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osr.go
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osr.go
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package gdal
/*
#include "go_gdal.h"
#include "gdal_version.h"
#cgo linux pkg-config: gdal
#cgo darwin pkg-config: gdal
#cgo windows LDFLAGS: -Lc:/gdal/release-1600-x64/lib -lgdal_i
#cgo windows CFLAGS: -IC:/gdal/release-1600-x64/include
*/
import "C"
import (
"reflect"
"strings"
"unsafe"
)
/* -------------------------------------------------------------------- */
/* Spatial reference functions. */
/* -------------------------------------------------------------------- */
type SpatialReference struct {
cval C.OGRSpatialReferenceH
}
// Create a new SpatialReference
func CreateSpatialReference(wkt string) SpatialReference {
cString := C.CString(wkt)
defer C.free(unsafe.Pointer(cString))
sr := C.OSRNewSpatialReference(cString)
return SpatialReference{sr}
}
func CreateBareSpatialReference() SpatialReference {
sr := C.OSRNewSpatialReference(nil)
return SpatialReference{sr}
}
// Initialize SRS based on WKT string
func (sr *SpatialReference) FromWKT(wkt string) error {
cString := C.CString(wkt)
defer C.free(unsafe.Pointer(cString))
return C.OSRImportFromWkt(sr.cval, &cString).Err()
}
// Export coordinate system to WKT
func (sr *SpatialReference) ToWKT() (string, error) {
var p *C.char
err := C.OSRExportToWkt(sr.cval, &p).Err()
wkt := C.GoString(p)
return wkt, err
}
// Export coordinate system to a nicely formatted WKT string
func (sr *SpatialReference) ToPrettyWKT(simplify bool) (string, error) {
var p *C.char
err := C.OSRExportToPrettyWkt(
sr.cval, &p, BoolToCInt(simplify),
).Err()
wkt := C.GoString(p)
return wkt, err
}
// Initialize SRS based on EPSG code
func (sr *SpatialReference) FromEPSG(code int) error {
return C.OSRImportFromEPSG(sr.cval, C.int(code)).Err()
}
// Initialize SRS based on EPSG code, using EPSG lat/long ordering
func (sr *SpatialReference) FromEPSGA(code int) error {
return C.OSRImportFromEPSGA(sr.cval, C.int(code)).Err()
}
// Destroy the spatial reference
func (sr *SpatialReference) Destroy() {
C.OSRDestroySpatialReference(sr.cval)
}
// Make a duplicate of this spatial reference
func (sr *SpatialReference) Clone() SpatialReference {
newSR := C.OSRClone(sr.cval)
return SpatialReference{newSR}
}
// Make a duplicate of the GEOGCS node of this spatial reference
func (sr *SpatialReference) CloneGeogCS() SpatialReference {
newSR := C.OSRCloneGeogCS(sr.cval)
return SpatialReference{newSR}
}
// Increments the reference count by one, returning reference count
func (sr *SpatialReference) Reference() int {
count := C.OSRReference(sr.cval)
return int(count)
}
// Decrements the reference count by one, returning reference count
func (sr *SpatialReference) Dereference() int {
count := C.OSRDereference(sr.cval)
return int(count)
}
// Decrements the reference count by one and destroy if zero
func (sr *SpatialReference) Release() {
C.OSRRelease(sr.cval)
}
// Validate spatial reference tokens
func (sr *SpatialReference) Validate() error {
return C.OSRValidate(sr.cval).Err()
}
// Correct parameter ordering to match CT specification
func (sr *SpatialReference) FixupOrdering() error {
return C.OSRFixupOrdering(sr.cval).Err()
}
// Fix up spatial reference as needed
func (sr *SpatialReference) Fixup() error {
return C.OSRFixup(sr.cval).Err()
}
// Strip OGC CT parameters
func (sr *SpatialReference) StripCTParams() error {
return C.OSRStripCTParms(sr.cval).Err()
}
// Import PROJ.4 coordinate string
func (sr *SpatialReference) FromProj4(input string) error {
cString := C.CString(input)
defer C.free(unsafe.Pointer(cString))
return C.OSRImportFromProj4(sr.cval, cString).Err()
}
// Export coordinate system in PROJ.4 format
func (sr *SpatialReference) ToProj4() (string, error) {
var p *C.char
err := C.OSRExportToProj4(sr.cval, &p).Err()
proj4 := C.GoString(p)
return proj4, err
}
// Import coordinate system from ESRI .prj formats
func (sr *SpatialReference) FromESRI(prj string) error {
lines := strings.Split(prj, "\n")
cproj := []*C.char{}
for i, s := range lines {
cproj = append(cproj, C.CString(s))
defer C.free(unsafe.Pointer(cproj[i]))
}
