/****************************************************************************** * * Project: OpenGIS Simple Features Reference Implementation * Purpose: The OGRFeature class implementation. * Author: Frank Warmerdam, warmerda@home.com * ****************************************************************************** * Copyright (c) 1999, Les Technologies SoftMap Inc. * Copyright (c) 2008-2013, Even Rouault * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "cpl_port.h" #include "ogr_api.h" #include "ogr_feature.h" #include #include #include #include #include #include #include #include #include #include #include "cpl_conv.h" #include "cpl_error.h" #include "cpl_string.h" #include "cpl_time.h" #include "cpl_vsi.h" #include "ogr_core.h" #include "ogr_featurestyle.h" #include "ogr_geometry.h" #include "ogr_p.h" #include "ogrgeojsonreader.h" #include "cpl_json_header.h" CPL_CVSID("$Id: ogrfeature.cpp 102347140eb161686cb3acd8c45e24c6d6be088e 2018-08-12 19:57:59 +0200 Even Rouault $") /************************************************************************/ /* OGRFeature() */ /************************************************************************/ /** * \brief Constructor * * Note that the OGRFeature will increment the reference count of its * defining OGRFeatureDefn. Destruction of the OGRFeatureDefn before * destruction of all OGRFeatures that depend on it is likely to result in * a crash. * * This method is the same as the C function OGR_F_Create(). * * @param poDefnIn feature class (layer) definition to which the feature will * adhere. */ OGRFeature::OGRFeature( OGRFeatureDefn * poDefnIn ) : nFID(OGRNullFID), poDefn(poDefnIn), papoGeometries(nullptr), pauFields(nullptr), m_pszNativeData(nullptr), m_pszNativeMediaType(nullptr), m_pszStyleString(nullptr), m_poStyleTable(nullptr), m_pszTmpFieldValue(nullptr) { poDefnIn->Reference(); pauFields = static_cast( VSI_MALLOC_VERBOSE(poDefn->GetFieldCount() * sizeof(OGRField))); papoGeometries = static_cast( VSI_CALLOC_VERBOSE(poDefn->GetGeomFieldCount(), sizeof(OGRGeometry*))); // Initialize array to the unset special value. if( pauFields != nullptr ) { for( int i = 0; i < poDefn->GetFieldCount(); i++ ) { OGR_RawField_SetUnset(&pauFields[i]); } } } /************************************************************************/ /* OGR_F_Create() */ /************************************************************************/ /** * \brief Feature factory. * * Note that the OGRFeature will increment the reference count of its * defining OGRFeatureDefn. Destruction of the OGRFeatureDefn before * destruction of all OGRFeatures that depend on it is likely to result in * a crash. * * This function is the same as the C++ method OGRFeature::OGRFeature(). * * @param hDefn handle to the feature class (layer) definition to * which the feature will adhere. * * @return an handle to the new feature object with null fields and no geometry, * or, starting with GDAL 2.1, NULL in case out of memory situation. */ OGRFeatureH OGR_F_Create( OGRFeatureDefnH hDefn ) { VALIDATE_POINTER1( hDefn, "OGR_F_Create", nullptr ); return OGRFeature::ToHandle( OGRFeature::CreateFeature(OGRFeatureDefn::FromHandle(hDefn))); } /************************************************************************/ /* ~OGRFeature() */ /************************************************************************/ OGRFeature::~OGRFeature() { if( pauFields != nullptr ) { const int nFieldcount = poDefn->GetFieldCount(); for( int i = 0; i < nFieldcount; i++ ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn(i); if( !IsFieldSetAndNotNull(i) ) continue; switch( poFDefn->GetType() ) { case OFTString: if( pauFields[i].String != nullptr ) VSIFree( pauFields[i].String ); break; case OFTBinary: if( pauFields[i].Binary.paData != nullptr ) VSIFree( pauFields[i].Binary.paData ); break; case OFTStringList: CSLDestroy( pauFields[i].StringList.paList ); break; case OFTIntegerList: case OFTInteger64List: case OFTRealList: CPLFree( pauFields[i].IntegerList.paList ); break; default: // TODO(schwehr): Add support for wide strings. break; } } } if( papoGeometries != nullptr ) { const int nGeomFieldCount = poDefn->GetGeomFieldCount(); for( int i = 0; i < nGeomFieldCount; i++ ) { delete papoGeometries[i]; } } poDefn->Release(); CPLFree(pauFields); CPLFree(papoGeometries); CPLFree(m_pszStyleString); CPLFree(m_pszTmpFieldValue); CPLFree(m_pszNativeData); CPLFree(m_pszNativeMediaType); } /************************************************************************/ /* OGR_F_Destroy() */ /************************************************************************/ /** * \brief Destroy feature * * The feature is deleted, but within the context of the GDAL/OGR heap. * This is necessary when higher level applications use GDAL/OGR from a * DLL and they want to delete a feature created within the DLL. If the * delete is done in the calling application the memory will be freed onto * the application heap which is inappropriate. * * This function is the same as the C++ method OGRFeature::DestroyFeature(). * * @param hFeat handle to the feature to destroy. */ void OGR_F_Destroy( OGRFeatureH hFeat ) { delete OGRFeature::FromHandle(hFeat); } /************************************************************************/ /* CreateFeature() */ /************************************************************************/ /** * \brief Feature factory. * * This is essentially a feature factory, useful for * applications creating features but wanting to ensure they * are created out of the OGR/GDAL heap. * * This method is the same as the C function OGR_F_Create(). * * @param poDefn Feature definition defining schema. * * @return new feature object with null fields and no geometry, or, starting * with GDAL 2.1, NULL in case of out of memory situation. May be deleted with * DestroyFeature(). */ OGRFeature *OGRFeature::CreateFeature( OGRFeatureDefn *poDefn ) { OGRFeature* poFeature = new (std::nothrow) OGRFeature( poDefn ); if( poFeature == nullptr ) return nullptr; if( (poFeature->pauFields == nullptr && poDefn->GetFieldCount() != 0) || (poFeature->papoGeometries == nullptr && poDefn->GetGeomFieldCount() != 0) ) { delete poFeature; return nullptr; } return poFeature; } /************************************************************************/ /* DestroyFeature() */ /************************************************************************/ /** * \brief Destroy feature * * The feature is deleted, but within the context of the GDAL/OGR heap. * This is necessary when higher level applications use GDAL/OGR from a * DLL and they want to delete a feature created within the DLL. If the * delete is done in the calling application the memory will be freed onto * the application heap which is inappropriate. * * This method is the same as the C function OGR_F_Destroy(). * * @param poFeature the feature to delete. */ void OGRFeature::DestroyFeature( OGRFeature *poFeature ) { delete poFeature; } /************************************************************************/ /* GetDefnRef() */ /************************************************************************/ /** * \fn OGRFeatureDefn *OGRFeature::GetDefnRef(); * * \brief Fetch feature definition. * * This method is the same as the C function OGR_F_GetDefnRef(). * * @return a reference to the feature definition object. */ /** * \fn const OGRFeatureDefn *OGRFeature::GetDefnRef() const; * * \brief Fetch feature definition. * * This method is the same as the C function OGR_F_GetDefnRef(). * * @return a reference to the feature definition object. * @since GDAL 2.3 */ /************************************************************************/ /* OGR_F_GetDefnRef() */ /************************************************************************/ /** * \brief Fetch feature definition. * * This function is the same as the C++ method OGRFeature::GetDefnRef(). * * @param hFeat handle to the feature to get the feature definition from. * * @return an handle to the feature definition object on which feature * depends. */ OGRFeatureDefnH OGR_F_GetDefnRef( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetDefnRef", nullptr ); return OGRFeatureDefn::ToHandle( OGRFeature::FromHandle(hFeat)->GetDefnRef()); } /************************************************************************/ /* SetGeometryDirectly() */ /************************************************************************/ /** * \brief Set feature geometry. * * This method updates the features geometry, and operate exactly as * SetGeometry(), except that this method assumes ownership of the * passed geometry (even in case of failure of that function). * * This method is the same as the C function OGR_F_SetGeometryDirectly(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param poGeomIn new geometry to apply to feature. Passing NULL value here * is correct and it will result in deallocation of currently assigned geometry * without assigning new one. * * @return OGRERR_NONE if successful, or OGR_UNSUPPORTED_GEOMETRY_TYPE if * the geometry type is illegal for the OGRFeatureDefn (checking not yet * implemented). */ OGRErr OGRFeature::SetGeometryDirectly( OGRGeometry * poGeomIn ) { if( GetGeomFieldCount() > 0 ) return SetGeomFieldDirectly(0, poGeomIn); delete poGeomIn; return OGRERR_FAILURE; } /************************************************************************/ /* OGR_F_SetGeometryDirectly() */ /************************************************************************/ /** * \brief Set feature geometry. * * This function updates the features geometry, and operate exactly as * SetGeometry(), except that this function assumes ownership of the * passed geometry (even in case of failure of that function). * * This function is the same as the C++ method * OGRFeature::SetGeometryDirectly. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature on which to apply the geometry. * @param hGeom handle to the new geometry to apply to feature. * * @return OGRERR_NONE if successful, or OGR_UNSUPPORTED_GEOMETRY_TYPE if * the geometry type is illegal for the OGRFeatureDefn (checking not yet * implemented). */ OGRErr OGR_F_SetGeometryDirectly( OGRFeatureH hFeat, OGRGeometryH hGeom ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetGeometryDirectly", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)-> SetGeometryDirectly(OGRGeometry::FromHandle(hGeom)); } /************************************************************************/ /* SetGeometry() */ /************************************************************************/ /** * \brief Set feature geometry. * * This method updates the features geometry, and operate exactly as * SetGeometryDirectly(), except that this method does not assume ownership * of the passed geometry, but instead makes a copy of it. * * This method is the same as the C function OGR_F_SetGeometry(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param poGeomIn new geometry to apply to feature. Passing NULL value here * is correct and it will result in deallocation of currently assigned geometry * without assigning new one. * * @return OGRERR_NONE if successful, or OGR_UNSUPPORTED_GEOMETRY_TYPE if * the geometry type is illegal for the OGRFeatureDefn (checking not yet * implemented). */ OGRErr OGRFeature::SetGeometry( const OGRGeometry * poGeomIn ) { if( GetGeomFieldCount() < 1 ) return OGRERR_FAILURE; return SetGeomField(0, poGeomIn); } /************************************************************************/ /* OGR_F_SetGeometry() */ /************************************************************************/ /** * \brief Set feature geometry. * * This function updates the features geometry, and operate exactly as * SetGeometryDirectly(), except that this function does not assume ownership * of the passed geometry, but instead makes a copy of it. * * This function is the same as the C++ OGRFeature::SetGeometry(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature on which new geometry is applied to. * @param hGeom handle to the new geometry to apply to feature. * * @return OGRERR_NONE if successful, or OGR_UNSUPPORTED_GEOMETRY_TYPE if * the geometry type is illegal for the OGRFeatureDefn (checking not yet * implemented). */ OGRErr OGR_F_SetGeometry( OGRFeatureH hFeat, OGRGeometryH hGeom ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetGeometry", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)-> SetGeometry(OGRGeometry::FromHandle(hGeom)); } /************************************************************************/ /* StealGeometry() */ /************************************************************************/ /** * \brief Take away ownership of geometry. * * Fetch the geometry from this feature, and clear the reference to the * geometry on the feature. This is a mechanism for the application to * take over ownership of the geometry from the feature without copying. * Sort of an inverse to SetGeometryDirectly(). * * After this call the OGRFeature will have a NULL geometry. * * @return the pointer to the geometry. */ OGRGeometry *OGRFeature::StealGeometry() { if( GetGeomFieldCount() > 0 ) { OGRGeometry *poReturn = papoGeometries[0]; papoGeometries[0] = nullptr; return poReturn; } return nullptr; } /** * \brief Take away ownership of geometry. * * Fetch the geometry from this feature, and clear the reference to the * geometry on the feature. This is a mechanism for the application to * take over ownership of the geometry from the feature without copying. * Sort of an inverse to SetGeometryDirectly(). * * After this call the OGRFeature will have a NULL geometry. * * @param iGeomField index of the geometry field. * * @return the pointer to the geometry. */ OGRGeometry *OGRFeature::StealGeometry( int iGeomField ) { if( iGeomField >= 0 && iGeomField < GetGeomFieldCount() ) { OGRGeometry *poReturn = papoGeometries[iGeomField]; papoGeometries[iGeomField] = nullptr; return poReturn; } return nullptr; } /************************************************************************/ /* OGR_F_StealGeometry() */ /************************************************************************/ /** * \brief Take away ownership of geometry. * * Fetch the geometry from this feature, and clear the reference to the * geometry on the feature. This is a mechanism for the application to * take over ownership of the geometry from the feature without copying. * Sort of an inverse to OGR_FSetGeometryDirectly(). * * After this call the OGRFeature will have a NULL geometry. * * @return the pointer to the geometry. */ OGRGeometryH OGR_F_StealGeometry( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_StealGeometry", nullptr ); return OGRGeometry::ToHandle( OGRFeature::FromHandle(hFeat)->StealGeometry()); } /************************************************************************/ /* GetGeometryRef() */ /************************************************************************/ /** * \fn OGRGeometry *OGRFeature::GetGeometryRef(); * * \brief Fetch pointer to feature geometry. * * This method is essentially the same as the C function OGR_F_GetGeometryRef(). * (the only difference is that the C function honours OGRGetNonLinearGeometriesEnabledFlag()) * * Starting with GDAL 1.11, this is equivalent to calling * OGRFeature::GetGeomFieldRef(0). * * @return pointer to internal feature geometry. This object should * not be modified. */ OGRGeometry *OGRFeature::GetGeometryRef() { if( GetGeomFieldCount() > 0 ) return GetGeomFieldRef(0); return nullptr; } /** * \fn const OGRGeometry *OGRFeature::GetGeometryRef() const; * * \brief Fetch pointer to feature geometry. * * This method is essentially the same as the C function OGR_F_GetGeometryRef(). * (the only difference is that the C function honours OGRGetNonLinearGeometriesEnabledFlag()) * * @return pointer to internal feature geometry. This object should * not be modified. * @since GDAL 2.3 */ const OGRGeometry *OGRFeature::GetGeometryRef() const { if( GetGeomFieldCount() > 0 ) return GetGeomFieldRef(0); return nullptr; } /************************************************************************/ /* OGR_F_GetGeometryRef() */ /************************************************************************/ /** * \brief Fetch an handle to feature geometry. * * This function is essentially the same as the C++ method OGRFeature::GetGeometryRef() * (the only difference is that this C function honours OGRGetNonLinearGeometriesEnabledFlag()) * * @param hFeat handle to the feature to get geometry from. * @return an handle to internal feature geometry. This object should * not be modified. */ OGRGeometryH OGR_F_GetGeometryRef( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetGeometryRef", nullptr ); OGRFeature* poFeature = OGRFeature::FromHandle(hFeat); OGRGeometry* poGeom = poFeature->GetGeometryRef(); if( !OGRGetNonLinearGeometriesEnabledFlag() && poGeom != nullptr && OGR_GT_IsNonLinear(poGeom->getGeometryType()) ) { const OGRwkbGeometryType eTargetType = OGR_GT_GetLinear(poGeom->getGeometryType()); poGeom = OGRGeometryFactory::forceTo(poFeature->StealGeometry(), eTargetType); poFeature->SetGeomFieldDirectly(0, poGeom); poGeom = poFeature->GetGeometryRef(); } return OGRGeometry::ToHandle(poGeom); } /************************************************************************/ /* GetGeomFieldRef() */ /************************************************************************/ /** * \brief Fetch pointer to feature geometry. * * This method is the same as the C function OGR_F_GetGeomFieldRef(). * * @param iField geometry field to get. * * @return pointer to internal feature geometry. This object should * not be modified. * * @since GDAL 1.11 */ OGRGeometry *OGRFeature::GetGeomFieldRef( int iField ) { if( iField < 0 || iField >= GetGeomFieldCount() ) return nullptr; else return papoGeometries[iField]; } /** * \brief Fetch pointer to feature geometry. * * This method is the same as the C function OGR_F_GetGeomFieldRef(). * * @param iField geometry field to get. * * @return pointer to internal feature geometry. This object should * not be modified. * @since GDAL 2.3 */ const OGRGeometry *OGRFeature::GetGeomFieldRef( int iField ) const { if( iField < 0 || iField >= GetGeomFieldCount() ) return nullptr; else return papoGeometries[iField]; } /************************************************************************/ /* GetGeomFieldRef() */ /************************************************************************/ /** * \brief Fetch pointer to feature geometry. * * @param pszFName name of geometry field to get. * * @return pointer to internal feature geometry. This object should * not be modified. * * @since GDAL 1.11 */ OGRGeometry *OGRFeature::GetGeomFieldRef( const char* pszFName ) { const int iField = GetGeomFieldIndex(pszFName); if( iField < 0 ) return nullptr; return papoGeometries[iField]; } /** * \brief Fetch pointer to feature geometry. * * @param pszFName name of geometry field to get. * * @return pointer to internal feature geometry. This object should * not be modified. * @since GDAL 2.3 */ const OGRGeometry *OGRFeature::GetGeomFieldRef( const char* pszFName ) const { const int iField = GetGeomFieldIndex(pszFName); if( iField < 0 ) return nullptr; return papoGeometries[iField]; } /************************************************************************/ /* OGR_F_GetGeomFieldRef() */ /************************************************************************/ /** * \brief Fetch an handle to feature geometry. * * This function is the same as the C++ method OGRFeature::GetGeomFieldRef(). * * @param hFeat handle to the feature to get geometry from. * @param iField geometry field to get. * @return an handle to internal feature geometry. This object should * not be modified. * * @since GDAL 1.11 */ OGRGeometryH OGR_F_GetGeomFieldRef( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetGeomFieldRef", nullptr ); OGRFeature* poFeature = OGRFeature::FromHandle(hFeat); OGRGeometry* poGeom = poFeature->GetGeomFieldRef(iField); if( !OGRGetNonLinearGeometriesEnabledFlag() && poGeom != nullptr && OGR_GT_IsNonLinear(poGeom->getGeometryType()) ) { const OGRwkbGeometryType eTargetType = OGR_GT_GetLinear(poGeom->getGeometryType()); poGeom = OGRGeometryFactory::forceTo(poFeature->StealGeometry(iField), eTargetType); poFeature->SetGeomFieldDirectly(iField, poGeom); poGeom = poFeature->GetGeomFieldRef(iField); } return OGRGeometry::ToHandle(poGeom); } /************************************************************************/ /* SetGeomFieldDirectly() */ /************************************************************************/ /** * \brief Set feature geometry of a specified geometry field. * * This method updates the features geometry, and operate exactly as * SetGeomField(), except that this method assumes ownership of the * passed geometry (even in case of failure of that function). * * This method is the same as the C function OGR_F_SetGeomFieldDirectly(). * * @param iField geometry field to set. * @param poGeomIn new geometry to apply to feature. Passing NULL value here * is correct and it will result in deallocation of currently assigned geometry * without assigning new one. * * @return OGRERR_NONE if successful, or OGRERR_FAILURE if the index is invalid, * or OGRERR_UNSUPPORTED_GEOMETRY_TYPE if the geometry type is illegal for the * OGRFeatureDefn (checking not yet implemented). * * @since GDAL 1.11 */ OGRErr OGRFeature::SetGeomFieldDirectly( int iField, OGRGeometry * poGeomIn ) { if( iField < 0 || iField >= GetGeomFieldCount() ) { delete poGeomIn; return OGRERR_FAILURE; } if( papoGeometries[iField] != poGeomIn ) { delete papoGeometries[iField]; papoGeometries[iField] = poGeomIn; } return OGRERR_NONE; } /************************************************************************/ /* OGR_F_SetGeomFieldDirectly() */ /************************************************************************/ /** * \brief Set feature geometry of a specified geometry field. * * This function updates the features geometry, and operate exactly as * SetGeomField(), except that this function assumes ownership of the * passed geometry (even in case of failure of that function). * * This function is the same as the C++ method * OGRFeature::SetGeomFieldDirectly. * * @param hFeat handle to the feature on which to apply the geometry. * @param iField geometry field to set. * @param hGeom handle to the new geometry to apply to feature. * * @return OGRERR_NONE if successful, or OGRERR_FAILURE if the index is invalid, * or OGR_UNSUPPORTED_GEOMETRY_TYPE if the geometry type is illegal for the * OGRFeatureDefn (checking not yet implemented). * * @since GDAL 1.11 */ OGRErr OGR_F_SetGeomFieldDirectly( OGRFeatureH hFeat, int iField, OGRGeometryH hGeom ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetGeomFieldDirectly", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)-> SetGeomFieldDirectly(iField, OGRGeometry::FromHandle(hGeom)); } /************************************************************************/ /* SetGeomField() */ /************************************************************************/ /** * \brief Set feature geometry of a specified geometry field. * * This method updates the features geometry, and operate exactly as * SetGeomFieldDirectly(), except that this method does not assume ownership * of the passed geometry, but instead makes a copy of it. * * This method is the same as the C function OGR_F_SetGeomField(). * * @param iField geometry field to set. * @param poGeomIn new geometry to apply to feature. Passing NULL value here * is correct and it will result in deallocation of currently assigned geometry * without assigning new one. * * @return OGRERR_NONE if successful, or OGRERR_FAILURE if the index is invalid, * or OGR_UNSUPPORTED_GEOMETRY_TYPE if the geometry type is illegal for the * OGRFeatureDefn (checking not yet implemented). * * @since GDAL 1.11 */ OGRErr OGRFeature::SetGeomField( int iField, const OGRGeometry * poGeomIn ) { if( iField < 0 || iField >= GetGeomFieldCount() ) return OGRERR_FAILURE; if( papoGeometries[iField] != poGeomIn ) { delete papoGeometries[iField]; if( poGeomIn != nullptr ) papoGeometries[iField] = poGeomIn->clone(); else papoGeometries[iField] = nullptr; } // TODO(schwehr): Verify that the geometry matches the defn's type. return OGRERR_NONE; } /************************************************************************/ /* OGR_F_SetGeomField() */ /************************************************************************/ /** * \brief Set feature geometry of a specified geometry field. * * This function updates the features geometry, and operate exactly as * SetGeometryDirectly(), except that this function does not assume ownership * of the passed geometry, but instead makes a copy of it. * * This function is the same as the C++ OGRFeature::SetGeomField(). * * @param hFeat handle to the feature on which new geometry is applied to. * @param iField geometry field to set. * @param hGeom handle to the new geometry to apply to feature. * * @return OGRERR_NONE if successful, or OGR_UNSUPPORTED_GEOMETRY_TYPE if * the geometry type is illegal for the OGRFeatureDefn (checking not yet * implemented). */ OGRErr OGR_F_SetGeomField( OGRFeatureH hFeat, int iField, OGRGeometryH hGeom ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetGeomField", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)-> SetGeomField(iField, OGRGeometry::FromHandle(hGeom)); } /************************************************************************/ /* Clone() */ /************************************************************************/ /** * \brief Duplicate feature. * * The newly created feature is owned by the caller, and will have its own * reference to the OGRFeatureDefn. * * This method is the same as the C function OGR_F_Clone(). * * @return new feature, exactly matching this feature. Or, starting with GDAL * 2.1, NULL in case of out of memory situation. */ OGRFeature *OGRFeature::Clone() const { OGRFeature *poNew = CreateFeature( poDefn ); if( poNew == nullptr ) return nullptr; if( !CopySelfTo( poNew ) ) { delete poNew; return nullptr; } return poNew; } /************************************************************************/ /* OGR_F_Clone() */ /************************************************************************/ /** * \brief Duplicate feature. * * The newly created feature is owned by the caller, and will have its own * reference to the OGRFeatureDefn. * * This function is the same as the C++ method OGRFeature::Clone(). * * @param hFeat handle to the feature to clone. * @return an handle to the new feature, exactly matching this feature. */ OGRFeatureH OGR_F_Clone( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_Clone", nullptr ); return OGRFeature::ToHandle( OGRFeature::FromHandle(hFeat)->Clone()); } /************************************************************************/ /* CopySelfTo() */ /************************************************************************/ /** * \brief Copies the innards of this OGRFeature into the supplied object. * * This is mainly intended to allow derived classes to implement their own * Clone functions. * * @param poNew The object into which to copy the data of this object. * @return True if successful, false if the copy failed. */ bool OGRFeature::CopySelfTo( OGRFeature* poNew ) const { for( int i = 0; i < poDefn->GetFieldCount(); i++ ) { if( !poNew->SetFieldInternal( i, pauFields + i ) ) { return false; } } if( poNew->papoGeometries ) { for( int i = 0; i < poDefn->GetGeomFieldCount(); i++ ) { if( papoGeometries[i] != nullptr ) { poNew->papoGeometries[i] = papoGeometries[i]->clone(); if( poNew->papoGeometries[i] == nullptr ) { return false; } } } } if( m_pszStyleString != nullptr ) { poNew->m_pszStyleString = VSI_STRDUP_VERBOSE(m_pszStyleString); if( poNew->m_pszStyleString == nullptr ) { return false; } } poNew->SetFID( GetFID() ); if( m_pszNativeData != nullptr ) { poNew->m_pszNativeData = VSI_STRDUP_VERBOSE(m_pszNativeData); if( poNew->m_pszNativeData == nullptr ) { return false; } } if( m_pszNativeMediaType != nullptr ) { poNew->m_pszNativeMediaType = VSI_STRDUP_VERBOSE(m_pszNativeMediaType); if( poNew->m_pszNativeMediaType == nullptr ) { return false; } } return true; } /************************************************************************/ /* GetFieldCount() */ /************************************************************************/ /** * \fn int OGRFeature::GetFieldCount() const; * * \brief Fetch number of fields on this feature. * This will always be the same * as the field count for the OGRFeatureDefn. * * This method is the same as the C function OGR_F_GetFieldCount(). * * @return count of fields. */ /************************************************************************/ /* OGR_F_GetFieldCount() */ /************************************************************************/ /** * \brief Fetch number of fields on this feature * This will always be the same * as the field count for the OGRFeatureDefn. * * This function is the same as the C++ method OGRFeature::GetFieldCount(). * * @param hFeat handle to the feature to get the fields count from. * @return count of fields. */ int OGR_F_GetFieldCount( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldCount", 0 ); return OGRFeature::FromHandle(hFeat)->GetFieldCount(); } /************************************************************************/ /* GetFieldDefnRef() */ /************************************************************************/ /** * \fn OGRFieldDefn *OGRFeature::GetFieldDefnRef( int iField ); * * \brief Fetch definition for this field. * * This method is the same as the C function OGR_F_GetFieldDefnRef(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field definition (from the OGRFeatureDefn). This is an * internal reference, and should not be deleted or modified. */ /** * \fn const OGRFieldDefn *OGRFeature::GetFieldDefnRef( int iField ) const; * * \brief Fetch definition for this field. * * This method is the same as the C function OGR_F_GetFieldDefnRef(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field definition (from the OGRFeatureDefn). This is an * internal reference, and should not be deleted or modified. * @since GDAL 2.3 */ /************************************************************************/ /* OGR_F_GetFieldDefnRef() */ /************************************************************************/ /** * \brief Fetch definition for this field. * * This function is the same as the C++ method OGRFeature::GetFieldDefnRef(). * * @param hFeat handle to the feature on which the field is found. * @param i the field to fetch, from 0 to GetFieldCount()-1. * * @return an handle to the field definition (from the OGRFeatureDefn). * This is an internal reference, and should not be deleted or modified. */ OGRFieldDefnH OGR_F_GetFieldDefnRef( OGRFeatureH hFeat, int i ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldDefnRef", nullptr ); OGRFeature *poFeat = OGRFeature::FromHandle(hFeat); return OGRFieldDefn::ToHandle(poFeat->GetFieldDefnRef(i)); } /************************************************************************/ /* GetFieldIndex() */ /************************************************************************/ /** * \fn int OGRFeature::GetFieldIndex( const char * pszName ) const; * * \brief Fetch the field index given field name. * * This is a cover for the OGRFeatureDefn::GetFieldIndex() method. * * This method is the same as the C function OGR_F_GetFieldIndex(). * * @param pszName the name of the field to search for. * * @return the field index, or -1 if no matching field is found. */ /************************************************************************/ /* OGR_F_GetFieldIndex() */ /************************************************************************/ /** * \brief Fetch the field index given field name. * * This is a cover for the OGRFeatureDefn::GetFieldIndex() method. * * This function is the same as the C++ method OGRFeature::GetFieldIndex(). * * @param hFeat handle to the feature on which the field is found. * @param pszName the name of the field to search for. * * @return the field index, or -1 if no matching field is found. */ int OGR_F_GetFieldIndex( OGRFeatureH hFeat, const char *pszName ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldIndex", 0 ); return OGRFeature::FromHandle(hFeat)->GetFieldIndex( pszName ); } /************************************************************************/ /* GetGeomFieldCount() */ /************************************************************************/ /** * \fn int OGRFeature::GetGeomFieldCount() const; * * \brief Fetch number of geometry fields on this feature. * This will always be the same * as the geometry field count for the OGRFeatureDefn. * * This method is the same as the C function OGR_F_GetGeomFieldCount(). * * @return count of geometry fields. * * @since GDAL 1.11 */ /************************************************************************/ /* OGR_F_GetGeomFieldCount() */ /************************************************************************/ /** * \brief Fetch number of geometry fields on this feature * This will always be the same * as the geometry field count for the OGRFeatureDefn. * * This function is the same as the C++ method OGRFeature::GetGeomFieldCount(). * * @param hFeat handle to the feature to get the geometry fields count from. * @return count of geometry fields. * * @since GDAL 1.11 */ int OGR_F_GetGeomFieldCount( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetGeomFieldCount", 0 ); return OGRFeature::FromHandle(hFeat)->GetGeomFieldCount(); } /************************************************************************/ /* GetGeomFieldDefnRef() */ /************************************************************************/ /** * \fn OGRGeomFieldDefn *OGRFeature::GetGeomFieldDefnRef( int iGeomField ); * * \brief Fetch definition for this geometry field. * * This method is the same as the C function OGR_F_GetGeomFieldDefnRef(). * * @param iGeomField the field to fetch, from 0 to GetGeomFieldCount()-1. * * @return the field definition (from the OGRFeatureDefn). This is an * internal reference, and should not be deleted or modified. * * @since GDAL 1.11 */ /** * \fn const OGRGeomFieldDefn *OGRFeature::GetGeomFieldDefnRef( int iGeomField ) const; * * \brief Fetch definition for this geometry field. * * This method is the same as the C function OGR_F_GetGeomFieldDefnRef(). * * @param iGeomField the field to fetch, from 0 to GetGeomFieldCount()-1. * * @return the field definition (from the OGRFeatureDefn). This is an * internal reference, and should not be deleted or modified. * * @since GDAL 2.3 */ /************************************************************************/ /* OGR_F_GetGeomFieldDefnRef() */ /************************************************************************/ /** * \brief Fetch definition for this geometry field. * * This function is the same as the C++ method * OGRFeature::GetGeomFieldDefnRef(). * * @param hFeat handle to the feature on which the field is found. * @param i the field to fetch, from 0 to GetGeomFieldCount()-1. * * @return an handle to the field definition (from the OGRFeatureDefn). * This is an internal reference, and should not be deleted or modified. * * @since GDAL 1.11 */ OGRGeomFieldDefnH OGR_F_GetGeomFieldDefnRef( OGRFeatureH hFeat, int i ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetGeomFieldDefnRef", nullptr ); return OGRGeomFieldDefn::ToHandle( OGRFeature::FromHandle(hFeat)->GetGeomFieldDefnRef(i)); } /************************************************************************/ /* GetGeomFieldIndex() */ /************************************************************************/ /** * \fn int OGRFeature::GetGeomFieldIndex( const char * pszName ); * * \brief Fetch the geometry field index given geometry field name. * * This is a cover for the OGRFeatureDefn::GetGeomFieldIndex() method. * * This method is the same as the C function OGR_F_GetGeomFieldIndex(). * * @param pszName the name of the geometry field to search for. * * @return the geometry field index, or -1 if no matching geometry field is * found. * * @since GDAL 1.11 */ /************************************************************************/ /* OGR_F_GetGeomFieldIndex() */ /************************************************************************/ /** * \brief Fetch the geometry field index given geometry field name. * * This is a cover for the OGRFeatureDefn::GetGeomFieldIndex() method. * * This function is the same as the C++ method OGRFeature::GetGeomFieldIndex(). * * @param hFeat handle to the feature on which the geometry field is found. * @param pszName the name of the geometry field to search for. * * @return the geometry field index, or -1 if no matching geometry field is * found. * * @since GDAL 1.11 */ int OGR_F_GetGeomFieldIndex( OGRFeatureH hFeat, const char *pszName ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetGeomFieldIndex", 0 ); return OGRFeature::FromHandle(hFeat)->GetGeomFieldIndex( pszName ); } /************************************************************************/ /* IsFieldSet() */ /************************************************************************/ /** * \brief Test if a field has ever been assigned a value or not. * * This method is the same as the C function OGR_F_IsFieldSet(). * * @param iField the field to test. * * @return TRUE if the field has been set, otherwise false. */ int OGRFeature::IsFieldSet( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // Special field value accessors. switch( iSpecialField ) { case SPF_FID: return GetFID() != OGRNullFID; case SPF_OGR_GEOM_WKT: case SPF_OGR_GEOMETRY: return GetGeomFieldCount() > 0 && papoGeometries[0] != nullptr; case SPF_OGR_STYLE: return GetStyleString() != nullptr; case SPF_OGR_GEOM_AREA: if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return FALSE; return OGR_G_Area( OGRGeometry::ToHandle(papoGeometries[0])) != 0.0; default: return FALSE; } } else { return !OGR_RawField_IsUnset(&pauFields[iField]); } } /************************************************************************/ /* OGR_F_IsFieldSet() */ /************************************************************************/ /** * \brief Test if a field has ever been assigned a value or not. * * This function is the same as the C++ method OGRFeature::IsFieldSet(). * * @param hFeat handle to the feature on which the field is. * @param iField the field to test. * * @return TRUE if the field has been set, otherwise false. */ int OGR_F_IsFieldSet( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_IsFieldSet", 0 ); const OGRFeature* poFeature = OGRFeature::FromHandle(hFeat); if( iField < 0 || iField >= poFeature->GetFieldCount() ) { CPLError(CE_Failure, CPLE_AppDefined, "Invalid index : %d", iField); return FALSE; } return poFeature->IsFieldSet( iField ); } /************************************************************************/ /* UnsetField() */ /************************************************************************/ /** * \brief Clear a field, marking it as unset. * * This method is the same as the C function OGR_F_UnsetField(). * * @param iField the field to unset. */ void OGRFeature::UnsetField( int iField ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr || !IsFieldSet(iField) ) return; if( !IsFieldNull(iField) ) { switch( poFDefn->GetType() ) { case OFTRealList: case OFTIntegerList: case OFTInteger64List: CPLFree( pauFields[iField].IntegerList.paList ); break; case OFTStringList: CSLDestroy( pauFields[iField].StringList.paList ); break; case OFTString: CPLFree( pauFields[iField].String ); break; case OFTBinary: CPLFree( pauFields[iField].Binary.paData ); break; default: break; } } OGR_RawField_SetUnset(&pauFields[iField]); } /************************************************************************/ /* OGR_F_UnsetField() */ /************************************************************************/ /** * \brief Clear a field, marking it as unset. * * This function is the same as the C++ method OGRFeature::UnsetField(). * * @param hFeat handle to the feature on which the field is. * @param iField the field to unset. */ void OGR_F_UnsetField( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER0( hFeat, "OGR_F_UnsetField" ); OGRFeature::FromHandle(hFeat)->UnsetField( iField ); } /************************************************************************/ /* IsFieldNull() */ /************************************************************************/ /** * \brief Test if a field is null. * * This method is the same as the C function OGR_F_IsFieldNull(). * * @param iField the field to test. * * @return TRUE if the field is null, otherwise false. * * @since GDAL 2.2 */ bool OGRFeature::IsFieldNull( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // FIXME? return false; } else { return CPL_TO_BOOL(OGR_RawField_IsNull(&pauFields[iField])); } } /************************************************************************/ /* OGR_F_IsFieldNull() */ /************************************************************************/ /** * \brief Test if a field is null. * * This function is the same as the C++ method OGRFeature::IsFieldNull(). * * @param hFeat handle to the feature on which the field is. * @param iField the field to test. * * @return TRUE if the field is null, otherwise false. * * @since GDAL 2.2 */ int OGR_F_IsFieldNull( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_IsFieldNull", 0 ); const OGRFeature* poFeature = OGRFeature::FromHandle(hFeat); if( iField < 0 || iField >= poFeature->GetFieldCount() ) { CPLError(CE_Failure, CPLE_AppDefined, "Invalid index : %d", iField); return FALSE; } return poFeature->IsFieldNull( iField ); } /************************************************************************/ /* IsFieldSetAndNull() */ /************************************************************************/ /** * \brief Test if a field is set and not null. * * This method is the same as the C function OGR_F_IsFieldSetAndNotNull(). * * @param iField the field to test. * * @return TRUE if the field is set and not null, otherwise false. * * @since GDAL 2.2 */ bool OGRFeature::IsFieldSetAndNotNull( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { return CPL_TO_BOOL(IsFieldSet(iField)); } else { return !OGR_RawField_IsUnset(&pauFields[iField]) && !OGR_RawField_IsNull(&pauFields[iField]); } } /************************************************************************/ /* OGR_F_IsFieldSetAndNotNull() */ /************************************************************************/ /** * \brief Test if a field is set and not null. * * This function is the same as the C++ method OGRFeature::IsFieldSetAndNotNull(). * * @param hFeat handle to the feature on which the field is. * @param iField the field to test. * * @return TRUE if the field is set and not null, otherwise false. * * @since GDAL 2.2 */ int OGR_F_IsFieldSetAndNotNull( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_IsFieldSetAndNotNull", 0 ); OGRFeature* poFeature = OGRFeature::FromHandle(hFeat); if( iField < 0 || iField >= poFeature->GetFieldCount() ) { CPLError(CE_Failure, CPLE_AppDefined, "Invalid index : %d", iField); return FALSE; } return poFeature->IsFieldSetAndNotNull( iField ); } /************************************************************************/ /* SetFieldNull() */ /************************************************************************/ /** * \brief Clear a field, marking it as null. * * This method is the same as the C function OGR_F_SetFieldNull(). * * @param iField the field to set to null. * * @since GDAL 2.2 */ void OGRFeature::SetFieldNull( int iField ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr || IsFieldNull(iField) ) return; if( IsFieldSet(iField) ) { switch( poFDefn->GetType() ) { case OFTRealList: case OFTIntegerList: case OFTInteger64List: CPLFree( pauFields[iField].IntegerList.paList ); break; case OFTStringList: CSLDestroy( pauFields[iField].StringList.paList ); break; case OFTString: CPLFree( pauFields[iField].String ); break; case OFTBinary: CPLFree( pauFields[iField].Binary.paData ); break; default: break; } } OGR_RawField_SetNull(&pauFields[iField]); } /************************************************************************/ /* OGR_F_SetFieldNull() */ /************************************************************************/ /** * \brief Clear a field, marking it as null. * * This function is the same as the C++ method OGRFeature::SetFieldNull(). * * @param hFeat handle to the feature on which the field is. * @param iField the field to set to null. * * @since GDAL 2.2 */ void OGR_F_SetFieldNull( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldNull" ); OGRFeature::FromHandle(hFeat)->SetFieldNull( iField ); } /************************************************************************/ /* operator[] */ /************************************************************************/ /** * \brief Return a field value. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. This is not * checked by the method ! * * @return the field value. * @since GDAL 2.3 */ const OGRFeature::FieldValue OGRFeature::operator[](int iField) const { return {this, iField}; } /** * \brief Return a field value. