void testSnapModeAll()
{
QgsMapSettings mapSettings;
mapSettings.setOutputSize( QSize( 100, 100 ) );
mapSettings.setExtent( QgsRectangle( 0, 0, 1, 1 ) );
QVERIFY( mapSettings.hasValidSettings() );
QgsSnappingUtils u;
QgsSnappingConfig snappingConfig = u.config();
u.setMapSettings( mapSettings );
snappingConfig.setMode( QgsSnappingConfig::AllLayers );
u.setConfig( snappingConfig );
// right now there are no layers in map settings - snapping will fail
QgsPointLocator::Match m = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( !m.isValid() );
// now check with our layer
mapSettings.setLayers( QStringList() << mVL->id() );
u.setMapSettings( mapSettings );
QgsPointLocator::Match m2 = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( m2.isValid() );
QCOMPARE( m2.point(), QgsPoint( 1, 0 ) );
}
void testSnapOnIntersection()
{
// testing with a layer with two crossing linestrings
// (0,1) x x (1,1)
// \/
// /\ .
// (0,0) x x (1,0)
QgsVectorLayer* vl = new QgsVectorLayer( QStringLiteral( "LineString" ), QStringLiteral( "x" ), QStringLiteral( "memory" ) );
QgsPolyline polyline1, polyline2;
polyline1 << QgsPoint( 0, 0 ) << QgsPoint( 1, 1 );
polyline2 << QgsPoint( 1, 0 ) << QgsPoint( 0, 1 );
QgsFeature f1;
QgsGeometry f1g = QgsGeometry::fromPolyline( polyline1 ) ;
f1.setGeometry( f1g );
QgsFeature f2;
QgsGeometry f2g = QgsGeometry::fromPolyline( polyline2 );
f2.setGeometry( f2g );
QgsFeatureList flist;
flist << f1 << f2;
vl->dataProvider()->addFeatures( flist );
QVERIFY( vl->dataProvider()->featureCount() == 2 );
QgsMapSettings mapSettings;
mapSettings.setOutputSize( QSize( 100, 100 ) );
mapSettings.setExtent( QgsRectangle( 0, 0, 1, 1 ) );
QVERIFY( mapSettings.hasValidSettings() );
QgsSnappingUtils u;
u.setMapSettings( mapSettings );
QgsSnappingConfig snappingConfig = u.config();
snappingConfig.setMode( QgsSnappingConfig::AdvancedConfiguration );
QgsSnappingConfig::IndividualLayerSettings layerSettings( true, QgsSnappingConfig::Vertex, 0.1, QgsTolerance::ProjectUnits );
snappingConfig.setIndividualLayerSettings( vl, layerSettings );
u.setConfig( snappingConfig );
// no snapping on intersections by default - should find nothing
QgsPointLocator::Match m = u.snapToMap( QgsPoint( 0.45, 0.5 ) );
QVERIFY( !m.isValid() );
snappingConfig.setIntersectionSnapping( true );
u.setConfig( snappingConfig );
QgsPointLocator::Match m2 = u.snapToMap( QgsPoint( 0.45, 0.5 ) );
QVERIFY( m2.isValid() );
QCOMPARE( m2.type(), QgsPointLocator::Vertex );
QCOMPARE( m2.point(), QgsPoint( 0.5, 0.5 ) );
delete vl;
}
void testSnapModeCurrent()
{
QgsMapSettings mapSettings;
mapSettings.setOutputSize( QSize( 100, 100 ) );
mapSettings.setExtent( QgsRectangle( 0, 0, 1, 1 ) );
QVERIFY( mapSettings.hasValidSettings() );
QgsSnappingUtils u;
u.setMapSettings( mapSettings );
u.setCurrentLayer( mVL );
// first try with no snapping enabled
QgsSnappingConfig snappingConfig = u.config();
snappingConfig.setEnabled( false );
snappingConfig.setTolerance( 10 );
snappingConfig.setUnits( QgsTolerance::Pixels );
snappingConfig.setMode( QgsSnappingConfig::ActiveLayer );
u.setConfig( snappingConfig );
QgsPointLocator::Match m0 = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( !m0.isValid() );
QVERIFY( !m0.hasVertex() );
// now enable snapping
snappingConfig.setEnabled( true );
snappingConfig.setType( QgsSnappingConfig::Vertex );
u.setConfig( snappingConfig );
QgsPointLocator::Match m = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( m.isValid() );
QVERIFY( m.hasVertex() );
QCOMPARE( m.point(), QgsPoint( 1, 0 ) );
QgsPointLocator::Match m2 = u.snapToMap( QPoint( 0, 100 ) );
QVERIFY( !m2.isValid() );
QVERIFY( !m2.hasVertex() );
// do not consider edges in the following test - on 32-bit platforms
// result was an edge match very close to (1,0) instead of being exactly (1,0)
snappingConfig.setType( QgsSnappingConfig::Vertex );
u.setConfig( snappingConfig );
// test with filtering
FilterExcludePoint myFilter( QgsPoint( 1, 0 ) );
QgsPointLocator::Match m3 = u.snapToMap( QPoint( 100, 100 ), &myFilter );
QVERIFY( !m3.isValid() );
}
void testSnapModeAdvanced()
{
QgsMapSettings mapSettings;
mapSettings.setOutputSize( QSize( 100, 100 ) );
mapSettings.setExtent( QgsRectangle( 0, 0, 1, 1 ) );
QVERIFY( mapSettings.hasValidSettings() );
QgsSnappingUtils u;
u.setMapSettings( mapSettings );
u.setSnapToMapMode( QgsSnappingUtils::SnapAdvanced );
QList<QgsSnappingUtils::LayerConfig> layers;
layers << QgsSnappingUtils::LayerConfig( mVL, QgsPointLocator::Vertex, 10, QgsTolerance::Pixels );
u.setLayers( layers );
QgsPointLocator::Match m = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( m.isValid() );
QVERIFY( m.hasVertex() );
QCOMPARE( m.point(), QgsPoint( 1, 0 ) );
// test with filtering
FilterExcludePoint myFilter( QgsPoint( 1, 0 ) );
QgsPointLocator::Match m2 = u.snapToMap( QPoint( 100, 100 ), &myFilter );
QVERIFY( !m2.isValid() );
}
void testSnapModeAdvanced()
{
QgsMapSettings mapSettings;
mapSettings.setOutputSize( QSize( 100, 100 ) );
mapSettings.setExtent( QgsRectangle( 0, 0, 1, 1 ) );
QVERIFY( mapSettings.hasValidSettings() );
QgsSnappingUtils u;
QgsSnappingConfig snappingConfig = u.config();
u.setMapSettings( mapSettings );
snappingConfig.setMode( QgsSnappingConfig::AdvancedConfiguration );
snappingConfig.setIndividualLayerSettings( mVL, QgsSnappingConfig::IndividualLayerSettings( true, QgsSnappingConfig::Vertex, 10, QgsTolerance::Pixels ) );
u.setConfig( snappingConfig );
QgsPointLocator::Match m = u.snapToMap( QPoint( 100, 100 ) );
QVERIFY( m.isValid() );
QVERIFY( m.hasVertex() );
QCOMPARE( m.point(), QgsPoint( 1, 0 ) );
// test with filtering
FilterExcludePoint myFilter( QgsPoint( 1, 0 ) );
QgsPointLocator::Match m2 = u.snapToMap( QPoint( 100, 100 ), &myFilter );
QVERIFY( !m2.isValid() );
}