18 #include <gdalwarper.h>
19 #include <ogr_srs_api.h>
30 static double ceil_with_tolerance(
double value )
32 if ( std::fabs( value - std::round( value ) ) < 1e-6 )
33 return std::round( value );
35 return std::ceil( value );
38 static double floor_with_tolerance(
double value )
40 if ( std::fabs( value - std::round( value ) ) < 1e-6 )
41 return std::round( value );
43 return std::floor( value );
46 static double fmod_with_tolerance(
double num,
double denom )
48 return num - floor_with_tolerance( num / denom ) * denom;
52 static QgsRectangle transform_to_extent(
const double *geotransform,
double xSize,
double ySize )
56 geotransform[0] + geotransform[1] * xSize,
57 geotransform[3] + geotransform[5] * ySize );
63 static int CPL_STDCALL _progress(
double dfComplete,
const char *pszMessage,
void *pProgressArg )
65 Q_UNUSED( pszMessage )
69 return handler->
progress( dfComplete );
75 static CPLErr rescalePreWarpChunkProcessor(
void *pKern,
void *pArg )
77 GDALWarpKernel *kern = ( GDALWarpKernel * ) pKern;
78 const double cellsize = ( (
double * )pArg )[0];
80 for (
int nBand = 0; nBand < kern->nBands; ++nBand )
82 float *bandData = (
float * ) kern->papabySrcImage[nBand];
83 for (
int nLine = 0; nLine < kern->nSrcYSize; ++nLine )
85 for (
int nPixel = 0; nPixel < kern->nSrcXSize; ++nPixel )
87 bandData[nPixel] /= cellsize;
89 bandData += kern->nSrcXSize;
96 static CPLErr rescalePostWarpChunkProcessor(
void *pKern,
void *pArg )
98 GDALWarpKernel *kern = ( GDALWarpKernel * ) pKern;
99 const double cellsize = ( (
double * )pArg )[1];
101 for (
int nBand = 0; nBand < kern->nBands; ++nBand )
103 float *bandData = (
float * ) kern->papabyDstImage[nBand];
104 for (
int nLine = 0; nLine < kern->nDstYSize; ++nLine )
106 for (
int nPixel = 0; nPixel < kern->nDstXSize; ++nPixel )
108 bandData[nPixel] *= cellsize;
110 bandData += kern->nDstXSize;
127 for (
int i = 0; i < 6; ++i )
159 if ( customCRSWkt.isEmpty() || customCRSWkt == rasterInfo.
crs() )
164 if ( !customCellSize.isValid() )
175 if ( customGridOffset.x() < 0 || customGridOffset.y() < 0 )
177 if ( !customCellSize.isValid() )
187 mGridOffsetX = fmod_with_tolerance( rasterInfo.
origin().x(), customCellSize.width() );
188 mGridOffsetY = fmod_with_tolerance( rasterInfo.
origin().y(), customCellSize.height() );
203 mCrsWkt = QStringLiteral(
"_error_" );
211 if ( !customCellSize.isValid() )
222 if ( customGridOffset.x() < 0 || customGridOffset.y() < 0 )
241 if (
mCrsWkt == QLatin1String(
"_error_" ) )
249 mErrorMessage = QObject::tr(
"Cell size must not be zero." );
256 double finalExtent[4] = { 0, 0, 0, 0 };
259 for (
int i = 0; i <
mRasters.count(); ++i )
269 mErrorMessage = QString(
"Failed to get suggested warp output.\n\n"
271 "Source WKT:\n%2\n\nDestination WKT:\n%3" )
280 if ( finalExtent[0] == 0 && finalExtent[1] == 0 && finalExtent[2] == 0 && finalExtent[3] == 0 )
291 if ( extent.
xMinimum() > finalExtent[0] ) finalExtent[0] = extent.
xMinimum();
292 if ( extent.
yMinimum() > finalExtent[1] ) finalExtent[1] = extent.
yMinimum();
293 if ( extent.
xMaximum() < finalExtent[2] ) finalExtent[2] = extent.
xMaximum();
294 if ( extent.
yMaximum() < finalExtent[3] ) finalExtent[3] = extent.
yMaximum();
309 if ( clipX0 > finalExtent[0] ) finalExtent[0] = clipX0;
310 if ( clipY0 > finalExtent[1] ) finalExtent[1] = clipY0;
311 if ( clipX1 < finalExtent[2] ) finalExtent[2] = clipX1;
312 if ( clipY1 < finalExtent[3] ) finalExtent[3] = clipY1;
321 const int xSize = floor_with_tolerance( ( finalExtent[2] - originX ) /
mCellSizeX );
322 const int ySize = floor_with_tolerance( ( finalExtent[3] - originY ) /
mCellSizeY );
324 if ( xSize <= 0 || ySize <= 0 )
326 mErrorMessage = QObject::tr(
"No common intersecting area." );
366 const auto constMRasters =
mRasters;
367 for (
const Item &r : constMRasters )
378 qDebug(
"---ALIGN------------------" );
379 qDebug(
"wkt %s",
mCrsWkt.toLatin1().constData() );
381 qDebug(
"transform" );
386 qDebug(
"extent %s", e.
