A highly configurable OpenAIR parser for Node. The parser can also be configured to validate and fix defined geometries. The parser supports the original and the extended OpenAIR format.
AC R
AN ED-R10B Todendorf-Putlos MON-SAT+
AH 40000ft MSL
AL GND
DP 54:25:00 N 010:40:00 E
DP 54:25:00 N 010:50:00 E
DP 54:26:00 N 010:53:00 E
DP 54:19:30 N 010:53:00 E
DP 54:15:00 N 010:41:00 E
DP 54:15:19 N 010:40:00 E
DP 54:20:00 N 010:40:00 E
DP 54:25:00 N 010:40:00 E
Outputs GeoJSON FeatureCollection:
{
"type": "FeatureCollection",
"features": [
{
"type": "Feature",
"properties": {
"name": "ED-R10B Todendorf-Putlos MON-SAT+",
"class": "R",
"upperCeiling": {
"value": 40000,
"unit": "FT",
"referenceDatum": "MSL"
},
"lowerCeiling": {
"value": 0,
"unit": "FT",
"referenceDatum": "GND"
}
},
"geometry": {
"type": "Polygon",
"coordinates": [
[
[10.666666666666666, 54.416666666666664],
[10.833333333333334, 54.416666666666664],
[10.883333333333333, 54.43333333333333],
[10.883333333333333, 54.325],
[10.683333333333334, 54.25],
[10.666666666666666, 54.25527777777778],
[10.666666666666666, 54.333333333333336],
[10.666666666666666, 54.416666666666664]
]
]
}
}
]
}
AC D
AY TMA
AN TMA Todendorf-Putlos
AI b3836bab-6bc3-48c1-b918-01c2559e26fa
AF 123.505
AG Todendorf Information
AH 40000ft MSL
AL GND
DP 54:25:00 N 010:40:00 E
DP 54:25:00 N 010:50:00 E
DP 54:26:00 N 010:53:00 E
DP 54:19:30 N 010:53:00 E
DP 54:15:00 N 010:41:00 E
DP 54:15:19 N 010:40:00 E
DP 54:20:00 N 010:40:00 E
DP 54:25:00 N 010:40:00 E
Outputs GeoJSON FeatureCollection:
{
"type": "FeatureCollection",
"features": [
{
"type": "Feature",
"properties": {
"id": "b3836bab-6bc3-48c1-b918-01c2559e26fa",
"name": "TMA Todendorf-Putlos",
"class": "D",
"type": "TMA",
"frequency": {
"value": "123.505",
"name": "Todendorf Information"
},
"upperCeiling": {
"value": 40000,
"unit": "FT",
"referenceDatum": "MSL"
},
"lowerCeiling": {
"value": 0,
"unit": "FT",
"referenceDatum": "GND"
}
},
"geometry": {
"type": "Polygon",
"coordinates": [
[
[10.666666666666666, 54.416666666666664],
[10.833333333333334, 54.416666666666664],
[10.883333333333333, 54.43333333333333],
[10.883333333333333, 54.325],
[10.683333333333334, 54.25],
[10.666666666666666, 54.25527777777778],
[10.666666666666666, 54.333333333333336],
[10.666666666666666, 54.416666666666664]
]
]
}
}
]
}
npm install -g @openaip/openair-parser
const Parser = require('@openaip/openair-parser');
/*
The default parser configuration for reference.
*/
const config = {
// Defines allowed airspace classes used with the AC token. This configuration option only applies if the
// standard "non-extended" format is used, i.e. with the config parameter "extendedFormat: false".
airspaceClasses: [
// default ICAO classes
'A',
'B',
'C',
'D',
'E',
'F',
'G',
// classes commonly found in openair files
'R',
'Q',
'P',
'GP',
'WAVE',
'W',
'GLIDING',
'RMZ',
'TMZ',
'CTR',
],
// If "true" the parser will try to parse the extended OpenAIR-Format that contains additional tags
// "AY", "AF", "AG" and "AI". If true, config parameters "allowedClassValues" and "allowedTypeValues" are
// mandatory.
extendedFormat: false,
// defines a set of allowed values if the extended format is used - default ICAO classes.
extendedFormatClasses: ['A', 'B', 'C', 'D', 'E', 'F', 'G', 'UNCLASSIFIED'],
// Defines a set of allowed "AY" values if the extended format is used. Otherwise, allows all used types.
extendedFormatTypes: [],
// flight level value to set for upper ceilings defined as "UNLIMITED"
unlimited: 999,
// defines the level of detail (smoothness) of arc/circular geometries
geometryDetail: 100,
// if true, validates each built airspace geometry to be valid/simple geometry - also checks for self intersections
validateGeometry: true,
// if true, uses "convexHull" to fix an invalid geometry - note that this may change the original airspace geometry!
fixGeometry: false,
// Sets the output geometry. Can be either "POLYGON" or "LINESTRING". Defaults to "POLYGON". "LINESTRING" can be used
// to visualize invalid geometry definitions. Note that "validateGeometry" and "fixGeometry" has NO effect on "LINESTRING" geometry output!
outputGeometry: 'POLYGON',
// If true, the GeoJSON output will contain the original OpenAIR airspace definition block for each airspace. Note that this will considerably increase JSON object size!
includeOpenair: false,
// By default, parser uses 'ft' (feet) as the default unit if not explicitly defined in AL/AH definitions. Allowed units are: 'ft' and 'm'.
defaultAltUnit: 'ft',
// Defines the target unit to convert to. Allowed units are: 'ft' and 'm'.
targetAltUnit: 'ft',
// round altitude values
roundAltValues: false,
};
const parser = new Parser(config);
await parser.parse('./path/to/openair-file.txt');
const geojson = parser.toGeojson();
The original OpenAIR format specification has multiple shortcomings to meet today's demand to reflect the various types of existing airspaces and provide additional metadata. To overcome these shortcomings, an extended OpenAIR format is introduced that has several new tags.
An optional tag that specifies a unique identifier string for each airspace, e.g. a UUID v4. The AI value must stay the same for each airspace throughout different versions if the file. The AI tag must be placed either before or directly after the AN tag. Placing the AI tag before the AN tag is preferred
A required tag that specifies the airspace type, e.g. "TMA", "CTR" or "TMZ". Unlike in the original format, the AC tag must now only be used to specify the airspace ICAO class. If airspace has no type, i.e. is only ICAO class, the AY should be set to UNCLASSIFIED
. The AY tag must be placed directly after the AC tag.
An optional tag that specifies the frequency of a ground station that provides information on the defined airspace. The AF should be placed directly before or after the AG tag. The proposed best order is AF, then AG.
An optional tag that specifies the ground station name. May not be used without the AF tag. The AG must be placed directly before or after the AF tag. The proposed best order is AF, then AG.
To easily convert original OpenAIR to the extended format you can use our OpenAIR Fixer Tool. The tool will inject the required AI token for each airspace definition block that does not have it already. Additionally the tools takes care of tag order.
node cli.js -h
Usage: cli [options]
Options:
-f, --input-filepath <inFilepath> The input file path to the openAIR file.
-o, --output-filepath <outFilepath> The output filename of the generated geojson file.
-V, --validate If set to true, validates geometries. Defaults to true.
-F, --fix-geometry If set to true, tries to fix geometries. Note that this may change the original airspace geometry! Defaults to false.
-E, --extended-format If set to true, parser expects the extended OpenAIR format. Defaults to false.
-h, --help Output usage information.
Simple command line usage:
node cli.js -f ./tests/fixtures/full-airspaces.txt -o test.json