proj4dart 1.0.4 proj4dart: ^1.0.4 copied to clipboard
Proj4dart is a Dart library to transform point coordinates from one coordinate system to another, including datum transformations (Dart version of proj4js/proj4js).
PROJ4DART #
Proj4dart is a Dart library to transform point coordinates from one coordinate system to another, including datum transformations (Dart version of proj4js/proj4js).
Installing #
Add proj4dart to pubspec.yml
(dependencies section), then run pub get
to download the new dependencies.
dependencies:
proj4dart: any # or the latest version on Pub
Using #
Predefined Projection #
There are 3 predefined Projections and 5 aliases by default:
- EPSG:4326, which has the following alias:
- WGS84
- EPSG:4269
- EPSG:3857, which has the following aliases:
- EPSG:3785
- EPSG:900913
- EPSG:102113
If you wish to use one of the predefined ones use Named Projection
which has the following signature:
var projection = Projection('EPSG:4326');
User-defined Projection #
Proj4dart supports Proj4 definition strings
, OGC WKT definitions
and ESRI WKT definitions
. They can be obtained from epsg.io.
With Proj4 string definition
If you wish to define your own projection you can create it with a valid Proj4 string (here for EPSG:23700):
+proj=somerc +lat_0=47.14439372222222 +lon_0=19.04857177777778 +k_0=0.99993 +x_0=650000 +y_0=200000 +ellps=GRS67 +towgs84=52.17,-71.82,-14.9,0,0,0,0 +units=m +no_defs
The signature is:
var def = '+proj=somerc +lat_0=47.14439372222222 +lon_0=19.04857177777778 +k_0=0.99993 +x_0=650000 +y_0=200000 +ellps=GRS67 +towgs84=52.17,-71.82,-14.9,0,0,0,0 +units=m +no_defs';
// Named Projection signature, later find it from anywhere via Projection('EPSG:23700')
var namedProjection = Projection.add('EPSG:23700', def);
// Projection without name signature
var projection = Projection.parse(def);
For full example visit example/proj4dart_example.dart
With OGC WKT definition
If you wish to define your own projection you can create it with a valid OGC WKT string (here for EPSG:23700):
PROJCS["HD72 / EOV",GEOGCS["HD72",DATUM["Hungarian_Datum_1972",SPHEROID["GRS 1967",6378160,298.247167427,AUTHORITY["EPSG","7036"]],TOWGS84[52.17,-71.82,-14.9,0,0,0,0],AUTHORITY["EPSG","6237"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4237"]],PROJECTION["Hotine_Oblique_Mercator_Azimuth_Center"],PARAMETER["latitude_of_center",47.14439372222222],PARAMETER["longitude_of_center",19.04857177777778],PARAMETER["azimuth",90],PARAMETER["rectified_grid_angle",90],PARAMETER["scale_factor",0.99993],PARAMETER["false_easting",650000],PARAMETER["false_northing",200000],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["Y",EAST],AXIS["X",NORTH],AUTHORITY["EPSG","23700"]]
The signature is:
var def = 'PROJCS["HD72 / EOV",GEOGCS["HD72",DATUM["Hungarian_Datum_1972",SPHEROID["GRS 1967",6378160,298.247167427,AUTHORITY["EPSG","7036"]],TOWGS84[52.17,-71.82,-14.9,0,0,0,0],AUTHORITY["EPSG","6237"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4237"]],PROJECTION["Hotine_Oblique_Mercator_Azimuth_Center"],PARAMETER["latitude_of_center",47.14439372222222],PARAMETER["longitude_of_center",19.04857177777778],PARAMETER["azimuth",90],PARAMETER["rectified_grid_angle",90],PARAMETER["scale_factor",0.99993],PARAMETER["false_easting",650000],PARAMETER["false_northing",200000],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["Y",EAST],AXIS["X",NORTH],AUTHORITY["EPSG","23700"]]';
// Named Projection signature, later find it from anywhere via Projection('EPSG:23700')
var namedProjection = Projection.add('EPSG:23700', def);
// Projection without name signature
var projection = Projection.parse(def);
For full example visit example/proj4dart_ogc_wkt_example.dart
With ESRI WKT definition
If you wish to define your own projection you can create it with a valid ESRI WKT string (here for EPSG:23700):
PROJCS["HD72_EOV",GEOGCS["GCS_HD72",DATUM["D_Hungarian_1972",SPHEROID["GRS_1967",6378160,298.247167427]],PRIMEM["Greenwich",0],UNIT["Degree",0.017453292519943295]],PROJECTION["Hotine_Oblique_Mercator_Azimuth_Center"],PARAMETER["latitude_of_center",47.14439372222222],PARAMETER["longitude_of_center",19.04857177777778],PARAMETER["azimuth",90],PARAMETER["scale_factor",0.99993],PARAMETER["false_easting",650000],PARAMETER["false_northing",200000],UNIT["Meter",1]]
The signature is:
var def = 'PROJCS["HD72_EOV",GEOGCS["GCS_HD72",DATUM["D_Hungarian_1972",SPHEROID["GRS_1967",6378160,298.247167427]],PRIMEM["Greenwich",0],UNIT["Degree",0.017453292519943295]],PROJECTION["Hotine_Oblique_Mercator_Azimuth_Center"],PARAMETER["latitude_of_center",47.14439372222222],PARAMETER["longitude_of_center",19.04857177777778],PARAMETER["azimuth",90],PARAMETER["scale_factor",0.99993],PARAMETER["false_easting",650000],PARAMETER["false_northing",200000],UNIT["Meter",1]]');
// Named Projection signature, later find it from anywhere via Projection('EPSG:23700')
var namedProjection = Projection.add('EPSG:23700', def);
// Projection without name signature
var projection = Projection.parse(def);
For full example visit example/proj4dart_esri_wkt_example.dart
Transform between Projections #
import 'package:proj4dart/proj4dart.dart';
void main() {
// Define Point
var pointSrc = Point(x: 17.888058560281515, y: 46.89226406700879);
// Use built-in projection
var projSrc = Projection('EPSG:4326');
// Find Projection by name or define it if not exists
var projDst = Projection('EPSG:23700') ??
