static GDALDataset * VRTCreateCopy( const char * pszFilename, GDALDataset *poSrcDS, int /* bStrict */, char ** /* papszOptions */, GDALProgressFunc /* pfnProgress */, void * /* pProgressData */ ) { CPLAssert( NULL != poSrcDS ); /* -------------------------------------------------------------------- */ /* If the source dataset is a virtual dataset then just write */ /* it to disk as a special case to avoid extra layers of */ /* indirection. */ /* -------------------------------------------------------------------- */ if( poSrcDS->GetDriver() != NULL && EQUAL(poSrcDS->GetDriver()->GetDescription(),"VRT") ) { /* -------------------------------------------------------------------- */ /* Convert tree to a single block of XML text. */ /* -------------------------------------------------------------------- */ char *pszVRTPath = CPLStrdup(CPLGetPath(pszFilename)); reinterpret_cast<VRTDataset *>( poSrcDS )->UnsetPreservedRelativeFilenames(); CPLXMLNode *psDSTree = reinterpret_cast<VRTDataset *>( poSrcDS )->SerializeToXML( pszVRTPath ); char *pszXML = CPLSerializeXMLTree( psDSTree ); CPLDestroyXMLNode( psDSTree ); CPLFree( pszVRTPath ); /* -------------------------------------------------------------------- */ /* Write to disk. */ /* -------------------------------------------------------------------- */ GDALDataset* pCopyDS = NULL; if( 0 != strlen( pszFilename ) ) { VSILFILE *fpVRT = VSIFOpenL( pszFilename, "wb" ); if( fpVRT == NULL ) { CPLError(CE_Failure, CPLE_AppDefined, "Cannot create %s", pszFilename); CPLFree( pszXML ); return NULL; } bool bRet = VSIFWriteL( pszXML, strlen(pszXML), 1, fpVRT ) > 0; if( VSIFCloseL( fpVRT ) != 0 ) bRet = false; if( bRet ) pCopyDS = reinterpret_cast<GDALDataset *>( GDALOpen( pszFilename, GA_Update ) ); } else { /* No destination file is given, so pass serialized XML directly. */ pCopyDS = reinterpret_cast<GDALDataset *>( GDALOpen( pszXML, GA_Update ) ); } CPLFree( pszXML ); return pCopyDS; } /* -------------------------------------------------------------------- */ /* Create the virtual dataset. */ /* -------------------------------------------------------------------- */ VRTDataset *poVRTDS = reinterpret_cast<VRTDataset *>( VRTDataset::Create( pszFilename, poSrcDS->GetRasterXSize(), poSrcDS->GetRasterYSize(), 0, GDT_Byte, NULL ) ); if( poVRTDS == NULL ) return NULL; /* -------------------------------------------------------------------- */ /* Do we have a geotransform? */ /* -------------------------------------------------------------------- */ double adfGeoTransform[6] = { 0.0 }; if( poSrcDS->GetGeoTransform( adfGeoTransform ) == CE_None ) { poVRTDS->SetGeoTransform( adfGeoTransform ); } /* -------------------------------------------------------------------- */ /* Copy projection */ /* -------------------------------------------------------------------- */ poVRTDS->SetProjection( poSrcDS->GetProjectionRef() ); /* -------------------------------------------------------------------- */ /* Emit dataset level metadata. */ /* -------------------------------------------------------------------- */ poVRTDS->SetMetadata( poSrcDS->GetMetadata() ); /* -------------------------------------------------------------------- */ /* Copy any special domains that should be transportable. */ /* -------------------------------------------------------------------- */ char **papszMD = poSrcDS->GetMetadata( "RPC" ); if( papszMD ) poVRTDS->SetMetadata( papszMD, "RPC" ); papszMD = poSrcDS->GetMetadata( "IMD" ); if( papszMD ) poVRTDS->SetMetadata( papszMD, "IMD" ); papszMD = poSrcDS->GetMetadata( "GEOLOCATION" ); if( papszMD ) poVRTDS->SetMetadata( papszMD, "GEOLOCATION" ); /* -------------------------------------------------------------------- */ /* GCPs */ /* -------------------------------------------------------------------- */ if( poSrcDS->GetGCPCount() > 0 ) { poVRTDS->SetGCPs( poSrcDS->GetGCPCount(), poSrcDS->GetGCPs(), poSrcDS->GetGCPProjection() ); } /* -------------------------------------------------------------------- */ /* Loop over all the bands. */ /* -------------------------------------------------------------------- */ for( int iBand = 0; iBand < poSrcDS->GetRasterCount(); iBand++ ) { GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand( iBand+1 ); /* -------------------------------------------------------------------- */ /* Create the