void QgsGraduatedSymbolRendererV2::addClass( QgsSymbolV2* symbol )
{
QgsSymbolV2* newSymbol = symbol->clone();
QString label = "0.0 - 0.0";
mRanges.insert( 0, QgsRendererRangeV2( 0.0, 0.0, newSymbol, label ) );
}
void QgsSymbologyV2Conversion::rendererV1toV2( QgsVectorLayer* layer )
{
if ( layer->isUsingRendererV2() )
return;
const QgsRenderer* r = layer->renderer();
if ( r == NULL )
return;
QgsFeatureRendererV2* r2final = NULL;
QString rtype = r->name();
if ( rtype == "Single Symbol" )
{
const QgsSingleSymbolRenderer* ssr = dynamic_cast<const QgsSingleSymbolRenderer*>( r );
if ( ssr == NULL )
return;
QgsSymbolV2* symbol = symbolV1toV2( ssr->symbol() );
QgsSingleSymbolRendererV2* r2 = new QgsSingleSymbolRendererV2( symbol );
r2final = r2;
}
else if ( rtype == "Graduated Symbol" )
{
const QgsGraduatedSymbolRenderer* gsr = dynamic_cast<const QgsGraduatedSymbolRenderer*>( r );
if ( gsr == NULL )
return;
QString attrName;
if ( layer->pendingFields().contains( gsr->classificationField() ) )
{
attrName = layer->pendingFields()[ gsr->classificationField()].name();
}
QgsRangeList ranges;
foreach( const QgsSymbol* sym, gsr->symbols() )
{
double lowerValue = sym->lowerValue().toDouble();
double upperValue = sym->upperValue().toDouble();
QString label = sym->label();
if ( label.isEmpty() )
label = QString( "%1 - %2" ).arg( lowerValue, -1, 'f', 3 ).arg( upperValue, -1, 'f', 3 );
QgsSymbolV2* symbolv2 = symbolV1toV2( sym );
ranges.append( QgsRendererRangeV2( lowerValue, upperValue, symbolv2, label ) );
}
QgsGraduatedSymbolRendererV2* r2 = new QgsGraduatedSymbolRendererV2( attrName, ranges );
// find out mode
QgsGraduatedSymbolRendererV2::Mode m = QgsGraduatedSymbolRendererV2::Custom;
switch ( gsr->mode() )
{
case QgsGraduatedSymbolRenderer::EqualInterval: m = QgsGraduatedSymbolRendererV2::EqualInterval; break;
case QgsGraduatedSymbolRenderer::Quantile: m = QgsGraduatedSymbolRendererV2::Quantile; break;
case QgsGraduatedSymbolRenderer::Empty: m = QgsGraduatedSymbolRendererV2::Custom; break;
}
r2->setMode( m );
// source symbol, color ramp not set (unknown)
r2final = r2;
}
else if ( rtype == "Continuous Color" )
QgsRendererRangeV2 QgsGraduatedSymbolRendererV2Model::rendererRange( const QModelIndex &index )
{
if ( !index.isValid() || !mRenderer || mRenderer->ranges().size() <= index.row() )
{
return QgsRendererRangeV2();
}
return mRenderer->ranges().value( index.row() );
}
static QgsFeatureRendererV2* readOldGraduatedSymbolRenderer( const QDomNode& rnode, QGis::GeometryType geomType )
{
QDomNode modeNode = rnode.namedItem( "mode" );
QString modeValue = modeNode.toElement().text();
QDomNode classnode = rnode.namedItem( "classificationfield" );
QString classificationField = classnode.toElement().text();
QgsGraduatedSymbolRendererV2::Mode m = QgsGraduatedSymbolRendererV2::Custom;
if ( modeValue == "Empty" )
{
m = QgsGraduatedSymbolRendererV2::Custom;
}
else if ( modeValue == "Quantile" )
{
m = QgsGraduatedSymbolRendererV2::Quantile;
}
else //default
{
m = QgsGraduatedSymbolRendererV2::EqualInterval;
}
// load ranges and symbols
QgsRangeList ranges;
QDomNode symbolnode = rnode.namedItem( "symbol" );
while ( !symbolnode.isNull() )
{
QgsSymbolV2* symbolv2 = readOldSymbol( symbolnode, geomType );
if ( symbolv2 )
{
QgsOldSymbolMeta meta = readSymbolMeta( symbolnode );
double lowerValue = meta.lowerValue.toDouble();