return C.OSRImportFromESRI(sr.cval, &cproj[0]).Err()
}
// Import coordinate system from PCI projection definition
func (sr *SpatialReference) FromPCI(proj, units string, params []float64) error {
cProj := C.CString(proj)
defer C.free(unsafe.Pointer(cProj))
cUnits := C.CString(units)
defer C.free(unsafe.Pointer(cUnits))
return C.OSRImportFromPCI(
sr.cval,
cProj,
cUnits,
(*C.double)(unsafe.Pointer(¶ms[0])),
).Err()
}
// Import coordinate system from USGS projection definition
func (sr *SpatialReference) FromUSGS(projsys, zone int, params []float64, datum int) error {
return C.OSRImportFromUSGS(
sr.cval,
C.long(projsys),
C.long(zone),
(*C.double)(unsafe.Pointer(¶ms[0])),
C.long(datum),
).Err()
}
// Import coordinate system from XML format (GML only currently)
func (sr *SpatialReference) FromXML(xml string) error {
cXml := C.CString(xml)
defer C.free(unsafe.Pointer(cXml))
return C.OSRImportFromXML(sr.cval, cXml).Err()
}
// Import coordinate system from ERMapper projection definitions
func (sr *SpatialReference) FromERM(proj, datum, units string) error {
cProj := C.CString(proj)
defer C.free(unsafe.Pointer(cProj))
cDatum := C.CString(datum)
defer C.free(unsafe.Pointer(cDatum))
cUnits := C.CString(units)
defer C.free(unsafe.Pointer(cUnits))
return C.OSRImportFromERM(sr.cval, cProj, cDatum, cUnits).Err()
}
// Import coordinate system from a URL
func (sr *SpatialReference) FromURL(url string) error {
cURL := C.CString(url)
defer C.free(unsafe.Pointer(cURL))
return C.OSRImportFromXML(sr.cval, cURL).Err()
}
// Export coordinate system in PCI format
func (sr *SpatialReference) ToPCI() (proj, units string, params []float64, errVal error) {
var p, u *C.char
err := C.OSRExportToPCI(
sr.cval, &p, &u, (**C.double)(unsafe.Pointer(¶ms[0])),
).Err()
header := (*reflect.SliceHeader)(unsafe.Pointer(¶ms))
header.Cap = 17
header.Len = 17
defer C.free(unsafe.Pointer(p))
defer C.free(unsafe.Pointer(u))
return C.GoString(p), C.GoString(u), params, err
}
// Export coordinate system to USGS GCTP projection definition
func (sr *SpatialReference) ToUSGS() (proj, zone int, params []float64, datum int, errVal error) {
err := C.OSRExportToUSGS(
sr.cval,
(*C.long)(unsafe.Pointer(&proj)),
(*C.long)(unsafe.Pointer(&zone)),
(**C.double)(unsafe.Pointer(¶ms[0])),
(*C.long)(unsafe.Pointer(&datum)),
).Err()
header := (*reflect.SliceHeader)(unsafe.Pointer(¶ms))
header.Cap = 15
header.Len = 15
return proj, zone, params, datum, err
}
// Export coordinate system in XML format
func (sr *SpatialReference) ToXML() (xml string, errVal error) {
var x *C.char
err := C.OSRExportToXML(sr.cval, &x, nil).Err()
defer C.free(unsafe.Pointer(x))
return C.GoString(x), err
}
// Export coordinate system in Mapinfo style CoordSys format
func (sr *SpatialReference) ToMICoordSys() (output string, errVal error) {
var x *C.char
err := C.OSRExportToMICoordSys(sr.cval, &x).Err()
defer C.free(unsafe.Pointer(x))
return C.GoString(x), err
}
// Export coordinate system in ERMapper format
// Unimplemented: ToERM
// Convert in place to ESRI WKT format
func (sr *SpatialReference) MorphToESRI() error {
return C.OSRMorphToESRI(sr.cval).Err()
}
// Convert in place from ESRI WKT format
func (sr *SpatialReference) MorphFromESRI() error {
return C.OSRMorphFromESRI(sr.cval).Err()
}
// Fetch indicated attribute of named node
func (sr *SpatialReference) AttrValue(key string, child int) (value string, ok bool) {
cKey := C.CString(key)
defer C.free(unsafe.Pointer(cKey))
val := C.OSRGetAttrValue(sr.cval, cKey, C.int(child))
return C.GoString(val), val != nil
}
// Set attribute value in spatial reference
func (sr *SpatialReference) SetAttrValue(path, value string) error {
cPath := C.CString(path)
defer C.free(unsafe.Pointer(cPath))
cValue := C.CString(value)
defer C.free(unsafe.Pointer(cValue))
return C.OSRSetAttrValue(sr.cval, cPath, cValue).Err()
}
// Set the angular units for the geographic coordinate system
func (sr *SpatialReference) SetAngularUnits(units string, radians float64) error {
cUnits := C.CString(units)
defer C.free(unsafe.Pointer(cUnits))
return C.OSRSetAngularUnits(sr.cval, cUnits, C.double(radians)).Err()
}
// Fetch the angular units for the geographic coordinate system
func (sr *SpatialReference) AngularUnits() (string, float64) {
