QgsRasterBlock* QgsSingleBandColorDataRenderer::block( int bandNo, QgsRectangle const & extent, int width, int height, QgsRasterBlockFeedback* feedback )
{
Q_UNUSED( bandNo );
QgsRasterBlock *outputBlock = new QgsRasterBlock();
if ( !mInput )
{
return outputBlock;
}
QgsRasterBlock *inputBlock = mInput->block( mBand, extent, width, height, feedback );
if ( !inputBlock || inputBlock->isEmpty() )
{
QgsDebugMsg( "No raster data!" );
delete inputBlock;
return outputBlock;
}
bool hasTransparency = usesTransparency();
if ( !hasTransparency )
{
// Nothing to do, just retype if necessary
inputBlock->convert( Qgis::ARGB32_Premultiplied );
delete outputBlock;
return inputBlock;
}
if ( !outputBlock->reset( Qgis::ARGB32_Premultiplied, width, height ) )
{
delete inputBlock;
return outputBlock;
}
// make sure input is also premultiplied!
inputBlock->convert( Qgis::ARGB32_Premultiplied );
QRgb* inputBits = ( QRgb* )inputBlock->bits();
QRgb* outputBits = ( QRgb* )outputBlock->bits();
for ( qgssize i = 0; i < ( qgssize )width*height; i++ )
{
QRgb c = inputBits[i];
outputBits[i] = qRgba( mOpacity * qRed( c ), mOpacity * qGreen( c ), mOpacity * qBlue( c ), mOpacity * qAlpha( c ) );
}
delete inputBlock;
return outputBlock;
}
QgsRasterBlock* QgsSingleBandColorDataRenderer::block( int bandNo, QgsRectangle const & extent, int width, int height )
{
Q_UNUSED( bandNo );
QgsRasterBlock *outputBlock = new QgsRasterBlock();
if ( !mInput )
{
return outputBlock;
}
QgsRasterBlock *inputBlock = mInput->block( mBand, extent, width, height );
if ( !inputBlock || inputBlock->isEmpty() )
{
QgsDebugMsg( "No raster data!" );
delete inputBlock;
return outputBlock;
}
bool hasTransparency = usesTransparency();
if ( !hasTransparency )
{
// Nothing to do, just retype if necessary
inputBlock->convert( QgsRasterBlock::ARGB32_Premultiplied );
delete outputBlock;
return inputBlock;
}
if ( !outputBlock->reset( QgsRasterBlock::ARGB32_Premultiplied, width, height ) )
{
delete inputBlock;
return outputBlock;
}
for ( size_t i = 0; i < ( size_t )width*height; i++ )
{
QRgb pixelColor;
double alpha = 255.0;
QRgb c = inputBlock->color( i );
alpha = qAlpha( c );
pixelColor = qRgba( mOpacity * qRed( c ), mOpacity * qGreen( c ), mOpacity * qBlue( c ), mOpacity * alpha );
outputBlock->setColor( i, pixelColor );
}
delete inputBlock;
return outputBlock;
}
static QByteArray _readDtmData( QgsRasterDataProvider *provider, const QgsRectangle &extent, int res )
{
QElapsedTimer t;
t.start();
// TODO: use feedback object? (but GDAL currently does not support cancelation anyway)
QgsRasterBlock *block = provider->block( 1, extent, res, res );
QByteArray data;
if ( block )
{
block->convert( Qgis::Float32 ); // currently we expect just floats
data = block->data();
data.detach(); // this should make a deep copy
delete block;
}
return data;
}
float QgsDemHeightMapGenerator::heightAt( double x, double y )
{
// TODO: this is quite a primitive implementation: better to use heightmaps currently in use
int res = 1024;
QgsRectangle rect = mDtm->extent();
if ( mDtmCoarseData.isEmpty() )
{
QgsRasterBlock *block = mDtm->dataProvider()->block( 1, rect, res, res );
block->convert( Qgis::Float32 );
mDtmCoarseData = block->data();
mDtmCoarseData.detach(); // make a deep copy
delete block;
}
int cellX = ( int )( ( x - rect.xMinimum() ) / rect.width() * res + .5f );