toString().toLatin1().constData() );
392 double bestCellArea = INFINITY;
402 const auto constMRasters =
mRasters;
403 for (
const Item &raster : constMRasters )
408 const double cellArea = cs.width() * cs.height();
409 if ( cellArea < bestCellArea )
411 bestCellArea = cellArea;
423 GDALDriverH hDriver = GDALGetDriverByName(
"GTiff" );
426 mErrorMessage = QStringLiteral(
"GDALGetDriverByName(GTiff) failed." );
440 const int bandCount = GDALGetRasterCount( hSrcDS.get() );
441 const GDALDataType eDT = GDALGetRasterDataType( GDALGetRasterBand( hSrcDS.get(), 1 ) );
445 bandCount, eDT,
nullptr ) );
453 GDALSetProjection( hDstDS.get(),
mCrsWkt.toLatin1().constData() );
457 GDALColorTableH hCT = GDALGetRasterColorTable( GDALGetRasterBand( hSrcDS.get(), 1 ) );
459 GDALSetRasterColorTable( GDALGetRasterBand( hDstDS.get(), 1 ), hCT );
465 psWarpOptions->hSrcDS = hSrcDS.get();
466 psWarpOptions->hDstDS = hDstDS.get();
468 psWarpOptions->nBandCount = GDALGetRasterCount( hSrcDS.get() );
469 psWarpOptions->panSrcBands = (
int * ) CPLMalloc(
sizeof(
int ) * psWarpOptions->nBandCount );
470 psWarpOptions->panDstBands = (
int * ) CPLMalloc(
sizeof(
int ) * psWarpOptions->nBandCount );
471 for (
int i = 0; i < psWarpOptions->nBandCount; ++i )
473 psWarpOptions->panSrcBands[i] = i + 1;
474 psWarpOptions->panDstBands[i] = i + 1;
477 psWarpOptions->eResampleAlg =
static_cast< GDALResampleAlg
>( raster.
resampleMethod );
480 psWarpOptions->pfnProgress = _progress;
481 psWarpOptions->pProgressArg =
this;
484 psWarpOptions->pTransformerArg =
485 GDALCreateGenImgProjTransformer( hSrcDS.get(), GDALGetProjectionRef( hSrcDS.get() ),
486 hDstDS.get(), GDALGetProjectionRef( hDstDS.get() ),
488 psWarpOptions->pfnTransformer = GDALGenImgProjTransform;
490 double rescaleArg[2];
495 psWarpOptions->pfnPreWarpChunkProcessor = rescalePreWarpChunkProcessor;
496 psWarpOptions->pfnPostWarpChunkProcessor = rescalePostWarpChunkProcessor;
497 psWarpOptions->pPreWarpProcessorArg = rescaleArg;
498 psWarpOptions->pPostWarpProcessorArg = rescaleArg;
500 psWarpOptions->eWorkingDataType = GDT_Float32;
504 GDALWarpOperation oOperation;
505 oOperation.Initialize( psWarpOptions.get() );
508 GDALDestroyGenImgProjTransformer( psWarpOptions->pTransformerArg );
518 void *hTransformArg = GDALCreateGenImgProjTransformer( info.
mDataset.get(), info.
mCrsWkt.toLatin1().constData(),
nullptr, destWkt.toLatin1().constData(), FALSE, 0, 1 );
519 if ( !hTransformArg )
523 double adfDstGeoTransform[6];
525 int nPixels = 0, nLines = 0;
527 eErr = GDALSuggestedWarpOutput2( info.
mDataset.get(),
528 GDALGenImgProjTransform, hTransformArg,
529 adfDstGeoTransform, &nPixels, &nLines, extents, 0 );
530 GDALDestroyGenImgProjTransformer( hTransformArg );
532 if ( eErr != CE_None )
535 const QSizeF cs( std::fabs( adfDstGeoTransform[1] ), std::fabs( adfDstGeoTransform[5] ) );
538 *rect =
QgsRectangle( extents[0], extents[1], extents[2], extents[3] );
542 *
gridOffset = QPointF( fmod_with_tolerance( adfDstGeoTransform[0], cs.width() ),
543 fmod_with_tolerance( adfDstGeoTransform[3], cs.height() ) );
553 mDataset.reset( GDALOpen( layerpath.toLocal8Bit().constData(), GA_ReadOnly ) );
563 mCrsWkt = QString::fromLatin1( GDALGetProjectionRef(
mDataset.get() ) );
591 qDebug(
"---RASTER INFO------------------" );
592 qDebug(
"wkt %s",
mCrsWkt.toLatin1().constData() );
597 qDebug(
"extent %s", r.