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. This is not * checked by the method ! * * @return the field value. * @since GDAL 2.3 */ OGRFeature::FieldValue OGRFeature::operator[](int iField) { return {this, iField}; } /** * \brief Return a field value. * * @param pszFieldName field name * * @return the field value, or throw a FieldNotFoundException if not found. * @since GDAL 2.3 */ const OGRFeature::FieldValue OGRFeature::operator[](const char* pszFieldName) const { int iField = GetFieldIndex(pszFieldName); if( iField < 0 ) throw FieldNotFoundException(); return {this, iField}; } /** * \brief Return a field value. * * @param pszFieldName field name * * @return the field value, or throw a FieldNotFoundException if not found. * @since GDAL 2.3 */ OGRFeature::FieldValue OGRFeature::operator[](const char* pszFieldName) { int iField = GetFieldIndex(pszFieldName); if( iField < 0 ) throw FieldNotFoundException(); return {this, iField}; } /************************************************************************/ /* GetRawFieldRef() */ /************************************************************************/ /** * \fn OGRField *OGRFeature::GetRawFieldRef( int iField ); * * \brief Fetch a pointer to the internal field value given the index. * * This method is the same as the C function OGR_F_GetRawFieldRef(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the returned pointer is to an internal data structure, and should * not be freed, or modified. */ /** * \fn const OGRField *OGRFeature::GetRawFieldRef( int iField ) const; * * \brief Fetch a pointer to the internal field value given the index. * * This method is the same as the C function OGR_F_GetRawFieldRef(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the returned pointer is to an internal data structure, and should * not be freed, or modified. * @since GDAL 2.3 */ /************************************************************************/ /* OGR_F_GetRawFieldRef() */ /************************************************************************/ /** * \brief Fetch an handle to the internal field value given the index. * * This function is the same as the C++ method OGRFeature::GetRawFieldRef(). * * @param hFeat handle to the feature on which field is found. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the returned handle is to an internal data structure, and should * not be freed, or modified. */ OGRField *OGR_F_GetRawFieldRef( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetRawFieldRef", nullptr ); return OGRFeature::FromHandle(hFeat)->GetRawFieldRef( iField ); } /************************************************************************/ /* GetFieldAsInteger() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsInteger( const char* pszFName ) const * \brief Fetch field value as integer. * * OFTString features will be translated using atoi(). OFTReal fields * will be cast to integer. OFTInteger64 are demoted to 32 bit, with * clamping if out-of-range. Other field types, or errors will result in * a return value of zero. * * @param pszFName the name of the field to fetch. * * @return the field value. */ /** * \brief Fetch field value as integer. * * OFTString features will be translated using atoi(). OFTReal fields * will be cast to integer. OFTInteger64 are demoted to 32 bit, with * clamping if out-of-range. Other field types, or errors will result in * a return value of zero. * * This method is the same as the C function OGR_F_GetFieldAsInteger(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. */ int OGRFeature::GetFieldAsInteger( int iField ) const { int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // Special field value accessors. switch( iSpecialField ) { case SPF_FID: { const int nVal = nFID > INT_MAX ? INT_MAX : nFID < INT_MIN ? INT_MIN : static_cast(nFID); if( static_cast(nVal) != nFID ) { CPLError( CE_Warning, CPLE_AppDefined, "Integer overflow occurred when trying to return " "64bit integer. Use GetFieldAsInteger64() instead" ); } return nVal; } case SPF_OGR_GEOM_AREA: if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return 0; return static_cast( OGR_G_Area(OGRGeometry::ToHandle(papoGeometries[0]))); default: return 0; } } OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return 0; if( !IsFieldSetAndNotNull(iField) ) return 0; const OGRFieldType eType = poFDefn->GetType(); if( eType == OFTInteger ) { return pauFields[iField].Integer; } else if( eType == OFTInteger64 ) { const GIntBig nVal64 = pauFields[iField].Integer64; const int nVal = nVal64 > INT_MAX ? INT_MAX : nVal64 < INT_MIN ? INT_MIN : static_cast(nVal64); if( static_cast(nVal) != nVal64 ) { CPLError( CE_Warning, CPLE_AppDefined, "Integer overflow occurred when trying to return 64bit " "integer. Use GetFieldAsInteger64() instead"); } return nVal; } else if( eType == OFTReal ) { return static_cast(pauFields[iField].Real); } else if( eType == OFTString ) { if( pauFields[iField].String == nullptr ) return 0; else return atoi(pauFields[iField].String); } return 0; } /************************************************************************/ /* OGR_F_GetFieldAsInteger() */ /************************************************************************/ /** * \brief Fetch field value as integer. * * OFTString features will be translated using atoi(). OFTReal fields * will be cast to integer. Other field types, or errors will result in * a return value of zero. * * This function is the same as the C++ method OGRFeature::GetFieldAsInteger(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. */ int OGR_F_GetFieldAsInteger( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsInteger", 0 ); return OGRFeature::FromHandle(hFeat)->GetFieldAsInteger(iField); } /************************************************************************/ /* GetFieldAsInteger64() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsInteger64( const char* pszFName ) const * \brief Fetch field value as integer 64 bit. * * OFTInteger are promoted to 64 bit. * OFTString features will be translated using CPLAtoGIntBig(). OFTReal fields * will be cast to integer. Other field types, or errors will result in * a return value of zero. * * @param pszFName the name of the field to fetch. * * @return the field value. */ /** * \brief Fetch field value as integer 64 bit. * * OFTInteger are promoted to 64 bit. * OFTString features will be translated using CPLAtoGIntBig(). OFTReal fields * will be cast to integer. Other field types, or errors will result in * a return value of zero. * * This method is the same as the C function OGR_F_GetFieldAsInteger64(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. * @since GDAL 2.0 */ GIntBig OGRFeature::GetFieldAsInteger64( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // Special field value accessors. switch( iSpecialField ) { case SPF_FID: return nFID; case SPF_OGR_GEOM_AREA: if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return 0; return static_cast( OGR_G_Area(OGRGeometry::ToHandle(papoGeometries[0]))); default: return 0; } } OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return 0; if( !IsFieldSetAndNotNull(iField) ) return 0; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTInteger ) { return static_cast(pauFields[iField].Integer); } else if( eType == OFTInteger64 ) { return pauFields[iField].Integer64; } else if( eType == OFTReal ) { return static_cast(pauFields[iField].Real); } else if( eType == OFTString ) { if( pauFields[iField].String == nullptr ) return 0; else { return CPLAtoGIntBigEx(pauFields[iField].String, TRUE, nullptr); } } return 0; } /************************************************************************/ /* OGR_F_GetFieldAsInteger64() */ /************************************************************************/ /** * \brief Fetch field value as integer 64 bit. * * OFTInteger are promoted to 64 bit. * OFTString features will be translated using CPLAtoGIntBig(). OFTReal fields * will be cast to integer. Other field types, or errors will result in * a return value of zero. * * This function is the same as the C++ method * OGRFeature::GetFieldAsInteger64(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. * @since GDAL 2.0 */ GIntBig OGR_F_GetFieldAsInteger64( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsInteger64", 0 ); return OGRFeature::FromHandle(hFeat)->GetFieldAsInteger64(iField); } /************************************************************************/ /* GetFieldAsDouble() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsDouble( const char* pszFName ) const * \brief Fetch field value as a double. * * OFTString features will be translated using CPLAtof(). OFTInteger and * OFTInteger64 fields will be cast to double. Other field types, or errors * will result in a return value of zero. * * @param pszFName the name of the field to fetch. * * @return the field value. */ /** * \brief Fetch field value as a double. * * OFTString features will be translated using CPLAtof(). OFTInteger and * OFTInteger64 fields will be cast to double. Other field types, or errors * will result in a return value of zero. * * This method is the same as the C function OGR_F_GetFieldAsDouble(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. */ double OGRFeature::GetFieldAsDouble( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // Special field value accessors. switch( iSpecialField ) { case SPF_FID: return static_cast(GetFID()); case SPF_OGR_GEOM_AREA: if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return 0.0; return OGR_G_Area(OGRGeometry::ToHandle(papoGeometries[0])); default: return 0.0; } } OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return 0.0; if( !IsFieldSetAndNotNull(iField) ) return 0.0; const OGRFieldType eType = poFDefn->GetType(); if( eType == OFTReal ) { return pauFields[iField].Real; } else if( eType == OFTInteger ) { return pauFields[iField].Integer; } else if( eType == OFTInteger64 ) { return static_cast(pauFields[iField].Integer64); } else if( eType == OFTString ) { if( pauFields[iField].String == nullptr ) return 0; else return CPLAtof(pauFields[iField].String); } return 0.0; } /************************************************************************/ /* OGR_F_GetFieldAsDouble() */ /************************************************************************/ /** * \brief Fetch field value as a double. * * OFTString features will be translated using CPLAtof(). OFTInteger fields * will be cast to double. Other field types, or errors will result in * a return value of zero. * * This function is the same as the C++ method OGRFeature::GetFieldAsDouble(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. */ double OGR_F_GetFieldAsDouble( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsDouble", 0 ); return OGRFeature::FromHandle(hFeat)->GetFieldAsDouble(iField); } /************************************************************************/ /* OGRFeatureFormatDateTimeBuffer() */ /************************************************************************/ constexpr int TEMP_BUFFER_SIZE = 80; static void OGRFeatureFormatDateTimeBuffer( char szTempBuffer[TEMP_BUFFER_SIZE], int nYear, int nMonth, int nDay, int nHour, int nMinute, float fSecond, int nTZFlag ) { const int ms = OGR_GET_MS(fSecond); if( ms != 0 ) CPLsnprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%04d/%02d/%02d %02d:%02d:%06.3f", nYear, nMonth, nDay, nHour, nMinute, fSecond ); else // Default format. { if( CPLIsNan(fSecond) || fSecond < 0.0 || fSecond > 62.0 ) { fSecond = 0.0; CPLError(CE_Failure, CPLE_NotSupported, "OGRFeatureFormatDateTimeBuffer: fSecond is invalid. " "Forcing '%f' to 0.0.", fSecond); } snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%04d/%02d/%02d %02d:%02d:%02d", nYear, nMonth, nDay, nHour, nMinute, static_cast(fSecond) ); } if( nTZFlag > 1 ) { const int nOffset = (nTZFlag - 100) * 15; int nHours = static_cast(nOffset / 60); // Round towards zero. const int nMinutes = std::abs(nOffset - nHours * 60); if( nOffset < 0 ) { strcat( szTempBuffer, "-" ); nHours = std::abs(nHours); } else { strcat( szTempBuffer, "+" ); } if( nMinutes == 0 ) snprintf( szTempBuffer+strlen(szTempBuffer), TEMP_BUFFER_SIZE-strlen(szTempBuffer), "%02d", nHours ); else snprintf( szTempBuffer+strlen(szTempBuffer), TEMP_BUFFER_SIZE-strlen(szTempBuffer), "%02d%02d", nHours, nMinutes ); } } /************************************************************************/ /* GetFieldAsString() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsString( const char* pszFName ) const * \brief Fetch field value as a string. * * OFTReal and OFTInteger fields will be translated to string using * sprintf(), but not necessarily using the established formatting rules. * Other field types, or errors will result in a return value of zero. * * @param pszFName the name of the field to fetch. * * @return the field value. This string is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ /** * \brief Fetch field value as a string. * * OFTReal and OFTInteger fields will be translated to string using * sprintf(), but not necessarily using the established formatting rules. * Other field types, or errors will result in a return value of zero. * * This method is the same as the C function OGR_F_GetFieldAsString(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. This string is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ const char *OGRFeature::GetFieldAsString( int iField ) const { char szTempBuffer[TEMP_BUFFER_SIZE] = {}; CPLFree(m_pszTmpFieldValue); m_pszTmpFieldValue = nullptr; const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { // Special field value accessors. switch( iSpecialField ) { case SPF_FID: CPLsnprintf( szTempBuffer, TEMP_BUFFER_SIZE, CPL_FRMT_GIB, GetFID() ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; case SPF_OGR_GEOMETRY: if( GetGeomFieldCount() > 0 && papoGeometries[0] != nullptr ) return papoGeometries[0]->getGeometryName(); else return ""; case SPF_OGR_STYLE: if( GetStyleString() == nullptr ) return ""; else return GetStyleString(); case SPF_OGR_GEOM_WKT: { if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return ""; if( papoGeometries[0]->exportToWkt( &m_pszTmpFieldValue ) == OGRERR_NONE ) return m_pszTmpFieldValue; else return ""; } case SPF_OGR_GEOM_AREA: if( GetGeomFieldCount() == 0 || papoGeometries[0] == nullptr ) return ""; CPLsnprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%.16g", OGR_G_Area(OGRGeometry::ToHandle(papoGeometries[0]))); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; default: return ""; } } OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return ""; if( !IsFieldSetAndNotNull(iField) ) return ""; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTString ) { if( pauFields[iField].String == nullptr ) return ""; else return pauFields[iField].String; } else if( eType == OFTInteger ) { snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%d", pauFields[iField].Integer ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTInteger64 ) { CPLsnprintf( szTempBuffer, TEMP_BUFFER_SIZE, CPL_FRMT_GIB, pauFields[iField].Integer64 ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTReal ) { char szFormat[64] = {}; if( poFDefn->GetWidth() != 0 ) { snprintf( szFormat, sizeof(szFormat), "%%.%df", poFDefn->GetPrecision() ); } else { strcpy( szFormat, "%.15g" ); } CPLsnprintf( szTempBuffer, TEMP_BUFFER_SIZE, szFormat, pauFields[iField].Real ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTDateTime ) { OGRFeatureFormatDateTimeBuffer(szTempBuffer, pauFields[iField].Date.Year, pauFields[iField].Date.Month, pauFields[iField].Date.Day, pauFields[iField].Date.Hour, pauFields[iField].Date.Minute, pauFields[iField].Date.Second, pauFields[iField].Date.TZFlag ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTDate ) { snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%04d/%02d/%02d", pauFields[iField].Date.Year, pauFields[iField].Date.Month, pauFields[iField].Date.Day ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTTime ) { const int ms = OGR_GET_MS(pauFields[iField].Date.Second); if( ms != 0 || CPLIsNan(pauFields[iField].Date.Second) ) snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%02d:%02d:%06.3f", pauFields[iField].Date.Hour, pauFields[iField].Date.Minute, pauFields[iField].Date.Second ); else snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "%02d:%02d:%02d", pauFields[iField].Date.Hour, pauFields[iField].Date.Minute, static_cast(pauFields[iField].Date.Second) ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTIntegerList ) { char szItem[32] = {}; const int nCount = pauFields[iField].IntegerList.nCount; snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "(%d:", nCount ); int i = 0; // Used after for. for( ; i < nCount; i++ ) { snprintf( szItem, sizeof(szItem), "%d", pauFields[iField].IntegerList.paList[i] ); if( strlen(szTempBuffer) + strlen(szItem) + 6 >= sizeof(szTempBuffer) ) { break; } if( i > 0 ) strcat( szTempBuffer, "," ); strcat( szTempBuffer, szItem ); } if( i < nCount ) strcat( szTempBuffer, ",...)" ); else strcat( szTempBuffer, ")" ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTInteger64List ) { char szItem[32] = {}; const int nCount = pauFields[iField].Integer64List.nCount; snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "(%d:", nCount ); int i = 0; // Used after for. for( ; i < nCount; i++ ) { CPLsnprintf( szItem, sizeof(szItem), CPL_FRMT_GIB, pauFields[iField].Integer64List.paList[i] ); if( strlen(szTempBuffer) + strlen(szItem) + 6 >= sizeof(szTempBuffer) ) { break; } if( i > 0 ) strcat( szTempBuffer, "," ); strcat( szTempBuffer, szItem ); } if( i < nCount ) strcat( szTempBuffer, ",...)" ); else strcat( szTempBuffer, ")" ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTRealList ) { char szItem[40] = {}; char szFormat[64] = {}; const int nCount = pauFields[iField].RealList.nCount; if( poFDefn->GetWidth() != 0 ) { snprintf( szFormat, sizeof(szFormat), "%%%d.%df", poFDefn->GetWidth(), poFDefn->GetPrecision() ); } else strcpy( szFormat, "%.16g" ); snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "(%d:", nCount ); int i = 0; // Used after for. for( ; i < nCount; i++ ) { CPLsnprintf( szItem, sizeof(szItem), szFormat, pauFields[iField].RealList.paList[i] ); if( strlen(szTempBuffer) + strlen(szItem) + 6 >= sizeof(szTempBuffer) ) { break; } if( i > 0 ) strcat( szTempBuffer, "," ); strcat( szTempBuffer, szItem ); } if( i < nCount ) strcat( szTempBuffer, ",...)" ); else strcat( szTempBuffer, ")" ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTStringList ) { const int nCount = pauFields[iField].StringList.nCount; snprintf( szTempBuffer, TEMP_BUFFER_SIZE, "(%d:", nCount ); int i = 0; // Used after for. for( ; i < nCount; i++ ) { const char *pszItem = pauFields[iField].StringList.paList[i]; if( strlen(szTempBuffer) + strlen(pszItem) + 6 >= sizeof(szTempBuffer) ) { break; } if( i > 0 ) strcat( szTempBuffer, "," ); strcat( szTempBuffer, pszItem ); } if( i < nCount ) strcat( szTempBuffer, ",...)" ); else strcat( szTempBuffer, ")" ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } else if( eType == OFTBinary ) { int nCount = pauFields[iField].Binary.nCount; if( nCount > static_cast(sizeof(szTempBuffer)) / 2 - 4 ) nCount = sizeof(szTempBuffer) / 2 - 4; char *pszHex = CPLBinaryToHex( nCount, pauFields[iField].Binary.paData ); memcpy( szTempBuffer, pszHex, 2 * nCount ); szTempBuffer[nCount*2] = '\0'; if( nCount < pauFields[iField].Binary.nCount ) strcat( szTempBuffer, "..." ); CPLFree( pszHex ); m_pszTmpFieldValue = VSI_STRDUP_VERBOSE( szTempBuffer ); if( m_pszTmpFieldValue == nullptr ) return ""; return m_pszTmpFieldValue; } return ""; } /************************************************************************/ /* OGR_F_GetFieldAsString() */ /************************************************************************/ /** * \brief Fetch field value as a string. * * OFTReal and OFTInteger fields will be translated to string using * sprintf(), but not necessarily using the established formatting rules. * Other field types, or errors will result in a return value of zero. * * This function is the same as the C++ method OGRFeature::GetFieldAsString(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. This string is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ const char *OGR_F_GetFieldAsString( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsString", nullptr ); return OGRFeature::FromHandle(hFeat)->GetFieldAsString(iField); } /************************************************************************/ /* GetFieldAsIntegerList() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsIntegerList( const char* pszFName, int *pnCount ) const * \brief Fetch field value as a list of integers. * * Currently this method only works for OFTIntegerList fields. * @param pszFName the name of the field to fetch. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. * OFTReal and OFTInteger fields will be translated to string using * sprintf(), but not necessarily using the established formatting rules. * Other field types, or errors will result in a return value of zero. */ /** * \brief Fetch field value as a list of integers. * * Currently this method only works for OFTIntegerList fields. * * This method is the same as the C function OGR_F_GetFieldAsIntegerList(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. */ const int *OGRFeature::GetFieldAsIntegerList( int iField, int *pnCount ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn != nullptr && IsFieldSetAndNotNull(iField) && poFDefn->GetType() == OFTIntegerList ) { if( pnCount != nullptr ) *pnCount = pauFields[iField].IntegerList.nCount; return pauFields[iField].IntegerList.paList; } if( pnCount != nullptr ) *pnCount = 0; return nullptr; } /************************************************************************/ /* OGR_F_GetFieldAsIntegerList() */ /************************************************************************/ /** * \brief Fetch field value as a list of integers. * * Currently this function only works for OFTIntegerList fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsIntegerList(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. */ const int *OGR_F_GetFieldAsIntegerList( OGRFeatureH hFeat, int iField, int *pnCount ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsIntegerList", nullptr ); return OGRFeature::FromHandle(hFeat)-> GetFieldAsIntegerList(iField, pnCount); } /************************************************************************/ /* GetFieldAsInteger64List() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsInteger64List( const char* pszFName, int *pnCount ) const * \brief Fetch field value as a list of 64 bit integers. * * Currently this method only works for OFTInteger64List fields. * @param pszFName the name of the field to fetch. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. * @since GDAL 2.0 */ /** * \brief Fetch field value as a list of 64 bit integers. * * Currently this method only works for OFTInteger64List fields. * * This method is the same as the C function OGR_F_GetFieldAsInteger64List(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. * @since GDAL 2.0 */ const GIntBig *OGRFeature::GetFieldAsInteger64List( int iField, int *pnCount ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn != nullptr && IsFieldSetAndNotNull(iField) && poFDefn->GetType() == OFTInteger64List ) { if( pnCount != nullptr ) *pnCount = pauFields[iField].Integer64List.nCount; return pauFields[iField].Integer64List.paList; } if( pnCount != nullptr ) *pnCount = 0; return nullptr; } /************************************************************************/ /* OGR_F_GetFieldAsInteger64List() */ /************************************************************************/ /** * \brief Fetch field value as a list of 64 bit integers. * * Currently this function only works for OFTInteger64List fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsInteger64List(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of integers) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. * @since GDAL 2.0 */ const GIntBig *OGR_F_GetFieldAsInteger64List( OGRFeatureH hFeat, int iField, int *pnCount ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsInteger64List", nullptr ); return OGRFeature::FromHandle(hFeat)-> GetFieldAsInteger64List(iField, pnCount); } /************************************************************************/ /* GetFieldAsDoubleList() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsDoubleList( const char* pszFName, int *pnCount ) const * \brief Fetch field value as a list of doubles. * * Currently this method only works for OFTRealList fields. * @param pszFName the name of the field to fetch. * @param pnCount an integer to put the list count (number of doubles) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. */ /** * \brief Fetch field value as a list of doubles. * * Currently this method only works for OFTRealList fields. * * This method is the same as the C function OGR_F_GetFieldAsDoubleList(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of doubles) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. */ const double *OGRFeature::GetFieldAsDoubleList( int iField, int *pnCount ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn != nullptr && IsFieldSetAndNotNull(iField) && poFDefn->GetType() == OFTRealList ) { if( pnCount != nullptr ) *pnCount = pauFields[iField].RealList.nCount; return pauFields[iField].RealList.paList; } if( pnCount != nullptr ) *pnCount = 0; return nullptr; } /************************************************************************/ /* OGR_F_GetFieldAsDoubleList() */ /************************************************************************/ /** * \brief Fetch field value as a list of doubles. * * Currently this function only works for OFTRealList fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsDoubleList(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnCount an integer to put the list count (number of doubles) into. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. If *pnCount is zero * on return the returned pointer may be NULL or non-NULL. */ const double *OGR_F_GetFieldAsDoubleList( OGRFeatureH hFeat, int iField, int *pnCount ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsDoubleList", nullptr ); return OGRFeature::FromHandle(hFeat)-> GetFieldAsDoubleList(iField, pnCount); } /************************************************************************/ /* GetFieldAsStringList() */ /************************************************************************/ /** * \fn OGRFeature::GetFieldAsStringList( const char* pszFName ) const * \brief Fetch field value as a list of strings. * * Currently this method only works for OFTStringList fields. * * The returned list is terminated by a NULL pointer. The number of * elements can also be calculated using CSLCount(). * * @param pszFName the name of the field to fetch. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ /** * \brief Fetch field value as a list of strings. * * Currently this method only works for OFTStringList fields. * * The returned list is terminated by a NULL pointer. The number of * elements can also be calculated using CSLCount(). * * This method is the same as the C function OGR_F_GetFieldAsStringList(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ char **OGRFeature::GetFieldAsStringList( int iField ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return nullptr; if( !IsFieldSetAndNotNull(iField) ) return nullptr; if( poFDefn->GetType() == OFTStringList ) { return pauFields[iField].StringList.paList; } return nullptr; } /************************************************************************/ /* OGR_F_GetFieldAsStringList() */ /************************************************************************/ /** * \brief Fetch field value as a list of strings. * * Currently this method only works for OFTStringList fields. * * The returned list is terminated by a NULL pointer. The number of * elements can also be calculated using CSLCount(). * * This function is the same as the C++ method * OGRFeature::GetFieldAsStringList(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ char **OGR_F_GetFieldAsStringList( OGRFeatureH hFeat, int iField ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsStringList", nullptr ); return OGRFeature::FromHandle(hFeat)->GetFieldAsStringList(iField); } /************************************************************************/ /* GetFieldAsBinary() */ /************************************************************************/ /** * \brief Fetch field value as binary data. * * This method only works for OFTBinary and OFTString fields. * * This method is the same as the C function OGR_F_GetFieldAsBinary(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnBytes location to put the number of bytes returned. * * @return the field value. This data is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ GByte *OGRFeature::GetFieldAsBinary( int iField, int *pnBytes ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); *pnBytes = 0; if( poFDefn == nullptr ) return nullptr; if( !IsFieldSetAndNotNull(iField) ) return nullptr; if( poFDefn->GetType() == OFTBinary ) { *pnBytes = pauFields[iField].Binary.nCount; return pauFields[iField].Binary.paData; } else if( poFDefn->GetType() == OFTString ) { *pnBytes = static_cast(strlen(pauFields[iField].String)); return reinterpret_cast(pauFields[iField].String); } return nullptr; } /************************************************************************/ /* OGR_F_GetFieldAsBinary() */ /************************************************************************/ /** * \brief Fetch field value as binary. * * This method only works for OFTBinary and OFTString fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsBinary(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnBytes location to place count of bytes returned. * * @return the field value. This list is internal, and should not be * modified, or freed. Its lifetime may be very brief. */ GByte *OGR_F_GetFieldAsBinary( OGRFeatureH hFeat, int iField, int *pnBytes ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsBinary", nullptr ); VALIDATE_POINTER1( pnBytes, "OGR_F_GetFieldAsBinary", nullptr ); return OGRFeature::FromHandle(hFeat)-> GetFieldAsBinary(iField, pnBytes); } /************************************************************************/ /* GetFieldAsDateTime() */ /************************************************************************/ /** * \brief Fetch field value as date and time. * * Currently this method only works for OFTDate, OFTTime and OFTDateTime fields. * * This method is the same as the C function OGR_F_GetFieldAsDateTime(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnYear (including century) * @param pnMonth (1-12) * @param pnDay (1-31) * @param pnHour (0-23) * @param pnMinute (0-59) * @param pfSecond (0-59 with millisecond accuracy) * @param pnTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @return TRUE on success or FALSE on failure. */ int OGRFeature::GetFieldAsDateTime( int iField, int *pnYear, int *pnMonth, int *pnDay, int *pnHour, int *pnMinute, float *pfSecond, int *pnTZFlag ) const { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return FALSE; if( !IsFieldSetAndNotNull(iField) ) return FALSE; if( poFDefn->GetType() == OFTDate || poFDefn->GetType() == OFTTime || poFDefn->GetType() == OFTDateTime ) { if( pnYear ) *pnYear = pauFields[iField].Date.Year; if( pnMonth ) *pnMonth = pauFields[iField].Date.Month; if( pnDay ) *pnDay = pauFields[iField].Date.Day; if( pnHour ) *pnHour = pauFields[iField].Date.Hour; if( pnMinute ) *pnMinute = pauFields[iField].Date.Minute; if( pfSecond ) *pfSecond = pauFields[iField].Date.Second; if( pnTZFlag ) *pnTZFlag = pauFields[iField].Date.TZFlag; return TRUE; } return FALSE; } /** * \brief Fetch field value as date and time. * * Currently this method only works for OFTDate, OFTTime and OFTDateTime fields. * * This method is the same as the C function OGR_F_GetFieldAsDateTime(). * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnYear (including century) * @param pnMonth (1-12) * @param pnDay (1-31) * @param pnHour (0-23) * @param pnMinute (0-59) * @param pnSecond (0-59) * @param pnTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @return TRUE on success or FALSE on failure. */ int OGRFeature::GetFieldAsDateTime( int iField, int *pnYear, int *pnMonth, int *pnDay, int *pnHour, int *pnMinute, int *pnSecond, int *pnTZFlag ) const { float fSecond = 0.0f; const bool bRet = CPL_TO_BOOL( GetFieldAsDateTime( iField, pnYear, pnMonth, pnDay, pnHour, pnMinute, &fSecond, pnTZFlag)); if( bRet && pnSecond ) *pnSecond = static_cast(fSecond); return bRet; } /************************************************************************/ /* OGR_F_GetFieldAsDateTime() */ /************************************************************************/ /** * \brief Fetch field value as date and time. * * Currently this method only works for OFTDate, OFTTime and OFTDateTime fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsDateTime(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnYear (including century) * @param pnMonth (1-12) * @param pnDay (1-31) * @param pnHour (0-23) * @param pnMinute (0-59) * @param pnSecond (0-59) * @param pnTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @return TRUE on success or FALSE on failure. * * @see Use OGR_F_GetFieldAsDateTimeEx() for second with millisecond accuracy. */ int OGR_F_GetFieldAsDateTime( OGRFeatureH hFeat, int iField, int *pnYear, int *pnMonth, int *pnDay, int *pnHour, int *pnMinute, int *pnSecond, int *pnTZFlag ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsDateTime", 0 ); float fSecond = 0.0f; const bool bRet = CPL_TO_BOOL(OGRFeature::FromHandle(hFeat)-> GetFieldAsDateTime( iField, pnYear, pnMonth, pnDay, pnHour, pnMinute, &fSecond, pnTZFlag )); if( bRet && pnSecond ) *pnSecond = static_cast(fSecond); return bRet; } /************************************************************************/ /* OGR_F_GetFieldAsDateTimeEx() */ /************************************************************************/ /** * \brief Fetch field value as date and time. * * Currently this method only works for OFTDate, OFTTime and OFTDateTime fields. * * This function is the same as the C++ method * OGRFeature::GetFieldAsDateTime(). * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pnYear (including century) * @param pnMonth (1-12) * @param pnDay (1-31) * @param pnHour (0-23) * @param pnMinute (0-59) * @param pfSecond (0-59 with millisecond accuracy) * @param pnTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @return TRUE on success or FALSE on failure. * @since GDAL 2.0 */ int OGR_F_GetFieldAsDateTimeEx( OGRFeatureH hFeat, int iField, int *pnYear, int *pnMonth, int *pnDay, int *pnHour, int *pnMinute, float *pfSecond, int *pnTZFlag ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFieldAsDateTimeEx", 0 ); return OGRFeature::FromHandle(hFeat)-> GetFieldAsDateTime(iField, pnYear, pnMonth, pnDay, pnHour, pnMinute, pfSecond, pnTZFlag); } /************************************************************************/ /* OGRFeatureGetIntegerValue() */ /************************************************************************/ static int OGRFeatureGetIntegerValue( OGRFieldDefn *poFDefn, int nValue ) { if( poFDefn->GetSubType() == OFSTBoolean && nValue != 0 && nValue != 1 ) { CPLError(CE_Warning, CPLE_AppDefined, "Only 0 or 1 should be passed for a OFSTBoolean subtype. " "Considering this non-zero value as 1."); nValue = 1; } else if( poFDefn->GetSubType() == OFSTInt16 ) { if( nValue < -32768 ) { CPLError(CE_Warning, CPLE_AppDefined, "Out-of-range value for a OFSTInt16 subtype. " "Considering this value as -32768."); nValue = -32768; } else if( nValue > 32767 ) { CPLError(CE_Warning, CPLE_AppDefined, "Out-of-range value for a OFSTInt16 subtype. " "Considering this value as 32767."); nValue = 32767; } } return nValue; } /************************************************************************/ /* GetFieldAsSerializedJSon() */ /************************************************************************/ /** * \brief Fetch field value as a serialized JSon object. * * Currently this method only works for OFTStringList, OFTIntegerList, * OFTInteger64List and OFTRealList * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * * @return a string that must be de-allocate with CPLFree() * @since GDAL 2.2 */ char* OGRFeature::GetFieldAsSerializedJSon( int iField ) const { const int iSpecialField = iField - poDefn->GetFieldCount(); if( iSpecialField >= 0 ) { return nullptr; } OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return nullptr; if( !IsFieldSetAndNotNull(iField) ) return nullptr; char* pszRet = nullptr; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTStringList ) { json_object* poObj = json_object_new_array(); auto&& papszValues = GetFieldAsStringList(iField); for( int i=0; papszValues[i] != nullptr; i++) { json_object_array_add( poObj, json_object_new_string(papszValues[i]) ); } pszRet = CPLStrdup( json_object_to_json_string(poObj) ); json_object_put(poObj); } else if( eType == OFTIntegerList ) { json_object* poObj = json_object_new_array(); int nCount = 0; const int* panValues = GetFieldAsIntegerList(iField, &nCount); for( int i = 0; i < nCount; i++ ) { json_object_array_add( poObj, json_object_new_int(panValues[i]) ); } pszRet = CPLStrdup( json_object_to_json_string(poObj) ); json_object_put(poObj); } else if( eType == OFTInteger64List ) { json_object* poObj = json_object_new_array(); int nCount = 0; const GIntBig* panValues = GetFieldAsInteger64List(iField, &nCount); for( int i = 0; i < nCount; i++ ) { json_object_array_add( poObj, json_object_new_int64(panValues[i]) ); } pszRet = CPLStrdup( json_object_to_json_string(poObj) ); json_object_put(poObj); } else if( eType == OFTRealList ) { json_object* poObj = json_object_new_array(); int nCount = 0; const double* padfValues = GetFieldAsDoubleList(iField, &nCount); for( int i = 0; i < nCount; i++ ) { json_object_array_add( poObj, json_object_new_double(padfValues[i]) ); } pszRet = CPLStrdup( json_object_to_json_string(poObj) ); json_object_put(poObj); } return pszRet; } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, int nValue ) * \brief Set field to integer value. * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nValue the value to assign. */ /** * \brief Set field to integer value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This method is the same as the C function OGR_F_SetFieldInteger(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param nValue the value to assign. */ void OGRFeature::SetField( int iField, int nValue ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTInteger ) { pauFields[iField].Integer = OGRFeatureGetIntegerValue(poFDefn, nValue); pauFields[iField].Set.nMarker2 = 0; pauFields[iField].Set.nMarker3 = 0; } else if( eType == OFTInteger64 ) { pauFields[iField].Integer64 = OGRFeatureGetIntegerValue(poFDefn, nValue); } else if( eType == OFTReal ) { pauFields[iField].Real = nValue; } else if( eType == OFTIntegerList ) { SetField( iField, 1, &nValue ); } else if( eType == OFTInteger64List ) { GIntBig nVal64 = nValue; SetField( iField, 1, &nVal64 ); } else if( eType == OFTRealList ) { double dfValue = nValue; SetField( iField, 1, &dfValue ); } else if( eType == OFTString ) { char szTempBuffer[64] = {}; snprintf( szTempBuffer, sizeof(szTempBuffer), "%d", nValue ); if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].String ); pauFields[iField].String = VSI_STRDUP_VERBOSE( szTempBuffer ); if( pauFields[iField].String == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); } } else if( eType == OFTStringList ) { char szTempBuffer[64] = {}; snprintf( szTempBuffer, sizeof(szTempBuffer), "%d", nValue ); char *apszValues[2] = { szTempBuffer, nullptr }; SetField( iField, apszValues); } else { // Do nothing for other field types. } } /************************************************************************/ /* OGR_F_SetFieldInteger() */ /************************************************************************/ /** * \brief Set field to integer value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param nValue the value to assign. */ void OGR_F_SetFieldInteger( OGRFeatureH hFeat, int iField, int nValue ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldInteger" ); OGRFeature::FromHandle(hFeat)->SetField( iField, nValue ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, GIntBig nValue ) * \brief Set field to 64 bit integer value. * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nValue the value to assign. */ /** * \brief Set field to 64 bit integer value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This method is the same as the C function OGR_F_SetFieldInteger64(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param nValue the value to assign. * @since GDAL 2.0 */ void OGRFeature::SetField( int iField, GIntBig nValue ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTInteger ) { const int nVal32 = nValue < INT_MIN ? INT_MIN : nValue > INT_MAX ? INT_MAX : static_cast(nValue); if( static_cast(nVal32) != nValue ) { CPLError( CE_Warning, CPLE_AppDefined, "Integer overflow occurred when trying to set " "32bit field." ); } SetField(iField, nVal32); } else if( eType == OFTInteger64 ) { pauFields[iField].Integer64 = nValue; } else if( eType == OFTReal ) { pauFields[iField].Real = static_cast(nValue); } else if( eType == OFTIntegerList ) { int nVal32 = nValue < INT_MIN ? INT_MIN : nValue > INT_MAX ? INT_MAX : static_cast(nValue); if( static_cast(nVal32) != nValue ) { CPLError( CE_Warning, CPLE_AppDefined, "Integer overflow occurred when trying to set " "32bit field." ); } SetField( iField, 1, &nVal32 ); } else if( eType == OFTInteger64List ) { SetField( iField, 1, &nValue ); } else if( eType == OFTRealList ) { double dfValue = static_cast(nValue); SetField( iField, 1, &dfValue ); } else if( eType == OFTString ) { char szTempBuffer[64] = {}; CPLsnprintf( szTempBuffer, sizeof(szTempBuffer), CPL_FRMT_GIB, nValue ); if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].String ); pauFields[iField].String = VSI_STRDUP_VERBOSE( szTempBuffer ); if( pauFields[iField].String == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); } } else if( eType == OFTStringList ) { char szTempBuffer[64] = {}; CPLsnprintf( szTempBuffer, sizeof(szTempBuffer), CPL_FRMT_GIB, nValue ); char *apszValues[2] = { szTempBuffer, nullptr }; SetField( iField, apszValues); } else { // Do nothing for other field types. } } /************************************************************************/ /* OGR_F_SetFieldInteger64() */ /************************************************************************/ /** * \brief Set field to 64 bit integer value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param nValue the value to assign. * @since GDAL 2.0 */ void OGR_F_SetFieldInteger64( OGRFeatureH hFeat, int iField, GIntBig nValue ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldInteger64" ); OGRFeature::FromHandle(hFeat)->SetField( iField, nValue ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, double dfValue ) * \brief Set field to double value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param dfValue the value to assign. */ /** * \brief Set field to double value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This method is the same as the C function OGR_F_SetFieldDouble(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param dfValue the value to assign. */ void OGRFeature::SetField( int iField, double dfValue ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; const OGRFieldType eType = poFDefn->GetType(); if( eType == OFTReal ) { // if( poFDefn->GetSubType() == OFSTFloat32 && // dfValue != (double)(float)dfValue ) // { // CPLError(CE_Warning, CPLE_AppDefined, // "Passed value cannot be exactly representing as " // "a single-precision floating point value."); // dfValue = (double)(float)dfValue; // } pauFields[iField].Real = dfValue; } else if( eType == OFTInteger ) { const int nMin = std::numeric_limits::min(); const int nMax = std::numeric_limits::max(); const int nVal = dfValue < nMin ? nMin : dfValue > nMax ? nMax : static_cast(dfValue); pauFields[iField].Integer = OGRFeatureGetIntegerValue(poFDefn, nVal); pauFields[iField].Set.nMarker2 = 0; pauFields[iField].Set.nMarker3 = 0; } else if( eType == OFTInteger64 ) { pauFields[iField].Integer64 = static_cast(dfValue); pauFields[iField].Set.nMarker3 = 0; } else if( eType == OFTRealList ) { SetField( iField, 1, &dfValue ); } else if( eType == OFTIntegerList ) { int nValue = static_cast(dfValue); SetField( iField, 1, &nValue ); } else if( eType == OFTInteger64List ) { GIntBig nValue = static_cast(dfValue); SetField( iField, 1, &nValue ); } else if( eType == OFTString ) { char szTempBuffer[128] = {}; CPLsnprintf( szTempBuffer, sizeof(szTempBuffer), "%.16g", dfValue ); if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].String ); pauFields[iField].String = VSI_STRDUP_VERBOSE( szTempBuffer ); if( pauFields[iField].String == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); } } else if( eType == OFTStringList ) { char szTempBuffer[64] = {}; CPLsnprintf( szTempBuffer, sizeof(szTempBuffer), "%.16g", dfValue ); char *apszValues[2] = { szTempBuffer, nullptr }; SetField( iField, apszValues); } else { // Do nothing for other field types. } } /************************************************************************/ /* OGR_F_SetFieldDouble() */ /************************************************************************/ /** * \brief Set field to double value. * * OFTInteger, OFTInteger64 and OFTReal fields will be set directly. OFTString * fields will be assigned a string representation of the value, but not * necessarily taking into account formatting constraints on this field. Other * field types may be unaffected. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param dfValue the value to assign. */ void OGR_F_SetFieldDouble( OGRFeatureH hFeat, int iField, double dfValue ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldDouble" ); OGRFeature::FromHandle(hFeat)->SetField( iField, dfValue ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, const char * pszValue ) * \brief Set field to string value. * * OFTInteger fields will be set based on an atoi() conversion of the string. * OFTInteger64 fields will be set based on an CPLAtoGIntBig() conversion of the * string. OFTReal fields will be set based on an CPLAtof() conversion of the * string. Other field types may be unaffected. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param pszValue the value to assign. */ /** * \brief Set field to string value. * * OFTInteger fields will be set based on an atoi() conversion of the string. * OFTInteger64 fields will be set based on an CPLAtoGIntBig() conversion of the * string. OFTReal fields will be set based on an CPLAtof() conversion of the * string. Other field types may be unaffected. * * This method is the same as the C function OGR_F_SetFieldString(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pszValue the value to assign. */ void OGRFeature::SetField( int iField, const char * pszValue ) { static int bWarn = -1; if( bWarn < 0 ) bWarn = CPLTestBool( CPLGetConfigOption( "OGR_SETFIELD_NUMERIC_WARNING", "YES" ) ); OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; char *pszLast = nullptr; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTString ) { if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].String ); pauFields[iField].String = VSI_STRDUP_VERBOSE(pszValue ? pszValue : ""); if( pauFields[iField].String == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); } } else if( eType == OFTInteger ) { // As allowed by C standard, some systems like MSVC do not reset errno. errno = 0; long nVal = strtol(pszValue, &pszLast, 10); nVal = OGRFeatureGetIntegerValue(poFDefn, static_cast(nVal)); pauFields[iField].Integer = nVal > INT_MAX ? INT_MAX : nVal < INT_MIN ? INT_MIN : static_cast(nVal); if( bWarn && (errno == ERANGE || nVal != static_cast(pauFields[iField].Integer) || !pszLast || *pszLast ) ) CPLError( CE_Warning, CPLE_AppDefined, "Value '%s' of field %s.%s parsed incompletely to integer %d.", pszValue, poDefn->GetName(), poFDefn->GetNameRef(), pauFields[iField].Integer ); pauFields[iField].Set.nMarker2 = 0; pauFields[iField].Set.nMarker3 = 0; } else if( eType == OFTInteger64 ) { pauFields[iField].Integer64 = CPLAtoGIntBigEx(pszValue, bWarn, nullptr); pauFields[iField].Set.nMarker3 = 0; } else if( eType == OFTReal ) { pauFields[iField].Real = CPLStrtod(pszValue, &pszLast); if( bWarn && ( !pszLast || *pszLast ) ) CPLError( CE_Warning, CPLE_AppDefined, "Value '%s' of field %s.%s parsed incompletely to real %.16g.", pszValue, poDefn->GetName(), poFDefn->GetNameRef(), pauFields[iField].Real ); } else if( eType == OFTDate || eType == OFTTime || eType == OFTDateTime ) { OGRField sWrkField; if( OGRParseDate( pszValue, &sWrkField, 0 ) ) memcpy( pauFields+iField, &sWrkField, sizeof(sWrkField)); } else if( eType == OFTIntegerList || eType == OFTInteger64List || eType == OFTRealList ) { json_object* poJSonObj = nullptr; if( pszValue[0] == '[' && pszValue[strlen(pszValue)-1] == ']' && OGRJSonParse(pszValue, &poJSonObj, false) ) { const int nLength = json_object_array_length(poJSonObj); if( eType == OFTIntegerList && nLength > 0 ) { std::vector anValues; for( int i = 0; i < nLength; i++ ) { json_object* poItem = json_object_array_get_idx(poJSonObj, i); anValues.push_back( json_object_get_int( poItem ) ); } SetField( iField, nLength, &(anValues[0]) ); } else if( eType == OFTInteger64List && nLength > 0 ) { std::vector anValues; for( int i = 0; i < nLength; i++ ) { json_object* poItem = json_object_array_get_idx(poJSonObj, i); anValues.push_back( json_object_get_int64( poItem ) ); } SetField( iField, nLength, &(anValues[0]) ); } else if( eType == OFTRealList && nLength > 0 ) { std::vector adfValues; for( int i = 0; i < nLength; i++ ) { json_object* poItem = json_object_array_get_idx(poJSonObj, i); adfValues.push_back( json_object_get_double( poItem ) ); } SetField( iField, nLength, &(adfValues[0]) ); } json_object_put(poJSonObj); } else { char **papszValueList = nullptr; if( pszValue[0] == '(' && strchr(pszValue, ':') != nullptr ) { papszValueList = CSLTokenizeString2( pszValue, ",:()", 0 ); } if( papszValueList == nullptr || *papszValueList == nullptr || atoi(papszValueList[0]) != CSLCount(papszValueList)-1 ) { // Do nothing - the count does not match entries. } else if( eType == OFTIntegerList ) { const int nCount = atoi(papszValueList[0]); std::vector anValues; if( nCount == CSLCount(papszValueList)-1 ) { for( int i = 0; i < nCount; i++ ) { // As allowed by C standard, some systems like // MSVC do not reset errno. errno = 0; int nVal = atoi(papszValueList[i+1]); if( errno == ERANGE ) { CPLError( CE_Warning, CPLE_AppDefined, "32 bit integer overflow when converting %s", pszValue); } anValues.push_back( nVal ); } if( nCount > 0 ) SetField( iField, nCount, &(anValues[0]) ); } } else if( eType == OFTInteger64List ) { const int nCount = atoi(papszValueList[0]); std::vector anValues; if( nCount == CSLCount(papszValueList)-1 ) { for( int i = 0; i < nCount; i++ ) { const GIntBig nVal = CPLAtoGIntBigEx(papszValueList[i+1], TRUE, nullptr); anValues.push_back( nVal ); } if( nCount > 0 ) SetField( iField, nCount, &(anValues[0]) ); } } else if( eType == OFTRealList ) { int nCount = atoi(papszValueList[0]); std::vector adfValues; if( nCount == CSLCount(papszValueList)-1 ) { for( int i = 0; i < nCount; i++ ) adfValues.push_back( CPLAtof(papszValueList[i+1]) ); if( nCount > 0 ) SetField( iField, nCount, &(adfValues[0]) ); } } CSLDestroy(papszValueList); } } else if( eType == OFTStringList ) { if( pszValue && *pszValue ) { json_object* poJSonObj = nullptr; if( pszValue[0] == '(' && strchr(pszValue, ':') != nullptr && pszValue[strlen(pszValue)-1] == ')' ) { char** papszValueList = CSLTokenizeString2(pszValue, ",:()", 0); const int nCount = papszValueList[0] == nullptr ? 0 : atoi(papszValueList[0]); std::vector aosValues; if( nCount == CSLCount(papszValueList)-1 ) { for( int i = 0; i < nCount; i++ ) aosValues.push_back( papszValueList[i+1] ); aosValues.push_back( nullptr ); SetField( iField, &(aosValues[0]) ); } CSLDestroy(papszValueList); } // Is this a JSon array? else if( pszValue[0] == '[' && pszValue[strlen(pszValue)-1] == ']' && OGRJSonParse(pszValue, &poJSonObj, false) ) { CPLStringList aoList; const int nLength = json_object_array_length(poJSonObj); for( int i = 0; i < nLength; i++ ) { json_object* poItem = json_object_array_get_idx(poJSonObj, i); if( !poItem ) aoList.AddString(""); else aoList.AddString( json_object_get_string(poItem) ); } SetField( iField, aoList.List() ); json_object_put(poJSonObj); } else { const char *papszValues[2] = { pszValue, nullptr }; SetField( iField, const_cast(papszValues) ); } } } else { // Do nothing for other field types. } } /************************************************************************/ /* OGR_F_SetFieldString() */ /************************************************************************/ /** * \brief Set field to string value. * * OFTInteger fields will be set based on an atoi() conversion of the string. * OFTInteger64 fields will be set based on an CPLAtoGIntBig() conversion of the * string. OFTReal fields will be set based on an CPLAtof() conversion of the * string. Other field types may be unaffected. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param pszValue the value to assign. */ void OGR_F_SetFieldString( OGRFeatureH hFeat, int iField, const char *pszValue) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldString" ); OGRFeature::FromHandle(hFeat)->SetField( iField, pszValue ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, int nCount, const int *panValues ) * \brief Set field to list of integers value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. */ /** * \brief Set field to list of integers value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * This method is the same as the C function OGR_F_SetFieldIntegerList(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. */ void OGRFeature::SetField( int iField, int nCount, const int *panValues ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTIntegerList ) { OGRField uField; int *panValuesMod = nullptr; if( poFDefn->GetSubType() == OFSTBoolean || poFDefn->GetSubType() == OFSTInt16 ) { for( int i = 0; i < nCount; i++ ) { int nVal = OGRFeatureGetIntegerValue(poFDefn, panValues[i]); if( panValues[i] != nVal ) { if( panValuesMod == nullptr ) { panValuesMod = static_cast( VSI_MALLOC_VERBOSE(nCount * sizeof(int)) ); if( panValuesMod == nullptr ) return; memcpy(panValuesMod, panValues, nCount * sizeof(int)); } panValuesMod[i] = nVal; } } } uField.IntegerList.nCount = nCount; uField.Set.nMarker2 = 0; uField.Set.nMarker3 = 0; uField.IntegerList.paList = panValuesMod ? panValuesMod : const_cast(panValues); SetField( iField, &uField ); CPLFree(panValuesMod); } else if( eType == OFTInteger64List ) { std::vector anValues; anValues.reserve(nCount); for( int i = 0; i < nCount; i++ ) anValues.push_back( panValues[i] ); if( nCount > 0 ) SetField( iField, nCount, &anValues[0] ); } else if( eType == OFTRealList ) { std::vector adfValues; adfValues.reserve(nCount); for( int i = 0; i < nCount; i++ ) adfValues.push_back( static_cast(panValues[i]) ); if( nCount > 0 ) SetField( iField, nCount, &adfValues[0] ); } else if( (eType == OFTInteger || eType == OFTInteger64 || eType == OFTReal) && nCount == 1 ) { SetField( iField, panValues[0] ); } else if( eType == OFTStringList ) { char** papszValues = static_cast( VSI_MALLOC_VERBOSE((nCount+1) * sizeof(char*)) ); if( papszValues == nullptr ) return; for( int i = 0; i < nCount; i++ ) papszValues[i] = VSI_STRDUP_VERBOSE(CPLSPrintf("%d", panValues[i])); papszValues[nCount] = nullptr; SetField( iField, papszValues); CSLDestroy(papszValues); } } /************************************************************************/ /* OGR_F_SetFieldIntegerList() */ /************************************************************************/ /** * \brief Set field to list of integers value. * * This function currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. */ void OGR_F_SetFieldIntegerList( OGRFeatureH hFeat, int iField, int nCount, const int *panValues ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldIntegerList" ); OGRFeature::FromHandle(hFeat)-> SetField( iField, nCount, panValues ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, int nCount, const GIntBig * *panValues ) * \brief Set field to list of 64 bit integers value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. */ /** * \brief Set field to list of 64 bit integers value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * This method is the same as the C function OGR_F_SetFieldIntege64rList(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. * @since GDAL 2.0 */ void OGRFeature::SetField( int iField, int nCount, const GIntBig *panValues ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTIntegerList ) { std::vector anValues; for( int i = 0; i < nCount; i++ ) { const GIntBig nValue = panValues[i]; const int nVal32 = nValue < INT_MIN ? INT_MIN : nValue > INT_MAX ? INT_MAX : static_cast(nValue); if( static_cast(nVal32) != nValue ) { CPLError( CE_Warning, CPLE_AppDefined, "Integer overflow occurred when trying to set " "32bit field." ); } anValues.push_back( nVal32 ); } if( nCount > 0 ) SetField( iField, nCount, &anValues[0] ); } else if( eType == OFTInteger64List ) { OGRField uField; uField.Integer64List.nCount = nCount; uField.Set.nMarker2 = 0; uField.Set.nMarker3 = 0; uField.Integer64List.paList = const_cast(panValues); SetField( iField, &uField ); } else if( eType == OFTRealList ) { std::vector adfValues; adfValues.reserve(nCount); for( int i = 0; i < nCount; i++ ) adfValues.push_back( static_cast(panValues[i]) ); if( nCount > 0 ) SetField( iField, nCount, &adfValues[0] ); } else if( (eType == OFTInteger || eType == OFTInteger64 || eType == OFTReal) && nCount == 1 ) { SetField( iField, panValues[0] ); } else if( eType == OFTStringList ) { char** papszValues = static_cast( VSI_MALLOC_VERBOSE((nCount+1) * sizeof(char*)) ); if( papszValues == nullptr ) return; for( int i = 0; i < nCount; i++ ) papszValues[i] = VSI_STRDUP_VERBOSE(CPLSPrintf(CPL_FRMT_GIB, panValues[i])); papszValues[nCount] = nullptr; SetField( iField, papszValues); CSLDestroy(papszValues); } } /************************************************************************/ /* OGR_F_SetFieldInteger64List() */ /************************************************************************/ /** * \brief Set field to list of 64 bit integers value. * * This function currently on has an effect of OFTIntegerList, OFTInteger64List * and OFTRealList fields. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param panValues the values to assign. * @since GDAL 2.0 */ void OGR_F_SetFieldInteger64List( OGRFeatureH hFeat, int iField, int nCount, const GIntBig *panValues ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldInteger64List" ); OGRFeature::FromHandle(hFeat)->SetField(iField, nCount, panValues); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, int nCount, const double * padfValues ) * \brief Set field to list of doubles value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List, * OFTRealList fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nCount the number of values in the list being assigned. * @param padfValues the values to assign. */ /** * \brief Set field to list of doubles value. * * This method currently on has an effect of OFTIntegerList, OFTInteger64List, * OFTRealList fields. * * This method is the same as the C function OGR_F_SetFieldDoubleList(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param padfValues the values to assign. */ void OGRFeature::SetField( int iField, int nCount, const double * padfValues ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTRealList ) { OGRField uField; uField.RealList.nCount = nCount; uField.Set.nMarker2 = 0; uField.Set.nMarker3 = 0; uField.RealList.paList = const_cast(padfValues); SetField( iField, &uField ); } else if( eType == OFTIntegerList ) { std::vector anValues; anValues.reserve(nCount); for( int i = 0; i < nCount; i++ ) anValues.push_back( static_cast(padfValues[i]) ); if( nCount > 0 ) SetField( iField, nCount, &anValues[0] ); } else if( eType == OFTInteger64List ) { std::vector anValues; anValues.reserve(nCount); for( int i = 0; i < nCount; i++ ) anValues.push_back( static_cast(padfValues[i]) ); if( nCount > 0 ) SetField( iField, nCount, &anValues[0] ); } else if( (eType == OFTInteger || eType == OFTInteger64 || eType == OFTReal) && nCount == 1 ) { SetField( iField, padfValues[0] ); } else if( eType == OFTStringList ) { char** papszValues = static_cast( VSI_MALLOC_VERBOSE((nCount+1) * sizeof(char*)) ); if( papszValues == nullptr ) return; for( int i = 0; i < nCount; i++ ) papszValues[i] = VSI_STRDUP_VERBOSE(CPLSPrintf("%.16g", padfValues[i])); papszValues[nCount] = nullptr; SetField( iField, papszValues); CSLDestroy(papszValues); } } /************************************************************************/ /* OGR_F_SetFieldDoubleList() */ /************************************************************************/ /** * \brief Set field to list of doubles value. * * This function currently on has an effect of OFTIntegerList, OFTInteger64List, * OFTRealList fields. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nCount the number of values in the list being assigned. * @param padfValues the values to assign. */ void OGR_F_SetFieldDoubleList( OGRFeatureH hFeat, int iField, int nCount, const double *padfValues ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldDoubleList" ); OGRFeature::FromHandle(hFeat)->SetField(iField, nCount, padfValues); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, const char * const * papszValues ) * \brief Set field to list of strings value. * * This method currently on has an effect of OFTStringList fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param papszValues the values to assign. */ /** * \brief Set field to list of strings value. * * This method currently on has an effect of OFTStringList fields. * * This method is the same as the C function OGR_F_SetFieldStringList(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param papszValues the values to assign. */ void OGRFeature::SetField( int iField, const char * const * papszValues ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTStringList ) { if( !IsFieldSetAndNotNull(iField) || papszValues != pauFields[iField].StringList.paList ) { OGRField uField; uField.StringList.nCount = CSLCount(papszValues); uField.Set.nMarker2 = 0; uField.Set.nMarker3 = 0; uField.StringList.paList = const_cast(papszValues); SetField( iField, &uField ); } } else if( eType == OFTIntegerList ) { const int nValues = CSLCount(papszValues); int* panValues = static_cast( VSI_MALLOC_VERBOSE(nValues * sizeof(int)) ); if( panValues == nullptr ) return; for( int i = 0; i < nValues; i++ ) { // As allowed by C standard, some systems like MSVC do not // reset errno. errno = 0; int nVal = atoi(papszValues[i]); if( errno == ERANGE ) { CPLError(CE_Warning, CPLE_AppDefined, "32 bit integer overflow when converting %s", papszValues[i]); if( papszValues[i][0] == '-' ) nVal = INT_MIN; else nVal = INT_MAX; } panValues[i] = nVal; } SetField( iField, nValues, panValues ); CPLFree(panValues); } else if( eType == OFTInteger64List ) { const int nValues = CSLCount(papszValues); GIntBig* panValues = static_cast( VSI_MALLOC_VERBOSE(nValues * sizeof(GIntBig)) ); if( panValues == nullptr ) return; for( int i = 0; i < nValues; i++ ) { panValues[i] = CPLAtoGIntBigEx(papszValues[i], TRUE, nullptr); } SetField( iField, nValues, panValues ); CPLFree(panValues); } else if( eType == OFTRealList ) { const int nValues = CSLCount(papszValues); double* padfValues = static_cast( VSI_MALLOC_VERBOSE(nValues * sizeof(double)) ); if( padfValues == nullptr ) return; for( int i = 0; i < nValues; i++ ) { padfValues[i] = CPLAtof(papszValues[i]); } SetField( iField, nValues, padfValues ); CPLFree(padfValues); } } /************************************************************************/ /* OGR_F_SetFieldStringList() */ /************************************************************************/ /** * \brief Set field to list of strings value. * * This function currently on has an effect of OFTStringList fields. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param papszValues the values to assign. */ void OGR_F_SetFieldStringList( OGRFeatureH hFeat, int iField, CSLConstList papszValues ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldStringList" ); OGRFeature::FromHandle(hFeat)->SetField( iField, const_cast(papszValues) ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \brief Set field to binary data. * * This method currently on has an effect of OFTBinary fields. * * This method is the same as the C function OGR_F_SetFieldBinary(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nBytes bytes of data being set. * @param pabyData the raw data being applied. */ void OGRFeature::SetField( int iField, int nBytes, GByte *pabyData ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTBinary ) { OGRField uField; uField.Binary.nCount = nBytes; uField.Set.nMarker2 = 0; uField.Set.nMarker3 = 0; uField.Binary.paData = pabyData; SetField( iField, &uField ); } else if( eType == OFTString || eType == OFTStringList ) { char* pszStr = static_cast( VSI_MALLOC_VERBOSE(nBytes + 1) ); if( pszStr == nullptr ) return; memcpy(pszStr, pabyData, nBytes); pszStr[nBytes] = 0; SetField( iField, pszStr ); CPLFree( pszStr); } } /************************************************************************/ /* OGR_F_SetFieldBinary() */ /************************************************************************/ /** * \brief Set field to binary data. * * This function currently on has an effect of OFTBinary fields. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nBytes the number of bytes in pabyData array. * @param pabyData the data to apply. */ void OGR_F_SetFieldBinary( OGRFeatureH hFeat, int iField, int nBytes, GByte *pabyData ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldBinary" ); OGRFeature::FromHandle(hFeat)->SetField( iField, nBytes, pabyData ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, int nYear, int nMonth, * int nDay, int nHour, int nMinute, float fSecond, * int nTZFlag ) * \brief Set field to date. * * This method currently only has an effect for OFTDate, OFTTime and OFTDateTime * fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param nYear (including century) * @param nMonth (1-12) * @param nDay (1-31) * @param nHour (0-23) * @param nMinute (0-59) * @param fSecond (0-59, with millisecond accuracy) * @param nTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) */ /** * \brief Set field to date. * * This method currently only has an effect for OFTDate, OFTTime and OFTDateTime * fields. * * This method is the same as the C function OGR_F_SetFieldDateTime(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nYear (including century) * @param nMonth (1-12) * @param nDay (1-31) * @param nHour (0-23) * @param nMinute (0-59) * @param fSecond (0-59, with millisecond accuracy) * @param nTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) */ void OGRFeature::SetField( int iField, int nYear, int nMonth, int nDay, int nHour, int nMinute, float fSecond, int nTZFlag ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return; OGRFieldType eType = poFDefn->GetType(); if( eType == OFTDate || eType == OFTTime || eType == OFTDateTime ) { if( static_cast(nYear) != nYear ) { CPLError(CE_Failure, CPLE_NotSupported, "Years < -32768 or > 32767 are not supported"); return; } pauFields[iField].Date.Year = static_cast(nYear); pauFields[iField].Date.Month = static_cast(nMonth); pauFields[iField].Date.Day = static_cast(nDay); pauFields[iField].Date.Hour = static_cast(nHour); pauFields[iField].Date.Minute = static_cast(nMinute); pauFields[iField].Date.Second = fSecond; pauFields[iField].Date.TZFlag = static_cast(nTZFlag); } else if( eType == OFTString || eType == OFTStringList ) { char szTempBuffer[TEMP_BUFFER_SIZE] = {}; OGRFeatureFormatDateTimeBuffer(szTempBuffer, nYear, nMonth, nDay, nHour, nMinute, fSecond, nTZFlag); SetField( iField, szTempBuffer ); } } /************************************************************************/ /* OGR_F_SetFieldDateTime() */ /************************************************************************/ /** * \brief Set field to datetime. * * This method currently only has an effect for OFTDate, OFTTime and OFTDateTime * fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nYear (including century) * @param nMonth (1-12) * @param nDay (1-31) * @param nHour (0-23) * @param nMinute (0-59) * @param nSecond (0-59) * @param nTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @see Use OGR_F_SetFieldDateTimeEx() for second with millisecond accuracy. */ void OGR_F_SetFieldDateTime( OGRFeatureH hFeat, int iField, int nYear, int nMonth, int nDay, int nHour, int nMinute, int nSecond, int nTZFlag ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldDateTime" ); OGRFeature::FromHandle(hFeat)-> SetField( iField, nYear, nMonth, nDay, nHour, nMinute, static_cast(nSecond), nTZFlag ); } /************************************************************************/ /* OGR_F_SetFieldDateTimeEx() */ /************************************************************************/ /** * \brief Set field to datetime. * * This method currently only has an effect for OFTDate, OFTTime and OFTDateTime * fields. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to set, from 0 to GetFieldCount()-1. * @param nYear (including century) * @param nMonth (1-12) * @param nDay (1-31) * @param nHour (0-23) * @param nMinute (0-59) * @param fSecond (0-59, with millisecond accuracy) * @param nTZFlag (0=unknown, 1=localtime, 100=GMT, see data model for details) * * @since GDAL 2.0 */ void OGR_F_SetFieldDateTimeEx( OGRFeatureH hFeat, int iField, int nYear, int nMonth, int nDay, int nHour, int nMinute, float fSecond, int nTZFlag ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldDateTimeEx" ); OGRFeature::FromHandle(hFeat)-> SetField( iField, nYear, nMonth, nDay, nHour, nMinute, fSecond, nTZFlag ); } /************************************************************************/ /* SetField() */ /************************************************************************/ /** * \fn OGRFeature::SetField( const char* pszFName, OGRField * puValue ) * \brief Set field. * * The passed value OGRField must be of exactly the same type as the * target field, or an application crash may occur. The passed value * is copied, and will not be affected. It remains the responsibility of * the caller. * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param pszFName the name of the field to set. * @param puValue the value to assign. */ /** * \brief Set field. * * The passed value OGRField must be of exactly the same type as the * target field, or an application crash may occur. The passed value * is copied, and will not be affected. It remains the responsibility of * the caller. * * This method is the same as the C function OGR_F_SetFieldRaw(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param puValue the value to assign. */ void OGRFeature::SetField( int iField, OGRField * puValue ) { SetFieldInternal( iField, puValue ); } bool OGRFeature::SetFieldInternal( int iField, OGRField * puValue ) { OGRFieldDefn *poFDefn = poDefn->GetFieldDefn( iField ); if( poFDefn == nullptr ) return false; if( poFDefn->GetType() == OFTInteger ) { pauFields[iField] = *puValue; } else if( poFDefn->GetType() == OFTInteger64 ) { pauFields[iField] = *puValue; } else if( poFDefn->GetType() == OFTReal ) { pauFields[iField] = *puValue; } else if( poFDefn->GetType() == OFTString ) { if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].String ); if( puValue->String == nullptr ) pauFields[iField].String = nullptr; else if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) pauFields[iField] = *puValue; else { pauFields[iField].String = VSI_STRDUP_VERBOSE( puValue->String ); if( pauFields[iField].String == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); return false; } } } else if( poFDefn->GetType() == OFTDate || poFDefn->GetType() == OFTTime || poFDefn->GetType() == OFTDateTime ) { memcpy( pauFields+iField, puValue, sizeof(OGRField) ); } else if( poFDefn->GetType() == OFTIntegerList ) { const int nCount = puValue->IntegerList.nCount; if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].IntegerList.paList ); if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) { pauFields[iField] = *puValue; } else { pauFields[iField].IntegerList.paList = static_cast( VSI_MALLOC_VERBOSE(sizeof(int) * nCount) ); if( pauFields[iField].IntegerList.paList == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); return false; } memcpy( pauFields[iField].IntegerList.paList, puValue->IntegerList.paList, sizeof(int) * nCount ); pauFields[iField].IntegerList.nCount = nCount; } } else if( poFDefn->GetType() == OFTInteger64List ) { const int nCount = puValue->Integer64List.nCount; if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].Integer64List.paList ); if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) { pauFields[iField] = *puValue; } else { pauFields[iField].Integer64List.paList = static_cast( VSI_MALLOC_VERBOSE(sizeof(GIntBig) * nCount) ); if( pauFields[iField].Integer64List.paList == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); return false; } memcpy( pauFields[iField].Integer64List.paList, puValue->Integer64List.paList, sizeof(GIntBig) * nCount ); pauFields[iField].Integer64List.nCount = nCount; } } else if( poFDefn->GetType() == OFTRealList ) { const int nCount = puValue->RealList.nCount; if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].RealList.paList ); if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) { pauFields[iField] = *puValue; } else { pauFields[iField].RealList.paList = static_cast( VSI_MALLOC_VERBOSE(sizeof(double) * nCount) ); if( pauFields[iField].RealList.paList == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); return false; } memcpy( pauFields[iField].RealList.paList, puValue->RealList.paList, sizeof(double) * nCount ); pauFields[iField].RealList.nCount = nCount; } } else if( poFDefn->GetType() == OFTStringList ) { if( IsFieldSetAndNotNull(iField) ) CSLDestroy( pauFields[iField].StringList.paList ); if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) { pauFields[iField] = *puValue; } else { char** papszNewList = nullptr; for( char** papszIter = puValue->StringList.paList; papszIter != nullptr && *papszIter != nullptr; ++papszIter ) { char** papszNewList2 = CSLAddStringMayFail(papszNewList, *papszIter); if( papszNewList2 == nullptr ) { CSLDestroy(papszNewList); OGR_RawField_SetUnset(&pauFields[iField]); return false; } papszNewList = papszNewList2; } pauFields[iField].StringList.paList = papszNewList; pauFields[iField].StringList.nCount = puValue->StringList.nCount; CPLAssert( CSLCount(puValue->StringList.paList) == puValue->StringList.nCount ); } } else if( poFDefn->GetType() == OFTBinary ) { if( IsFieldSetAndNotNull(iField) ) CPLFree( pauFields[iField].Binary.paData ); if( OGR_RawField_IsUnset(puValue) || OGR_RawField_IsNull(puValue) ) { pauFields[iField] = *puValue; } else { pauFields[iField].Binary.paData = static_cast( VSI_MALLOC_VERBOSE(puValue->Binary.nCount) ); if( pauFields[iField].Binary.paData == nullptr ) { OGR_RawField_SetUnset(&pauFields[iField]); return false; } memcpy( pauFields[iField].Binary.paData, puValue->Binary.paData, puValue->Binary.nCount ); pauFields[iField].Binary.nCount = puValue->Binary.nCount; } } else { // Do nothing for other field types. } return true; } /************************************************************************/ /* OGR_F_SetFieldRaw() */ /************************************************************************/ /** * \brief Set field. * * The passed value OGRField must be of exactly the same type as the * target field, or an application crash may occur. The passed value * is copied, and will not be affected. It remains the responsibility of * the caller. * * This function is the same as the C++ method OGRFeature::SetField(). * * @note This method has only an effect on the in-memory feature object. If * this object comes from a layer and the modifications must be serialized back * to the datasource, OGR_L_SetFeature() must be used afterwards. Or if this is * a new feature, OGR_L_CreateFeature() must be used afterwards. * * @param hFeat handle to the feature that owned the field. * @param iField the field to fetch, from 0 to GetFieldCount()-1. * @param psValue handle on the value to assign. */ void OGR_F_SetFieldRaw( OGRFeatureH hFeat, int iField, OGRField *psValue ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetFieldRaw" ); OGRFeature::FromHandle(hFeat)->SetField( iField, psValue ); } /************************************************************************/ /* DumpReadable() */ /************************************************************************/ /** * \brief Dump this feature in a human readable form. * * This dumps the attributes, and geometry; however, it doesn't definition * information (other than field types and names), nor does it report the * geometry spatial reference system. * * A few options can be defined to change the default dump : *

DISPLAY_FIELDS=NO : to hide the dump of the attributes
DISPLAY_STYLE=NO : to hide the dump of the style string
DISPLAY_GEOMETRY=NO : to hide the dump of the geometry
DISPLAY_GEOMETRY=SUMMARY : to get only a summary of the geometry

* * This method is the same as the C function OGR_F_DumpReadable(). * * @param fpOut the stream to write to, such as stdout. If NULL stdout will * be used. * @param papszOptions NULL terminated list of options (may be NULL) */ void OGRFeature::DumpReadable( FILE * fpOut, char** papszOptions ) const { if( fpOut == nullptr ) fpOut = stdout; char szFID[32]; CPLsnprintf(szFID, sizeof(szFID), CPL_FRMT_GIB, GetFID()); fprintf( fpOut, "OGRFeature(%s):%s\n", poDefn->GetName(), szFID ); const char* pszDisplayFields = CSLFetchNameValue(papszOptions, "DISPLAY_FIELDS"); if( pszDisplayFields == nullptr || CPLTestBool(pszDisplayFields) ) { for( int iField = 0; iField < GetFieldCount(); iField++ ) { if( !IsFieldSet( iField) ) continue; OGRFieldDefn *poFDefn = poDefn->GetFieldDefn(iField); const char* pszType = (poFDefn->GetSubType() != OFSTNone) ? CPLSPrintf( "%s(%s)", poFDefn->GetFieldTypeName( poFDefn->GetType() ), poFDefn->GetFieldSubTypeName(poFDefn->GetSubType())) : poFDefn->GetFieldTypeName( poFDefn->GetType() ); fprintf( fpOut, " %s (%s) = ", poFDefn->GetNameRef(), pszType ); if( IsFieldNull( iField) ) fprintf( fpOut, "(null)\n" ); else fprintf( fpOut, "%s\n", GetFieldAsString( iField ) ); } } if( GetStyleString() != nullptr ) { const char* pszDisplayStyle = CSLFetchNameValue(papszOptions, "DISPLAY_STYLE"); if( pszDisplayStyle == nullptr || CPLTestBool(pszDisplayStyle) ) { fprintf( fpOut, " Style = %s\n", GetStyleString() ); } } const int nGeomFieldCount = GetGeomFieldCount(); if( nGeomFieldCount > 0 ) { const char* pszDisplayGeometry = CSLFetchNameValue(papszOptions, "DISPLAY_GEOMETRY"); if( !(pszDisplayGeometry != nullptr && EQUAL(pszDisplayGeometry, "NO")) ) { for( int iField = 0; iField < nGeomFieldCount; iField++ ) { OGRGeomFieldDefn *poFDefn = poDefn->GetGeomFieldDefn(iField); if( papoGeometries[iField] != nullptr ) { fprintf( fpOut, " " ); if( strlen(poFDefn->GetNameRef()) > 0 && GetGeomFieldCount() > 1 ) fprintf( fpOut, "%s = ", poFDefn->GetNameRef() ); papoGeometries[iField]->dumpReadable( fpOut, "", papszOptions ); } } } } fprintf( fpOut, "\n" ); } /************************************************************************/ /* OGR_F_DumpReadable() */ /************************************************************************/ /** * \brief Dump this feature in a human readable form. * * This dumps the attributes, and geometry; however, it doesn't definition * information (other than field types and names), nor does it report the * geometry spatial reference system. * * This function is the same as the C++ method OGRFeature::DumpReadable(). * * @param hFeat handle to the feature to dump. * @param fpOut the stream to write to, such as strout. */ void OGR_F_DumpReadable( OGRFeatureH hFeat, FILE *fpOut ) { VALIDATE_POINTER0( hFeat, "OGR_F_DumpReadable" ); OGRFeature::FromHandle(hFeat)->DumpReadable( fpOut ); } /************************************************************************/ /* GetFID() */ /************************************************************************/ /** * \fn GIntBig OGRFeature::GetFID() const; * * \brief Get feature identifier. * * This method is the same as the C function OGR_F_GetFID(). * Note: since GDAL 2.0, this method returns a GIntBig (previously a long) * * @return feature id or OGRNullFID if none has been assigned. */ /************************************************************************/ /* OGR_F_GetFID() */ /************************************************************************/ /** * \brief Get feature identifier. * * This function is the same as the C++ method OGRFeature::GetFID(). * Note: since GDAL 2.0, this method returns a GIntBig (previously a long) * * @param hFeat handle to the feature from which to get the feature * identifier. * @return feature id or OGRNullFID if none has been assigned. */ GIntBig OGR_F_GetFID( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetFID", 0 ); return OGRFeature::FromHandle(hFeat)->GetFID(); } /************************************************************************/ /* SetFID() */ /************************************************************************/ /** * \brief Set the feature identifier. * * For specific types of features this operation may fail on illegal * features ids. Generally it always succeeds. Feature ids should be * greater than or equal to zero, with the exception of OGRNullFID (-1) * indicating that the feature id is unknown. * * This method is the same as the C function OGR_F_SetFID(). * * @param nFIDIn the new feature identifier value to assign. * * @return On success OGRERR_NONE, or on failure some other value. */ OGRErr OGRFeature::SetFID( GIntBig nFIDIn ) { nFID = nFIDIn; return OGRERR_NONE; } /************************************************************************/ /* OGR_F_SetFID() */ /************************************************************************/ /** * \brief Set the feature identifier. * * For specific types of features this operation may fail on illegal * features ids. Generally it always succeeds. Feature ids should be * greater than or equal to zero, with the exception of OGRNullFID (-1) * indicating that the feature id is unknown. * * This function is the same as the C++ method OGRFeature::SetFID(). * * @param hFeat handle to the feature to set the feature id to. * @param nFID the new feature identifier value to assign. * * @return On success OGRERR_NONE, or on failure some other value. */ OGRErr OGR_F_SetFID( OGRFeatureH hFeat, GIntBig nFID ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetFID", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)->SetFID(nFID); } /************************************************************************/ /* Equal() */ /************************************************************************/ /** * \brief Test if two features are the same. * * Two features are considered equal if the share them (pointer equality) * same OGRFeatureDefn, have the same field values, and the same geometry * (as tested by OGRGeometry::Equal()) as well as the same feature id. * * This method is the same as the C function OGR_F_Equal(). * * @param poFeature the other feature to test this one against. * * @return TRUE if they are equal, otherwise FALSE. */ OGRBoolean OGRFeature::Equal( const OGRFeature * poFeature ) const { if( poFeature == this ) return TRUE; if( GetFID() != poFeature->GetFID() ) return FALSE; if( GetDefnRef() != poFeature->GetDefnRef() ) return FALSE; const int nFields = GetDefnRef()->GetFieldCount(); for( int i = 0; i < nFields; i++ ) { if( IsFieldSet(i) != poFeature->IsFieldSet(i) ) return FALSE; if( IsFieldNull(i) != poFeature->IsFieldNull(i) ) return FALSE; if( !IsFieldSetAndNotNull(i) ) continue; switch( GetDefnRef()->GetFieldDefn(i)->GetType() ) { case OFTInteger: if( GetFieldAsInteger(i) != poFeature->GetFieldAsInteger(i) ) return FALSE; break; case OFTInteger64: if( GetFieldAsInteger64(i) != poFeature->GetFieldAsInteger64(i) ) return FALSE; break; case OFTReal: if( GetFieldAsDouble(i) != poFeature->GetFieldAsDouble(i) ) return FALSE; break; case OFTString: if( strcmp(GetFieldAsString(i), poFeature->GetFieldAsString(i)) != 0 ) return FALSE; break; case OFTIntegerList: { int nCount1 = 0; int nCount2 = 0; const int* pnList1 = GetFieldAsIntegerList(i, &nCount1); const int* pnList2 = poFeature->GetFieldAsIntegerList(i, &nCount2); if( nCount1 != nCount2 ) return FALSE; for( int j = 0; j < nCount1; j++ ) { if( pnList1[j] != pnList2[j] ) return FALSE; } break; } case OFTInteger64List: { int nCount1 = 0; int nCount2 = 0; const GIntBig* pnList1 = GetFieldAsInteger64List(i, &nCount1); const GIntBig* pnList2 = poFeature->GetFieldAsInteger64List(i, &nCount2); if( nCount1 != nCount2 ) return FALSE; for( int j = 0; j < nCount1; j++ ) { if( pnList1[j] != pnList2[j] ) return FALSE; } break; } case OFTRealList: { int nCount1 = 0; int nCount2 = 0; const double* padfList1 = GetFieldAsDoubleList(i, &nCount1); const double* padfList2 = poFeature->GetFieldAsDoubleList(i, &nCount2); if( nCount1 != nCount2 ) return FALSE; for( int j = 0; j < nCount1; j++ ) { if( padfList1[j] != padfList2[j] ) return FALSE; } break; } case OFTStringList: { int nCount1 = 0; int nCount2 = 0; char** papszList1 = GetFieldAsStringList(i); char** papszList2 = poFeature->GetFieldAsStringList(i); nCount1 = CSLCount(papszList1); nCount2 = CSLCount(papszList2); if( nCount1 != nCount2 ) return FALSE; for( int j = 0; j < nCount1; j++ ) { if( strcmp(papszList1[j], papszList2[j]) != 0 ) return FALSE; } break; } case OFTTime: case OFTDate: case OFTDateTime: { int nYear1 = 0; int nMonth1 = 0; int nDay1 = 0; int nHour1 = 0; int nMinute1 = 0; int nTZFlag1 = 0; int nYear2 = 0; int nMonth2 = 0; int nDay2 = 0; int nHour2 = 0; int nMinute2 = 0; int nTZFlag2 = 0; float fSecond1 = 0.0f; float fSecond2 = 0.0f; GetFieldAsDateTime(i, &nYear1, &nMonth1, &nDay1, &nHour1, &nMinute1, &fSecond1, &nTZFlag1); poFeature->GetFieldAsDateTime(i, &nYear2, &nMonth2, &nDay2, &nHour2, &nMinute2, &fSecond2, &nTZFlag2); if( !(nYear1 == nYear2 && nMonth1 == nMonth2 && nDay1 == nDay2 && nHour1 == nHour2 && nMinute1 == nMinute2 && fSecond1 == fSecond2 && nTZFlag1 == nTZFlag2) ) return FALSE; break; } case OFTBinary: { int nCount1 = 0; int nCount2 = 0; GByte* pabyData1 = GetFieldAsBinary(i, &nCount1); GByte* pabyData2 = poFeature->GetFieldAsBinary(i, &nCount2); if( nCount1 != nCount2 ) return FALSE; if( memcmp(pabyData1, pabyData2, nCount1) != 0 ) return FALSE; break; } default: if( strcmp(GetFieldAsString(i), poFeature->GetFieldAsString(i)) != 0 ) return FALSE; break; } } const int nGeomFieldCount = GetGeomFieldCount(); for( int i = 0; i < nGeomFieldCount; i++ ) { const OGRGeometry* poThisGeom = GetGeomFieldRef(i); const OGRGeometry* poOtherGeom = poFeature->GetGeomFieldRef(i); if( poThisGeom == nullptr && poOtherGeom != nullptr ) return FALSE; if( poThisGeom != nullptr && poOtherGeom == nullptr ) return FALSE; if( poThisGeom != nullptr && poOtherGeom != nullptr && (!poThisGeom->Equals( poOtherGeom ) ) ) return FALSE; } return TRUE; } /************************************************************************/ /* OGR_F_Equal() */ /************************************************************************/ /** * \brief Test if two features are the same. * * Two features are considered equal if the share them (handle equality) * same OGRFeatureDefn, have the same field values, and the same geometry * (as tested by OGR_G_Equal()) as well as the same feature id. * * This function is the same as the C++ method OGRFeature::Equal(). * * @param hFeat handle to one of the feature. * @param hOtherFeat handle to the other feature to test this one against. * * @return TRUE if they are equal, otherwise FALSE. */ int OGR_F_Equal( OGRFeatureH hFeat, OGRFeatureH hOtherFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_Equal", 0 ); VALIDATE_POINTER1( hOtherFeat, "OGR_F_Equal", 0 ); return OGRFeature::FromHandle(hFeat)-> Equal( OGRFeature::FromHandle(hOtherFeat) ); } /************************************************************************/ /* SetFrom() */ /************************************************************************/ /** * \brief Set one feature from another. * * Overwrite the contents of this feature from the geometry and attributes * of another. The poSrcFeature does not need to have the same * OGRFeatureDefn. Field values are copied by corresponding field names. * Field types do not have to exactly match. SetField() method conversion * rules will be applied as needed. * * This method is the same as the C function OGR_F_SetFrom(). * * @param poSrcFeature the feature from which geometry, and field values will * be copied. * * @param bForgiving TRUE if the operation should continue despite lacking * output fields matching some of the source fields. * * @return OGRERR_NONE if the operation succeeds, even if some values are * not transferred, otherwise an error code. */ OGRErr OGRFeature::SetFrom( const OGRFeature * poSrcFeature, int bForgiving ) { const auto& oMap = poDefn->ComputeMapForSetFrom( poSrcFeature->GetDefnRef(), CPL_TO_BOOL(bForgiving) ); if( oMap.empty() ) { if( poSrcFeature->GetFieldCount() ) return OGRERR_FAILURE; return SetFrom( poSrcFeature, nullptr, bForgiving ); } return SetFrom( poSrcFeature, oMap.data(), bForgiving ); } /************************************************************************/ /* OGR_F_SetFrom() */ /************************************************************************/ /** * \brief Set one feature from another. * * Overwrite the contents of this feature from the geometry and attributes * of another. The hOtherFeature does not need to have the same * OGRFeatureDefn. Field values are copied by corresponding field names. * Field types do not have to exactly match. OGR_F_SetField*() function * conversion rules will be applied as needed. * * This function is the same as the C++ method OGRFeature::SetFrom(). * * @param hFeat handle to the feature to set to. * @param hOtherFeat handle to the feature from which geometry, * and field values will be copied. * * @param bForgiving TRUE if the operation should continue despite lacking * output fields matching some of the source fields. * * @return OGRERR_NONE if the operation succeeds, even if some values are * not transferred, otherwise an error code. */ OGRErr OGR_F_SetFrom( OGRFeatureH hFeat, OGRFeatureH hOtherFeat, int bForgiving ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetFrom", OGRERR_FAILURE ); VALIDATE_POINTER1( hOtherFeat, "OGR_F_SetFrom", OGRERR_FAILURE ); return OGRFeature::FromHandle(hFeat)-> SetFrom( OGRFeature::FromHandle(hOtherFeat), bForgiving ); } /************************************************************************/ /* SetFrom() */ /************************************************************************/ /** * \brief Set one feature from another. * * Overwrite the contents of this feature from the geometry and attributes * of another. The poSrcFeature does not need to have the same * OGRFeatureDefn. Field values are copied according to the provided indices * map. Field types do not have to exactly match. SetField() method * conversion rules will be applied as needed. This is more efficient than * OGR_F_SetFrom() in that this doesn't lookup the fields by their names. * Particularly useful when the field names don't match. * * This method is the same as the C function OGR_F_SetFromWithMap(). * * @param poSrcFeature the feature from which geometry, and field values will * be copied. * * @param panMap Array of the indices of the feature's fields * stored at the corresponding index of the source feature's fields. A value of * -1 should be used to ignore the source's field. The array should not be NULL * and be as long as the number of fields in the source feature. * * @param bForgiving TRUE if the operation should continue despite lacking * output fields matching some of the source fields. * * @return OGRERR_NONE if the operation succeeds, even if some values are * not transferred, otherwise an error code. */ OGRErr OGRFeature::SetFrom( const OGRFeature * poSrcFeature, const int *panMap , int bForgiving ) { if( poSrcFeature == this ) return OGRERR_FAILURE; SetFID( OGRNullFID ); /* -------------------------------------------------------------------- */ /* Set the geometry. */ /* -------------------------------------------------------------------- */ if( GetGeomFieldCount() == 1 ) { const OGRGeomFieldDefn* poGFieldDefn = GetGeomFieldDefnRef(0); int iSrc = poSrcFeature->GetGeomFieldIndex( poGFieldDefn->GetNameRef()); if( iSrc >= 0 ) SetGeomField( 0, poSrcFeature->GetGeomFieldRef(iSrc) ); else // Whatever the geometry field names are. For backward // compatibility. SetGeomField( 0, poSrcFeature->GetGeomFieldRef(0) ); } else { for( int i = 0; i < GetGeomFieldCount(); i++ ) { const OGRGeomFieldDefn* poGFieldDefn = GetGeomFieldDefnRef(i); const int iSrc = poSrcFeature->GetGeomFieldIndex(poGFieldDefn->GetNameRef()); if( iSrc >= 0 ) SetGeomField( i, poSrcFeature->GetGeomFieldRef(iSrc) ); else SetGeomField( i, nullptr ); } } /* -------------------------------------------------------------------- */ /* Copy feature style string. */ /* -------------------------------------------------------------------- */ SetStyleString( poSrcFeature->GetStyleString() ); /* -------------------------------------------------------------------- */ /* Copy native data. */ /* -------------------------------------------------------------------- */ SetNativeData( poSrcFeature->GetNativeData() ); SetNativeMediaType( poSrcFeature->GetNativeMediaType() ); /* -------------------------------------------------------------------- */ /* Set the fields by name. */ /* -------------------------------------------------------------------- */ const OGRErr eErr = SetFieldsFrom( poSrcFeature, panMap, bForgiving ); if( eErr != OGRERR_NONE ) return eErr; return OGRERR_NONE; } /************************************************************************/ /* OGR_F_SetFromWithMap() */ /************************************************************************/ /** * \brief Set one feature from another. * * Overwrite the contents of this feature from the geometry and attributes * of another. The hOtherFeature does not need to have the same * OGRFeatureDefn. Field values are copied according to the provided indices * map. Field types do not have to exactly match. OGR_F_SetField*() function * conversion rules will be applied as needed. This is more efficient than * OGR_F_SetFrom() in that this doesn't lookup the fields by their names. * Particularly useful when the field names don't match. * * This function is the same as the C++ method OGRFeature::SetFrom(). * * @param hFeat handle to the feature to set to. * @param hOtherFeat handle to the feature from which geometry, * and field values will be copied. * * @param panMap Array of the indices of the destination feature's fields * stored at the corresponding index of the source feature's fields. A value of * -1 should be used to ignore the source's field. The array should not be NULL * and be as long as the number of fields in the source feature. * * @param bForgiving TRUE if the operation should continue despite lacking * output fields matching some of the source fields. * * @return OGRERR_NONE if the operation succeeds, even if some values are * not transferred, otherwise an error code. */ OGRErr OGR_F_SetFromWithMap( OGRFeatureH hFeat, OGRFeatureH hOtherFeat, int bForgiving, const int *panMap ) { VALIDATE_POINTER1( hFeat, "OGR_F_SetFrom", OGRERR_FAILURE ); VALIDATE_POINTER1( hOtherFeat, "OGR_F_SetFrom", OGRERR_FAILURE ); VALIDATE_POINTER1( panMap, "OGR_F_SetFrom", OGRERR_FAILURE); return OGRFeature::FromHandle(hFeat)-> SetFrom( OGRFeature::FromHandle(hOtherFeat), panMap, bForgiving ); } /************************************************************************/ /* SetFieldsFrom() */ /************************************************************************/ /** * \brief Set fields from another feature. * * Overwrite the fields of this feature from the attributes of * another. The FID and the style string are not set. The poSrcFeature * does not need to have the same OGRFeatureDefn. Field values are * copied according to the provided indices map. Field types do not * have to exactly match. SetField() method conversion rules will be * applied as needed. This is more efficient than OGR_F_SetFrom() in * that this doesn't lookup the fields by their names. Particularly * useful when the field names don't match. * * @param poSrcFeature the feature from which geometry, and field values will * be copied. * * @param panMap Array of the indices of the feature's fields * stored at the corresponding index of the source feature's fields. A value of * -1 should be used to ignore the source's field. The array should not be NULL * and be as long as the number of fields in the source feature. * * @param bForgiving TRUE if the operation should continue despite lacking * output fields matching some of the source fields. * * @return OGRERR_NONE if the operation succeeds, even if some values are * not transferred, otherwise an error code. */ OGRErr OGRFeature::SetFieldsFrom( const OGRFeature * poSrcFeature, const int *panMap, int bForgiving ) { for( int iField = 0; iField < poSrcFeature->GetFieldCount(); iField++ ) { const int iDstField = panMap[iField]; if( iDstField < 0 ) continue; if( GetFieldCount() <= iDstField ) return OGRERR_FAILURE; if( !poSrcFeature->IsFieldSet(iField) ) { UnsetField( iDstField ); continue; } if( poSrcFeature->IsFieldNull(iField) ) { SetFieldNull( iDstField ); continue; } switch( poSrcFeature->GetFieldDefnRef(iField)->GetType() ) { case OFTInteger: SetField( iDstField, poSrcFeature->GetFieldAsInteger( iField ) ); break; case OFTInteger64: SetField( iDstField, poSrcFeature->GetFieldAsInteger64( iField ) ); break; case OFTReal: SetField( iDstField, poSrcFeature->GetFieldAsDouble( iField ) ); break; case OFTString: SetField( iDstField, poSrcFeature->GetFieldAsString( iField ) ); break; case OFTIntegerList: { if( GetFieldDefnRef(iDstField)->GetType() == OFTString ) { SetField( iDstField, poSrcFeature->GetFieldAsString(iField) ); } else { int nCount = 0; const int *panValues = poSrcFeature->GetFieldAsIntegerList( iField, &nCount); SetField(iDstField, nCount, const_cast(panValues)); } } break; case OFTInteger64List: { if( GetFieldDefnRef(iDstField)->GetType() == OFTString ) { SetField( iDstField, poSrcFeature->GetFieldAsString(iField) ); } else { int nCount = 0; const GIntBig *panValues = poSrcFeature->GetFieldAsInteger64List( iField, &nCount); SetField( iDstField, nCount, panValues ); } } break; case OFTRealList: { if( GetFieldDefnRef(iDstField)->GetType() == OFTString ) { SetField( iDstField, poSrcFeature->GetFieldAsString(iField) ); } else { int nCount = 0; const double *padfValues = poSrcFeature->GetFieldAsDoubleList( iField, &nCount); SetField(iDstField, nCount, const_cast(padfValues)); } } break; case OFTDate: case OFTDateTime: case OFTTime: { OGRFieldType eDstFieldType = GetFieldDefnRef(iDstField)->GetType(); if( eDstFieldType == OFTDate || eDstFieldType == OFTTime || eDstFieldType == OFTDateTime ) { SetField( iDstField, const_cast( poSrcFeature->GetRawFieldRef( iField )) ); } else if( eDstFieldType == OFTString || eDstFieldType == OFTStringList ) { SetField( iDstField, poSrcFeature->GetFieldAsString( iField ) ); } else if( !bForgiving ) return OGRERR_FAILURE; break; } default: { OGRFieldType eDstFieldType = GetFieldDefnRef(iDstField)->GetType(); if( poSrcFeature->GetFieldDefnRef(iField)->GetType() == eDstFieldType ) { SetField( iDstField, const_cast( poSrcFeature->GetRawFieldRef( iField )) ); } else if( eDstFieldType == OFTString || eDstFieldType == OFTStringList ) { SetField( iDstField, poSrcFeature->GetFieldAsString( iField ) ); } else if( !bForgiving ) return OGRERR_FAILURE; break; } } } return OGRERR_NONE; } /************************************************************************/ /* GetStyleString() */ /************************************************************************/ /** * \brief Fetch style string for this feature. * * Set the OGR Feature Style Specification for details on the format of * this string, and ogr_featurestyle.h for services available to parse it. * * This method is the same as the C function OGR_F_GetStyleString(). * * @return a reference to a representation in string format, or NULL if * there isn't one. */ const char *OGRFeature::GetStyleString() const { if( m_pszStyleString ) return m_pszStyleString; const int iStyleFieldIndex = GetFieldIndex("OGR_STYLE"); if( iStyleFieldIndex >= 0 ) return GetFieldAsString(iStyleFieldIndex); return nullptr; } /************************************************************************/ /* OGR_F_GetStyleString() */ /************************************************************************/ /** * \brief Fetch style string for this feature. * * Set the OGR Feature Style Specification for details on the format of * this string, and ogr_featurestyle.h for services available to parse it. * * This function is the same as the C++ method OGRFeature::GetStyleString(). * * @param hFeat handle to the feature to get the style from. * @return a reference to a representation in string format, or NULL if * there isn't one. */ const char *OGR_F_GetStyleString( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetStyleString", nullptr ); return OGRFeature::FromHandle(hFeat)->GetStyleString(); } /************************************************************************/ /* SetStyleString() */ /************************************************************************/ /** * \brief Set feature style string. * * This method operate exactly as OGRFeature::SetStyleStringDirectly() except * that it does not assume ownership of the passed string, but instead makes a * copy of it. * * This method is the same as the C function OGR_F_SetStyleString(). * * @param pszString the style string to apply to this feature, cannot be NULL. */ void OGRFeature::SetStyleString(const char *pszString) { if( m_pszStyleString ) { CPLFree(m_pszStyleString); m_pszStyleString = nullptr; } if( pszString ) m_pszStyleString = VSI_STRDUP_VERBOSE(pszString); } /************************************************************************/ /* OGR_F_SetStyleString() */ /************************************************************************/ /** * \brief Set feature style string. * * This method operate exactly as OGR_F_SetStyleStringDirectly() except that it * does not assume ownership of the passed string, but instead makes a copy of * it. * * This function is the same as the C++ method OGRFeature::SetStyleString(). * * @param hFeat handle to the feature to set style to. * @param pszStyle the style string to apply to this feature, cannot be NULL. */ void OGR_F_SetStyleString( OGRFeatureH hFeat, const char *pszStyle ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetStyleString" ); OGRFeature::FromHandle(hFeat)->SetStyleString(pszStyle); } /************************************************************************/ /* SetStyleStringDirectly() */ /************************************************************************/ /** * \brief Set feature style string. * * This method operate exactly as OGRFeature::SetStyleString() except that it * assumes ownership of the passed string. * * This method is the same as the C function OGR_F_SetStyleStringDirectly(). * * @param pszString the style string to apply to this feature, cannot be NULL. */ void OGRFeature::SetStyleStringDirectly( char *pszString ) { CPLFree(m_pszStyleString); m_pszStyleString = pszString; } /************************************************************************/ /* OGR_F_SetStyleStringDirectly() */ /************************************************************************/ /** * \brief Set feature style string. * * This method operate exactly as OGR_F_SetStyleString() except that it assumes * ownership of the passed string. * * This function is the same as the C++ method * OGRFeature::SetStyleStringDirectly(). * * @param hFeat handle to the feature to set style to. * @param pszStyle the style string to apply to this feature, cannot be NULL. */ void OGR_F_SetStyleStringDirectly( OGRFeatureH hFeat, char *pszStyle ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetStyleStringDirectly" ); OGRFeature::FromHandle(hFeat)->SetStyleStringDirectly(pszStyle); } //************************************************************************/ /* SetStyleTable() */ /************************************************************************/ /** Set style table. * @param poStyleTable new style table (will be cloned) */ void OGRFeature::SetStyleTable( OGRStyleTable *poStyleTable ) { if( m_poStyleTable ) delete m_poStyleTable; m_poStyleTable = poStyleTable ? poStyleTable->Clone() : nullptr; } //************************************************************************/ /* SetStyleTableDirectly() */ /************************************************************************/ /** Set style table. * @param poStyleTable new style table (ownership transferred to the object) */ void OGRFeature::SetStyleTableDirectly( OGRStyleTable *poStyleTable ) { if( m_poStyleTable ) delete m_poStyleTable; m_poStyleTable = poStyleTable; } //! @cond Doxygen_Suppress /************************************************************************/ /* RemapFields() */ /* */ /* This is used to transform a feature "in place" from one */ /* feature defn to another with minimum work. */ /************************************************************************/ OGRErr OGRFeature::RemapFields( OGRFeatureDefn *poNewDefn, const int *panRemapSource ) { if( poNewDefn == nullptr ) poNewDefn = poDefn; OGRField *pauNewFields = static_cast( CPLCalloc( poNewDefn->GetFieldCount(), sizeof(OGRField) ) ); for( int iDstField = 0; iDstField < poDefn->GetFieldCount(); iDstField++ ) { if( panRemapSource[iDstField] == -1 ) { OGR_RawField_SetUnset(&pauNewFields[iDstField]); } else { memcpy( pauNewFields + iDstField, pauFields + panRemapSource[iDstField], sizeof(OGRField) ); } } // We really should be freeing memory for old columns that // are no longer present. We don't for now because it is a bit messy // and would take too long to test. /* -------------------------------------------------------------------- */ /* Apply new definition and fields. */ /* -------------------------------------------------------------------- */ CPLFree( pauFields ); pauFields = pauNewFields; poDefn = poNewDefn; return OGRERR_NONE; } /************************************************************************/ /* AppendField() */ /* */ /* This is used to transform a feature "in place" by appending */ /* an unset field. */ /************************************************************************/ void OGRFeature::AppendField() { int nFieldCount = poDefn->GetFieldCount(); pauFields = static_cast(CPLRealloc( pauFields, nFieldCount * sizeof(OGRField) ) ); OGR_RawField_SetUnset(&pauFields[nFieldCount-1]); } /************************************************************************/ /* RemapGeomFields() */ /* */ /* This is used to transform a feature "in place" from one */ /* feature defn to another with minimum work. */ /************************************************************************/ OGRErr OGRFeature::RemapGeomFields( OGRFeatureDefn *poNewDefn, const int *panRemapSource ) { if( poNewDefn == nullptr ) poNewDefn = poDefn; OGRGeometry** papoNewGeomFields = static_cast( CPLCalloc( poNewDefn->GetGeomFieldCount(), sizeof(OGRGeometry*) ) ); for( int iDstField = 0; iDstField < poDefn->GetGeomFieldCount(); iDstField++ ) { if( panRemapSource[iDstField] == -1 ) { papoNewGeomFields[iDstField] = nullptr; } else { papoNewGeomFields[iDstField] = papoGeometries[panRemapSource[iDstField]]; } } // We really should be freeing memory for old columns that // are no longer present. We don't for now because it is a bit messy // and would take too long to test. /* -------------------------------------------------------------------- */ /* Apply new definition and fields. */ /* -------------------------------------------------------------------- */ CPLFree( papoGeometries ); papoGeometries = papoNewGeomFields; poDefn = poNewDefn; return OGRERR_NONE; } //! @endcond /************************************************************************/ /* OGR_F_GetStyleTable() */ /************************************************************************/ OGRStyleTableH OGR_F_GetStyleTable( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetStyleTable", nullptr ); return reinterpret_cast( OGRFeature::FromHandle(hFeat)->GetStyleTable()); } /************************************************************************/ /* OGR_F_SetStyleTableDirectly() */ /************************************************************************/ void OGR_F_SetStyleTableDirectly( OGRFeatureH hFeat, OGRStyleTableH hStyleTable ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetStyleTableDirectly" ); OGRFeature::FromHandle(hFeat)-> SetStyleTableDirectly(reinterpret_cast(hStyleTable)); } /************************************************************************/ /* OGR_F_SetStyleTable() */ /************************************************************************/ void OGR_F_SetStyleTable( OGRFeatureH hFeat, OGRStyleTableH hStyleTable ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetStyleTable" ); VALIDATE_POINTER0( hStyleTable, "OGR_F_SetStyleTable" ); OGRFeature::FromHandle(hFeat)-> SetStyleTable(reinterpret_cast(hStyleTable)); } /************************************************************************/ /* FillUnsetWithDefault() */ /************************************************************************/ /** * \brief Fill unset fields with default values that might be defined. * * This method is the same as the C function OGR_F_FillUnsetWithDefault(). * * @param bNotNullableOnly if we should fill only unset fields with a not-null * constraint. * @param papszOptions unused currently. Must be set to NULL. * @since GDAL 2.0 */ void OGRFeature::FillUnsetWithDefault( int bNotNullableOnly, CPL_UNUSED char** papszOptions) { const int nFieldCount = poDefn->GetFieldCount(); for( int i = 0; i < nFieldCount; i++ ) { if( IsFieldSet(i) ) continue; if( bNotNullableOnly && poDefn->GetFieldDefn(i)->IsNullable() ) continue; const char* pszDefault = poDefn->GetFieldDefn(i)->GetDefault(); OGRFieldType eType = poDefn->GetFieldDefn(i)->GetType(); if( pszDefault != nullptr ) { if( eType == OFTDate || eType == OFTTime || eType == OFTDateTime ) { if( STARTS_WITH_CI(pszDefault, "CURRENT") ) { time_t t = time(nullptr); struct tm brokendown; CPLUnixTimeToYMDHMS(t, &brokendown); SetField(i, brokendown.tm_year + 1900, brokendown.tm_mon + 1, brokendown.tm_mday, brokendown.tm_hour, brokendown.tm_min, static_cast(brokendown.tm_sec), 100 ); } else { int nYear = 0; int nMonth = 0; int nDay = 0; int nHour = 0; int nMinute = 0; float fSecond = 0.0f; if( sscanf(pszDefault, "'%d/%d/%d %d:%d:%f'", &nYear, &nMonth, &nDay, &nHour, &nMinute, &fSecond) == 6 ) { SetField(i, nYear, nMonth, nDay, nHour, nMinute, fSecond, 100 ); } } } else if( eType == OFTString && pszDefault[0] == '\'' && pszDefault[strlen(pszDefault)-1] == '\'' ) { CPLString osDefault(pszDefault + 1); osDefault.resize(osDefault.size()-1); char* pszTmp = CPLUnescapeString(osDefault, nullptr, CPLES_SQL); SetField(i, pszTmp); CPLFree(pszTmp); } else SetField(i, pszDefault); } } } /************************************************************************/ /* OGR_F_FillUnsetWithDefault() */ /************************************************************************/ /** * \brief Fill unset fields with default values that might be defined. * * This function is the same as the C++ method * OGRFeature::FillUnsetWithDefault(). * * @param hFeat handle to the feature. * @param bNotNullableOnly if we should fill only unset fields with a not-null * constraint. * @param papszOptions unused currently. Must be set to NULL. * @since GDAL 2.0 */ void OGR_F_FillUnsetWithDefault( OGRFeatureH hFeat, int bNotNullableOnly, char** papszOptions ) { VALIDATE_POINTER0( hFeat, "OGR_F_FillUnsetWithDefault" ); OGRFeature::FromHandle(hFeat)-> FillUnsetWithDefault( bNotNullableOnly, papszOptions ); } /************************************************************************/ /* Validate() */ /************************************************************************/ /** * \brief Validate that a feature meets constraints of its schema. * * The scope of test is specified with the nValidateFlags parameter. * * Regarding OGR_F_VAL_WIDTH, the test is done assuming the string width must be * interpreted as the number of UTF-8 characters. Some drivers might interpret * the width as the number of bytes instead. So this test is rather conservative * (if it fails, then it will fail for all interpretations). * * This method is the same as the C function OGR_F_Validate(). * * @param nValidateFlags OGR_F_VAL_ALL or combination of OGR_F_VAL_NULL, * OGR_F_VAL_GEOM_TYPE, OGR_F_VAL_WIDTH and * OGR_F_VAL_ALLOW_NULL_WHEN_DEFAULT, * OGR_F_VAL_ALLOW_DIFFERENT_GEOM_DIM with '|' operator * @param bEmitError TRUE if a CPLError() must be emitted when a check fails * @return TRUE if all enabled validation tests pass. * @since GDAL 2.0 */ int OGRFeature::Validate( int nValidateFlags, int bEmitError ) const { bool bRet = true; const int nGeomFieldCount = poDefn->GetGeomFieldCount(); for( int i = 0; i < nGeomFieldCount; i++ ) { if( (nValidateFlags & OGR_F_VAL_NULL) && !poDefn->GetGeomFieldDefn(i)->IsNullable() && GetGeomFieldRef(i) == nullptr ) { bRet = false; if( bEmitError ) { CPLError( CE_Failure, CPLE_AppDefined, "Geometry field %s has a NULL content which is not allowed", poDefn->GetGeomFieldDefn(i)->GetNameRef()); } } if( (nValidateFlags & OGR_F_VAL_GEOM_TYPE) && poDefn->GetGeomFieldDefn(i)->GetType() != wkbUnknown ) { const OGRGeometry* poGeom = GetGeomFieldRef(i); if( poGeom != nullptr ) { const OGRwkbGeometryType eType = poDefn->GetGeomFieldDefn(i)->GetType(); const OGRwkbGeometryType eFType = poGeom->getGeometryType(); if( (nValidateFlags & OGR_F_VAL_ALLOW_DIFFERENT_GEOM_DIM) && (wkbFlatten(eFType) == wkbFlatten(eType) || wkbFlatten(eType) == wkbUnknown) ) { // Ok. } else if( (eType == wkbSetZ(wkbUnknown) && !wkbHasZ(eFType)) || (eType != wkbSetZ(wkbUnknown) && eFType != eType) ) { bRet = false; if( bEmitError ) { CPLError(CE_Failure, CPLE_AppDefined, "Geometry field %s has a %s geometry whereas " "%s is expected", poDefn->GetGeomFieldDefn(i)->GetNameRef(), OGRGeometryTypeToName(eFType), OGRGeometryTypeToName(eType)); } } } } } const int nFieldCount = poDefn->GetFieldCount(); for( int i = 0; i < nFieldCount; i++ ) { if( (nValidateFlags & OGR_F_VAL_NULL) && !poDefn->GetFieldDefn(i)->IsNullable() && !IsFieldSet(i) && (!