着陆。 + #autoLOC_SCANsat_Science_Hi_Dres = 这里...有一些险峻的山峰,你很高兴能分析这份数据而不用尝试爬这些山。 + #autoLOC_SCANsat_Science_Hi_Jool = 即使是高精度也没法扫出Jool的表面,理论意义重大,至少我们还有大笔的拨款! + #autoLOC_SCANsat_Science_Hi_Laythe = 地图显示有很多负高度,你想抽干Laythe,这样你就可以爬山了。 + #autoLOC_SCANsat_Science_Hi_Vall = 高精度扫描仪的数据证明Vall的确“起伏不平”,猜想基因欠你五十块。 + #autoLOC_SCANsat_Science_Hi_Tylo = Tylo或许是第一个被发现的Jool卫星,但这份数据让你感觉你是第一次发现它。 + #autoLOC_SCANsat_Science_Hi_Bop = 哇哦!看看这些颜色,你不知道这些数据都是什么意思,但你确信这份高精度数据会给KSC的每个人留下深刻印象。 + #autoLOC_SCANsat_Science_Hi_Pol = 即使有这么多高质量的数据也难以找到一个合适的着陆点,这颗卫星TM是怎么做出来的? + #autoLOC_SCANsat_Science_Hi_Eeloo = 你在分析高精度扫描仪的数据时,表面的裂隙是最引人注意的细节,那些都可能是潜在的着陆点。 + + #autoLOC_SCANsat_Science_Multi_Title = 多频段分析 + #autoLOC_SCANsat_Science_Multi_Default1 = 分析多频段传感器数据。 + #autoLOC_SCANsat_Science_Multi_Default2 = “哇哦!为什么我们现在才收到这份数据?那些SCAN工程师个个都是人才!也许他们并不知道自己在做什么。不管怎样,是时候享用一些零食了!” + #autoLOC_SCANsat_Science_Multi_Sun1 = 你惊奇于生物群系数据的匮乏。 + #autoLOC_SCANsat_Science_Multi_Sun2 = 你想知道为什么生物群系图上什么都没有。 + #autoLOC_SCANsat_Science_Multi_Moho = 你在研究这些数据时想知道能不能找到很多科学家推测存在的隐藏的岩浆湖。 + #autoLOC_SCANsat_Science_Multi_Eve = Eve那漩涡纹状的生物群系图让你想到了熔岩灯和扎染衬衫,下一艘去Eve的宇宙飞船可以装一个舞厅迪斯科球灯! + #autoLOC_SCANsat_Science_Multi_Gilly = 天文学家们眯着眼睛也看不清这里的生物群系,啊哈!沉默的天文学家们!现在比分是1比0,科学对...嗯...科学。 + #autoLOC_SCANsat_Science_Multi_Kerbin = 这份生物群系数据多得令人震惊,你希望这是安装传感器时吃零食留下来的碎屑造成的。 + #autoLOC_SCANsat_Science_Multi_Mun = 嗯,从没想到这颗卫星还有生物群系,你想知道奶酪在哪里,以及有没有其他零食碎屑在里面。 + #autoLOC_SCANsat_Science_Multi_Minmus = 你注视着这些数据,觉得“大平原”这个名字实在太棒了,想出这个名字的一定是个聪明的坎巴拉人,不像周围的这些工程师。 + #autoLOC_SCANsat_Science_Multi_Duna = 你扫视着这份数据,试图寻找收集所有香甜美味的科技点的地方,嗯...科技点...以及零食。 + #autoLOC_SCANsat_Science_Multi_Ike = 查看从Ike发回的生物群系数据时,你惊叹于那里的生物群系多样性,别忘了它仅仅是一颗卫星,你等不及要获取一些它表面的科学数据了。 + #autoLOC_SCANsat_Science_Multi_Dres = 极地,已检查;高原,已检查;内陆,已检查;低底,已检查;山脊,已检查;撞击喷出物,已检查;陨石坑,已检查;峡谷,已检查。我认为所有数据都得到了,是时候关闭扫描仪并来点零食了! + #autoLOC_SCANsat_Science_Multi_Jool1 = 你惊奇于生物群系数据的匮乏。 + #autoLOC_SCANsat_Science_Multi_Jool2 = 你想知道为什么生物群系图上什么都没有。 + #autoLOC_SCANsat_Science_Multi_Laythe = 每当传感器扫出一块陆地时你都想办一个派对来庆祝一下。 + #autoLOC_SCANsat_Science_Multi_Vall = 直接了当的数据:极地,高原,内陆和低地,缠绕在星球上。现在来吃零食吧! + #autoLOC_SCANsat_Science_Multi_Tylo = 报告中显示出生物群系惊人的多样性,Tylo不仅在高处看很酷,在表面看也同样地令人赞叹。 + #autoLOC_SCANsat_Science_Multi_Bop = 这份Bop生物群系的详细数据使我们对这颗小卫星的理解大大超出了预期,真是美好的一天,来食香香鸡! + #autoLOC_SCANsat_Science_Multi_Pol = 当你拿到这份Pol的生物群系数据之后,你开始沉思花粉粒拥有生物群系的可能性,很快你平复思绪,你明白抱有那种思想的人会是什么样。 + #autoLOC_SCANsat_Science_Multi_Eeloo = 你对于除了Kerbin之外还能找到生物群系如此丰富的行星感到震惊,你抱着敬畏的心情凝视着数据报告。 + + #autoLOC_SCANsat_Science_Resource_Title = 资源扫描 + #autoLOC_SCANsat_Science_Resource_Default1 = 分析低精度资源数据。 + #autoLOC_SCANsat_Science_Resource_Default2 = “我们正在接收资源传感器的数据,这项信息看起来比其他的那些信息好多了...” + #autoLOC_SCANsat_Science_Resource_Sun = 也许太阳不是一个寻找地表资源的好地方。 + #autoLOC_SCANsat_Science_Resource_Moho = 我们终于获取了一些Moho表面的资源数据,现在我们只需要搞清楚为什么任何人都想在那里着陆。 + #autoLOC_SCANsat_Science_Resource_Eve = 我们获取了许多关于Eve表面资源的优质数据,当我们寻找离开这颗星球的办法时这些数据很有用。 + #autoLOC_SCANsat_Science_Resource_Gilly = Gilly的初次资源扫描结果很有趣,他几乎就是个小行星矿场。 + #autoLOC_SCANsat_Science_Resource_Kerbin = 我们最终拥有了Kerbin的资源数据,众所周知,如果我们想了解自己母星的基本信息,没什么比发射一颗昂贵而又复杂的卫星更好的方法了。 + #autoLOC_SCANsat_Science_Resource_Mun = 资源数据告诉我们Mun是多么适合开发资源。 + #autoLOC_SCANsat_Science_Resource_Minmus = 最后,我们拥有了Minmus的资源数据,每一个坎巴拉宇航员建立初级采矿建筑的首选地。 + #autoLOC_SCANsat_Science_Resource_Duna = 这份资源数据让我们离实现最近风靡坎巴拉的电影里的情节更近了一步。 + #autoLOC_SCANsat_Science_Resource_Ike = Ike也许不是星系中最有趣的天体,但这并不会影响其资源数据的实用性。 + #autoLOC_SCANsat_Science_Resource_Dres = 也许我们会去搜寻周边小行星上的资源,谁会想去打扰Dres呢? + #autoLOC_SCANsat_Science_Resource_Jool = 嗯...也许气态行星不是一个寻找地表资源的好地方... + #autoLOC_SCANsat_Science_Resource_Laythe = 很好,这里有很多很棒的数据,但其表面只有很少的地方适合着陆并享受其资源带来的好处。 + #autoLOC_SCANsat_Science_Resource_Vall = 对冰冻的Vall进行的资源扫描提供了很多有趣的数据。 + #autoLOC_SCANsat_Science_Resource_Tylo = 我们将带走所有在看起来很可怕的Tylo获取的资源数据。 + #autoLOC_SCANsat_Science_Resource_Bop = Bop也许不是人们搜寻资源的首选之地,但这份数据早晚会带来方便。 + #autoLOC_SCANsat_Science_Resource_Pol = 除了花粉粒和奇怪的块状物之外,Pol还有一些有趣的资源存储。 + #autoLOC_SCANsat_Science_Resource_Eeloo = 至此我们已经完全探索了Eeloo,我们也需要开始清除这里的矿产,并探索其外还有什么。 + } +} \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Tooltips.cfg b/SCANassets/Resources/Localization/zh-cn/Tooltips.cfg new file mode 100644 index 000000000..621787d69 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Tooltips.cfg @@ -0,0 +1,48 @@ +Localization +{ + zh-cn + { + #autoLOC_SCANsat_mainMapToggle = 主地图 + #autoLOC_SCANsat_bigMapToggle = 大地图 + #autoLOC_SCANsat_zoomMapToggle = 缩放地图 + #autoLOC_SCANsat_overlayToggle = 行星显示 + #autoLOC_SCANsat_instrumentsToggle = 仪器读数 + #autoLOC_SCANsat_settingsToggle = 设置 + #autoLOC_SCANsat_mainMapColor = 地图颜色 + #autoLOC_SCANsat_mainMapTerminator = 地图晨昏线 + #autoLOC_SCANsat_mainMapType = 开关地形/生物群系 + #autoLOC_SCANsat_mainMapMinimize = 显示/隐藏载具信息 + #autoLOC_SCANsat_mainMapStatus = 扫描器状态标识 + #autoLOC_SCANsat_mainMapPercentage = 显示扫描完成度 + #autoLOC_SCANsat_bigMapRefresh = 刷新地图 + #autoLOC_SCANsat_bigMapColor = 地图颜色 + #autoLOC_SCANsat_bigMapTerminator = 地图晨昏线 + #autoLOC_SCANsat_bigMapGrid = 网格显示 + #autoLOC_SCANsat_bigMapOrbit = 轨道显示 + #autoLOC_SCANsat_bigMapWaypoints = 导航点 + #autoLOC_SCANsat_bigMapAnomaly = 异常点 + #autoLOC_SCANsat_bigMapFlags = 旗帜 + #autoLOC_SCANsat_bigMapLegend = 图例 + #autoLOC_SCANsat_bigMapResource = 资源显示 + #autoLOC_SCANsat_bigMapExport = 导出地图到硬盘 + #autoLOC_SCANsat_overlayRefresh = 刷新地图 + #autoLOC_SCANsat_insNextResource = 下一资源 + #autoLOC_SCANsat_insPreviousResource = 上一资源 + #autoLOC_SCANsat_zoomVesselSync = 同步当前载具 + #autoLOC_SCANsat_zoomVesselLock = 锁定视角到载具位置 + #autoLOC_SCANsat_zoomMapRefresh = 刷新地图 + #autoLOC_SCANsat_zoomMapWindowState = 切换窗口大小 + #autoLOC_SCANsat_zoomMapIn = 放大 + #autoLOC_SCANsat_zoomMapOut = 缩小 + #autoLOC_SCANsat_zoomMapLeft = 左移 + #autoLOC_SCANsat_zoomMapRight = 右移 + #autoLOC_SCANsat_zoomMapUp = 上移 + #autoLOC_SCANsat_zoomMapDown = 下移 + #autoLOC_SCANsat_zoomMapIcons = 地图图标 + #autoLOC_SCANsat_waypointToggle = 导航点选择器 + #autoLOC_SCANsat_waypointSet = 创建导航点 + #autoLOC_SCANsat_waypointCancel = 取消导航点 + #autoLOC_SCANsat_waypointMechJeb = 设定MJ着陆目标 + #autoLOC_SCANsat_waypointNameRefresh = 重置导航点 + } +} diff --git a/SCANassets/Resources/Localization/zh-cn/Warnings.cfg b/SCANassets/Resources/Localization/zh-cn/Warnings.cfg new file mode 100644 index 000000000..072ddeba7 --- /dev/null +++ b/SCANassets/Resources/Localization/zh-cn/Warnings.cfg @@ -0,0 +1,14 @@ +Localization +{ + zh-cn + { + #autoLOC_SCANsat_Warning_DataResetCurrent = 确认删除<<2>>的<<1>>图? + #autoLOC_SCANsat_Warning_DataResetAll = 确认删除所有天体的<<1>>? + #autoLOC_SCANsat_Warning_StockResourceResetCurrent = 确认删除<<1>>的资源储藏数据? + #autoLOC_SCANsat_Warning_StockResourceResetAll = 确认删除所有天体的资源储藏数据? + #autoLOC_SCANsat_Warning_MapFillCurrent = 确认填充<<2>>的<<1>>图? + #autoLOC_SCANsat_Warning_MapFillAll = 确认填充所有天体的<<1>>? + #autoLOC_SCANsat_Warning_ModuleManagerResource = 警告\nSCANsat所有的资源扫描功能都需要Module Manager。 + #autoLOC_SCANsat_Warning_SaveToConfig = 确认覆盖现有的设置文件? + } +} From 2a2375498bc97cdcfec372f1f796a62b51a2027a Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 11:44:38 -0500 Subject: [PATCH 12/19] Lower full science threshold --- SCANsat/SCAN_PartModules/SCANexperiment.cs | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/SCANsat/SCAN_PartModules/SCANexperiment.cs b/SCANsat/SCAN_PartModules/SCANexperiment.cs index 5567c4492..9912c2fc2 100644 --- a/SCANsat/SCAN_PartModules/SCANexperiment.cs +++ b/SCANsat/SCAN_PartModules/SCANexperiment.cs @@ -240,7 +240,7 @@ private float GetScienceCoverage(string scienceID, ref ScienceExperiment se, ref su.scienceCap *= mult; - if (coverage > 98.5) + if (coverage > 97.5) coverage = 100; else if (coverage < 30) coverage = 0; From 2f65e9450e4c67581fca472fe34365b1d575d18b Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 11:53:36 -0500 Subject: [PATCH 13/19] Part manufacturer localization --- SCANassets/Parts/BTDT/BTDT.cfg | 2 +- SCANassets/Parts/MULTI/MULTI.cfg | 2 +- SCANassets/Parts/RADAR/RADAR.cfg | 2 +- SCANassets/Parts/SAR/SAR.cfg | 2 +- 4 files changed, 4 insertions(+), 4 deletions(-) diff --git a/SCANassets/Parts/BTDT/BTDT.cfg b/SCANassets/Parts/BTDT/BTDT.cfg index 51261f0e5..c304cb7ac 100644 --- a/SCANassets/Parts/BTDT/BTDT.cfg +++ b/SCANassets/Parts/BTDT/BTDT.cfg @@ -21,7 +21,7 @@ subcategory = 0 title = #autoLOC_SCANsat_BTDT_Title - manufacturer = #autoLOC_SCANsat_Manufacturer + manufacturer = #autoLOC_SCANsat_Agents_Name description = #autoLOC_SCANsat_BTDT_Description mass = 0.03 diff --git a/SCANassets/Parts/MULTI/MULTI.cfg b/SCANassets/Parts/MULTI/MULTI.cfg index 692893c8e..bac9d857a 100644 --- a/SCANassets/Parts/MULTI/MULTI.cfg +++ b/SCANassets/Parts/MULTI/MULTI.cfg @@ -21,7 +21,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_Multi_Title - manufacturer = #autoLOC_SCANsat_Manufacturer + manufacturer = #autoLOC_SCANsat_Agents_Name description = #autoLOC_SCANsat_Multi_Description mass = 0.03 diff --git a/SCANassets/Parts/RADAR/RADAR.cfg b/SCANassets/Parts/RADAR/RADAR.cfg index 9ecdbf945..42b03afbb 100644 --- a/SCANassets/Parts/RADAR/RADAR.cfg +++ b/SCANassets/Parts/RADAR/RADAR.cfg @@ -23,7 +23,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_Radar_Title - manufacturer = #autoLOC_SCANsat_Manufacturer + manufacturer = #autoLOC_SCANsat_Agents_Name description = #autoLOC_SCANsat_Radar_Description mass = 0.03 diff --git a/SCANassets/Parts/SAR/SAR.cfg b/SCANassets/Parts/SAR/SAR.cfg index 77eeeb638..4913f5d9c 100644 --- a/SCANassets/Parts/SAR/SAR.cfg +++ b/SCANassets/Parts/SAR/SAR.cfg @@ -21,7 +21,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_SAR_Title - manufacturer = #autoLOC_SCANsat_Manufacturer + manufacturer = #autoLOC_SCANsat_Agents_Name description = #autoLOC_SCANsat_SAR_Description mass = 0.03 From b2a6ff9adf9b5ca1a751bda4cf1af38e97ef8ac5 Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 12:10:01 -0500 Subject: [PATCH 14/19] Fixes for localized agency --- SCANassets/Parts/BTDT/BTDT.cfg | 2 +- SCANassets/Parts/MULTI/MULTI.cfg | 2 +- SCANassets/Parts/RADAR/RADAR.cfg | 2 +- SCANassets/Parts/SAR/SAR.cfg | 2 +- SCANassets/Resources/Localization/de/Flags.cfg | 4 ++-- SCANassets/Resources/Localization/en-us/Flags.cfg | 4 ++-- SCANassets/Resources/Localization/es-es/Flags.cfg | 4 ++-- SCANassets/Resources/Localization/pt-br/Flags.cfg | 4 ++-- SCANassets/Resources/Localization/ru/Flags.cfg | 4 ++-- SCANassets/Resources/Localization/zh-cn/Flags.cfg | 4 ++-- 10 files changed, 16 insertions(+), 16 deletions(-) diff --git a/SCANassets/Parts/BTDT/BTDT.cfg b/SCANassets/Parts/BTDT/BTDT.cfg