double upperValue = meta.upperValue.toDouble();
QString label = meta.label;
if ( label.isEmpty() )
label = QString( "%1 - %2" ).arg( lowerValue, -1, 'f', 3 ).arg( upperValue, -1, 'f', 3 );
ranges.append( QgsRendererRangeV2( lowerValue, upperValue, symbolv2, label ) );
}
symbolnode = symbolnode.nextSibling();
}
// create renderer
QgsGraduatedSymbolRendererV2* r = new QgsGraduatedSymbolRendererV2( classificationField, ranges );
r->setMode( m );
return r;
}
QgsFeatureRendererV2* QgsGraduatedSymbolRendererV2::create( QDomElement& element )
{
QDomElement symbolsElem = element.firstChildElement( "symbols" );
if ( symbolsElem.isNull() )
return NULL;
QDomElement rangesElem = element.firstChildElement( "ranges" );
if ( rangesElem.isNull() )
return NULL;
QgsSymbolV2Map symbolMap = QgsSymbolLayerV2Utils::loadSymbols( symbolsElem );
QgsRangeList ranges;
QDomElement rangeElem = rangesElem.firstChildElement();
while ( !rangeElem.isNull() )
{
if ( rangeElem.tagName() == "range" )
{
double lowerValue = rangeElem.attribute( "lower" ).toDouble();
double upperValue = rangeElem.attribute( "upper" ).toDouble();
QString symbolName = rangeElem.attribute( "symbol" );
QString label = rangeElem.attribute( "label" );
if ( symbolMap.contains( symbolName ) )
{
QgsSymbolV2* symbol = symbolMap.take( symbolName );
ranges.append( QgsRendererRangeV2( lowerValue, upperValue, symbol, label ) );
}
}
rangeElem = rangeElem.nextSiblingElement();
}
QString attrName = element.attribute( "attr" );
QgsGraduatedSymbolRendererV2* r = new QgsGraduatedSymbolRendererV2( attrName, ranges );
// delete symbols if there are any more
QgsSymbolLayerV2Utils::clearSymbolMap( symbolMap );
// try to load source symbol (optional)
QDomElement sourceSymbolElem = element.firstChildElement( "source-symbol" );
if ( !sourceSymbolElem.isNull() )
{
QgsSymbolV2Map sourceSymbolMap = QgsSymbolLayerV2Utils::loadSymbols( sourceSymbolElem );
if ( sourceSymbolMap.contains( "0" ) )
{
r->setSourceSymbol( sourceSymbolMap.take( "0" ) );
}
QgsSymbolLayerV2Utils::clearSymbolMap( sourceSymbolMap );
}
// try to load color ramp (optional)
QDomElement sourceColorRampElem = element.firstChildElement( "colorramp" );
if ( !sourceColorRampElem.isNull() && sourceColorRampElem.attribute( "name" ) == "[source]" )
{
r->setSourceColorRamp( QgsSymbolLayerV2Utils::loadColorRamp( sourceColorRampElem ) );
QDomElement invertedColorRampElem = element.firstChildElement( "invertedcolorramp" );
if ( !invertedColorRampElem.isNull() )
r->setInvertedColorRamp( invertedColorRampElem.attribute( "value" ) == "1" );
}
// try to load mode
QDomElement modeElem = element.firstChildElement( "mode" );
if ( !modeElem.isNull() )
{
QString modeString = modeElem.attribute( "name" );
if ( modeString == "equal" )
r->setMode( EqualInterval );
else if ( modeString == "quantile" )
r->setMode( Quantile );
else if ( modeString == "jenks" )
r->setMode( Jenks );
else if ( modeString == "stddev" )
r->setMode( StdDev );
else if ( modeString == "pretty" )
r->setMode( Pretty );
}
QDomElement rotationElem = element.firstChildElement( "rotation" );
if ( !rotationElem.isNull() )
r->setRotationField( rotationElem.attribute( "field" ) );
QDomElement sizeScaleElem = element.firstChildElement( "sizescale" );
if ( !sizeScaleElem.isNull() )
r->setSizeScaleField( sizeScaleElem.attribute( "field" ) );
