void QgsGeometryValidator::run()
{
mErrorCount = 0;
QSettings settings;
if ( settings.value( QStringLiteral( "/qgis/digitizing/validate_geometries" ), 1 ).toInt() == 2 )
{
char *r = nullptr;
const GEOSGeometry *g0 = mG.asGeos();
GEOSContextHandle_t handle = QgsGeometry::getGEOSHandler();
if ( !g0 )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error:could not produce geometry for GEOS (check log window)" ) ) );
}
else
{
GEOSGeometry *g1 = nullptr;
if ( GEOSisValidDetail_r( handle, g0, GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE, &r, &g1 ) != 1 )
{
if ( g1 )
{
const GEOSCoordSequence *cs = GEOSGeom_getCoordSeq_r( handle, g1 );
unsigned int n;
if ( GEOSCoordSeq_getSize_r( handle, cs, &n ) && n == 1 )
{
double x, y;
GEOSCoordSeq_getX_r( handle, cs, 0, &x );
GEOSCoordSeq_getY_r( handle, cs, 0, &y );
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error:%1" ).arg( r ), QgsPoint( x, y ) ) );
mErrorCount++;
}
GEOSGeom_destroy_r( handle, g1 );
}
else
{
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error:%1" ).arg( r ) ) );
mErrorCount++;
}
GEOSFree_r( handle, r );
}
}
return;
}
QgsDebugMsg( "validation thread started." );
QgsWkbTypes::Type flatType = QgsWkbTypes::flatType( mG.wkbType() );
//if ( flatType == QgsWkbTypes::Point || flatType == QgsWkbTypes::MultiPoint )
// break;
if ( flatType == QgsWkbTypes::LineString )
{
validatePolyline( 0, mG.asPolyline() );
}
else if ( flatType == QgsWkbTypes::MultiLineString )
{
QgsMultiPolyline mp = mG.asMultiPolyline();
for ( int i = 0; !mStop && i < mp.size(); i++ )
validatePolyline( i, mp[i] );
}
else if ( flatType == QgsWkbTypes::Polygon )
{
validatePolygon( 0, mG.asPolygon() );
}
else if ( flatType == QgsWkbTypes::MultiPolygon )
{
QgsMultiPolygon mp = mG.asMultiPolygon();
for ( int i = 0; !mStop && i < mp.size(); i++ )
{
validatePolygon( i, mp[i] );
}
for ( int i = 0; !mStop && i < mp.size(); i++ )
{
if ( mp[i].isEmpty() )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 has no rings" ).arg( i ) ) );
mErrorCount++;
continue;
}
for ( int j = i + 1; !mStop && j < mp.size(); j++ )
{
if ( mp[j].isEmpty() )
continue;
if ( ringInRing( mp[i][0], mp[j][0] ) )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 inside polygon %2" ).arg( i ).arg( j ) ) );
mErrorCount++;
}
else if ( ringInRing( mp[j][0], mp[i][0] ) )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 inside polygon %2" ).arg( j ).arg( i ) ) );
mErrorCount++;
}
else
{
checkRingIntersections( i, 0, mp[i][0], j, 0, mp[j][0] );
}
}
}
}
else if ( flatType == QgsWkbTypes::Unknown )
{
QgsDebugMsg( QObject::tr( "Unknown geometry type" ) );
emit errorFound( QgsGeometry::Error( QObject::tr( "Unknown geometry type %1" ).arg( mG.wkbType() ) ) );
mErrorCount++;
}
QgsDebugMsg( "validation finished." );
if ( mStop )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry validation was aborted." ) ) );
}
else if ( mErrorCount > 0 )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry has %1 errors." ).arg( mErrorCount ) ) );
}
#if 0
else
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry is valid." ) ) );
}
#endif
}
void QgsGeometryValidator::run()
{
mErrorCount = 0;
switch ( mMethod )
{
case QgsGeometry::ValidatorGeos:
{
char *r = nullptr;
geos::unique_ptr g0( mGeometry.exportToGeos() );
GEOSContextHandle_t handle = QgsGeometry::getGEOSHandler();
if ( !g0 )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error: could not produce geometry for GEOS (check log window)" ) ) );
}
else
{
GEOSGeometry *g1 = nullptr;
char res = GEOSisValidDetail_r( handle, g0.get(), GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE, &r, &g1 );
if ( res != 1 )
{
if ( g1 )
{
const GEOSCoordSequence *cs = GEOSGeom_getCoordSeq_r( handle, g1 );
unsigned int n;
if ( GEOSCoordSeq_getSize_r( handle, cs, &n ) && n == 1 )
{
double x, y;
GEOSCoordSeq_getX_r( handle, cs, 0, &x );
GEOSCoordSeq_getY_r( handle, cs, 0, &y );
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error: %1" ).arg( r ), QgsPointXY( x, y ) ) );
mErrorCount++;
}
GEOSGeom_destroy_r( handle, g1 );
}
else
{
emit errorFound( QgsGeometry::Error( QObject::tr( "GEOS error: %1" ).arg( r ) ) );
mErrorCount++;
}
GEOSFree_r( handle, r );
}
}
break;
}
case QgsGeometry::ValidatorQgisInternal:
{
QgsWkbTypes::Type flatType = QgsWkbTypes::flatType( mGeometry.wkbType() );
//if ( flatType == QgsWkbTypes::Point || flatType == QgsWkbTypes::MultiPoint )
// break;
if ( flatType == QgsWkbTypes::LineString )
{
validatePolyline( 0, mGeometry.asPolyline() );
}
else if ( flatType == QgsWkbTypes::MultiLineString )
{
QgsMultiPolylineXY mp = mGeometry.asMultiPolyline();
for ( int i = 0; !mStop && i < mp.size(); i++ )
validatePolyline( i, mp[i] );
}
else if ( flatType == QgsWkbTypes::Polygon )
{
validatePolygon( 0, mGeometry.asPolygon() );
}
else if ( flatType == QgsWkbTypes::MultiPolygon )
{
QgsMultiPolygonXY mp = mGeometry.asMultiPolygon();
for ( int i = 0; !mStop && i < mp.size(); i++ )
{
validatePolygon( i, mp[i] );
}
for ( int i = 0; !mStop && i < mp.size(); i++ )
{
if ( mp[i].isEmpty() )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 has no rings" ).arg( i ) ) );
mErrorCount++;
continue;
}
for ( int j = i + 1; !mStop && j < mp.size(); j++ )
{
if ( mp[j].isEmpty() )
continue;
if ( ringInRing( mp[i][0], mp[j][0] ) )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 inside polygon %2" ).arg( i ).arg( j ) ) );
mErrorCount++;
}
else if ( ringInRing( mp[j][0], mp[i][0] ) )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "polygon %1 inside polygon %2" ).arg( j ).arg( i ) ) );
mErrorCount++;
}
else
{
checkRingIntersections( i, 0, mp[i][0], j, 0, mp[j][0] );
}
}
}
}
else if ( flatType == QgsWkbTypes::Unknown )
{
QgsDebugMsg( QObject::tr( "Unknown geometry type" ) );
emit errorFound( QgsGeometry::Error( QObject::tr( "Unknown geometry type %1" ).arg( mGeometry.wkbType() ) ) );
mErrorCount++;
}
if ( mStop )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry validation was aborted." ) ) );
}
else if ( mErrorCount > 0 )
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry has %1 errors." ).arg( mErrorCount ) ) );
}
#if 0
else
{
emit errorFound( QgsGeometry::Error( QObject::tr( "Geometry is valid." ) ) );
}
#endif
break;
}
}
}