int cellY = ( int )( ( rect.yMaximum() - y ) / rect.height() * res + .5f );
cellX = qBound( 0, cellX, res - 1 );
cellY = qBound( 0, cellY, res - 1 );
const float *data = ( const float * ) mDtmCoarseData.constData();
return data[cellX + cellY * res];
}
QByteArray QgsDemHeightMapGenerator::renderSynchronously( int x, int y, int z )
{
// extend the rect by half-pixel on each side? to get the values in "corners"
QgsRectangle extent = mTilingScheme.tileToExtent( x, y, z );
float mapUnitsPerPixel = extent.width() / mResolution;
extent.grow( mapUnitsPerPixel / 2 );
// but make sure not to go beyond the full extent (returns invalid values)
QgsRectangle fullExtent = mTilingScheme.tileToExtent( 0, 0, 0 );
extent = extent.intersect( &fullExtent );
QgsRasterBlock *block = mDtm->dataProvider()->block( 1, extent, mResolution, mResolution );
QByteArray data;
if ( block )
{
block->convert( Qgis::Float32 ); // currently we expect just floats
data = block->data();
data.detach(); // this should make a deep copy
delete block;
}
return data;
}
int QgsGrassGisLib::readRasterRow( int fd, void * buf, int row, RASTER_MAP_TYPE data_type, bool noDataAsZero )
{
if ( row < 0 || row >= mRows )
{
QgsDebugMsg( QString( "row %1 out of range 0 - %2" ).arg( row ).arg( mRows ) );
return 0;
}
// TODO: use cached block with more rows
Raster raster = mRasters.value( fd );
//if ( !raster.provider ) return -1;
if ( !raster.input ) return -1;
// Create extent for current row
QgsRectangle blockRect = mExtent;
double yRes = mExtent.height() / mRows;
double yMax = mExtent.yMaximum() - yRes * row;
//QgsDebugMsg( QString( "height = %1 mRows = %2" ).arg( mExtent.height() ).arg( mRows ) );
//QgsDebugMsg( QString( "row = %1 yRes = %2 yRes * row = %3" ).arg( row ).arg( yRes ).arg( yRes * row ) );
//QgsDebugMsg( QString( "mExtent.yMaximum() = %1 yMax = %2" ).arg( mExtent.yMaximum() ).arg( yMax ) );
blockRect.setYMaximum( yMax );
blockRect.setYMinimum( yMax - yRes );
QgsRasterBlock *block = raster.input->block( raster.band, blockRect, mColumns, 1 );
if ( !block ) return -1;
QGis::DataType requestedType = qgisRasterType( data_type );
//QgsDebugMsg( QString("data_type = %1").arg(data_type) );
//QgsDebugMsg( QString("requestedType = %1").arg(requestedType) );
//QgsDebugMsg( QString("requestedType size = %1").arg( QgsRasterBlock::typeSize( requestedType ) ) );
//QgsDebugMsg( QString("block->dataType = %1").arg( block->dataType() ) );
block->convert( requestedType );
memcpy( buf, block->bits( 0 ), QgsRasterBlock::typeSize( requestedType ) * mColumns );
for ( int i = 0; i < mColumns; i++ )
{
QgsDebugMsgLevel( QString( "row = %1 i = %2 val = %3 isNoData = %4" ).arg( row ).arg( i ).arg( block->value( i ) ).arg( block->isNoData( i ) ), 5 );
//(( CELL * ) buf )[i] = i;
if ( block->isNoData( 0, i ) )
{
if ( noDataAsZero )
{
switch ( data_type )
{
case CELL_TYPE:
G_zero(( char * ) &(( CELL * ) buf )[i], G_raster_size( data_type ) );
break;
case FCELL_TYPE:
G_zero(( char * ) &(( FCELL * ) buf )[i], G_raster_size( data_type ) );
break;
case DCELL_TYPE:
G_zero(( char * ) &(( DCELL * ) buf )[i], G_raster_size( data_type ) );
break;
default:
break;
}
}
else
{
switch ( data_type )
{
case CELL_TYPE:
G_set_c_null_value( &(( CELL * ) buf )[i], 1 );
break;
case FCELL_TYPE:
G_set_f_null_value( &(( FCELL * ) buf )[i], 1 );
break;
case DCELL_TYPE:
G_set_d_null_value( &(( DCELL * ) buf )[i], 1 );