r->setScaleMethod( QgsSymbolLayerV2Utils::decodeScaleMethod( sizeScaleElem.attribute( "scalemethod" ) ) );
// TODO: symbol levels
return r;
}
QgsGraduatedSymbolRendererV2* QgsGraduatedSymbolRendererV2::createRenderer(
QgsVectorLayer* vlayer,
QString attrName,
int classes,
Mode mode,
QgsSymbolV2* symbol,
QgsVectorColorRampV2* ramp,
bool inverted )
{
if ( classes < 1 )
return NULL;
int attrNum = vlayer->fieldNameIndex( attrName );
double minimum;
double maximum;
QScopedPointer<QgsExpression> expression;
if ( attrNum == -1 )
{
// try to use expression
expression.reset( new QgsExpression( attrName ) );
if ( expression->hasParserError() || !expression->prepare( vlayer->pendingFields() ) )
return 0; // should have a means to report errors
QList<double> values;
QgsFeatureIterator fit = vlayer->getFeatures();
QgsFeature feature;
while ( fit.nextFeature( feature ) )
{
values << expression->evaluate( feature ).toDouble();
}
qSort( values );
minimum = values.first();
maximum = values.last();
}
else
{
minimum = vlayer->minimumValue( attrNum ).toDouble();
maximum = vlayer->maximumValue( attrNum ).toDouble();
}
QgsDebugMsg( QString( "min %1 // max %2" ).arg( minimum ).arg( maximum ) );
QList<double> breaks;
QList<int> labels;
if ( mode == EqualInterval )
{
breaks = _calcEqualIntervalBreaks( minimum, maximum, classes );
}
else if ( mode == Pretty )
{
breaks = _calcPrettyBreaks( minimum, maximum, classes );
}
else if ( mode == Quantile || mode == Jenks || mode == StdDev )
{
// get values from layer
QList<double> values;
QgsFeature f;
QStringList lst;
if ( expression.isNull() )
lst.append( attrName );
else
lst = expression->referencedColumns();
QgsFeatureIterator fit = vlayer->getFeatures( QgsFeatureRequest().setFlags( QgsFeatureRequest::NoGeometry ).setSubsetOfAttributes( lst, vlayer->pendingFields() ) );
// create list of non-null attribute values
while ( fit.nextFeature( f ) )
{
QVariant v = expression.isNull() ? f.attribute( attrNum ) : expression->evaluate( f );
if ( !v.isNull() )
values.append( v.toDouble() );
}
// calculate the breaks
if ( mode == Quantile )
{
breaks = _calcQuantileBreaks( values, classes );
}
else if ( mode == Jenks )
{
breaks = _calcJenksBreaks( values, classes, minimum, maximum );
}
else if ( mode == StdDev )
{
breaks = _calcStdDevBreaks( values, classes, labels );
}
}
else
{
Q_ASSERT( false );
}
QgsRangeList ranges;
double lower, upper = minimum;
QString label;
// "breaks" list contains all values at class breaks plus maximum as last break
int i = 0;
for ( QList<double>::iterator it = breaks.begin(); it != breaks.end(); ++it, ++i )
{
lower = upper; // upper border from last interval
upper = *it;
if ( mode == StdDev )
{
if ( i == 0 )
{
label = "< " + QString::number( labels[i], 'i', 0 ) + " Std Dev";
}
else if ( i == labels.count() - 1 )
{
label = ">= " + QString::number( labels[i-1], 'i', 0 ) + " Std Dev";
}
else
{
label = QString::number( labels[i-1], 'i', 0 ) + " Std Dev" + " - " + QString::number( labels[i], 'i', 0 ) + " Std Dev";
}
}
else
{
label = QString::number( lower, 'f', 4 ) + " - " + QString::number( upper, 'f', 4 );
}
QgsSymbolV2* newSymbol = symbol->clone();
double colorValue;
if ( inverted ) colorValue = ( breaks.count() > 1 ? ( double )( breaks.count() - i - 1 ) / ( breaks.count() - 1 ) : 0 );
else colorValue = ( breaks.count() > 1 ? ( double ) i / ( breaks.count() - 1 ) : 0 );