Projection.add(
'EPSG:23700',
'+proj=somerc +lat_0=47.14439372222222 +lon_0=19.04857177777778 +k_0=0.99993 +x_0=650000 +y_0=200000 +ellps=GRS67 +towgs84=52.17,-71.82,-14.9,0,0,0,0 +units=m +no_defs',
);
// Forward transform (lonlat -> projected crs)
var pointForward = projSrc.transform(projDst, pointSrc);
print(
'FORWARD: Transform point ${pointSrc.toArray()} from EPSG:4326 to EPSG:23700: ${pointForward.toArray()}');
// FORWARD: Transform point [17.888058560281515, 46.89226406700879] from EPSG:4326 to EPSG:23700: [561651.8408065987, 172658.61998377228]
// Inverse transform (projected crs -> lonlat)
var pointInverse = projDst.transform(projSrc, pointForward);
print(
'INVERSE: Transform point ${pointForward.toArray()} from EPSG:23700 to EPSG:4326: ${pointInverse.toArray()}');
// INVERSE: Transform point [561651.8408065987, 172658.61998377228] from EPSG:23700 to EPSG:4326: [17.888058565574845, 46.89226406698969]
}
Transform between Projections using ProjectionTuple #
import 'package:proj4dart/proj4dart.dart';
void main() {
// Define Point
var pointSrc = Point(x: 17.888058560281515, y: 46.89226406700879);
// Define ProjectionTuple which makes vice versa conversions even easier
var tuple = ProjectionTuple(
// Use built-in projection
fromProj: Projection('EPSG:4326'),
// Define custom projection
toProj: Projection.parse(
'+proj=somerc +lat_0=47.14439372222222 +lon_0=19.04857177777778 +k_0=0.99993 +x_0=650000 +y_0=200000 +ellps=GRS67 +towgs84=52.17,-71.82,-14.9,0,0,0,0 +units=m +no_defs',
),
);
// Forward transform (lonlat -> projected crs)
var pointForward = tuple.forward(pointSrc);
print(
'FORWARD: Transform point ${pointSrc.toArray()} from EPSG:4326 to EPSG:23700: ${pointForward.toArray()}');
// FORWARD: Transform point [17.888058560281515, 46.89226406700879] from EPSG:4326 to EPSG:23700: [561651.8408065987, 172658.61998377228]
// Inverse transform (projected crs -> lonlat)
var pointInverse = tuple.inverse(pointForward);
print(
'INVERSE: Transform point ${pointForward.toArray()} from EPSG:23700 to EPSG:4326: ${pointInverse.toArray()}');
// INVERSE: Transform point [561651.8408065987, 172658.61998377228] from EPSG:23700 to EPSG:4326: [17.888058565574845, 46.89226406698969]
}
Accuracy #
Proj4dart was tested with
- 8444 Proj4 definitions (test/data/all_proj4_defs.dart)
- 5642 OGC WKT definitions (test/data/all_proj4_ogc_wkt_defs.dart)
- 7426 ESRI WKT definitions (test/data/all_proj4_esri_wkt_defs.dart)
Forward and inverse transformations were both performed and checked in each case. The expected forward and inverse results were pre-calculated using proj4js (test/results/all_proj4_results.dart, test/results/all_proj4_ogc_wkt_results.dart, test/results/all_proj4_esri_wkt_results.dart).
