-
Name Type Description options
Optional configuration object.
Name Type Description featureNS
Object.<string, string> | string Feature namespace. If not defined will be derived from GML. If multiple feature types have been configured which come from different feature namespaces, this will be an object with the keys being the prefixes used in the entries of featureType array. The values of the object will be the feature namespaces themselves. So for instance there might be a featureType item
topp:states
in thefeatureType
array and then there will be a keytopp
in the featureNS object with valuehttp://www.openplans.org/topp
.featureType
Array.<string> | string Feature type(s) to parse. If multiple feature types need to be configured which come from different feature namespaces,
featureNS
will be an object with the keys being the prefixes used in the entries of featureType array. The values of the object will be the feature namespaces themselves. So for instance there might be a featureType itemtopp:states
and then there will be a key namedtopp
in the featureNS object with valuehttp://www.openplans.org/topp
.srsName
string srsName to use when writing geometries.
surface
boolean (defaults to false) Write gml:Surface instead of gml:Polygon elements. This also affects the elements in multi-part geometries.
curve
boolean (defaults to false) Write gml:Curve instead of gml:LineString elements. This also affects the elements in multi-part geometries.
multiCurve
boolean (defaults to true) Write gml:MultiCurve instead of gml:MultiLineString. Since the latter is deprecated in GML 3.
multiSurface
boolean (defaults to true) Write gml:multiSurface instead of gml:MultiPolygon. Since the latter is deprecated in GML 3.
schemaLocation
string Optional schemaLocation to use when writing out the GML, this will override the default provided.
hasZ
boolean (defaults to false) If coordinates have a Z value.
Subclasses
Extends
Methods
-
Read a single feature.
Name Type Description source
Document | Element | Object | string Source.
options
Read options.
Name Type Description dataProjection
module:ol/proj~ProjectionLike Projection of the data we are reading. If not provided, the projection will be derived from the data (where possible) or the
dataProjection
of the format is assigned (where set). If the projection can not be derived from the data and if nodataProjection
is set for a format, the features will not be reprojected.extent
module:ol/extent~Extent Tile extent in map units of the tile being read. This is only required when reading data with tile pixels as geometry units. When configured, a
dataProjection
withTILE_PIXELS
asunits
and the tile's pixel extent asextent
needs to be provided.featureProjection
module:ol/proj~ProjectionLike Projection of the feature geometries created by the format reader. If not provided, features will be returned in the
dataProjection
.Returns:
Feature.
-
readFeatures(source, opt_options){Array.<module:ol/Feature~Feature>} inherited
-
Read all features from a feature collection.
Name Type Description source
Document | Element | Object | string Source.
options
Options.
Name Type Description dataProjection
module:ol/proj~ProjectionLike Projection of the data we are reading. If not provided, the projection will be derived from the data (where possible) or the
dataProjection
of the format is assigned (where set). If the projection can not be derived from the data and if nodataProjection
is set for a format, the features will not be reprojected.extent
module:ol/extent~Extent Tile extent in map units of the tile being read. This is only required when reading data with tile pixels as geometry units. When configured, a
dataProjection
withTILE_PIXELS
asunits
and the tile's pixel extent asextent
needs to be provided.featureProjection
module:ol/proj~ProjectionLike Projection of the feature geometries created by the format reader. If not provided, features will be returned in the
dataProjection
.Returns:
Features.
-
readProjection(source){module:ol/proj/Projection~Projection} inherited
-
Read the projection from the source.
Name Type Description source
Document | Element | Object | string Source.
Returns:
Projection.
-
Encode an array of features in GML 3.1.1 Simple Features.
Name Type Description features
Array.<module:ol/Feature~Feature> Features.
options
Options.
Name Type Description dataProjection
module:ol/proj~ProjectionLike Projection of the data we are writing. If not provided, the
dataProjection
of the format is assigned (where set). If nodataProjection
is set for a format, the features will be returned in thefeatureProjection
.featureProjection
module:ol/proj~ProjectionLike Projection of the feature geometries that will be serialized by the format writer. If not provided, geometries are assumed to be in the
dataProjection
if that is set; in other words, they are not transformed.rightHanded
boolean When writing geometries, follow the right-hand rule for linear ring orientation. This means that polygons will have counter-clockwise exterior rings and clockwise interior rings. By default, coordinates are serialized as they are provided at construction. If
true
, the right-hand rule will be applied. Iffalse
, the left-hand rule will be applied (clockwise for exterior and counter-clockwise for interior rings). Note that not all formats support this. The GeoJSON format does use this property when writing geometries.decimals
number Maximum number of decimal places for coordinates. Coordinates are stored internally as floats, but floating-point arithmetic can create coordinates with a large number of decimal places, not generally wanted on output. Set a number here to round coordinates. Can also be used to ensure that coordinates read in can be written back out with the same number of decimals. Default is no rounding.
Returns:
Result.
-
Encode an array of features in the GML 3.1.1 format as an XML node.
Name Type Description features
Array.<module:ol/Feature~Feature> Features.
options
Options.
Name Type Description dataProjection
module:ol/proj~ProjectionLike Projection of the data we are writing. If not provided, the
dataProjection
of the format is assigned (where set). If nodataProjection
is set for a format, the features will be returned in thefeatureProjection
.featureProjection
module:ol/proj~ProjectionLike Projection of the feature geometries that will be serialized by the format writer. If not provided, geometries are assumed to be in the
dataProjection
if that is set; in other words, they are not transformed.rightHanded
boolean When writing geometries, follow the right-hand rule for linear ring orientation. This means that polygons will have counter-clockwise exterior rings and clockwise interior rings. By default, coordinates are serialized as they are provided at construction. If
true
, the right-hand rule will be applied. Iffalse
, the left-hand rule will be applied (clockwise for exterior and counter-clockwise for interior rings). Note that not all formats support this. The GeoJSON format does use this property when writing geometries.decimals
number Maximum number of decimal places for coordinates. Coordinates are stored internally as floats, but floating-point arithmetic can create coordinates with a large number of decimal places, not generally wanted on output. Set a number here to round coordinates. Can also be used to ensure that coordinates read in can be written back out with the same number of decimals. Default is no rounding.
Returns:
Node.
-
Encode a geometry in GML 3.1.1 Simple Features.
Name Type Description geometry
module:ol/geom/Geometry~Geometry Geometry.
options
Options.
Name Type Description dataProjection
module:ol/proj~ProjectionLike Projection of the data we are writing. If not provided, the
dataProjection
of the format is assigned (where set). If nodataProjection
is set for a format, the features will be returned in thefeatureProjection
.featureProjection
module:ol/proj~ProjectionLike Projection of the feature geometries that will be serialized by the format writer. If not provided, geometries are assumed to be in the
dataProjection
if that is set; in other words, they are not transformed.rightHanded
boolean When writing geometries, follow the right-hand rule for linear ring orientation. This means that polygons will have counter-clockwise exterior rings and clockwise interior rings. By default, coordinates are serialized as they are provided at construction. If
true
, the right-hand rule will be applied. Iffalse
, the left-hand rule will be applied (clockwise for exterior and counter-clockwise for interior rings). Note that not all formats support this. The GeoJSON format does use this property when writing geometries.decimals
number Maximum number of decimal places for coordinates. Coordinates are stored internally as floats, but floating-point arithmetic can create coordinates with a large number of decimal places, not generally wanted on output. Set a number here to round coordinates. Can also be used to ensure that coordinates read in can be written back out with the same number of decimals. Default is no rounding.
Returns:
Node.