newSymbol->setColor( ramp->color( colorValue ) ); // color from (0 / cl-1) to (cl-1 / cl-1)
ranges.append( QgsRendererRangeV2( lower, upper, newSymbol, label ) );
}
QgsGraduatedSymbolRendererV2* r = new QgsGraduatedSymbolRendererV2( attrName, ranges );
r->setSourceSymbol( symbol->clone() );
r->setSourceColorRamp( ramp->clone() );
r->setInvertedColorRamp( inverted );
r->setMode( mode );
return r;
}
QgsGraduatedSymbolRendererV2* QgsGraduatedSymbolRendererV2::createRenderer(
QgsVectorLayer* vlayer,
QString attrName,
int classes,
Mode mode,
QgsSymbolV2* symbol,
QgsVectorColorRampV2* ramp )
{
if ( classes < 1 )
return NULL;
int attrNum = vlayer->fieldNameIndex( attrName );
double minimum = vlayer->minimumValue( attrNum ).toDouble();
double maximum = vlayer->maximumValue( attrNum ).toDouble();
QgsDebugMsg( QString( "min %1 // max %2" ).arg( minimum ).arg( maximum ) );
QList<double> breaks;
QList<int> labels;
if ( mode == EqualInterval )
{
breaks = _calcEqualIntervalBreaks( minimum, maximum, classes );
}
else if ( mode == Pretty )
{
breaks = _calcPrettyBreaks( minimum, maximum, classes );
}
else if ( mode == Quantile || mode == Jenks || mode == StdDev )
{
// get values from layer
QList<double> values;
QgsFeature f;
QgsAttributeList lst;
lst.append( attrNum );
QgsFeatureIterator fit = vlayer->getFeatures( QgsFeatureRequest().setFlags( QgsFeatureRequest::NoGeometry ).setSubsetOfAttributes( lst ) );
// create list of non-null attribute values
while ( fit.nextFeature( f ) )
if ( !f.attribute( attrNum ).isNull() )
values.append( f.attribute( attrNum ).toDouble() );
// calculate the breaks
if ( mode == Quantile )
{
breaks = _calcQuantileBreaks( values, classes );
}
else if ( mode == Jenks )
{
breaks = _calcJenksBreaks( values, classes, minimum, maximum );
}
else if ( mode == StdDev )
{
breaks = _calcStdDevBreaks( values, classes, labels );
}
}
else
{
Q_ASSERT( false );
}
QgsRangeList ranges;
double lower, upper = minimum;
QString label;
// "breaks" list contains all values at class breaks plus maximum as last break
int i = 0;
for ( QList<double>::iterator it = breaks.begin(); it != breaks.end(); ++it, ++i )
{
lower = upper; // upper border from last interval
upper = *it;
if ( mode == StdDev )
{
if ( i == 0 )
{
label = "< " + QString::number( labels[i], 'i', 0 ) + " Std Dev";
}
else if ( i == labels.count() - 1 )
{
label = ">= " + QString::number( labels[i-1], 'i', 0 ) + " Std Dev";
}
else
{
label = QString::number( labels[i-1], 'i', 0 ) + " Std Dev" + " - " + QString::number( labels[i], 'i', 0 ) + " Std Dev";
}
}
else
{
label = QString::number( lower, 'f', 4 ) + " - " + QString::number( upper, 'f', 4 );
}
QgsSymbolV2* newSymbol = symbol->clone();
double colorValue = ( breaks.count() > 1 ? ( double ) i / ( breaks.count() - 1 ) : 0 );
newSymbol->setColor( ramp->color( colorValue ) ); // color from (0 / cl-1) to (cl-1 / cl-1)
ranges.append( QgsRendererRangeV2( lower, upper, newSymbol, label ) );
}
QgsGraduatedSymbolRendererV2* r = new QgsGraduatedSymbolRendererV2( attrName, ranges );
r->setSourceSymbol( symbol->clone() );
r->setSourceColorRamp( ramp->clone() );
r->setMode( mode );
return r;
}
QgsFeatureRendererV2* QgsGraduatedSymbolRendererV2::create( QDomElement& element )
{
QDomElement symbolsElem = element.firstChildElement( "symbols" );
if ( symbolsElem.isNull() )
return NULL;