var x *C.char
factor := C.OSRGetAngularUnits(sr.cval, &x)
defer C.free(unsafe.Pointer(x))
return C.GoString(x), float64(factor)
}
// Set the linear units for the projection
func (sr *SpatialReference) SetLinearUnits(name string, toMeters float64) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetLinearUnits(sr.cval, cName, C.double(toMeters)).Err()
}
// Set the linear units for the target node
func (sr *SpatialReference) SetTargetLinearUnits(target, units string, toMeters float64) error {
cTarget := C.CString(target)
defer C.free(unsafe.Pointer(cTarget))
cUnits := C.CString(units)
defer C.free(unsafe.Pointer(cUnits))
return C.OSRSetTargetLinearUnits(sr.cval, cTarget, cUnits, C.double(toMeters)).Err()
}
// Set the linear units for the target node and update all existing linear parameters
func (sr *SpatialReference) SetLinearUnitsAndUpdateParameters(name string, toMeters float64) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetLinearUnitsAndUpdateParameters(sr.cval, cName, C.double(toMeters)).Err()
}
// Fetch linear projection units
func (sr *SpatialReference) LinearUnits() (string, float64) {
var x *C.char
factor := C.OSRGetLinearUnits(sr.cval, &x)
defer C.free(unsafe.Pointer(x))
return C.GoString(x), float64(factor)
}
// Fetch linear units for target
func (sr *SpatialReference) TargetLinearUnits(target string) (string, float64) {
cTarget := C.CString(target)
defer C.free(unsafe.Pointer(cTarget))
var x *C.char
factor := C.OSRGetTargetLinearUnits(sr.cval, cTarget, &x)
defer C.free(unsafe.Pointer(x))
return C.GoString(x), float64(factor)
}
// Fetch prime meridian information
func (sr *SpatialReference) PrimeMeridian() (string, float64) {
var x *C.char
offset := C.OSRGetPrimeMeridian(sr.cval, &x)
defer C.free(unsafe.Pointer(x))
return C.GoString(x), float64(offset)
}
// Return true if geographic coordinate system
func (sr *SpatialReference) IsGeographic() bool {
val := C.OSRIsGeographic(sr.cval)
return val != 0
}
// Return true if local coordinate system
func (sr *SpatialReference) IsLocal() bool {
val := C.OSRIsLocal(sr.cval)
return val != 0
}
// Return true if projected coordinate system
func (sr *SpatialReference) IsProjected() bool {
val := C.OSRIsProjected(sr.cval)
return val != 0
}
// Return true if compound coordinate system
func (sr *SpatialReference) IsCompound() bool {
val := C.OSRIsCompound(sr.cval)
return val != 0
}
// Return true if geocentric coordinate system
func (sr *SpatialReference) IsGeocentric() bool {
val := C.OSRIsGeocentric(sr.cval)
return val != 0
}
// Return true if vertical coordinate system
func (sr *SpatialReference) IsVertical() bool {
val := C.OSRIsVertical(sr.cval)
return val != 0
}
// Return true if the geographic coordinate systems match
func (sr *SpatialReference) IsSameGeographicCS(other SpatialReference) bool {
val := C.OSRIsSameGeogCS(sr.cval, other.cval)
return val != 0
}
// Return true if the vertical coordinate systems match
func (sr *SpatialReference) IsSameVerticalCS(other SpatialReference) bool {
val := C.OSRIsSameVertCS(sr.cval, other.cval)
return val != 0
}
// Return true if the coordinate systems describe the same system
func (sr *SpatialReference) IsSame(other SpatialReference) bool {
val := C.OSRIsSame(sr.cval, other.cval)
return val != 0
}
// Set the user visible local CS name
func (sr *SpatialReference) SetLocalCS(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetLocalCS(sr.cval, cName).Err()
}
// Set the user visible projected CS name
func (sr *SpatialReference) SetProjectedCS(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetProjCS(sr.cval, cName).Err()
}
// Set the user visible geographic CS name
func (sr *SpatialReference) SetGeocentricCS(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetGeocCS(sr.cval, cName).Err()
}
// Set geographic CS based on well known name
func (sr *SpatialReference) SetWellKnownGeographicCS(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetWellKnownGeogCS(sr.cval, cName).Err()
}
// Set spatial reference from various text formats
func (sr *SpatialReference) SetFromUserInput(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetFromUserInput(sr.cval, cName).Err()
}