break;
default:
break;
}
}
}
//else
//{
//memcpy( &( buf[i] ), block->bits( 0, i ), 4 );
//buf[i] = (int) block->value( 0, i);
//QgsDebugMsg( QString("buf[i] = %1").arg(buf[i]));
//}
}
delete block;
return 1;
}
bool QgsGrassRasterImport::import()
{
QgsDebugMsg( "entered" );
if ( !mPipe )
{
setError( "Pipe is null." );
return false;
}
QgsRasterDataProvider * provider = mPipe->provider();
if ( !provider )
{
setError( "Pipe has no provider." );
return false;
}
if ( !provider->isValid() )
{
setError( "Provider is not valid." );
return false;
}
int redBand = 0;
int greenBand = 0;
int blueBand = 0;
for ( int band = 1; band <= provider->bandCount(); band++ )
{
QgsDebugMsg( QString( "band = %1" ).arg( band ) );
int colorInterpretation = provider->colorInterpretation( band );
if ( colorInterpretation == QgsRaster::RedBand )
{
redBand = band;
}
else if ( colorInterpretation == QgsRaster::GreenBand )
{
greenBand = band;
}
else if ( colorInterpretation == QgsRaster::BlueBand )
{
blueBand = band;
}
QGis::DataType qgis_out_type = QGis::UnknownDataType;
RASTER_MAP_TYPE data_type = -1;
switch ( provider->dataType( band ) )
{
case QGis::Byte:
case QGis::UInt16:
case QGis::Int16:
case QGis::UInt32:
case QGis::Int32:
qgis_out_type = QGis::Int32;
break;
case QGis::Float32:
qgis_out_type = QGis::Float32;
break;
case QGis::Float64:
qgis_out_type = QGis::Float64;
break;
case QGis::ARGB32:
case QGis::ARGB32_Premultiplied:
qgis_out_type = QGis::Int32; // split to multiple bands?
break;
case QGis::CInt16:
case QGis::CInt32:
case QGis::CFloat32:
case QGis::CFloat64:
case QGis::UnknownDataType:
setError( tr( "Data type %1 not supported" ).arg( provider->dataType( band ) ) );
return false;
}
QgsDebugMsg( QString( "data_type = %1" ).arg( data_type ) );
QString module = QgsGrass::qgisGrassModulePath() + "/qgis.r.in";
QStringList arguments;
QString name = mGrassObject.name();
if ( provider->bandCount() > 1 )
{
// raster.<band> to keep in sync with r.in.gdal
name += QString( ".%1" ).arg( band );
}
arguments.append( "output=" + name ); // get list of all output names
QTemporaryFile gisrcFile;
QProcess* process = 0;
try
{
process = QgsGrass::startModule( mGrassObject.gisdbase(), mGrassObject.location(), mGrassObject.mapset(), module, arguments, gisrcFile );
}
catch ( QgsGrass::Exception &e )
{
setError( e.what() );
return false;
}
QDataStream outStream( process );
outStream << mExtent << ( qint32 )mXSize << ( qint32 )mYSize;
outStream << ( qint32 )qgis_out_type;
// calculate reasonable block size (5MB)
int maximumTileHeight = 5000000 / mXSize;
maximumTileHeight = std::max( 1, maximumTileHeight );
// smaller if reprojecting so that it can be canceled quickly
if ( mPipe->projector() )
{
maximumTileHeight = std::max( 1, 100000 / mXSize );
}
QgsRasterIterator iter( mPipe->last() );
iter.setMaximumTileWidth( mXSize );
iter.setMaximumTileHeight( maximumTileHeight );
iter.startRasterRead( band, mXSize, mYSize, mExtent );
int iterLeft = 0;
int iterTop = 0;
int iterCols = 0;
int iterRows = 0;
QgsRasterBlock* block = 0;
process->setReadChannel( QProcess::StandardOutput );
while ( iter.readNextRasterPart( band, iterCols, iterRows, &block, iterLeft, iterTop ) )
{
for ( int row = 0; row < iterRows; row++ )
{
if ( !block->convert( qgis_out_type ) )
{
setError( tr( "Cannot convert block (%1) to data type %2" ).arg( block->toString() ).arg( qgis_out_type ) );