QDomElement rangesElem = element.firstChildElement( "ranges" );
if ( rangesElem.isNull() )
return NULL;
QgsSymbolV2Map symbolMap = QgsSymbolLayerV2Utils::loadSymbols( symbolsElem );
QgsRangeList ranges;
QDomElement rangeElem = rangesElem.firstChildElement();
while ( !rangeElem.isNull() )
{
if ( rangeElem.tagName() == "range" )
{
double lowerValue = rangeElem.attribute( "lower" ).toDouble();
double upperValue = rangeElem.attribute( "upper" ).toDouble();
QString symbolName = rangeElem.attribute( "symbol" );
QString label = rangeElem.attribute( "label" );
bool render = rangeElem.attribute( "render", "true" ) != "false";
if ( symbolMap.contains( symbolName ) )
{
QgsSymbolV2* symbol = symbolMap.take( symbolName );
ranges.append( QgsRendererRangeV2( lowerValue, upperValue, symbol, label, render ) );
}
}
rangeElem = rangeElem.nextSiblingElement();
}
QString attrName = element.attribute( "attr" );
QgsGraduatedSymbolRendererV2* r = new QgsGraduatedSymbolRendererV2( attrName, ranges );
QString attrMethod = element.attribute( "graduatedMethod" );
if ( attrMethod.length() )
{
if ( attrMethod == graduatedMethodStr( GraduatedColor ) )
r->setGraduatedMethod( GraduatedColor );
else if ( attrMethod == graduatedMethodStr( GraduatedSize ) )
r->setGraduatedMethod( GraduatedSize );
}
// delete symbols if there are any more
QgsSymbolLayerV2Utils::clearSymbolMap( symbolMap );
// try to load source symbol (optional)
QDomElement sourceSymbolElem = element.firstChildElement( "source-symbol" );
if ( !sourceSymbolElem.isNull() )
{
QgsSymbolV2Map sourceSymbolMap = QgsSymbolLayerV2Utils::loadSymbols( sourceSymbolElem );
if ( sourceSymbolMap.contains( "0" ) )
{
r->setSourceSymbol( sourceSymbolMap.take( "0" ) );
}
QgsSymbolLayerV2Utils::clearSymbolMap( sourceSymbolMap );
}
// try to load color ramp (optional)
QDomElement sourceColorRampElem = element.firstChildElement( "colorramp" );
if ( !sourceColorRampElem.isNull() && sourceColorRampElem.attribute( "name" ) == "[source]" )
{
r->setSourceColorRamp( QgsSymbolLayerV2Utils::loadColorRamp( sourceColorRampElem ) );
QDomElement invertedColorRampElem = element.firstChildElement( "invertedcolorramp" );
if ( !invertedColorRampElem.isNull() )
r->setInvertedColorRamp( invertedColorRampElem.attribute( "value" ) == "1" );
}
// try to load mode
QDomElement modeElem = element.firstChildElement( "mode" );
if ( !modeElem.isNull() )
{
QString modeString = modeElem.attribute( "name" );
if ( modeString == "equal" )
r->setMode( EqualInterval );
else if ( modeString == "quantile" )
r->setMode( Quantile );
else if ( modeString == "jenks" )
r->setMode( Jenks );
else if ( modeString == "stddev" )
r->setMode( StdDev );
else if ( modeString == "pretty" )
r->setMode( Pretty );
}
QDomElement rotationElem = element.firstChildElement( "rotation" );
if ( !rotationElem.isNull() && !rotationElem.attribute( "field" ).isEmpty() )
{
for ( QgsRangeList::iterator it = r->mRanges.begin(); it != r->mRanges.end(); ++it )
{
convertSymbolRotation( it->symbol(), rotationElem.attribute( "field" ) );
}
if ( r->mSourceSymbol.data() )
{
convertSymbolRotation( r->mSourceSymbol.data(), rotationElem.attribute( "field" ) );
}
}
QDomElement sizeScaleElem = element.firstChildElement( "sizescale" );
if ( !sizeScaleElem.isNull() && !sizeScaleElem.attribute( "field" ).isEmpty() )
{
for ( QgsRangeList::iterator it = r->mRanges.begin(); it != r->mRanges.end(); ++it )