// Copy geographic CS from another spatial reference
func (sr *SpatialReference) CopyGeographicCSFrom(other SpatialReference) error {
return C.OSRCopyGeogCSFrom(sr.cval, other.cval).Err()
}
// Set the Bursa-Wolf conversion to WGS84
func (sr *SpatialReference) SetTOWGS84(dx, dy, dz, ex, ey, ez, ppm float64) error {
return C.OSRSetTOWGS84(
sr.cval,
C.double(dx),
C.double(dy),
C.double(dz),
C.double(ex),
C.double(ey),
C.double(ez),
C.double(ppm),
).Err()
}
// Fetch the TOWGS84 parameters if available
func (sr *SpatialReference) TOWGS84() (coeff [7]float64, err error) {
err = C.OSRGetTOWGS84(sr.cval, (*C.double)(unsafe.Pointer(&coeff[0])), 7).Err()
return
}
// Setup a compound coordinate system
func (sr *SpatialReference) SetCompoundCS(
name string,
horizontal, vertical SpatialReference,
) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetCompoundCS(sr.cval, cName, horizontal.cval, vertical.cval).Err()
}
// Set geographic coordinate system
func (sr *SpatialReference) SetGeographicCS(
geogName, datumName, spheroidName string,
semiMajor, flattening float64,
pmName string,
offset float64,
angularUnits string,
toRadians float64,
) error {
cGeogName := C.CString(geogName)
defer C.free(unsafe.Pointer(cGeogName))
cDatumName := C.CString(datumName)
defer C.free(unsafe.Pointer(cDatumName))
cSpheroidName := C.CString(spheroidName)
defer C.free(unsafe.Pointer(cSpheroidName))
cPMName := C.CString(pmName)
defer C.free(unsafe.Pointer(cPMName))
cAngularUnits := C.CString(angularUnits)
defer C.free(unsafe.Pointer(cAngularUnits))
return C.OSRSetGeogCS(
sr.cval,
cGeogName,
cDatumName,
cSpheroidName,
C.double(semiMajor),
C.double(flattening),
cPMName,
C.double(offset),
cAngularUnits,
C.double(toRadians),
).Err()
}
// Set up the vertical coordinate system
func (sr *SpatialReference) SetVerticalCS(csName, datumName string, datumType int) error {
cCSName := C.CString(csName)
defer C.free(unsafe.Pointer(cCSName))
cDatumName := C.CString(datumName)
defer C.free(unsafe.Pointer(cDatumName))
return C.OSRSetVertCS(sr.cval, cCSName, cDatumName, C.int(datumType)).Err()
}
// Get spheroid semi-major axis
func (sr *SpatialReference) SemiMajorAxis() (float64, error) {
var cErr C.OGRErr
axis := C.OSRGetSemiMajor(sr.cval, &cErr)
return float64(axis), cErr.Err()
}
// Get spheroid semi-minor axis
func (sr *SpatialReference) SemiMinorAxis() (float64, error) {
var cErr C.OGRErr
axis := C.OSRGetSemiMinor(sr.cval, &cErr)
return float64(axis), cErr.Err()
}
// Get spheroid inverse flattening axis
func (sr *SpatialReference) InverseFlattening() (float64, error) {
var cErr C.OGRErr
flat := C.OSRGetInvFlattening(sr.cval, &cErr)
return float64(flat), cErr.Err()
}
// Sets the authority for a node
func (sr *SpatialReference) SetAuthority(target, authority string, code int) error {
cTarget := C.CString(target)
defer C.free(unsafe.Pointer(cTarget))
cAuthority := C.CString(authority)
defer C.free(unsafe.Pointer(cAuthority))
return C.OSRSetAuthority(sr.cval, cTarget, cAuthority, C.int(code)).Err()
}
// Get the authority code for a node
func (sr *SpatialReference) AuthorityCode(target string) string {
cTarget := C.CString(target)
defer C.free(unsafe.Pointer(cTarget))
code := C.OSRGetAuthorityCode(sr.cval, cTarget)
return C.GoString(code)
}
// Get the authority name for a node
func (sr *SpatialReference) AuthorityName(target string) string {
cTarget := C.CString(target)
defer C.free(unsafe.Pointer(cTarget))
code := C.OSRGetAuthorityName(sr.cval, cTarget)
return C.GoString(code)
}
// Set a projection by name
func (sr *SpatialReference) SetProjectionByName(name string) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetProjection(sr.cval, cName).Err()
}
// Set a projection parameter value
func (sr *SpatialReference) SetProjectionParameter(name string, value float64) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetProjParm(sr.cval, cName, C.double(value)).Err()
}
// Fetch a projection parameter value
func (sr *SpatialReference) ProjectionParameter(name string, defaultValue float64) (float64, error) {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
var cErr C.OGRErr
value := C.OSRGetProjParm(sr.cval, cName, C.double(defaultValue), &cErr)
return float64(value), cErr.Err()
}