band with the appropriate band type. */ /* -------------------------------------------------------------------- */ poVRTDS->AddBand( poSrcBand->GetRasterDataType(), NULL ); VRTSourcedRasterBand *poVRTBand = reinterpret_cast<VRTSourcedRasterBand *>( poVRTDS->GetRasterBand( iBand+1 ) ); /* -------------------------------------------------------------------- */ /* Setup source mapping. */ /* -------------------------------------------------------------------- */ poVRTBand->AddSimpleSource( poSrcBand ); /* -------------------------------------------------------------------- */ /* Emit various band level metadata. */ /* -------------------------------------------------------------------- */ poVRTBand->CopyCommonInfoFrom( poSrcBand ); /* -------------------------------------------------------------------- */ /* Add specific mask band. */ /* -------------------------------------------------------------------- */ if( (poSrcBand->GetMaskFlags() & (GMF_PER_DATASET | GMF_ALL_VALID | GMF_NODATA)) == 0) { VRTSourcedRasterBand* poVRTMaskBand = new VRTSourcedRasterBand( poVRTDS, 0, poSrcBand->GetMaskBand()->GetRasterDataType(), poSrcDS->GetRasterXSize(), poSrcDS->GetRasterYSize()); poVRTMaskBand->AddMaskBandSource( poSrcBand ); poVRTBand->SetMaskBand( poVRTMaskBand ); } } /* -------------------------------------------------------------------- */ /* Add dataset mask band */ /* -------------------------------------------------------------------- */ if( poSrcDS->GetRasterCount() != 0 && poSrcDS->GetRasterBand(1) != NULL && poSrcDS->GetRasterBand(1)->GetMaskFlags() == GMF_PER_DATASET ) { GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand(1); VRTSourcedRasterBand* poVRTMaskBand = new VRTSourcedRasterBand( poVRTDS, 0, poSrcBand->GetMaskBand()->GetRasterDataType(), poSrcDS->GetRasterXSize(), poSrcDS->GetRasterYSize() ); poVRTMaskBand->AddMaskBandSource( poSrcBand ); poVRTDS->SetMaskBand( poVRTMaskBand ); } poVRTDS->FlushCache(); return poVRTDS; }
static int ProxyMain(int argc, char **argv) { GDALDatasetH hDataset, hOutDS; int i; int nRasterXSize, nRasterYSize; const char *pszSource = NULL, *pszDest = NULL, *pszFormat = "GTiff"; GDALDriverH hDriver; int *panBandList = NULL; /* negative value of panBandList[i] means mask band of ABS(panBandList[i]) */ int nBandCount = 0, bDefBands = TRUE; double adfGeoTransform[6]; GDALDataType eOutputType = GDT_Unknown; int nOXSize = 0, nOYSize = 0; char *pszOXSize = NULL, *pszOYSize = NULL; char **papszCreateOptions = NULL; int anSrcWin[4], bStrict = FALSE; const char *pszProjection; int bScale = FALSE, bHaveScaleSrc = FALSE, bUnscale = FALSE; double dfScaleSrcMin = 0.0, dfScaleSrcMax = 255.0; double dfScaleDstMin = 0.0, dfScaleDstMax = 255.0; double dfULX, dfULY, dfLRX, dfLRY; char **papszMetadataOptions = NULL; char *pszOutputSRS = NULL; int bQuiet = FALSE, bGotBounds = FALSE; GDALProgressFunc pfnProgress = GDALTermProgress; int nGCPCount = 0; GDAL_GCP *pasGCPs = NULL; int iSrcFileArg = -1, iDstFileArg = -1; int bCopySubDatasets = FALSE; double adfULLR[4] = { 0, 0, 0, 0 }; int bSetNoData = FALSE; int bUnsetNoData = FALSE; double dfNoDataReal = 0.0; int nRGBExpand = 0; int bParsedMaskArgument = FALSE; int eMaskMode = MASK_AUTO; int nMaskBand = 0; /* negative value means mask band of ABS(nMaskBand) */ int bStats = FALSE, bApproxStats = FALSE; anSrcWin[0] = 0; anSrcWin[1] = 0; anSrcWin[2] = 0; anSrcWin[3] = 0; dfULX = dfULY = dfLRX = dfLRY = 0.0; /* Check strict compilation and runtime library version as we use C++ API */ if (!GDAL_CHECK_VERSION(argv[0])) exit(1); /* Must process GDAL_SKIP before GDALAllRegister(), but we can't call */ /* GDALGeneralCmdLineProcessor before it needs the drivers to be registered */ /* for the --format or --formats options */ for (i = 1; i < argc; i++) { if (EQUAL(argv[i], "--config") && i + 2 < argc && EQUAL(argv[i + 1], "GDAL_SKIP")) { CPLSetConfigOption(argv[i + 1], argv[i + 2]); i += 2; } } /* -------------------------------------------------------------------- */ /* Register standard GDAL drivers, and process generic GDAL */ /* command options. */ /* -------------------------------------------------------------------- */ GDALAllRegister(); argc = GDALGeneralCmdLineProcessor(argc, &argv, 0); if (argc < 1) exit(-argc); /* -------------------------------------------------------------------- */ /* Handle command