{
convertSymbolSizeScale( it->symbol(),
QgsSymbolLayerV2Utils::decodeScaleMethod( sizeScaleElem.attribute( "scalemethod" ) ),
sizeScaleElem.attribute( "field" ) );
}
if ( r->mSourceSymbol.data() && r->mSourceSymbol->type() == QgsSymbolV2::Marker )
{
convertSymbolSizeScale( r->mSourceSymbol.data(),
QgsSymbolLayerV2Utils::decodeScaleMethod( sizeScaleElem.attribute( "scalemethod" ) ),
sizeScaleElem.attribute( "field" ) );
}
}
QDomElement labelFormatElem = element.firstChildElement( "labelformat" );
if ( ! labelFormatElem.isNull() )
{
QgsRendererRangeV2LabelFormat labelFormat;
labelFormat.setFromDomElement( labelFormatElem );
r->setLabelFormat( labelFormat );
}
// TODO: symbol levels
return r;
}
void QgsGraduatedSymbolRendererV2::updateClasses( QgsVectorLayer *vlayer, Mode mode, int nclasses )
{
if ( mAttrName.isEmpty() )
return;
setMode( mode );
// Custom classes are not recalculated
if ( mode == Custom )
return;
if ( nclasses < 1 )
nclasses = 1;
QList<double> values;
bool valuesLoaded = false;
double minimum;
double maximum;
int attrNum = vlayer->fieldNameIndex( mAttrName );
bool ok;
if ( attrNum == -1 )
{
values = vlayer->getDoubleValues( mAttrName, ok );
if ( !ok || values.isEmpty() )
return;
qSort( values ); // vmora: is wondering if O( n log(n) ) is really necessary here, min and max are O( n )
minimum = values.first();
maximum = values.last();
valuesLoaded = true;
}
else
{
minimum = vlayer->minimumValue( attrNum ).toDouble();
maximum = vlayer->maximumValue( attrNum ).toDouble();
}
QgsDebugMsg( QString( "min %1 // max %2" ).arg( minimum ).arg( maximum ) );
QList<double> breaks;
QList<double> labels;
if ( mode == EqualInterval )
{
breaks = _calcEqualIntervalBreaks( minimum, maximum, nclasses );
}
else if ( mode == Pretty )
{
breaks = QgsSymbolLayerV2Utils::prettyBreaks( minimum, maximum, nclasses );
}
else if ( mode == Quantile || mode == Jenks || mode == StdDev )
{
// get values from layer
if ( !valuesLoaded )
{
values = vlayer->getDoubleValues( mAttrName, ok );
}
// calculate the breaks
if ( mode == Quantile )
{
breaks = _calcQuantileBreaks( values, nclasses );
}
else if ( mode == Jenks )
{
breaks = _calcJenksBreaks( values, nclasses, minimum, maximum );
}
else if ( mode == StdDev )
{
breaks = _calcStdDevBreaks( values, nclasses, labels );
}
}
else
{
Q_ASSERT( false );
}
double lower, upper = minimum;
QString label;
deleteAllClasses();
// "breaks" list contains all values at class breaks plus maximum as last break
int i = 0;
for ( QList<double>::iterator it = breaks.begin(); it != breaks.end(); ++it, ++i )
{
lower = upper; // upper border from last interval
upper = *it;
// Label - either StdDev label or default label for a range
if ( mode == StdDev )
{
if ( i == 0 )
{
label = "< " + QString::number( labels[i], 'f', 2 ) + " Std Dev";
}
else if ( i == labels.count() - 1 )
{
label = ">= " + QString::number( labels[i-1], 'f', 2 ) + " Std Dev";
}
else
{
label = QString::number( labels[i-1], 'f', 2 ) + " Std Dev" + " - " + QString::number( labels[i], 'f', 2 ) + " Std Dev";
}
}
else
{
label = mLabelFormat.labelForRange( lower, upper );
}
QgsSymbolV2* newSymbol = mSourceSymbol ? mSourceSymbol->clone() : QgsSymbolV2::defaultSymbol( vlayer->geometryType() );
addClass( QgsRendererRangeV2( lower, upper, newSymbol, label ) );
}
updateColorRamp( 0, mInvertedColorRamp );
}