delete block;
return false;
}
// prepare null values
double noDataValue;
if ( block->hasNoDataValue() )
{
noDataValue = block->noDataValue();
}
else
{
switch ( qgis_out_type )
{
case QGis::Int32:
noDataValue = -2147483648.0;
break;
case QGis::Float32:
noDataValue = std::numeric_limits<float>::max() * -1.0;
break;
case QGis::Float64:
noDataValue = std::numeric_limits<double>::max() * -1.0;
break;
default: // should not happen
noDataValue = std::numeric_limits<double>::max() * -1.0;
}
for ( qgssize i = 0; i < ( qgssize )block->width()*block->height(); i++ )
{
if ( block->isNoData( i ) )
{
block->setValue( i, noDataValue );
}
}
}
char * data = block->bits( row, 0 );
int size = iterCols * block->dataTypeSize();
QByteArray byteArray = QByteArray::fromRawData( data, size ); // does not copy data and does not take ownership
if ( isCanceled() )
{
outStream << true; // cancel module
break;
}
outStream << false; // not canceled
outStream << noDataValue;
outStream << byteArray;
// Without waitForBytesWritten() it does not finish ok on Windows (process timeout)
process->waitForBytesWritten( -1 );
#ifndef Q_OS_WIN
// wait until the row is written to allow quick cancel (don't send data to buffer)
process->waitForReadyRead();
bool result;
outStream >> result;
#endif
}
delete block;
if ( isCanceled() )
{
outStream << true; // cancel module
break;
}
}
// TODO: send something back from module and read it here to close map correctly in module
process->closeWriteChannel();
// TODO: best timeout?
process->waitForFinished( 30000 );
QString stdoutString = process->readAllStandardOutput().data();
QString stderrString = process->readAllStandardError().data();
QString processResult = QString( "exitStatus=%1, exitCode=%2, error=%3, errorString=%4 stdout=%5, stderr=%6" )
.arg( process->exitStatus() ).arg( process->exitCode() )
.arg( process->error() ).arg( process->errorString() )
.arg( stdoutString.replace( "\n", ", " ) ).arg( stderrString.replace( "\n", ", " ) );
QgsDebugMsg( "processResult: " + processResult );
if ( process->exitStatus() != QProcess::NormalExit )
{
setError( process->errorString() );
delete process;
return false;
}
if ( process->exitCode() != 0 )
{
setError( stderrString );
delete process;
return false;
}
delete process;
}
QgsDebugMsg( QString( "redBand = %1 greenBand = %2 blueBand = %3" ).arg( redBand ).arg( greenBand ).arg( blueBand ) );
if ( redBand > 0 && greenBand > 0 && blueBand > 0 )
{
// TODO: check if the group exists
// I_find_group()
QString name = mGrassObject.name();
G_TRY
{
QgsGrass::setMapset( mGrassObject.gisdbase(), mGrassObject.location(), mGrassObject.mapset() );
struct Ref ref;
I_get_group_ref( name.toUtf8().data(), &ref );
QString redName = name + QString( ".%1" ).arg( redBand );
QString greenName = name + QString( ".%1" ).arg( greenBand );
QString blueName = name + QString( ".%1" ).arg( blueBand );
I_add_file_to_group_ref( redName.toUtf8().data(), mGrassObject.mapset().toUtf8().data(), &ref );
I_add_file_to_group_ref( greenName.toUtf8().data(), mGrassObject.mapset().toUtf8().data(), &ref );
I_add_file_to_group_ref( blueName.toUtf8().data(), mGrassObject.mapset().toUtf8().data(), &ref );
I_put_group_ref( name.toUtf8().data(), &ref );
}
G_CATCH( QgsGrass::Exception &e )
{
QgsDebugMsg( QString( "Cannot create group: %1" ).arg( e.what() ) );
}
