A python parser for the FAA CIFP.
Install using pip
:
pip install cifparse
Usage is relatively straightforward. Setting the path to the file can be somewhat finnicky, as it will only accept relative paths. To keep things simple, place the CIFP file in your project directory. Otherwise, if you want to go up several folders into a download folder, it might end up looking like ../../../../Downloads/FAACIFP18
.
Given the amount of data, parsing can take a moment. If dumping the data to a file, that can also add time. Dumping every airport to JSON can take around 15 seconds, and the resulting file is about 330MB.
Start by importing cifparse
, setting the path to the CIFP file, and then parsing the data.
import cifparse
# Initialize the parser:
from cifparse import CIFP
# Set the path to where you have the CIFP file:
c = CIFP("FAACIFP18")
# Parse the data in the file:
c.parse()
# ...or to save time, parse only a specific subset:
c.parse_airports()
c.parse_heliports()
c.parse_ndbs()
c.parse_airways()
c.parse_vhf_dmes()
c.parse_waypoints()
c.parse_controlled()
c.parse_restrictive()
After parsing the data, the results will be in the CIFP object, accessible via getters that return lists of the objects.
all_airports = c.get_airports()
all_heliports = c.get_heliports()
all_airways = c.get_airways()
all_ndbs = c.get_ndbs()
all_vordmes = c.get_vhf_dmes()
all_waypoints = c.get_waypoints()
all_controlled = c.get_controlled()
all_restrictive = c.get_restrictive()
airport = c.find_airport("KIAD")
heliport = c.find_heliport("DC03")
airway = c.find_airway("J146")
ndb = c.find_ndb("GTN")
vor = c.find_vhf_dme("AML")
fix = c.find_waypoint("RAVNN")
dc_class_b = c.find_controlled("KDCA")
roa_class_c = c.find_controlled("KROA")
cho_class_d = c.find_controlled("KCHO")
moa = c.find_restrictive("DEMO 1 MOA")
# Because the Alert, MOA, Restricted, and Warning airspace can occasionally be named oddly,
# there is an additional helper function that finds all matches of a particular substring:
all_5314 = c.find_restrictive_match("5314")
# Returns: [R-5314A, R-5314B, R-5314C, R-5314D, R-5314E, R-5314F, R-5314H, R-5314J]
Each object has its own to_dict()
method. This is useful when you need to dump the data to json:
airport = c.find_airport("KIAD")
with open("output.json", "w") as json_file:
json.dump(airport.to_dict(), json_file, indent=2)
An example file is provided in the Examples directory. It demonstrates parsing all of the CIFP data, finding an airport within the data, and then looping through the SID and STAR data to create a geoJSON file for each.
A breakdown of the different objects can be found in the Docs directory.