// Set a projection parameter with a normalized value
func (sr *SpatialReference) SetNormalizedProjectionParameter(name string, value float64) error {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
return C.OSRSetNormProjParm(sr.cval, cName, C.double(value)).Err()
}
// Fetch a normalized projection parameter value
func (sr *SpatialReference) NormalizedProjectionParameter(
name string, defaultValue float64,
) (float64, error) {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
var cErr C.OGRErr
value := C.OSRGetProjParm(sr.cval, cName, C.double(defaultValue), &cErr)
return float64(value), cErr.Err()
}
// Set UTM projection definition
func (sr *SpatialReference) SetUTM(zone int, north bool) error {
return C.OSRSetUTM(sr.cval, C.int(zone), BoolToCInt(north)).Err()
}
// Get UTM zone information
func (sr *SpatialReference) UTMZone() (zone int, north bool) {
var northInt C.int
cZone := C.OSRGetUTMZone(sr.cval, &northInt)
return int(cZone), northInt != 0
}
// Set State Plane projection definition
func (sr *SpatialReference) SetStatePlane(zone int, nad83 bool) error {
return C.OSRSetStatePlane(sr.cval, C.int(zone), BoolToCInt(nad83)).Err()
}
// Set State Plane projection definition
func (sr *SpatialReference) SetStatePlaneWithUnits(
zone int,
nad83 bool,
unitName string,
factor float64,
) error {
cUnitName := C.CString(unitName)
defer C.free(unsafe.Pointer(cUnitName))
return C.OSRSetStatePlaneWithUnits(
sr.cval,
C.int(zone),
BoolToCInt(nad83),
cUnitName,
C.double(factor),
).Err()
}
// Set EPSG authority info if possible
func (sr *SpatialReference) AutoIdentifyEPSG() error {
return C.OSRAutoIdentifyEPSG(sr.cval).Err()
}
// Return true if EPSG feels this coordinate system should be treated as having lat/long coordinate ordering
func (sr *SpatialReference) EPSGTreatsAsLatLong() bool {
val := C.OSREPSGTreatsAsLatLong(sr.cval)
return val != 0
}
// Fetch the orientation of one axis
// Unimplemented: Axis
// Set to Albers Conic Equal Area
func (sr *SpatialReference) SetACEA(
stdp1, stdp2, centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetACEA(
sr.cval,
C.double(stdp1),
C.double(stdp2),
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Azimuthal Equidistant
func (sr *SpatialReference) SetAE(centerLat, centerLong, falseEasting, falseNorthing float64) error {
return C.OSRSetAE(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Bonne
func (sr *SpatialReference) SetBonne(standardParallel, centralMeridian, falseEasting, falseNorthing float64) error {
return C.OSRSetBonne(
sr.cval,
C.double(standardParallel),
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Cylindrical Equal Area
func (sr *SpatialReference) SetCEA(stdp1, centralMeridian, falseEasting, falseNorthing float64) error {
return C.OSRSetCEA(
sr.cval,
C.double(stdp1),
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Cassini-Soldner
func (sr *SpatialReference) SetCS(centerLat, centerLong, falseEasting, falseNorthing float64) error {
return C.OSRSetCS(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Equidistant Conic
func (sr *SpatialReference) SetEC(
stdp1, stdp2, centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetEC(
sr.cval,
C.double(stdp1),
C.double(stdp2),
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Eckert I-VI
func (sr *SpatialReference) SetEckert(variation int, centralMeridian, falseEasting, falseNorthing float64) error {
return C.OSRSetEckert(
sr.cval,
C.int(variation),
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Equirectangular
func (sr *SpatialReference) SetEquirectangular(
centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetEquirectangular(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Equirectangular (generalized form)
func (sr *SpatialReference) SetEquirectangularGeneralized(
centerLat, centerLong, psuedoStdParallel, falseEasting, falseNorthing float64,
) error {
return C.OSRSetEquirectangular2(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(psuedoStdParallel),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Gall Stereographic
func (sr *SpatialReference) SetGS(centralMeridian, falseEasting, falseNorthing float64) error {
return C.OSRSetGS(
sr.cval,
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Goode Homolosine