(nValidateFlags & OGR_F_VAL_ALLOW_NULL_WHEN_DEFAULT) || poDefn->GetFieldDefn(i)->GetDefault() == nullptr)) { bRet = false; if( bEmitError ) { CPLError(CE_Failure, CPLE_AppDefined, "Field %s has a NULL content which is not allowed", poDefn->GetFieldDefn(i)->GetNameRef()); } } if( (nValidateFlags & OGR_F_VAL_WIDTH) && poDefn->GetFieldDefn(i)->GetWidth() > 0 && poDefn->GetFieldDefn(i)->GetType() == OFTString && IsFieldSet(i) && CPLIsUTF8(GetFieldAsString(i), -1) && CPLStrlenUTF8(GetFieldAsString(i)) > poDefn->GetFieldDefn(i)->GetWidth()) { bRet = false; if( bEmitError ) { CPLError(CE_Failure, CPLE_AppDefined, "Field %s has a %d UTF-8 characters whereas " "a maximum of %d is allowed", poDefn->GetFieldDefn(i)->GetNameRef(), CPLStrlenUTF8(GetFieldAsString(i)), poDefn->GetFieldDefn(i)->GetWidth()); } } } return bRet; } /************************************************************************/ /* OGR_F_Validate() */ /************************************************************************/ /** * \brief Validate that a feature meets constraints of its schema. * * The scope of test is specified with the nValidateFlags parameter. * * Regarding OGR_F_VAL_WIDTH, the test is done assuming the string width must be * interpreted as the number of UTF-8 characters. Some drivers might interpret * the width as the number of bytes instead. So this test is rather conservative * (if it fails, then it will fail for all interpretations). * * This function is the same as the C++ method * OGRFeature::Validate(). * * @param hFeat handle to the feature to validate. * @param nValidateFlags OGR_F_VAL_ALL or combination of OGR_F_VAL_NULL, * OGR_F_VAL_GEOM_TYPE, OGR_F_VAL_WIDTH and * OGR_F_VAL_ALLOW_NULL_WHEN_DEFAULT with '|' operator * @param bEmitError TRUE if a CPLError() must be emitted when a check fails * @return TRUE if all enabled validation tests pass. * @since GDAL 2.0 */ int OGR_F_Validate( OGRFeatureH hFeat, int nValidateFlags, int bEmitError ) { VALIDATE_POINTER1( hFeat, "OGR_F_Validate", FALSE ); return OGRFeature::FromHandle(hFeat)-> Validate( nValidateFlags, bEmitError ); } /************************************************************************/ /* GetNativeData() */ /************************************************************************/ /** * \fn const char* OGRFeature::GetNativeData() const; * * \brief Returns the native data for the feature. * * The native data is the representation in a "natural" form that comes from * the driver that created this feature, or that is aimed at an output driver. * The native data may be in different format, which is indicated by * GetNativeMediaType(). * * Note that most drivers do not support storing the native data in the feature * object, and if they do, generally the NATIVE_DATA open option must be passed * at dataset opening. * * The "native data" does not imply it is something more performant or powerful * than what can be obtained with the rest of the API, but it may be useful in * round-tripping scenarios where some characteristics of the underlying format * are not captured otherwise by the OGR abstraction. * * This function is the same as the C function * OGR_F_GetNativeData(). * * @return a string with the native data, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ /************************************************************************/ /* OGR_F_GetNativeData() */ /************************************************************************/ /** * \brief Returns the native data for the feature. * * The native data is the representation in a "natural" form that comes from * the driver that created this feature, or that is aimed at an output driver. * The native data may be in different format, which is indicated by * OGR_F_GetNativeMediaType(). * * Note that most drivers do not support storing the native data in the feature * object, and if they do, generally the NATIVE_DATA open option must be passed * at dataset opening. * * The "native data" does not imply it is something more performant or powerful * than what can be obtained with the rest of the API, but it may be useful in * round-tripping scenarios where some characteristics of the underlying format * are not captured otherwise by the OGR abstraction. * * This function is the same as the C++ method * OGRFeature::GetNativeData(). * * @param hFeat handle to the feature. * @return a string with the native data, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ const char *OGR_F_GetNativeData( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetNativeData", nullptr ); return OGRFeature::FromHandle(hFeat)->GetNativeData(); } /************************************************************************/ /* GetNativeMediaType() */ /************************************************************************/ /** * \fn const char* OGRFeature::GetNativeMediaType() const; * * \brief Returns the native media type for the feature. * * The native media type is the identifier for the format of the native data. * It follows the IANA RFC 2045 (see https://en.wikipedia.org/wiki/Media_type), * e.g. "application/vnd.geo+json" for JSon. * * This function is the same as the C function * OGR_F_GetNativeMediaType(). * * @return a string with the native media type, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ /************************************************************************/ /* OGR_F_GetNativeMediaType() */ /************************************************************************/ /** * \brief Returns the native media type for the feature. * * The native media type is the identifier for the format of the native data. * It follows the IANA RFC 2045 (see https://en.wikipedia.org/wiki/Media_type), * e.g. "application/vnd.geo+json" for JSon. * * This function is the same as the C function * OGR_F_GetNativeMediaType(). * * @param hFeat handle to the feature. * @return a string with the native media type, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ const char *OGR_F_GetNativeMediaType( OGRFeatureH hFeat ) { VALIDATE_POINTER1( hFeat, "OGR_F_GetNativeMediaType", nullptr ); return OGRFeature::FromHandle(hFeat)->GetNativeMediaType(); } /************************************************************************/ /* SetNativeData() */ /************************************************************************/ /** * \brief Sets the native data for the feature. * * The native data is the representation in a "natural" form that comes from * the driver that created this feature, or that is aimed at an output driver. * The native data may be in different format, which is indicated by * GetNativeMediaType(). * * This function is the same as the C function * OGR_F_SetNativeData(). * * @param pszNativeData a string with the native data, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ void OGRFeature::SetNativeData( const char* pszNativeData ) { CPLFree( m_pszNativeData ); m_pszNativeData = pszNativeData ? VSI_STRDUP_VERBOSE(pszNativeData) : nullptr; } /************************************************************************/ /* OGR_F_SetNativeData() */ /************************************************************************/ /** * \brief Sets the native data for the feature. * * The native data is the representation in a "natural" form that comes from * the driver that created this feature, or that is aimed at an output driver. * The native data may be in different format, which is indicated by * OGR_F_GetNativeMediaType(). * * This function is the same as the C++ method * OGRFeature::SetNativeData(). * * @param hFeat handle to the feature. * @param pszNativeData a string with the native data, or NULL if there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ void OGR_F_SetNativeData( OGRFeatureH hFeat, const char* pszNativeData ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetNativeData" ); OGRFeature::FromHandle(hFeat)->SetNativeData(pszNativeData); } /************************************************************************/ /* SetNativeMediaType() */ /************************************************************************/ /** * \brief Sets the native media type for the feature. * * The native media type is the identifier for the format of the native data. * It follows the IANA RFC 2045 (see https://en.wikipedia.org/wiki/Media_type), * e.g. "application/vnd.geo+json" for JSon. * * This function is the same as the C function * OGR_F_SetNativeMediaType(). * * @param pszNativeMediaType a string with the native media type, or NULL if * there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ void OGRFeature::SetNativeMediaType( const char* pszNativeMediaType ) { CPLFree( m_pszNativeMediaType ); m_pszNativeMediaType = pszNativeMediaType ? VSI_STRDUP_VERBOSE(pszNativeMediaType) : nullptr; } /************************************************************************/ /* OGR_F_SetNativeMediaType() */ /************************************************************************/ /** * \brief Sets the native media type for the feature. * * The native media type is the identifier for the format of the native data. * It follows the IANA RFC 2045 (see https://en.wikipedia.org/wiki/Media_type), * e.g. "application/vnd.geo+json" for JSon. * * This function is the same as the C++ method * OGRFeature::SetNativeMediaType(). * * @param hFeat handle to the feature. * @param pszNativeMediaType a string with the native media type, or NULL if * there is none. * @since GDAL 2.1 * * @see https://trac.osgeo.org/gdal/wiki/rfc60_improved_roundtripping_in_ogr */ void OGR_F_SetNativeMediaType( OGRFeatureH hFeat, const char* pszNativeMediaType ) { VALIDATE_POINTER0( hFeat, "OGR_F_SetNativeMediaType" ); OGRFeature::FromHandle(hFeat)-> SetNativeMediaType(pszNativeMediaType); } /************************************************************************/ /* OGR_RawField_IsUnset() */ /************************************************************************/ /** * \brief Returns whether a raw field is unset. * * Note: this function is rather low-level and should be rarely used in client * code. Use instead OGR_F_IsFieldSet(). * * @param puField pointer to raw field. * @since GDAL 2.2 */ int OGR_RawField_IsUnset( const OGRField* puField ) { return puField->Set.nMarker1 == OGRUnsetMarker && puField->Set.nMarker2 == OGRUnsetMarker && puField->Set.nMarker3 == OGRUnsetMarker; } /************************************************************************/ /* OGR_RawField_IsNull() */ /************************************************************************/ /** * \brief Returns whether a raw field is null. * * Note: this function is rather low-level and should be rarely used in client * code. Use instead OGR_F_IsFieldNull(). * * @param puField pointer to raw field. * @since GDAL 2.2 */ int OGR_RawField_IsNull( const OGRField* puField ) { return puField->Set.nMarker1 == OGRNullMarker && puField->Set.nMarker2 == OGRNullMarker && puField->Set.nMarker3 == OGRNullMarker; } /************************************************************************/ /* OGR_RawField_SetUnset() */ /************************************************************************/ /** * \brief Mark a raw field as unset. * * This should be called on a un-initialized field. In particular this will not * free any memory dynamically allocated. * * Note: this function is rather low-level and should be rarely used in client * code. Use instead OGR_F_UnsetField(). * * @param puField pointer to raw field. * @since GDAL 2.2 */ void OGR_RawField_SetUnset( OGRField* puField ) { puField->Set.nMarker1 = OGRUnsetMarker; puField->Set.nMarker2 = OGRUnsetMarker; puField->Set.nMarker3 = OGRUnsetMarker; } /************************************************************************/ /* OGR_RawField_SetNull() */ /************************************************************************/ /** * \brief Mark a raw field as null. * * This should be called on a un-initialized field. In particular this will not * free any memory dynamically allocated. * * Note: this function is rather low-level and should be rarely used in client * code. Use instead OGR_F_SetFieldNull(). * * @param puField pointer to raw field. * @since GDAL 2.2 */ void OGR_RawField_SetNull( OGRField* puField ) { puField->Set.nMarker1 = OGRNullMarker; puField->Set.nMarker2 = OGRNullMarker; puField->Set.nMarker3 = OGRNullMarker; } /************************************************************************/ /* OGRFeatureUniquePtrDeleter */ /************************************************************************/ //! @cond Doxygen_Suppress void OGRFeatureUniquePtrDeleter::operator()(OGRFeature* poFeature) const { delete poFeature; } //! @endcond /************************************************************************/ /* OGRFeature::ConstFieldIterator */ /************************************************************************/ struct OGRFeature::FieldValue::Private { CPL_DISALLOW_COPY_ASSIGN(Private) OGRFeature* m_poSelf = nullptr; int m_nPos = 0; mutable std::vector m_anList{}; mutable std::vector m_anList64{}; mutable std::vector m_adfList{}; mutable std::vector m_aosList{}; Private(const OGRFeature* poSelf, int iFieldIndex): m_poSelf(const_cast(poSelf)), m_nPos(iFieldIndex) {} Private(OGRFeature* poSelf, int iFieldIndex): m_poSelf(poSelf), m_nPos(iFieldIndex) {} }; struct OGRFeature::ConstFieldIterator::Private { CPL_DISALLOW_COPY_ASSIGN(Private) OGRFeature::FieldValue m_oValue; int m_nPos = 0; Private(const OGRFeature* poSelf, int iFieldIndex): m_oValue(poSelf, iFieldIndex) {} }; //! @cond Doxygen_Suppress OGRFeature::ConstFieldIterator::ConstFieldIterator(const OGRFeature* poSelf, int nPos): m_poPrivate(new Private(poSelf, nPos)) { m_poPrivate->m_nPos = nPos; } OGRFeature::ConstFieldIterator::~ConstFieldIterator() = default; const OGRFeature::FieldValue& OGRFeature::ConstFieldIterator::operator*() const { return m_poPrivate->m_oValue; } OGRFeature::ConstFieldIterator& OGRFeature::ConstFieldIterator::operator++() { ++m_poPrivate->m_nPos; m_poPrivate->m_oValue.m_poPrivate->m_nPos = m_poPrivate->m_nPos; return *this; } bool OGRFeature::ConstFieldIterator::operator!=(const ConstFieldIterator& it) const { return m_poPrivate->m_nPos != it.m_poPrivate->m_nPos; } //! @endcond OGRFeature::ConstFieldIterator OGRFeature::begin() const { return {this, 0}; } OGRFeature::ConstFieldIterator OGRFeature::end() const { return {this, GetFieldCount()}; } /************************************************************************/ /* OGRFeature::FieldValue */ /************************************************************************/ OGRFeature::FieldValue::FieldValue(const OGRFeature* poFeature, int iFieldIndex) : m_poPrivate(new Private(poFeature, iFieldIndex)) { } OGRFeature::FieldValue::FieldValue(OGRFeature* poFeature, int iFieldIndex) : m_poPrivate(new Private(poFeature, iFieldIndex)) { } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (const FieldValue& oOther) { if( &oOther != this && !( m_poPrivate->m_poSelf == oOther.m_poPrivate->m_poSelf && m_poPrivate->m_nPos == oOther.m_poPrivate->m_nPos) ) { OGRFieldType eOtherType(oOther.GetType()); if( oOther.IsNull() ) SetNull(); else if( oOther.IsUnset() ) Unset(); else if( eOtherType == OFTInteger ) m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, oOther.GetInteger()); else if( eOtherType == OFTInteger64 ) m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, oOther.GetInteger64()); else if( eOtherType == OFTReal ) m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, oOther.GetDouble()); else if( eOtherType == OFTString ) m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, oOther.GetString()); else if( eOtherType == OFTDate || eOtherType == OFTDateTime || eOtherType == OFTTime ) { int nYear = 0; int nMonth = 0; int nDay = 0; int nHour = 0; int nMinute = 0; float fSecond = 0.0f; int nTZFlag = 0; oOther.GetDateTime(&nYear, &nMonth, &nDay, &nHour, &nMinute, &fSecond, &nTZFlag); m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, nYear, nMonth, nDay, nHour, nMinute, fSecond, nTZFlag); } else if( eOtherType == OFTStringList ) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, oOther.m_poPrivate->m_poSelf->GetFieldAsStringList( oOther.m_poPrivate->m_nPos)); } else if( eOtherType == OFTIntegerList ) { return operator= (oOther.GetAsIntegerList()); } else if( eOtherType == OFTInteger64List ) { return operator= (oOther.GetAsInteger64List()); } else if( eOtherType == OFTRealList ) { return operator= (oOther.GetAsDoubleList()); } } return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (int nVal) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, nVal); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (GIntBig nVal) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, nVal); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (double dfVal) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, dfVal); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (const char* pszVal) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, pszVal); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= (const std::string& osVal) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, osVal.c_str()); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= ( const std::vector& oArray) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, static_cast(oArray.size()), oArray.empty() ? nullptr : oArray.data()); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= ( const std::vector& oArray) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, static_cast(oArray.size()), oArray.empty() ? nullptr : oArray.data()); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= ( const std::vector& oArray) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, static_cast(oArray.size()), oArray.empty() ? nullptr : oArray.data()); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= ( const std::vector& oArray) { CPLStringList aosList; for( auto&& oStr: oArray ) aosList.AddString(oStr.c_str()); m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, aosList.List()); return *this; } OGRFeature::FieldValue& OGRFeature::FieldValue::operator= ( CSLConstList papszValues) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, papszValues); return *this; } void OGRFeature::FieldValue::SetDateTime(int nYear, int nMonth, int nDay, int nHour, int nMinute, float fSecond, int nTZFlag) { m_poPrivate->m_poSelf->SetField(m_poPrivate->m_nPos, nYear, nMonth, nDay, nHour, nMinute, fSecond, nTZFlag); } void OGRFeature::FieldValue::SetNull() { m_poPrivate->m_poSelf->SetFieldNull(m_poPrivate->m_nPos); } void OGRFeature::FieldValue::clear() { m_poPrivate->m_poSelf->UnsetField(m_poPrivate->m_nPos); } //! @cond Doxygen_Suppress OGRFeature::FieldValue::~FieldValue() = default; //! @endcond int OGRFeature::FieldValue::GetIndex() const { return m_poPrivate->m_nPos ; } const OGRFieldDefn* OGRFeature::FieldValue::GetDefn() const { return m_poPrivate->m_poSelf->GetFieldDefnRef(GetIndex()); } const OGRField* OGRFeature::FieldValue::GetRawValue() const { return &(m_poPrivate->m_poSelf->pauFields[GetIndex()]); } bool OGRFeature::FieldValue::IsUnset() const { return CPL_TO_BOOL(OGR_RawField_IsUnset(GetRawValue())); } bool OGRFeature::FieldValue::IsNull() const { return CPL_TO_BOOL(OGR_RawField_IsNull(GetRawValue())); } int OGRFeature::FieldValue::GetAsInteger() const { return const_cast(m_poPrivate->m_poSelf)-> GetFieldAsInteger(GetIndex()); } GIntBig OGRFeature::FieldValue::GetAsInteger64() const { return const_cast(m_poPrivate->m_poSelf)-> GetFieldAsInteger64(GetIndex()); } double OGRFeature::FieldValue::GetAsDouble() const { return const_cast(m_poPrivate->m_poSelf)-> GetFieldAsDouble(GetIndex()); } const char* OGRFeature::FieldValue::GetAsString() const { return const_cast(m_poPrivate->m_poSelf)-> GetFieldAsString(GetIndex()); } bool OGRFeature::FieldValue::GetDateTime( int *pnYear, int *pnMonth, int *pnDay, int *pnHour, int *pnMinute, float *pfSecond, int *pnTZFlag ) const { return CPL_TO_BOOL(const_cast(m_poPrivate->m_poSelf)-> GetFieldAsDateTime(GetIndex(), pnYear, pnMonth, pnDay, pnHour, pnMinute, pfSecond, pnTZFlag)); } const std::vector& OGRFeature::FieldValue::GetAsIntegerList() const { int nCount = 0; auto&& panList = const_cast(m_poPrivate->m_poSelf)-> GetFieldAsIntegerList( GetIndex(), &nCount ); m_poPrivate->m_anList.assign( panList, panList + nCount ); return m_poPrivate->m_anList; } const std::vector& OGRFeature::FieldValue::GetAsInteger64List() const { int nCount = 0; auto&& panList = const_cast(m_poPrivate->m_poSelf)-> GetFieldAsInteger64List( GetIndex(), &nCount ); m_poPrivate->m_anList64.assign( panList, panList + nCount ); return m_poPrivate->m_anList64; } const std::vector& OGRFeature::FieldValue::GetAsDoubleList() const { int nCount = 0; auto&& panList = const_cast(m_poPrivate->m_poSelf)-> GetFieldAsDoubleList( GetIndex(), &nCount ); m_poPrivate->m_adfList.assign( panList, panList + nCount ); return m_poPrivate->m_adfList; } const std::vector& OGRFeature::FieldValue::GetAsStringList() const { auto&& papszList = const_cast(m_poPrivate->m_poSelf)-> GetFieldAsStringList( GetIndex() ); m_poPrivate->m_aosList.clear(); if( papszList ) { for( char** papszIter = papszList; *papszIter; ++papszIter ) { m_poPrivate->m_aosList.emplace_back(*papszIter); } } return m_poPrivate->m_aosList; } OGRFeature::FieldValue::operator CSLConstList() const { return const_cast( const_cast(m_poPrivate->m_poSelf)-> GetFieldAsStringList( GetIndex() )); }