The following table shows the avarage deltas of different Projections (using EPSG:4326 point of [17.888058560281515, 46.89226406700879]
and transformed to Custom CRS defined with Proj4 definition string which gave the forward result
then transformed back the received forward result which gave the inverse result
):
Projection | No. tests | avg delta forward_x | avg delta forward_y | avg delta inverse_x | avg delta inverse_y |
---|---|---|---|---|---|
Albers Projection | 58 | 2.8260822953849e-9 | 1.6378431484617036e-9 | 1.0719394720518753e-14 | 1.0903155772870503e-14 |
Azimuthal Equidistant Projection | 12 | 7.761021455128987e-11 | 1.5522042910257974e-10 | 1.7763568394002505e-15 | 1.1842378929335002e-15 |
Cassini Projection | 33 | 3.9510654680656665e-10 | 3.3866275440562856e-10 | 3.2297397080004555e-16 | 0.0 |
Central Cylindrical Projection | 5 | 0.0 | 0.0 | 0.0 | 0.0 |
Equidistant Conic Projection | 9 | 1.2935035758548312e-11 | 0.0 | 1.578983857244667e-15 | 0.0 |
Equidistant Cylindrical Projection | 25 | 0.0 | 0.0 | 0.0 | 0.0 |
Geocentric Projection | 196 | 0.0 | 0.0 | 9.06304509898087e-17 | 0.0 |
Gnomic Projection | 2 | 0.0 | 0.0 | 3.552713678800501e-15 | 0.0 |
Hotine Oblique Mercator Projection | 51 | 4.460304683330012e-9 | 8.017819959158991e-9 | 6.339155779820502e-15 | 3.901018941428001e-15 |
Krovak Projection | 9 | 9.054525030983819e-10 | 1.448724004957411e-9 | 1.578983857244667e-15 | 3.157967714489334e-15 |
Lambert Azimuthal Equal-Area Projection | 20 | 5.820766091346741e-11 | 0.0 | 5.329070518200751e-16 | 0.0 |
Lambert Conformal Conic Projection | 2028 | 1.8960008225716005e-8 | 1.2588414830372427e-8 | 4.613097105712702e-14 | 8.064379757884726e-14 |
LongLat | 1152 | 1.6961740653995446e-16 | 0.0 | 2.312964634635743e-16 | 2.7755575615628914e-16 |
Miller Cylindrical Projection | 2 | 0.0 | 0.0 | 0.0 | 0.0 |
Mollweide Projection | 2 | 0.0 | 0.0 | 0.0 | 0.0 |
New Zealand Map Grid Projection | 1 | 0.0 | 0.0 | 0.000003294908452744494 | 0.000008533214440831216 |
Orthographic Projection | 2 | 0.0 | 0.0 | 7.105427357601002e-15 | 3.552713678800501e-15 |
Polyconic Projection | 10 | 0.0 | 0.0 | 1.1842378929335002e-15 | 0.0 |
Pseudo Mercator Projection | 25 | 0.0 | 3.7252902984619143e-10 | 1.4210854715202004e-16 | 2.842170943040401e-16 |
Robinson Projection | 2 | 0.0 | 0.0 | 0.0 | 0.0 |
Sinusoidal Projection | 3 | 0.0 | 0.0 | 0.0 | 0.0 |
Stereographic North Projection | 21 | 2.217434701465425e-11 | 2.993536846978324e-10 | 4.906128413581644e-15 | 1.3534147347811431e-15 |
Stereographic South Projection | 44 | 2.43414258446509e-10 | 2.063731004268861e-10 | 1.3726393759001935e-15 | 0.0 |
Swiss Oblique Mercator Projection | 5 | 4.656612873077393e-11 | 0.0 | 1.4210854715202005e-15 | 0.0 |
Transverse Mercator Projection | 3445 | 7.527289676908484e-12 | 5.01819311793899e-12 | 3.966550829771659e-13 | 3.0942861377693824e-13 |
Universal Transverse Mercator Projection | 1279 | 3.4847229055075836e-10 | 3.429655454604303e-10 | 3.4304936617033767e-15 | 2.4999548951684524e-15 |
Van der Grinten Projection | 2 | 3.3760443329811096e-9 | 2.3283064365386963e-9 | 0.0 | 0.0 |
Example (using EPSG:4326 point of [17.888058560281515, 46.89226406700879]
and transformed to EPSG:23700 defined with Proj4 definition string):
LIBRARY | forward_x | forward_y | inverse_x | inverse_y |
---|---|---|---|---|
proj4dart | 561651.8408065987 | 172658.61998377228 | 17.888058565574845 | 46.89226406698969 |
proj4js | 561651.8408065989 | 172658.61998377228 | 17.888058565574852 | 46.89226406698969 |
delta | 0.0000000002 | 0.0 | 0.000000000000007 | 0.0 |
In some cases also manual PostGIS testing (PostgreSQL 12.1, PostGIS 3.0.0 r17983) was performed such as the following (using EPSG:4326 point of [17.888058560281515, 46.89226406700879]
and transformed to EPSG:23700 defined with Proj4 definition string):
LIBRARY | forward_x | forward_y | inverse_x | inverse_y |
---|---|---|---|---|
proj4dart | 561651.8408065987 | 172658.61998377228 | 17.888058565574845 | 46.89226406698969 |
PostGIS | 561651.8408065987 | 172658.6199837724 | 17.88805856557482 | 46.8922640683514 |
delta | 0.0 | 0.00000000012 | 0.000000000000025 | 0.00000000136171 |
Used by #
- Proj4dart is currently the default projection handler of flutter_map.
Authors #
Proj4dart was ported from proj4js by @maRci002 and Gergely Padányi-Gulyás (@fegyi001) at Ulyssys Ltd, Budapest, Hungary.