line arguments. */ /* -------------------------------------------------------------------- */ for (i = 1; i < argc; i++) { if (EQUAL(argv[i], "--utility_version")) { printf("%s was compiled against GDAL %s and is running against GDAL %s\n", argv[0], GDAL_RELEASE_NAME, GDALVersionInfo("RELEASE_NAME")); return 0; } else if (EQUAL(argv[i], "-of") && i < argc - 1) pszFormat = argv[++i]; else if (EQUAL(argv[i], "-q") || EQUAL(argv[i], "-quiet")) { bQuiet = TRUE; pfnProgress = GDALDummyProgress; } else if (EQUAL(argv[i], "-ot") && i < argc - 1) { int iType; for (iType = 1; iType < GDT_TypeCount; iType++) { if (GDALGetDataTypeName((GDALDataType)iType) != NULL && EQUAL(GDALGetDataTypeName((GDALDataType)iType), argv[i + 1])) { eOutputType = (GDALDataType) iType; } } if (eOutputType == GDT_Unknown) { printf("Unknown output pixel type: %s\n", argv[i + 1]); Usage(); GDALDestroyDriverManager(); exit(2); } i++; } else if (EQUAL(argv[i], "-b") && i < argc - 1) { const char *pszBand = argv[i + 1]; int bMask = FALSE; if (EQUAL(pszBand, "mask")) pszBand = "mask,1"; if (EQUALN(pszBand, "mask,", 5)) { bMask = TRUE; pszBand += 5; /* If we use tha source mask band as a regular band */ /* don't create a target mask band by default */ if (!bParsedMaskArgument) eMaskMode = MASK_DISABLED; } int nBand = atoi(pszBand); if (nBand < 1) { printf("Unrecognizable band number (%s).\n", argv[i + 1]); Usage(); GDALDestroyDriverManager(); exit(2); } i++; nBandCount++; panBandList = (int*) CPLRealloc(panBandList, sizeof(int) * nBandCount); panBandList[nBandCount - 1] = nBand; if (bMask) panBandList[nBandCount - 1] *= -1; if (panBandList[nBandCount - 1] != nBandCount) bDefBands = FALSE; } else if (EQUAL(argv[i], "-mask") && i < argc - 1) { bParsedMaskArgument = TRUE; const char *pszBand = argv[i + 1]; if (EQUAL(pszBand, "none")) { eMaskMode = MASK_DISABLED; } else if (EQUAL(pszBand, "auto")) { eMaskMode = MASK_AUTO; } else { int bMask = FALSE; if (EQUAL(pszBand, "mask")) pszBand = "mask,1"; if (EQUALN(pszBand, "mask,", 5)) { bMask = TRUE; pszBand += 5; } int nBand = atoi(pszBand); if (nBand < 1) { printf("Unrecognizable band number (%s).\n", argv[i + 1]); Usage(); GDALDestroyDriverManager(); exit(2); } eMaskMode = MASK_USER; nMaskBand = nBand; if (bMask) nMaskBand *= -1; } i++; } else if (EQUAL(argv[i], "-not_strict")) bStrict = FALSE; else if (EQUAL(argv[i], "-strict")) bStrict = TRUE; else if (EQUAL(argv[i], "-sds")) bCopySubDatasets = TRUE; else if (EQUAL(argv[i], "-gcp") && i < argc - 4) { char *endptr = NULL; /* -gcp pixel line easting northing [elev] */ nGCPCount++; pasGCPs = (GDAL_GCP*) CPLRealloc(pasGCPs, sizeof(GDAL_GCP) * nGCPCount); GDALInitGCPs(1, pasGCPs + nGCPCount - 1); pasGCPs[nGCPCount - 1].dfGCPPixel = CPLAtofM(argv[++i]); pasGCPs[nGCPCount - 1].dfGCPLine = CPLAtofM(argv[++i]); pasGCPs[nGCPCount - 1].dfGCPX = CPLAtofM(argv[++i]); pasGCPs[nGCPCount - 1].dfGCPY = CPLAtofM(argv[++i]); if (argv[i + 1] != NULL && (CPLStrtod(argv[i + 1], &endptr) != 0.0 || argv[i + 1][0] == '0')) { /* Check that last argument is really a number and not a filename */ /* looking like a number (see ticket #863) */ if (endptr && *endptr == 0) pasGCPs[nGCPCount - 1].dfGCPZ = CPLAtofM(argv[++i]); } /* should set id and info? */ } else if (EQUAL(argv[i], "-a_nodata") && i < argc - 1) { if (EQUAL(argv[i + 1], "none")) { bUnsetNoData = TRUE; } else { bSetNoData = TRUE; dfNoDataReal = CPLAtofM(argv[i + 1]); } i += 1; } else if (EQUAL(argv[i], "-a_ullr") && i < argc - 4) { adfULLR[0] = CPLAtofM(argv[i + 1]); adfULLR[1] = CPLAtofM(argv[i + 2]); adfULLR[2] = CPLAtofM(argv[i + 3]); adfULLR[3] = CPLAtofM(argv[i + 4]); bGotBounds = TRUE; i += 4; } else if (EQUAL(argv[i], "-co") && i < argc - 1) { papszCreateOptions = CSLAddString(papszCreateOptions, argv[++i]); } else if (EQUAL(argv[i], "-scale")) { bScale = TRUE; if (i < argc - 2 && ArgIsNumeric(argv[i + 1])) { bHaveScaleSrc = TRUE; dfScaleSrcMin = CPLAtofM(argv[i + 1]); dfScaleSrcMax = CPLAtofM(argv[i + 2]); i += 2; } if (i < argc - 2 && bHaveScaleSrc && ArgIsNumeric(argv[i + 1])) { dfScaleDstMin = CPLAtofM(argv[i + 1]); dfScaleDstMax = CPLAtofM(argv[i + 2]); i += 2; } else { dfScaleDstMin = 0.0; dfScaleDstMax = 255.999; } } else if (EQUAL(argv[i], "-unscale")) { bUnscale = TRUE; } else if (EQUAL(argv[i], "-mo") && i < argc - 1) { papszMetadataOptions = CSLAddString(papszMetadataOptions, argv[++i]); } else if (EQUAL(argv[i], "-outsize") && i < argc - 2) { pszOXSize = argv[++i]; pszOYSize = argv[++i]; } else if (EQUAL(argv[i], "-srcwin") && i < argc - 4) { anSrcWin[0] = atoi(argv[++i]); anSrcWin[1] = atoi(argv[++i]); anSrcWin[2] = atoi(argv[++i]); anSrcWin[3] = atoi(argv[++i]); } else if (EQUAL(argv[i], "-projwin") && i < argc - 4) { dfULX = CPLAtofM(argv[++i]); dfULY = CPLAtofM(argv[++i]); dfLRX = CPLAtofM(argv[++i]); dfLRY = CPLAtofM(argv[++i]); } else if (EQUAL(argv[i], "-a_srs") && i < argc - 1) { OGRSpatialReference oOutputSRS; if (oOutputSRS.SetFromUserInput(argv[i + 1]) != OGRERR_NONE) { fprintf(stderr, "Failed to process SRS definition: %s\n", argv[i + 1]); GDALDestroyDriverManager(); exit(1); } oOutputSRS.exportToWkt(&pszOutputSRS); i++; } else if (EQUAL(argv[i], "-expand") && i < argc - 1) { if (EQUAL(argv[i + 1], "gray")) nRGBExpand = 1; else if (EQUAL(argv[i + 1], "rgb")) nRGBExpand = 3; else if (EQUAL(argv[i + 1], "rgba")) nRGBExpand = 4; else { printf("Value %s unsupported. Only gray, rgb or rgba are supported.\n\n", argv[i]); Usage(); GDALDestroyDriverManager(); exit(2); } i++; } else if (EQUAL(argv[i], "-stats")) { bStats = TRUE; bApproxStats = FALSE; } else if (EQUAL(argv[i], "-approx_stats")) { bStats = TRUE; bApproxStats = TRUE; } else if (argv[i][0] == '-') { printf("Option %s incomplete, or not recognised.\n\n", argv[i]); Usage(); GDALDestroyDriverManager(); exit(2); } else if (pszSource == NULL) { iSrcFileArg = i; pszSource = argv[i]; } else if (pszDest == NULL) { pszDest = argv[i]; iDstFileArg = i; } else { printf("Too many command options.\n\n"); Usage(); GDALDestroyDriverManager(); exit(2); } } if (pszDest == NULL) { Usage(); GDALDestroyDriverManager(); exit(10); } if (strcmp(pszSource, pszDest) == 0) { fprintf(stderr, "Source and destination datasets must be different.\n"); GDALDestroyDriverManager(); exit(1); } if (strcmp(pszDest, "/vsistdout/") == 0) { bQuiet = TRUE; pfnProgress = GDALDummyProgress; } /* -------------------------------------------------------------------- */ /* Attempt to open source file. */ /* -------------------------------------------------------------------- */ hDataset = GDALOpenShared(pszSource, GA_ReadOnly); if (hDataset == NULL) { fprintf(stderr, "GDALOpen failed - %d\n%s\n", CPLGetLastErrorNo(), CPLGetLastErrorMsg()); GDALDestroyDriverManager(); exit(1); } /* -------------------------------------------------------------------- */ /* Handle subdatasets. */ /* -------------------------------------------------------------------- */ if (!bCopySubDatasets && CSLCount(GDALGetMetadata(hDataset, "SUBDATASETS")) > 0 && GDALGetRasterCount(hDataset) == 0) { fprintf(stderr, "Input file contains subdatasets. Please, select one of them for reading.\n"); GDALClose(hDataset); GDALDestroyDriverManager(); exit(1); } if (CSLCount(GDALGetMetadata(hDataset, "SUBDATASETS")) > 0 && bCopySubDatasets) { char **papszSubdatasets = GDALGetMetadata(hDataset, "SUBDATASETS"); char *pszSubDest = (char*) CPLMalloc(strlen(pszDest) + 32); int i; int bOldSubCall = bSubCall; char **papszDupArgv = CSLDuplicate(argv); int nRet = 0; CPLFree(papszDupArgv[iDstFileArg]); papszDupArgv[iDstFileArg] = pszSubDest; bSubCall = TRUE; for (i = 0; papszSubdatasets[i] != NULL; i += 2) { CPLFree(papszDupArgv[iSrcFileArg]); papszDupArgv[iSrcFileArg] = CPLStrdup(strstr(papszSubdatasets[i], "=") + 1); sprintf(pszSubDest, "%s%d", pszDest, i / 2 + 1); nRet = ProxyMain(argc, papszDupArgv); if (nRet != 0) break; } CSLDestroy(papszDupArgv); bSubCall = bOldSubCall; CSLDestroy(argv); GDALClose(hDataset); if (!bSubCall) { GDALDumpOpenDatasets(stderr); GDALDestroyDriverManager(); } return nRet; } /* -------------------------------------------------------------------- */ /* Collect some information from the source file. */ /* -------------------------------------------------------------------- */ nRasterXSize = GDALGetRasterXSize(hDataset); nRasterYSize = GDALGetRasterYSize(hDataset); if (!bQuiet) printf("Input file size is %d, %d\n", nRasterXSize, nRasterYSize); if (anSrcWin[2] == 0 && anSrcWin[3] == 0) { anSrcWin[2] = nRasterXSize; anSrcWin[3] = nRasterYSize; } /* -------------------------------------------------------------------- */ /* Build band list to translate */ /* -------------------------------------------------------------------- */ if (nBandCount == 0) { nBandCount = GDALGetRasterCount(hDataset); if (nBandCount == 0) { fprintf(stderr, "Input file has no bands, and so cannot be translated.