index c304cb7ac..e5c53797e 100644 --- a/SCANassets/Parts/BTDT/BTDT.cfg +++ b/SCANassets/Parts/BTDT/BTDT.cfg @@ -21,7 +21,7 @@ subcategory = 0 title = #autoLOC_SCANsat_BTDT_Title - manufacturer = #autoLOC_SCANsat_Agents_Name + manufacturer = #autoLOC_SCANsat_Agents_Title description = #autoLOC_SCANsat_BTDT_Description mass = 0.03 diff --git a/SCANassets/Parts/MULTI/MULTI.cfg b/SCANassets/Parts/MULTI/MULTI.cfg index bac9d857a..df884a165 100644 --- a/SCANassets/Parts/MULTI/MULTI.cfg +++ b/SCANassets/Parts/MULTI/MULTI.cfg @@ -21,7 +21,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_Multi_Title - manufacturer = #autoLOC_SCANsat_Agents_Name + manufacturer = #autoLOC_SCANsat_Agents_Title description = #autoLOC_SCANsat_Multi_Description mass = 0.03 diff --git a/SCANassets/Parts/RADAR/RADAR.cfg b/SCANassets/Parts/RADAR/RADAR.cfg index 42b03afbb..0e272008a 100644 --- a/SCANassets/Parts/RADAR/RADAR.cfg +++ b/SCANassets/Parts/RADAR/RADAR.cfg @@ -23,7 +23,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_Radar_Title - manufacturer = #autoLOC_SCANsat_Agents_Name + manufacturer = #autoLOC_SCANsat_Agents_Title description = #autoLOC_SCANsat_Radar_Description mass = 0.03 diff --git a/SCANassets/Parts/SAR/SAR.cfg b/SCANassets/Parts/SAR/SAR.cfg index 4913f5d9c..077d3bf11 100644 --- a/SCANassets/Parts/SAR/SAR.cfg +++ b/SCANassets/Parts/SAR/SAR.cfg @@ -21,7 +21,7 @@ PART subcategory = 0 title = #autoLOC_SCANsat_SAR_Title - manufacturer = #autoLOC_SCANsat_Agents_Name + manufacturer = #autoLOC_SCANsat_Agents_Title description = #autoLOC_SCANsat_SAR_Description mass = 0.03 diff --git a/SCANassets/Resources/Localization/de/Flags.cfg b/SCANassets/Resources/Localization/de/Flags.cfg index 5ff6c2b62..a89c712b2 100644 --- a/SCANassets/Resources/Localization/de/Flags.cfg +++ b/SCANassets/Resources/Localization/de/Flags.cfg @@ -2,8 +2,8 @@ { de { - #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Scientific Committee on Advanced Navigation #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Flags.cfg b/SCANassets/Resources/Localization/en-us/Flags.cfg index 84abd3624..d02038c09 100644 --- a/SCANassets/Resources/Localization/en-us/Flags.cfg +++ b/SCANassets/Resources/Localization/en-us/Flags.cfg @@ -2,8 +2,8 @@ { en-us { - #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Scientific Committee on Advanced Navigation #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Flags.cfg b/SCANassets/Resources/Localization/es-es/Flags.cfg index b219744d0..517d218c7 100644 --- a/SCANassets/Resources/Localization/es-es/Flags.cfg +++ b/SCANassets/Resources/Localization/es-es/Flags.cfg @@ -2,8 +2,8 @@ { es-es { - #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Scientific Committee on Advanced Navigation #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/pt-br/Flags.cfg b/SCANassets/Resources/Localization/pt-br/Flags.cfg index 40e401545..317a6c9c7 100644 --- a/SCANassets/Resources/Localization/pt-br/Flags.cfg +++ b/SCANassets/Resources/Localization/pt-br/Flags.cfg @@ -2,8 +2,8 @@ { pt-br { - #autoLOC_SCANsat_Agents_Name = SCAN: Comitê Científico de Navegação Avançada - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Comitê Científico de Navegação Avançada #autoLOC_SCANsat_Agents_Description = A agência SCAN dedica-se a mapear e pesquisar todos os planetas no sistema solar. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Flags.cfg b/SCANassets/Resources/Localization/ru/Flags.cfg index 27a3711a8..db819b6d3 100644 --- a/SCANassets/Resources/Localization/ru/Flags.cfg +++ b/SCANassets/Resources/Localization/ru/Flags.cfg @@ -2,8 +2,8 @@ { ru { - #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Scientific Committee on Advanced Navigation #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Flags.cfg b/SCANassets/Resources/Localization/zh-cn/Flags.cfg index 457cddc0a..a1324f0c4 100644 --- a/SCANassets/Resources/Localization/zh-cn/Flags.cfg +++ b/SCANassets/Resources/Localization/zh-cn/Flags.cfg @@ -2,8 +2,8 @@ { zh-cn { - #autoLOC_SCANsat_Agents_Name = SCAN: Scientific Committee on Advanced Navigation - #autoLOC_SCANsat_Agents_Title = SCAN + #autoLOC_SCANsat_Agents_Name = SCAN + #autoLOC_SCANsat_Agents_Title = SCAN: Scientific Committee on Advanced Navigation #autoLOC_SCANsat_Agents_Description = The SCAN agency is dedicated to mapping and surveying every planet in the solar system. } } \ No newline at end of file From 4a732e8a53f29e2144629396eaaa2d1f17bebadf Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 12:10:42 -0500 Subject: [PATCH 15/19] Unused localizations; typo --- SCANassets/Resources/Localization/de/Parts.cfg | 7 +------ SCANassets/Resources/Localization/en-us/Parts.cfg | 2 +- SCANassets/Resources/Localization/es-es/Parts.cfg | 7 +------ SCANassets/Resources/Localization/pt-br/Parts.cfg | 5 ----- SCANassets/Resources/Localization/ru/Parts.cfg | 7 +------ SCANassets/Resources/Localization/zh-cn/Parts.cfg | 7 +------ 6 files changed, 5 insertions(+), 30 deletions(-) diff --git a/SCANassets/Resources/Localization/de/Parts.cfg b/SCANassets/Resources/Localization/de/Parts.cfg index e4ae327eb..e1e5d1a4e 100644 --- a/SCANassets/Resources/Localization/de/Parts.cfg +++ b/SCANassets/Resources/Localization/de/Parts.cfg @@ -2,14 +2,9 @@ { de { - #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation - - #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Title = SCAN Been There Done That® #autoLOC_SCANsat_BTDT_Description = Dieser kleine Sensor kann automatisch Anomalien in geringer Entfernung identifizieren. Da er nur auf sehr kurzen Reichweiten arbeitet, ist er hauptsächlich zum detaillierten scannen bereits aufgespürter Anomalien nützlich. - #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® - #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. - #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor #autoLOC_SCANsat_Multi_Description = Dieser Multispektrale Mehrkanalsensor detektiert Strahlung über mehrere Infrarot, visuelle und Radar-Frequenzbänder. Dies gibt ihm die Fähigkeit zwischen verschiedenen Biomen und Geländearten zu unterscheiden. Ebenso kann er Anomalien und Strukturen auf dem Boden detektieren. diff --git a/SCANassets/Resources/Localization/en-us/Parts.cfg b/SCANassets/Resources/Localization/en-us/Parts.cfg index bcc370e3a..c2fdd3f89 100644 --- a/SCANassets/Resources/Localization/en-us/Parts.cfg +++ b/SCANassets/Resources/Localization/en-us/Parts.cfg @@ -2,7 +2,7 @@ { en-us { - #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Title = SCAN Been There Done That® #autoLOC_SCANsat_BTDT_Description = This small sensor can automatically identify nearby anomalies. Since it only works over very short distances and at very low altitudes, it's primarily useful to track identified anomalies that have been visited. #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor diff --git a/SCANassets/Resources/Localization/es-es/Parts.cfg b/SCANassets/Resources/Localization/es-es/Parts.cfg index fc897af87..8d4efd903 100644 --- a/SCANassets/Resources/Localization/es-es/Parts.cfg +++ b/SCANassets/Resources/Localization/es-es/Parts.cfg @@ -2,14 +2,9 @@ { en-us { - #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation - - #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Title = SCAN Been There Done That® #autoLOC_SCANsat_BTDT_Description = Este pequeño sensor puede detectar automáticamente anomalias cercanas. Ya que solo trabaja a muy corta distancia y a muy baja altitud, es principalmente útil para tener un historial de las anomalias identificadas que han sido visitadas. - #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® - #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. - #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor #autoLOC_SCANsat_Multi_Description = Este sensor multicanal detecta radiación a través de bandas de infrarojo, luz visible y RADAR. Esto le da la capacidad de diferenciar entre diferentes tipos de terrenos y biomas. También puesde detectar anomalias tales como estructuras en el suelo. diff --git a/SCANassets/Resources/Localization/pt-br/Parts.cfg b/SCANassets/Resources/Localization/pt-br/Parts.cfg index a935ab21d..b0262f373 100644 --- a/SCANassets/Resources/Localization/pt-br/Parts.cfg +++ b/SCANassets/Resources/Localization/pt-br/Parts.cfg @@ -2,14 +2,9 @@ { pt-br { - #autoLOC_SCANsat_Manufacturer = SCAN: Comitê Científico de Navegação Avançada - #autoLOC_SCANsat_BTDT_Title = SCAN Já Foi Feito Isso® #autoLOC_SCANsat_BTDT_Description = Este pequeno sensor pode detectar automaticamente anomalias na proximidade. Funcionando apenas em baixa altitude e a pequenas distancias, é muito útil para identificar anomalias que já foram visitadas. - #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® - #autoLOC_SCANsat_MPTQ_Description = Originalmente destinado ao mercado consumidor, este pequeno dispositivo pode se comunicar com uma rede de satélites de mapeamento e exibir um mapa e sua posição nele. Como ninguém realmente construiu essa rede de satélites, esses dispositivos podem atualmente ser adquiridos de forma muito barata a granel. - #autoLOC_SCANsat_Multi_Title = SCAN Sensor Multispectral #autoLOC_SCANsat_Multi_Description = Este sensor multicanal detecta a radiação através de luzes infravermelhas, visíveis e RADAR. Isso lhe dá a capacidade de diferenciar entre diferentes tipos de terrenos e biomas. Além disso, detecta anomalias como estruturas no solo. diff --git a/SCANassets/Resources/Localization/ru/Parts.cfg b/SCANassets/Resources/Localization/ru/Parts.cfg index 59c70cac2..e80e9628e 100644 --- a/SCANassets/Resources/Localization/ru/Parts.cfg +++ b/SCANassets/Resources/Localization/ru/Parts.cfg @@ -2,14 +2,9 @@ { ru { - #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation - - #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Title = SCAN Been There Done That® #autoLOC_SCANsat_BTDT_Description = Этот небольшой датчик может автоматически идентифицировать близлежащие аномалии. Поскольку он работает только на очень коротких расстояниях и на очень малых высотах, в первую очередь рекомендуется распознать уже выявленные аномалии. - #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® - #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. - #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor #autoLOC_SCANsat_Multi_Description = Этот многоканальный датчик