toString().toLatin1().constData() );
599 qDebug(
"transform" );
606 GDALRasterBandH hBand = GDALGetRasterBand( mDataset.get(), 1 );
612 float *pafScanline = (
float * ) CPLMalloc(
sizeof(
float ) );
613 const CPLErr err = GDALRasterIO( hBand, GF_Read, px, py, 1, 1,
614 pafScanline, 1, 1, GDT_Float32, 0, 0 );
615 const double value = err == CE_None ? pafScanline[0] : std::numeric_limits<double>::quiet_NaN();
616 CPLFree( pafScanline );
QgsAlignRaster takes one or more raster layers and warps (resamples) them so they have the same:
void dump() const
write contents of the object to standard error stream - for debugging
int mYSize
Computed raster grid height.
bool setParametersFromRaster(const RasterInfo &rasterInfo, const QString &customCRSWkt=QString(), QSizeF customCellSize=QSizeF(), QPointF customGridOffset=QPointF(-1, -1))
Set destination CRS, cell size and grid offset from a raster file.
QSizeF cellSize() const
Gets output cell size.
QgsRectangle clipExtent() const
Gets clipping extent (region of interest).
QPointF gridOffset() const
double mGridOffsetX
Destination grid offset - expected to be in interval <0,cellsize)
QgsRectangle alignedRasterExtent() const
Returns the expected extent of the resulting aligned raster.
bool run()
Run the alignment process.
double mClipExtent[4]
Optional clip extent: sets "requested area" which be extended to fit the raster grid.
List mRasters
List of rasters to be aligned (with their output files and other options)
bool createAndWarp(const Item &raster)
Internal function for processing of one raster (1. create output, 2. do the alignment)
QString mCrsWkt
Destination CRS - stored in well-known text (WKT) format.
void setClipExtent(double xmin, double ymin, double xmax, double ymax)
Configure clipping extent (region of interest).
int mXSize
Computed raster grid width.
int suggestedReferenceLayer() const
Returns the index of the layer which has smallest cell size (returns -1 on error)
bool checkInputParameters()
Determine destination extent from the input rasters and calculate derived values.
double mCellSizeX
Destination cell size.
double mGeoTransform[6]
Computed geo-transform.
static bool suggestedWarpOutput(const RasterInfo &info, const QString &destWkt, QSizeF *cellSize=nullptr, QPointF *gridOffset=nullptr, QgsRectangle *rect=nullptr)
Determine suggested output of raster warp to a different CRS. Returns true on success.
QSize alignedRasterSize() const
Returns the expected size of the resulting aligned raster.
QString mErrorMessage
Last error message from run()
This class represents a coordinate reference system (CRS).
@ WKT_PREFERRED_GDAL
Preferred format for conversion of CRS to WKT for use with the GDAL library.
QString toWkt(WktVariant variant=WKT1_GDAL, bool multiline=false, int indentationWidth=4) const
Returns a WKT representation of this CRS.
A rectangle specified with double values.
QString toString(int precision=16) const
Returns a string representation of form xmin,ymin : xmax,ymax Coordinates will be truncated to the sp...
double yMaximum() const SIP_HOLDGIL
Returns the y maximum value (top side of rectangle).
double xMaximum() const SIP_HOLDGIL
Returns the x maximum value (right side of rectangle).
double xMinimum() const SIP_HOLDGIL
Returns the x minimum value (left side of rectangle).
double yMinimum() const SIP_HOLDGIL
Returns the y minimum value (bottom side of rectangle).
std::unique_ptr< std::remove_pointer< GDALDatasetH >::type, GDALDatasetCloser > dataset_unique_ptr
Scoped GDAL dataset.
std::unique_ptr< GDALWarpOptions, GDALWarpOptionsDeleter > warp_options_unique_ptr
Scoped GDAL warp options.
Definition of one raster layer for alignment.
bool rescaleValues
rescaling of values according to the change of pixel size
QgsAlignRaster::ResampleAlg resampleMethod
resampling method to be used
double srcCellSizeInDestCRS
used for rescaling of values (if necessary)
QString inputFilename
filename of the source raster
QString outputFilename
filename of the newly created aligned raster (will be overwritten if exists already)
Helper struct to be sub-classed for progress reporting.
virtual bool progress(double complete)=0
Method to be overridden for progress reporting.
Utility class for gathering information about rasters.
QString crs() const
Returns the CRS in WKT format.
int mYSize
raster grid size Y
gdal::dataset_unique_ptr mDataset
handle to open GDAL dataset
void dump() const
Write contents of the object to standard error stream - for debugging.
RasterInfo(const QString &layerpath)
Construct raster info with a path to a raster file.
double mGeoTransform[6]
geotransform coefficients
QgsRectangle extent() const
Returns the extent of the raster.
QPointF gridOffset() const
Returns the grid offset.
QSizeF cellSize() const
Returns the cell size in map units.
double identify(double mx, double my)
Gets raster value at the given coordinates (from the first band)
int mXSize
raster grid size X
QPointF origin() const
Returns the origin of the raster.
int mBandCnt
number of raster's bands
QString mCrsWkt
CRS stored in WKT format.