func (sr *SpatialReference) SetGH(centralMeridian, falseEasting, falseNorthing float64) error {
return C.OSRSetGH(
sr.cval,
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Interrupted Goode Homolosine
func (sr *SpatialReference) SetIGH() error {
return C.OSRSetIGH(sr.cval).Err()
}
// Set to GEOS - Geostationary Satellite View
func (sr *SpatialReference) SetGEOS(
centralMeridian, satelliteHeight, falseEasting, falseNorthing float64,
) error {
return C.OSRSetGEOS(
sr.cval,
C.double(centralMeridian),
C.double(satelliteHeight),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Gauss Schreiber Transverse Mercator
func (sr *SpatialReference) SetGSTM(
centerLat, centerLong, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetGaussSchreiberTMercator(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to gnomonic
func (sr *SpatialReference) SetGnomonic(
centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetGnomonic(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Hotine Oblique Mercator projection using azimuth angle
func (sr *SpatialReference) SetHOM(
centerLat, centerLong, azimuth, rectToSkew, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetHOM(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(azimuth),
C.double(rectToSkew),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Hotine Oblique Mercator projection using two points on projection centerline
func (sr *SpatialReference) SetHOM2PNO(
centerLat, lat1, long1, lat2, long2, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetHOM2PNO(
sr.cval,
C.double(centerLat),
C.double(lat1),
C.double(long1),
C.double(lat2),
C.double(long2),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to International Map of the World Polyconic
func (sr *SpatialReference) SetIWMPolyconic(
lat1, lat2, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetIWMPolyconic(
sr.cval,
C.double(lat1),
C.double(lat2),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Krovak Oblique Conic Conformal
func (sr *SpatialReference) SetKrovak(
centerLat, centerLong, azimuth, psuedoStdParallel, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetKrovak(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(azimuth),
C.double(psuedoStdParallel),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Lambert Azimuthal Equal Area
func (sr *SpatialReference) SetLAEA(
centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetLAEA(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Lambert Conformal Conic
func (sr *SpatialReference) SetLCC(
stdp1, stdp2, centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetLCC(
sr.cval,
C.double(stdp1),
C.double(stdp2),
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Lambert Conformal Conic (1 standard parallel)
func (sr *SpatialReference) SetLCC1SP(
centerLat, centerLong, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetLCC1SP(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Lambert Conformal Conic (Belgium)
func (sr *SpatialReference) SetLCCB(
stdp1, stdp2, centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetLCCB(
sr.cval,
C.double(stdp1),
C.double(stdp2),
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Miller Cylindrical
func (sr *SpatialReference) SetMC(
centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetMC(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Mercator
func (sr *SpatialReference) SetMercator(
centerLat, centerLong, scale, falseEasting, falseNorthing float64,
) error {
return C.OSRSetMercator(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(scale),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set tp Mollweide
func (sr *SpatialReference) SetMollweide(
centralMeridian, falseEasting, falseNorthing float64,
) error {
return C.OSRSetMollweide(
sr.cval,
C.double(centralMeridian),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to New Zealand Map Grid
func (sr *SpatialReference) SetNZMG(
centerLat, centerLong, falseEasting, falseNorthing float64,
) error {
return C.OSRSetNZMG(
sr.cval,
C.double(centerLat),
C.double(centerLong),
C.double(falseEasting),
C.double(falseNorthing),
).Err()
}
// Set to Oblique Stereographic
func (sr *SpatialReference) SetOS(