детектирует излучение на инфракрасном, световом и радио диапазонах. Это позволяет различать при сканировании типы ландшафтов и биомы небесного тела, а так же обнаруживать аномалии, такие как структуры на поверхности. diff --git a/SCANassets/Resources/Localization/zh-cn/Parts.cfg b/SCANassets/Resources/Localization/zh-cn/Parts.cfg index b08bbb76b..e5fe584fb 100644 --- a/SCANassets/Resources/Localization/zh-cn/Parts.cfg +++ b/SCANassets/Resources/Localization/zh-cn/Parts.cfg @@ -2,14 +2,9 @@ { zh-ch { - #autoLOC_CCANsat_BTDT_Manufacturer = SCAN: Scientific Committee on Advanced Navigation - - #autoLOC_CCANsat_BTDT_Title = SCAN Been There Done That® + #autoLOC_SCANsat_BTDT_Title = SCAN Been There Done That® #autoLOC_SCANsat_BTDT_Description = 这个小的传感器能自动识别附近的异常,就算它只在非常短的距离内和非常低的高度上工作,可用于跟踪已识别的异常点,非常有用。 - #autoLOC_SCANsat_MPTQ_Title = SCAN MapTraq® - #autoLOC_SCANsat_MPTQ_Description = Originally intended for the consumer market, this small device can communicate with a mapping satellite network and display a map and your position on it. Since nobody has actually built such a satellite network, these devices can currently be acquired very cheaply in bulk. - #autoLOC_SCANsat_Multi_Title = SCAN Multispectral Sensor #autoLOC_SCANsat_Multi_Description = 这个多谱段传感器检测到的辐射包括了红外波段,可见光波段与雷达波段,这给了它区分地形类型和生物群系的能力。它也可以用于扫描异常点,比如地表特殊结构。 From 3d3a368afff861aa68b1635e3081bf2d468e027f Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 12:11:00 -0500 Subject: [PATCH 16/19] Contract localization typos --- .../Resources/Contracts/Exceptional.cfg | 2 +- .../Resources/Contracts/Significant.cfg | 20 +++++------ SCANassets/Resources/Contracts/Trivial.cfg | 16 ++++----- .../Resources/Localization/de/Contracts.cfg | 32 +++++++++--------- .../Localization/en-us/Contracts.cfg | 33 +++++++++---------- .../Localization/es-es/Contracts.cfg | 33 +++++++++---------- .../Localization/pt-br/Contracts.cfg | 33 +++++++++---------- .../Resources/Localization/ru/Contracts.cfg | 33 +++++++++---------- .../Localization/zh-cn/Contracts.cfg | 33 +++++++++---------- 9 files changed, 115 insertions(+), 120 deletions(-) diff --git a/SCANassets/Resources/Contracts/Exceptional.cfg b/SCANassets/Resources/Contracts/Exceptional.cfg index c66371806..3c4be8503 100644 --- a/SCANassets/Resources/Contracts/Exceptional.cfg +++ b/SCANassets/Resources/Contracts/Exceptional.cfg @@ -6,7 +6,7 @@ CONTRACT_TYPE group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Name + agent = #autoLOC_SCANsat_Agents_Title notes = #autoLOC_SCANsat_exceptional0003 synopsis = #autoLOC_SCANsat_exceptional0004 completedMessage = #autoLOC_SCANsat_exceptional0005 diff --git a/SCANassets/Resources/Contracts/Significant.cfg b/SCANassets/Resources/Contracts/Significant.cfg index d3b669f7a..975d50cf9 100644 --- a/SCANassets/Resources/Contracts/Significant.cfg +++ b/SCANassets/Resources/Contracts/Significant.cfg @@ -1,15 +1,15 @@ CONTRACT_TYPE { name = SCAN_Significant - title = #autoLOC_SACNsat_significant_0001 - genericTitle = #autoLOC_SACNsat_significant_0002 + title = #autoLOC_SCANsat_significant_0001 + genericTitle = #autoLOC_SCANsat_significant_0002 group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Name - notes = #autoLOC_SACNsat_significant_0003 - synopsis = #autoLOC_SACNsat_significant_0004 - completedMessage = #autoLOC_SACNsat_significant_0005 + agent = #autoLOC_SCANsat_Agents_Title + notes = #autoLOC_SCANsat_significant_0003 + synopsis = #autoLOC_SCANsat_significant_0004 + completedMessage = #autoLOC_SCANsat_significant_0005 minExpiry = 1 maxExpiry = 7 deadline = Random(300, 500) * @/targetBodyValid2.Multiplier() @@ -85,7 +85,7 @@ CONTRACT_TYPE minCoverage = 0.0 maxCoverage = 80 scanType = AltimetryLoRes - title = #autoLOC_SACNsat_significant_0006 + title = #autoLOC_SCANsat_significant_0006 } REQUIREMENT { @@ -95,7 +95,7 @@ CONTRACT_TYPE minCoverage = 0.0 maxCoverage = 80 scanType = Biome - title = #autoLOC_SACNsat_significant_0007 + title = #autoLOC_SCANsat_significant_0007 } REQUIREMENT { @@ -105,14 +105,14 @@ CONTRACT_TYPE minCoverage = 0.0 maxCoverage = 80 scanType = FuzzyResources - title = #autoLOC_SACNsat_significant_0008 + title = #autoLOC_SCANsat_significant_0008 } } REQUIREMENT { name = Expression_1 type = Expression - title = #autoLOC_SACNsat_significant_0009 + title = #autoLOC_SCANsat_significant_0009 expression = @/targetBodyList2.Contains(@/targetBodyValid2) == true } REQUIREMENT diff --git a/SCANassets/Resources/Contracts/Trivial.cfg b/SCANassets/Resources/Contracts/Trivial.cfg index e5c6a4d26..fc7522e68 100644 --- a/SCANassets/Resources/Contracts/Trivial.cfg +++ b/SCANassets/Resources/Contracts/Trivial.cfg @@ -1,15 +1,15 @@ CONTRACT_TYPE { name = SCAN_Trivial - title = #autoLOC_SACNsat_trivial_0001 - genericTitle = #autoLOC_SACNsat_trivial_0002 + title = #autoLOC_SCANsat_trivial_0001 + genericTitle = #autoLOC_SCANsat_trivial_0002 group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Name - notes = #autoLOC_SACNsat_trivial_0003 - synopsis = #autoLOC_SACNsat_trivial_0004 - completedMessage = #autoLOC_SACNsat_trivial_0005 + agent = #autoLOC_SCANsat_Agents_Title + notes = #autoLOC_SCANsat_trivial_0003 + synopsis = #autoLOC_SCANsat_trivial_0004 + completedMessage = #autoLOC_SCANsat_trivial_0005 minExpiry = 1 maxExpiry = 7 deadline = Random(300, 500) * @/targetBodyValid1.Multiplier() @@ -50,7 +50,7 @@ CONTRACT_TYPE { type = CelestialBody requiredValue = true - title = #autoLOC_SACNsat_trivial_0006 + title = #autoLOC_SCANsat_trivial_0006 uniquenessCheck = CONTRACT_ALL targetBodyValid1 = @/targetBody1 } @@ -71,7 +71,7 @@ CONTRACT_TYPE minCoverage = 0.0 maxCoverage = 70 scanType = @/scanString1 - title = #autoLOC_SACNsat_trivial_0007 + title = #autoLOC_SCANsat_trivial_0007 } REQUIREMENT { diff --git a/SCANassets/Resources/Localization/de/Contracts.cfg b/SCANassets/Resources/Localization/de/Contracts.cfg index 8bdb2f862..66b3b6c9a 100644 --- a/SCANassets/Resources/Localization/de/Contracts.cfg +++ b/SCANassets/Resources/Localization/de/Contracts.cfg @@ -15,25 +15,25 @@ // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. - #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. - #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. - #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. - #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + #autoLOC_SCANsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SCANsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SCANsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SCANsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SCANsat_significant_0009 = Must have orbited the target body. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. - #autoLOC_SACNsat_trivial_0006 = Target is part of home system. - #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. + #autoLOC_SCANsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SCANsat_trivial_0006 = Target is part of home system. + #autoLOC_SCANsat_trivial_0007 = Must have scanned less than 70% of the target body. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/en-us/Contracts.cfg b/SCANassets/Resources/Localization/en-us/Contracts.cfg index 7d6a59547..49f136047 100644 --- a/SCANassets/Resources/Localization/en-us/Contracts.cfg +++ b/SCANassets/Resources/Localization/en-us/Contracts.cfg @@ -15,25 +15,24 @@ // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. - #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. - #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. - #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. - #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + #autoLOC_SCANsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SCANsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SCANsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SCANsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SCANsat_significant_0009 = Must have orbited the target body. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. - #autoLOC_SACNsat_trivial_0006 = Target is part of home system. - #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. - + #autoLOC_SCANsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SCANsat_trivial_0006 = Target is part of home system. + #autoLOC_SCANsat_trivial_0007 = Must have scanned less than 70% of the target body. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/es-es/Contracts.cfg b/SCANassets/Resources/Localization/es-es/Contracts.cfg index 8242319a3..634a41b1f 100644 --- a/SCANassets/Resources/Localization/es-es/Contracts.cfg +++ b/SCANassets/Resources/Localization/es-es/Contracts.cfg @@ -15,25 +15,24 @@ // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. - #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. - #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. - #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. - #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + #autoLOC_SCANsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SCANsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SCANsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SCANsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SCANsat_significant_0009 = Must have orbited the target body. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. - #autoLOC_SACNsat_trivial_0006 = Target is part of home system. - #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. - + #autoLOC_SCANsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SCANsat_trivial_0006 = Target is part of home system. + #autoLOC_SCANsat_trivial_0007 = Must have scanned less than 70% of the target body. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/pt-br/Contracts.cfg b/SCANassets/Resources/Localization/pt-br/Contracts.cfg index 90e0e6c12..8b0c0f571 100644 --- a/SCANassets/Resources/Localization/pt-br/Contracts.cfg +++ b/SCANassets/Resources/Localization/pt-br/Contracts.cfg @@ -15,25 +15,24 @@ . // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. - #autoLOC_SACNsat_significant_0004 = Execute várias varreduras em @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excelente trabalho, essas varreduras fornecerão dados valiosos para nossas equipes de pesquisa. - #autoLOC_SACNsat_significant_0006 = Necessário menos de 80% de varredura altimétrica de baixa resolução do alvo. - #autoLOC_SACNsat_significant_0007 = Necessário menos de 80% de varredura de bioma do alvo. - #autoLOC_SACNsat_significant_0008 = Necessário menos de 80% de varredura de recursos M700 do alvo. - #autoLOC_SACNsat_significant_0009 = Necessário ter orbitado o alvo. + #autoLOC_SCANsat_significant_0001 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Conduza um levantamento de pesquisas SCANsat em @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. + #autoLOC_SCANsat_significant_0004 = Execute várias varreduras em @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excelente trabalho, essas varreduras fornecerão dados valiosos para nossas equipes de pesquisa. + #autoLOC_SCANsat_significant_0006 = Necessário menos de 80% de varredura altimétrica de baixa resolução do alvo. + #autoLOC_SCANsat_significant_0007 = Necessário menos de 80% de varredura de bioma do alvo. + #autoLOC_SCANsat_significant_0008 = Necessário menos de 80% de varredura de recursos M700 do alvo. + #autoLOC_SCANsat_significant_0009 = Necessário ter orbitado o alvo. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. - #autoLOC_SACNsat_trivial_0004 = Conduza uma varredura simples em @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excelente trabalho, esta simples pesquisa dará muito material de estudo aos nossos especialistas. - #autoLOC_SACNsat_trivial_0006 = O alvo é parte do sistema doméstico. - #autoLOC_SACNsat_trivial_0007 = Necessário ter escaneado menos de 70% do alvo. - + #autoLOC_SCANsat_trivial_0001 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduza uma pesquisa SCANsat de @/scanReadString1 em @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = A digitalização pode ocorrer enquanto o nave não estiver carregada. + #autoLOC_SCANsat_trivial_0004 = Conduza uma varredura simples em @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excelente trabalho, esta simples pesquisa dará muito material de estudo aos nossos especialistas. + #autoLOC_SCANsat_trivial_0006 = O alvo é parte do sistema doméstico. + #autoLOC_SCANsat_trivial_0007 = Necessário ter escaneado menos de 70% do alvo. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/ru/Contracts.cfg b/SCANassets/Resources/Localization/ru/Contracts.cfg index 39cea4d30..c60ff2d45 100644 --- a/SCANassets/Resources/Localization/ru/Contracts.cfg +++ b/SCANassets/Resources/Localization/ru/Contracts.cfg @@ -15,25 +15,24 @@ // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. - #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. - #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. - #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. - #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + #autoLOC_SCANsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SCANsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SCANsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SCANsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SCANsat_significant_0009 = Must have orbited the target body. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. - #autoLOC_SACNsat_trivial_0006 = Target is part of home system. - #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. - + #autoLOC_SCANsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SCANsat_trivial_0006 = Target is part of home system. + #autoLOC_SCANsat_trivial_0007 = Must have scanned less than 70% of the target body. } } \ No newline at end of file diff --git a/SCANassets/Resources/Localization/zh-cn/Contracts.cfg b/SCANassets/Resources/Localization/zh-cn/Contracts.cfg index f7e4de6b0..caed845b7 100644 --- a/SCANassets/Resources/Localization/zh-cn/Contracts.cfg +++ b/SCANassets/Resources/Localization/zh-cn/Contracts.cfg @@ -15,25 +15,24 @@ // *** Significant *** - #autoLOC_SACNsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. - #autoLOC_SACNsat_significant_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_significant_0004 = Perform several scans of @/targetBodyValid2 - #autoLOC_SACNsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. - #autoLOC_SACNsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. - #autoLOC_SACNsat_significant_0007 = Must have less than an 80% biome scan of the target body. - #autoLOC_SACNsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. - #autoLOC_SACNsat_significant_0009 = Must have orbited the target body. + #autoLOC_SCANsat_significant_0001 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0002 = Do a group of SCANsat surveys of @/targetBodyValid2. + #autoLOC_SCANsat_significant_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_significant_0004 = Perform several scans of @/targetBodyValid2 + #autoLOC_SCANsat_significant_0005 = Excellent work, these scans will provide much valuable data for our survey teams. + #autoLOC_SCANsat_significant_0006 = Must have less than an 80% low resolution altimetry scan of the target body. + #autoLOC_SCANsat_significant_0007 = Must have less than an 80% biome scan of the target body. + #autoLOC_SCANsat_significant_0008 = Must have less than an 80% M700 resources scan of the target body. + #autoLOC_SCANsat_significant_0009 = Must have orbited the target body. // *** Trivial *** - #autoLOC_SACNsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. - #autoLOC_SACNsat_trivial_0003 = Scanning can take place while the vessel is not loaded. - #autoLOC_SACNsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 - #autoLOC_SACNsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. - #autoLOC_SACNsat_trivial_0006 = Target is part of home system. - #autoLOC_SACNsat_trivial_0007 = Must have scanned less than 70% of the target body. - + #autoLOC_SCANsat_trivial_0001 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0002 = Conduct @/scanReadString1 SCANsat survey of @/targetBodyValid1. + #autoLOC_SCANsat_trivial_0003 = Scanning can take place while the vessel is not loaded. + #autoLOC_SCANsat_trivial_0004 = Perform a simple scan of @/targetBodyValid1 + #autoLOC_SCANsat_trivial_0005 = Excellent work, this simple survey will give our experts much to study. + #autoLOC_SCANsat_trivial_0006 = Target is part of home system. + #autoLOC_SCANsat_trivial_0007 = Must have scanned less than 70% of the target body. } } \ No newline at end of file From 263ed0698d7fafa28273209a381e4e0270c9057f Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 12:15:56 -0500 Subject: [PATCH 17/19] Contract agency name --- SCANassets/Resources/Contracts/Exceptional.cfg | 2 +- SCANassets/Resources/Contracts/Significant.cfg | 2 +- SCANassets/Resources/Contracts/Trivial.cfg | 2 +- 3 files changed, 3 insertions(+), 3 deletions(-) diff --git a/SCANassets/Resources/Contracts/Exceptional.cfg b/SCANassets/Resources/Contracts/Exceptional.cfg index 3c4be8503..c66371806 100644 --- a/SCANassets/Resources/Contracts/Exceptional.cfg +++ b/SCANassets/Resources/Contracts/Exceptional.cfg @@ -6,7 +6,7 @@ CONTRACT_TYPE group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Title + agent = #autoLOC_SCANsat_Agents_Name notes = #autoLOC_SCANsat_exceptional0003 synopsis = #autoLOC_SCANsat_exceptional0004 completedMessage = #autoLOC_SCANsat_exceptional0005 diff --git a/SCANassets/Resources/Contracts/Significant.cfg b/SCANassets/Resources/Contracts/Significant.cfg index 975d50cf9..7edb1284b 100644 --- a/SCANassets/Resources/Contracts/Significant.cfg +++ b/SCANassets/Resources/Contracts/Significant.cfg @@ -6,7 +6,7 @@ CONTRACT_TYPE group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Title + agent = #autoLOC_SCANsat_Agents_Name notes = #autoLOC_SCANsat_significant_0003 synopsis = #autoLOC_SCANsat_significant_0004 completedMessage = #autoLOC_SCANsat_significant_0005 diff --git a/SCANassets/Resources/Contracts/Trivial.cfg b/SCANassets/Resources/Contracts/Trivial.cfg index fc7522e68..aa85acfc7 100644 --- a/SCANassets/Resources/Contracts/Trivial.cfg +++ b/SCANassets/Resources/Contracts/Trivial.cfg @@ -6,7 +6,7 @@ CONTRACT_TYPE group = ScanSatOfficial topic = Science subject = Kerbal - agent = #autoLOC_SCANsat_Agents_Title + agent = #autoLOC_SCANsat_Agents_Name notes = #autoLOC_SCANsat_trivial_0003 synopsis = #autoLOC_SCANsat_trivial_0004 completedMessage = #autoLOC_SCANsat_trivial_0005 From 35d2a63b24af989f81ba990769c599d3bf8c0347 Mon Sep 17 00:00:00 2001 From: DMagic Date: Wed, 7 Feb 2018 12:16:00 -0500 Subject: [PATCH 18/19] Changes --- SCANsat/CHANGELOG.txt | 15 +++++++++++++++ 1 file changed, 15 insertions(+) diff --git a/SCANsat/CHANGELOG.txt b/SCANsat/CHANGELOG.txt index 2aa5a0664..7859fa675 100644 --- a/SCANsat/CHANGELOG.txt +++ b/SCANsat/CHANGELOG.txt @@ -1,3 +1,18 @@ +Version 18.3 - 2018-2-7 +----------------------- + +- Complete Portuguese translations +- Updates to localization files + - Parts, manufacturer/flag and contract localization + +- Calculate scanning coverage based on approximation of actual spherical surface area instead of simple rectangular area + - Affects contract completion and science data collection + +- Fix bugs related to some resources for the big map +- Fix bugs in Overdrive compatibility +- Fix long resource and planet names in drop down menus + + Version 18.2 - 2017-11-22 ----------------------- From 4042ea2f3bb9f79bad466b671afbd0c75b45132f Mon Sep 17 00:00:00 2001 From: DMagic Date: Thu, 8 Feb 2018 09:21:35 -0500 Subject: [PATCH 19/19] Update README.md --- README.md | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/README.md b/README.md index c76bb3452..d2b99f36d 100644 --- a/README.md +++ b/README.md @@ -863,9 +863,9 @@ sneaky then they can of course be sneaky. [shield:jenkins-dev]: http://img.shields.io/jenkins/s/https/ksp.sarbian.com/jenkins/SCANsat-dev.svg [shield:jenkins-rel]: http://img.shields.io/jenkins/s/https/ksp.sarbian.com/jenkins/SCANsat-release.svg -[shield:support-ksp]: http://img.shields.io/badge/for%20KSP-v1.2.1-bad455.svg +[shield:support-ksp]: http://img.shields.io/badge/for%20KSP-v1.3.1-bad455.svg [shield:support-rpm]: http://img.shields.io/badge/works%20with%20RPM-v0.28.x-a31f34.svg -[shield:support-mm]: http://img.shields.io/badge/works%20with%20MM-v2.7.x-40b7c0.svg +[shield:support-mm]: http://img.shields.io/badge/works%20with%20MM-v3.x-40b7c0.svg [shield:support-toolbar]: http://img.shields.io/badge/works%20with%20Blizzy's%20Toolbar-1.7.x-7c69c0.svg [shield:support-alcor]: http://img.shields.io/badge/works%20with%20ALCOR-0.9-299bc7.svg [shield:support-kspi]: http://img.shields.io/badge/works%20with%20Interstellar-1.x-a62374.svg