\n"); GDALDestroyDriverManager(); exit(1); } panBandList = (int*) CPLMalloc(sizeof(int) * nBandCount); for (i = 0; i < nBandCount; i++) panBandList[i] = i + 1; } else { for (i = 0; i < nBandCount; i++) { if (ABS(panBandList[i]) > GDALGetRasterCount(hDataset)) { fprintf(stderr, "Band %d requested, but only bands 1 to %d available.\n", ABS(panBandList[i]), GDALGetRasterCount(hDataset)); GDALDestroyDriverManager(); exit(2); } } if (nBandCount != GDALGetRasterCount(hDataset)) bDefBands = FALSE; } /* -------------------------------------------------------------------- */ /* Compute the source window from the projected source window */ /* if the projected coordinates were provided. Note that the */ /* projected coordinates are in ulx, uly, lrx, lry format, */ /* while the anSrcWin is xoff, yoff, xsize, ysize with the */ /* xoff,yoff being the ulx, uly in pixel/line. */ /* -------------------------------------------------------------------- */ if (dfULX != 0.0 || dfULY != 0.0 || dfLRX != 0.0 || dfLRY != 0.0) { double adfGeoTransform[6]; GDALGetGeoTransform(hDataset, adfGeoTransform); if (adfGeoTransform[2] != 0.0 || adfGeoTransform[4] != 0.0) { fprintf(stderr, "The -projwin option was used, but the geotransform is\n" "rotated. This configuration is not supported.\n"); GDALClose(hDataset); CPLFree(panBandList); GDALDestroyDriverManager(); exit(1); } anSrcWin[0] = (int) ((dfULX - adfGeoTransform[0]) / adfGeoTransform[1] + 0.001); anSrcWin[1] = (int) ((dfULY - adfGeoTransform[3]) / adfGeoTransform[5] + 0.001); anSrcWin[2] = (int) ((dfLRX - dfULX) / adfGeoTransform[1] + 0.5); anSrcWin[3] = (int) ((dfLRY - dfULY) / adfGeoTransform[5] + 0.5); if (!bQuiet) fprintf(stdout, "Computed -srcwin %d %d %d %d from projected window.\n", anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3]); if (anSrcWin[0] < 0 || anSrcWin[1] < 0 || anSrcWin[0] + anSrcWin[2] > GDALGetRasterXSize(hDataset) || anSrcWin[1] + anSrcWin[3] > GDALGetRasterYSize(hDataset)) { fprintf(stderr, "Computed -srcwin falls outside raster size of %dx%d.\n", GDALGetRasterXSize(hDataset), GDALGetRasterYSize(hDataset)); exit(1); } } /* -------------------------------------------------------------------- */ /* Verify source window. */ /* -------------------------------------------------------------------- */ if (anSrcWin[0] < 0 || anSrcWin[1] < 0 || anSrcWin[2] <= 0 || anSrcWin[3] <= 0 || anSrcWin[0] + anSrcWin[2] > GDALGetRasterXSize(hDataset) || anSrcWin[1] + anSrcWin[3] > GDALGetRasterYSize(hDataset)) { fprintf(stderr, "-srcwin %d %d %d %d falls outside raster size of %dx%d\n" "or is otherwise illegal.\n", anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], GDALGetRasterXSize(hDataset), GDALGetRasterYSize(hDataset)); exit(1); } /* -------------------------------------------------------------------- */ /* Find the output driver. */ /* -------------------------------------------------------------------- */ hDriver = GDALGetDriverByName(pszFormat); if (hDriver == NULL) { int iDr; printf("Output driver `%s' not recognised.\n", pszFormat); printf("The following format drivers are configured and support output:\n"); for (iDr = 0; iDr < GDALGetDriverCount(); iDr++) { GDALDriverH hDriver = GDALGetDriver(iDr); if (GDALGetMetadataItem(hDriver, GDAL_DCAP_CREATE, NULL) != NULL || GDALGetMetadataItem(hDriver, GDAL_DCAP_CREATECOPY, NULL) != NULL) { printf(" %s: %s\n", GDALGetDriverShortName(hDriver), GDALGetDriverLongName(hDriver)); } } printf("\n"); Usage(); GDALClose(hDataset); CPLFree(panBandList); GDALDestroyDriverManager(); CSLDestroy(argv); CSLDestroy(papszCreateOptions); exit(1); } /* -------------------------------------------------------------------- */ /* The short form is to CreateCopy(). We use this if the input */ /* matches the whole dataset. Eventually we should rewrite */ /* this entire program to use virtual datasets to construct a */ /* virtual input source to copy from. */ /* -------------------------------------------------------------------- */ int bSpatialArrangementPreserved = ( anSrcWin[0] == 0 && anSrcWin[1] == 0 && anSrcWin[2] == GDALGetRasterXSize(hDataset) && anSrcWin[3] == GDALGetRasterYSize(hDataset) && pszOXSize == NULL && pszOYSize == NULL); if (eOutputType == GDT_Unknown && !bScale && !bUnscale && CSLCount(papszMetadataOptions) == 0 && bDefBands && eMaskMode == MASK_AUTO && bSpatialArrangementPreserved && nGCPCount == 0 && !bGotBounds && pszOutputSRS == NULL && !bSetNoData && !bUnsetNoData && nRGBExpand == 0 && !bStats) { hOutDS = GDALCreateCopy(hDriver, pszDest, hDataset, bStrict, papszCreateOptions, pfnProgress, NULL); if (hOutDS != NULL) GDALClose(hOutDS); GDALClose(hDataset); CPLFree(panBandList); if (!bSubCall) { GDALDumpOpenDatasets(stderr); GDALDestroyDriverManager(); } CSLDestroy(argv); CSLDestroy(papszCreateOptions); return hOutDS == NULL; } /* -------------------------------------------------------------------- */ /* Establish some parameters. */ /* -------------------------------------------------------------------- */ if (pszOXSize == NULL) { nOXSize = anSrcWin[2]; nOYSize = anSrcWin[3]; } else { nOXSize = (int) ((pszOXSize[strlen(pszOXSize) - 1] == '%' ? CPLAtofM(pszOXSize) / 100 * anSrcWin[2] : atoi(pszOXSize))); nOYSize = (int) ((pszOYSize[strlen(pszOYSize) - 1] == '%' ? CPLAtofM(pszOYSize) / 100 * anSrcWin[3] : atoi(pszOYSize))); } /* ==================================================================== */ /* Create a virtual dataset. */ /* ==================================================================== */ VRTDataset *poVDS; /* -------------------------------------------------------------------- */ /* Make a virtual clone. */ /* -------------------------------------------------------------------- */ poVDS = (VRTDataset*) VRTCreate(nOXSize, nOYSize); if (nGCPCount == 0) { if (pszOutputSRS != NULL) { poVDS->SetProjection(pszOutputSRS); } else { pszProjection = GDALGetProjectionRef(hDataset); if (pszProjection != NULL && strlen(pszProjection) > 0) poVDS->SetProjection(pszProjection); } } if (bGotBounds) { adfGeoTransform[0] = adfULLR[0]; adfGeoTransform[1] = (adfULLR[2] - adfULLR[0]) / nOXSize; adfGeoTransform[2] = 0.0; adfGeoTransform[3] = adfULLR[1]; adfGeoTransform[4] = 0.0; adfGeoTransform[5] = (adfULLR[3] - adfULLR[1]) / nOYSize; poVDS->SetGeoTransform(adfGeoTransform); } else if (GDALGetGeoTransform(hDataset, adfGeoTransform) == CE_None && nGCPCount == 0) { adfGeoTransform[0] += anSrcWin[0] * adfGeoTransform[1] + anSrcWin[1] * adfGeoTransform[2]; adfGeoTransform[3] += anSrcWin[0] * adfGeoTransform[4] + anSrcWin[1] * adfGeoTransform[5]; adfGeoTransform[1] *= anSrcWin[2] / (double) nOXSize; adfGeoTransform[2] *= anSrcWin[3] / (double) nOYSize; adfGeoTransform[4] *= anSrcWin[2] / (double) nOXSize; adfGeoTransform[5] *= anSrcWin[3] / (double) nOYSize; poVDS->SetGeoTransform(adfGeoTransform); } if (nGCPCount != 0) { const char *pszGCPProjection = pszOutputSRS; if (pszGCPProjection == NULL) pszGCPProjection = GDALGetGCPProjection(hDataset); if (pszGCPProjection == NULL) pszGCPProjection = ""; poVDS->SetGCPs(nGCPCount, pasGCPs, pszGCPProjection); GDALDeinitGCPs(nGCPCount, pasGCPs); CPLFree(pasGCPs); } else if (GDALGetGCPCount(hDataset) > 0) { GDAL_GCP *pasGCPs; int nGCPs = GDALGetGCPCount(hDataset); pasGCPs = GDALDuplicateGCPs(nGCPs, GDALGetGCPs(hDataset)); for (i = 0; i < nGCPs; i++) { pasGCPs[i].dfGCPPixel -= anSrcWin[0]; pasGCPs[i].dfGCPLine -= anSrcWin[1]; pasGCPs[i].dfGCPPixel *= (nOXSize / (double) anSrcWin[2]); pasGCPs[i].dfGCPLine *= (nOYSize / (double) anSrcWin[3]); } poVDS->SetGCPs(nGCPs, pasGCPs, GDALGetGCPProjection(hDataset)); GDALDeinitGCPs(nGCPs, pasGCPs); CPLFree(pasGCPs); } /* -------------------------------------------------------------------- */ /* Transfer generally applicable metadata. */ /* -------------------------------------------------------------------- */ poVDS->SetMetadata(((GDALDataset*)hDataset)->GetMetadata()); AttachMetadata((GDALDatasetH) poVDS, papszMetadataOptions); const char *pszInterleave = GDALGetMetadataItem(hDataset, "INTERLEAVE", "IMAGE_STRUCTURE"); if (pszInterleave) poVDS->SetMetadataItem("INTERLEAVE", pszInterleave, "IMAGE_STRUCTURE"); /* -------------------------------------------------------------------- */ /* Transfer metadata that remains valid if the spatial */ /* arrangement of the data is unaltered. */ /* -------------------------------------------------------------------- */ if (bSpatialArrangementPreserved) { char **papszMD; papszMD = ((GDALDataset*)hDataset)->GetMetadata("RPC"); if (papszMD != NULL) poVDS->SetMetadata(papszMD, "RPC"); papszMD = ((GDALDataset*)hDataset)->GetMetadata("GEOLOCATION"); if (papszMD != NULL) poVDS->SetMetadata(papszMD, "GEOLOCATION"); } int nSrcBandCount = nBandCount; if (nRGBExpand != 0) { GDALRasterBand *poSrcBand; poSrcBand = ((GDALDataset*) hDataset)->GetRasterBand(ABS(panBandList[0])); if (panBandList[0] < 0) poSrcBand = poSrcBand->GetMaskBand(); GDALColorTable *poColorTable = poSrcBand->GetColorTable(); if (poColorTable == NULL) { fprintf(stderr, "Error : band %d has no color table\n", ABS(panBandList[0])); GDALClose(hDataset); CPLFree(panBandList); GDALDestroyDriverManager(); CSLDestroy(argv); CSLDestroy(papszCreateOptions); exit(1); } /* Check that the color table only contains gray levels */ /* when using -expand gray */ if (nRGBExpand == 1) { int nColorCount = poColorTable->GetColorEntryCount(); int nColor; for (nColor = 0; nColor < nColorCount; nColor++) { const GDALColorEntry *poEntry = poColorTable->GetColorEntry(nColor); if (poEntry->c1 != poEntry->c2 || poEntry->c1 != poEntry->c2) { fprintf(stderr, "Warning : color table contains non gray levels colors\n"); break; } } } if (nBandCount == 1) nBandCount = nRGBExpand; else if (nBandCount == 2 && (nRGBExpand == 3 || nRGBExpand == 4)) nBandCount = nRGBExpand; else { fprintf(stderr, "Error : invalid use of -expand option.\n"); exit(1); } } int bFilterOutStatsMetadata = (bScale || bUnscale || !bSpatialArrangementPreserved || nRGBExpand != 0); /* ==================================================================== */ /* Process all bands. */ /* ==================================================================== */ for (i = 0; i < nBandCount; i++) { VRTSourcedRasterBand *poVRTBand; GDALRasterBand *poSrcBand; GDALDataType eBandType; int nComponent = 0; int nSrcBand; if (nRGBExpand != 0) { if (nSrcBandCount == 2 && nRGBExpand == 4 && i == 3) nSrcBand = panBandList[1]; else { nSrcBand = panBandList[0]; nComponent = i + 1; } } else nSrcBand = panBandList[i]; poSrcBand = ((GDALDataset*) hDataset)->GetRasterBand(ABS(nSrcBand)); /* -------------------------------------------------------------------- */ /* Select output data type to match source. */ /* -------------------------------------------------------------------- */ if (eOutputType == GDT_Unknown) eBandType = poSrcBand->GetRasterDataType(); else eBandType = eOutputType; /* -------------------------------------------------------------------- */ /* Create this band. */ /* -------------------------------------------------------------------- */ poVDS->AddBand(eBandType, NULL); poVRTBand = (VRTSourcedRasterBand*) poVDS->GetRasterBand(i + 1); if (nSrcBand < 0) { poVRTBand->AddMaskBandSource(poSrcBand); continue; } /* -------------------------------------------------------------------- */ /* Do we need to collect scaling information? */ /* -------------------------------------------------------------------- */ double dfScale = 1.0, dfOffset = 0.0; if (bScale && !bHaveScaleSrc) { double adfCMinMax[2]; GDALComputeRasterMinMax(poSrcBand, TRUE, adfCMinMax); dfScaleSrcMin = adfCMinMax[0]; dfScaleSrcMax = adfCMinMax[1]; } if (bScale) { if (dfScaleSrcMax == dfScaleSrcMin) dfScaleSrcMax += 0.1; if (dfScaleDstMax == dfScaleDstMin) dfScaleDstMax += 0.1; dfScale = (dfScaleDstMax - dfScaleDstMin) / (dfScaleSrcMax - dfScaleSrcMin); dfOffset = -1 * dfScaleSrcMin * dfScale + dfScaleDstMin; } if (bUnscale) { dfScale = poSrcBand->GetScale(); dfOffset = poSrcBand->GetOffset(); } /* -------------------------------------------------------------------- */ /* Create a simple or complex data source depending on the */ /* translation type required. */ /* -------------------------------------------------------------------- */ if (bUnscale || bScale || (nRGBExpand != 0 && i < nRGBExpand)) { poVRTBand->AddComplexSource(poSrcBand, anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize, dfOffset, dfScale, VRT_NODATA_UNSET, nComponent); } else poVRTBand->AddSimpleSource(poSrcBand, anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize); /* -------------------------------------------------------------------- */ /* In case of color table translate, we only set the color */ /* interpretation other info copied by CopyBandInfo are */ /* not relevant in RGB expansion. */ /* -------------------------------------------------------------------- */ if (nRGBExpand == 