ogc-schemas

Jsonix XML-JSON mappings for OGC Schemas.

Usage no npm install needed!

<script type="module">
  import ogcSchemas from 'https://cdn.skypack.dev/ogc-schemas';
</script>

README

OGC Schemas

ogc-schemas package provides Jsonix XML-JSON bindings for some of the XML Schemas defined by OGC.

This allows converting between XML (conforming to one of these schemas) and JSON in pure JavaScript.

Supports the following schemas:

  • ARML_2_0
  • CityGML_1_0
    • CityGML_Appearance_1_0
    • CityGML_Building_1_0
    • CityGML_CityFuntiture_1_0
    • CityGML_CityObjectGroup_1_0
    • CityGML_Generics_1_0
    • CityGML_LandUse_1_0
    • CityGML_Relief_1_0
    • CityGML_TexturedSurface_1_0
    • CityGML_Transportation_1_0
    • CityGML_Vegetation_1_0
    • CityGML_Waterbody_1_0
  • CityGML_2_0
    • CityGML_Appearance_2_0
    • CityGML_Bridge_2_0
    • CityGML_Building_2_0
    • CityGML_CityFuntiture_2_0
    • CityGML_CityObjectGroup_2_0
    • CityGML_Generics_2_0
    • CityGML_LandUse_2_0
    • CityGML_Relief_2_0
    • CityGML_TexturedSurface_2_0
    • CityGML_Transportation_2_0
    • CityGML_Tunnel_2_0
    • CityGML_Vegetation_2_0
    • CityGML_Waterbody_2_0
  • CSW_2_0_2
    • DC_1_1
    • DCT
  • EOP_1_0
  • EOP_ATM_1_0
  • EOP_OPT_1_0
  • EOP_SAR_1_0
  • EOSPS_2_0
  • Filter_1_0_0
  • Filter_1_1_0
  • Filter_2_0
  • GML_1_0_0
  • GML_2_1_2
  • GML_3_1_1
  • GML_3_2_0
  • GML_3_2_1
  • GML_CE_3_3
  • GML_EXR_3_3
  • GML_LR_3_3
  • GML_LRO_3_3
  • GML_LROV_3_3
  • GML_LRTR_3_3
  • GML_RGRID_3_3
  • GML_TIN_3_3
  • GML_XBT_3_3
  • GMLCOV_1_0
  • GMLCOV_GeoTIFF_1_0
  • GMLJP2_2_0
  • SMIL_2_0
  • SMIL_2_0_Language
  • IC_2_0
  • IC_2_1
  • IndoorGML_Core_1_0
  • IndoorGML_Naviagation_1_0
  • ISO19139_GCO_20070417
  • ISO19139_GMD_20070417
  • ISO19139_GMX_20070417
  • ISO19139_GSR_20070417
  • ISO19139_GSS_20070417
  • ISO19139_GTS_20070417
  • ISO19139_GCO_20060504
  • ISO19139_GMD_20060504
  • ISO19139_GMX_20060504
  • ISO19139_GSR_20060504
  • ISO19139_GSS_20060504
  • ISO19139_GTS_20060504
  • ISO19139_SRV_20060504
  • KML_2_1
  • KML_2_2_0
  • KML_2_3
  • OLS_1_1_0
  • OLS_1_2
  • OLS_NAV_1_3
  • OM_1_0_0
  • OM_2_0
  • OMEO_ALT_2_0
  • OMEO_ATM_2_0
  • OMEO_EOP_2_0
  • OMEO_LMB_2_0
  • OMEO_OPT_2_0
  • OMEO_SAR_2_0
  • OMEO_SEN1_2_0
  • OMEO_ALT_2_0
  • OMEO_SSP_2_0
  • OMX_1_0_0
  • OSEO_1_0
  • OWC_0_3_1
  • OWS_1_0_0
  • OWS_1_1_0
  • OWS_2_0
  • Sampling_1_0_0
  • Sampling_2_0
  • SamplingSpatial_2_0
  • SamplingSpecimen_2_0
  • SE_1_1_0
  • SensorML_1_0_0
  • SensorML_1_0_1
  • SensorML_2_0
  • SLD_1_0_0
  • SLD_1_0_0_GeoServer
  • SLD_1_1_0
  • SPS_1_0_0
  • SPS_2_0
  • SOS_1_0_0
  • SOS_1_0_0_Filter
  • SOS_2_0
  • SWE_1_0_0
  • SWE_1_0_1
  • SWE_2_0
  • SWES_2_0
    • WSN_T_1
  • TJS_1_0
  • TML_1_0_0
  • WAMI_1_0_0
  • WAMI_1_0_1
    • WAMI_Common_1_0_1
  • WAMI_1_0_2
    • WAMI_Common_1_0_0
  • WaterML_2_0
  • WCPS_1_0
  • WCS_1_0_0
    • GML4WCS_1_0_0
  • WCS_1_1
  • WCS_2_0
  • WCS_CRS_1_0
  • WCS_Interpolation_1_0
  • WCS_Processing_2_0
  • WCS_Range_Subsetting_1_0
  • WCS_Scaling_1_0
  • WCS_WCSEO_1_0
  • WCST_1_1
  • WFS_1_0_0
  • WFS_1_1_0
  • WFS_2_0
  • WMS_1_0_0
  • WMS_1_1_0
  • WMS_1_1_1
  • WMS_1_3_0
  • WMS_1_3_0_Exceptions
  • WMSC_1_1_1
  • WPS_1_0_0
  • WPS_2_0_0
  • xAL_2_0

Example


var XLink_1_0 = require('w3c-schemas').XLink_1_0;
var OWS_1_1_0 = require('ogc-schemas').OWS_1_1_0;
var WPS_1_0_0 = require('ogc-schemas').WPS_1_0_0;

var context =  new Jsonix.Context([XLink_1_0, OWS_1_1_0, WPS_1_0_0]);
var unmarshaller = context.createUnmarshaller();
unmarshaller.unmarshalFile("tests/WPS/1.0.0/execute-01.xml", function(result) {
    test.equal("geom", result.value.dataInputs.input[0].title.value);
    test.done();
});