1) { poVRTBand->SetColorInterpretation(GCI_GrayIndex); } else if (nRGBExpand != 0 && i < nRGBExpand) { poVRTBand->SetColorInterpretation((GDALColorInterp) (GCI_RedBand + i)); } /* -------------------------------------------------------------------- */ /* copy over some other information of interest. */ /* -------------------------------------------------------------------- */ else { CopyBandInfo(poSrcBand, poVRTBand, !bStats && !bFilterOutStatsMetadata, !bUnscale, !bSetNoData && !bUnsetNoData); } /* -------------------------------------------------------------------- */ /* Set a forcable nodata value? */ /* -------------------------------------------------------------------- */ if (bSetNoData) { double dfVal = dfNoDataReal; int bClamped = FALSE, bRounded = FALSE; #define CLAMP(val, type, minval, maxval) \ do { if (val < minval) { bClamped = TRUE; val = minval; \ } \ else if (val > maxval) { bClamped = TRUE; val = maxval; } \ else if (val != (type)val) { bRounded = TRUE; val = (type)(val + 0.5); } \ } \ while (0) switch (eBandType) { case GDT_Byte: CLAMP(dfVal, GByte, 0.0, 255.0); break; case GDT_Int16: CLAMP(dfVal, GInt16, -32768.0, 32767.0); break; case GDT_UInt16: CLAMP(dfVal, GUInt16, 0.0, 65535.0); break; case GDT_Int32: CLAMP(dfVal, GInt32, -2147483648.0, 2147483647.0); break; case GDT_UInt32: CLAMP(dfVal, GUInt32, 0.0, 4294967295.0); break; default: break; } if (bClamped) { printf("for band %d, nodata value has been clamped " "to %.0f, the original value being out of range.\n", i + 1, dfVal); } else if (bRounded) { printf("for band %d, nodata value has been rounded " "to %.0f, %s being an integer datatype.\n", i + 1, dfVal, GDALGetDataTypeName(eBandType)); } poVRTBand->SetNoDataValue(dfVal); } if (eMaskMode == MASK_AUTO && (GDALGetMaskFlags(GDALGetRasterBand(hDataset, 1)) & GMF_PER_DATASET) == 0 && (poSrcBand->GetMaskFlags() & (GMF_ALL_VALID | GMF_NODATA)) == 0) { if (poVRTBand->CreateMaskBand(poSrcBand->GetMaskFlags()) == CE_None) { VRTSourcedRasterBand *hMaskVRTBand = (VRTSourcedRasterBand*)poVRTBand->GetMaskBand(); hMaskVRTBand->AddMaskBandSource(poSrcBand, anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize); } } } if (eMaskMode == MASK_USER) { GDALRasterBand *poSrcBand = (GDALRasterBand*)GDALGetRasterBand(hDataset, ABS(nMaskBand)); if (poSrcBand && poVDS->CreateMaskBand(GMF_PER_DATASET) == CE_None) { VRTSourcedRasterBand *hMaskVRTBand = (VRTSourcedRasterBand*) GDALGetMaskBand(GDALGetRasterBand((GDALDatasetH)poVDS, 1)); if (nMaskBand > 0) hMaskVRTBand->AddSimpleSource(poSrcBand, anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize); else hMaskVRTBand->AddMaskBandSource(poSrcBand, anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize); } } else if (eMaskMode == MASK_AUTO && nSrcBandCount > 0 && GDALGetMaskFlags(GDALGetRasterBand(hDataset, 1)) == GMF_PER_DATASET) { if (poVDS->CreateMaskBand(GMF_PER_DATASET) == CE_None) { VRTSourcedRasterBand *hMaskVRTBand = (VRTSourcedRasterBand*) GDALGetMaskBand(GDALGetRasterBand((GDALDatasetH)poVDS, 1)); hMaskVRTBand->AddMaskBandSource((GDALRasterBand*)GDALGetRasterBand(hDataset, 1), anSrcWin[0], anSrcWin[1], anSrcWin[2], anSrcWin[3], 0, 0, nOXSize, nOYSize); } } /* -------------------------------------------------------------------- */ /* Compute stats if required. */ /* -------------------------------------------------------------------- */ if (bStats) { for (i = 0; i < poVDS->GetRasterCount(); i++) { double dfMin, dfMax, dfMean, dfStdDev; poVDS->GetRasterBand(i + 1)->ComputeStatistics(bApproxStats, &dfMin, &dfMax, &dfMean, &dfStdDev, GDALDummyProgress, NULL); } } /* -------------------------------------------------------------------- */ /* Write to the output file using CopyCreate(). */ /* -------------------------------------------------------------------- */ hOutDS = GDALCreateCopy(hDriver, pszDest, (GDALDatasetH) poVDS, bStrict, papszCreateOptions, pfnProgress, NULL); if (hOutDS != NULL) { int bHasGotErr = FALSE; CPLErrorReset(); GDALFlushCache(hOutDS); if (CPLGetLastErrorType() != CE_None) bHasGotErr = TRUE; GDALClose(hOutDS); if (bHasGotErr) hOutDS = NULL; } GDALClose((GDALDatasetH) poVDS); GDALClose(hDataset); CPLFree(panBandList); CPLFree(pszOutputSRS); if (!bSubCall) { GDALDumpOpenDatasets(stderr); GDALDestroyDriverManager(); } CSLDestroy(argv); CSLDestroy(papszCreateOptions); return hOutDS == NULL; }