EVOLUTION-MANAGER

Edit File: rpftocdataset.cpp

/****************************************************************************** * $Id: rpftocdataset.cpp * * Project: RPF TOC read Translator * Purpose: Implementation of RPFTOCDataset and RPFTOCSubDataset. * Author: Even Rouault, even.rouault at mines-paris.org * ****************************************************************************** * Copyright (c) 2007-2014, Even Rouault <even dot rouault at mines-paris dot org> * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "gdal_pam.h" #include "gdal_proxy.h" #include "rpftoclib.h" #include "ogr_spatialref.h" #include "cpl_string.h" #include "vrtdataset.h" #include "cpl_multiproc.h" #define GEOTRSFRM_TOPLEFT_X 0 #define GEOTRSFRM_WE_RES 1 #define GEOTRSFRM_ROTATION_PARAM1 2 #define GEOTRSFRM_TOPLEFT_Y 3 #define GEOTRSFRM_ROTATION_PARAM2 4 #define GEOTRSFRM_NS_RES 5 CPL_CVSID("$Id: rpftocdataset.cpp 27044 2014-03-16 23:41:27Z rouault $"); /** Overview of used classes : - RPFTOCDataset : lists the different subdatasets, listed in the A.TOC, as subdatasets - RPFTOCSubDataset : one of these subdatasets, implemented as a VRT, of the relevant NITF tiles - RPFTOCProxyRasterDataSet : a "proxy" dataset that maps to a NITF tile - RPFTOCProxyRasterBandPalette / RPFTOCProxyRasterBandRGBA : bands of RPFTOCProxyRasterDataSet */ /************************************************************************/ /* ==================================================================== */ /* RPFTOCDataset */ /* ==================================================================== */ /************************************************************************/ class RPFTOCDataset : public GDALPamDataset { char **papszSubDatasets; char *pszProjection; int bGotGeoTransform; double adfGeoTransform[6]; char **papszFileList; public: RPFTOCDataset() { papszSubDatasets = NULL; pszProjection = NULL; bGotGeoTransform = FALSE; papszFileList = NULL; } ~RPFTOCDataset() { CSLDestroy( papszSubDatasets ); CPLFree(pszProjection); CSLDestroy(papszFileList); } virtual char **GetMetadata( const char * pszDomain = "" ); virtual char **GetFileList() { return CSLDuplicate(papszFileList); } void AddSubDataset(const char* pszFilename, RPFTocEntry* tocEntry ); void SetSize(int rasterXSize, int rasterYSize) { nRasterXSize = rasterXSize; nRasterYSize = rasterYSize; } virtual CPLErr GetGeoTransform( double * padfGeoTransform) { if (bGotGeoTransform) { memcpy(padfGeoTransform, adfGeoTransform, 6 * sizeof(double)); return CE_None; } return CE_Failure; } virtual CPLErr SetGeoTransform( double * padfGeoTransform) { bGotGeoTransform = TRUE; memcpy(adfGeoTransform, padfGeoTransform, 6 * sizeof(double)); return CE_None; } virtual CPLErr SetProjection( const char * projectionRef ) { CPLFree(pszProjection); pszProjection = CPLStrdup(projectionRef); return CE_None; } virtual const char *GetProjectionRef(void) { return (pszProjection) ? pszProjection : ""; } static int IsNITFFileTOC(NITFFile *psFile); static int IsNonNITFFileTOC(GDALOpenInfo * poOpenInfo, const char* pszFilename ); static GDALDataset* OpenFileTOC(NITFFile *psFile, const char* pszFilename, const char* entryName, const char* openInformationName); static int Identify( GDALOpenInfo * poOpenInfo ); static GDALDataset* Open( GDALOpenInfo * poOpenInfo ); }; /************************************************************************/ /* ==================================================================== */ /* RPFTOCSubDataset */ /* ==================================================================== */ /************************************************************************/ class RPFTOCSubDataset : public VRTDataset { int cachedTileBlockXOff; int cachedTileBlockYOff; void* cachedTileData; int cachedTileDataSize; const char* cachedTileFileName; char** papszFileList; public: RPFTOCSubDataset(int nXSize, int nYSize) : VRTDataset(nXSize, nYSize) { /* Don't try to write a VRT file */ SetWritable(FALSE); /* The driver is set to VRT in VRTDataset constructor. */ /* We have to set it to the expected value ! */ poDriver = (GDALDriver *) GDALGetDriverByName( "RPFTOC" ); cachedTileBlockXOff = cachedTileBlockYOff = -1; cachedTileData = NULL; cachedTileDataSize = 0; cachedTileFileName = NULL; papszFileList = NULL; } ~RPFTOCSubDataset() { CSLDestroy(papszFileList); CPLFree(cachedTileData); } virtual char **GetFileList() { return CSLDuplicate(papszFileList); } void* GetCachedTile(const char* tileFileName, int nBlockXOff, int nBlockYOff) { if (cachedTileFileName == tileFileName && cachedTileBlockXOff == nBlockXOff && cachedTileBlockYOff == nBlockYOff) { return cachedTileData; } else { return NULL; } } void SetCachedTile(const char* tileFileName, int nBlockXOff, int nBlockYOff, const void* pData, int dataSize) { if (dataSize > cachedTileDataSize) { cachedTileData = CPLRealloc(cachedTileData, dataSize); cachedTileDataSize = dataSize; } memcpy(cachedTileData, pData, dataSize); cachedTileFileName = tileFileName; cachedTileBlockXOff = nBlockXOff; cachedTileBlockYOff = nBlockYOff; } static GDALDataset* CreateDataSetFromTocEntry(const char* openInformationName, const char* pszTOCFileName, int nEntry, const RPFTocEntry* entry, int isRGBA, char** papszMetadataRPFTOCFile); }; /************************************************************************/ /* ==================================================================== */ /* RPFTOCProxyRasterDataSet */ /* ==================================================================== */ /************************************************************************/ class RPFTOCProxyRasterDataSet : public GDALProxyPoolDataset { /* The following parameters are only for sanity checking */ int checkDone; int checkOK; double nwLong, nwLat; GDALColorTable* colorTableRef; int bHasNoDataValue; double noDataValue; RPFTOCSubDataset* subdataset; public: RPFTOCProxyRasterDataSet(RPFTOCSubDataset* subdataset, const char* fileName, int nRasterXSize, int nRasterYSize, int nBlockXSize, int nBlockYSize, const char* projectionRef, double nwLong, double nwLat, int nBands); void SetNoDataValue(double noDataValue) { this->noDataValue = noDataValue; bHasNoDataValue = TRUE; } double GetNoDataValue(int* bHasNoDataValue) { if (bHasNoDataValue) *bHasNoDataValue = this->bHasNoDataValue; return noDataValue; } GDALDataset* RefUnderlyingDataset() { return GDALProxyPoolDataset::RefUnderlyingDataset(); } void UnrefUnderlyingDataset(GDALDataset* poUnderlyingDataset) { GDALProxyPoolDataset::UnrefUnderlyingDataset(poUnderlyingDataset); } void SetReferenceColorTable(GDALColorTable* colorTableRef) { this->colorTableRef = colorTableRef;} const GDALColorTable* GetReferenceColorTable() { return colorTableRef; } int SanityCheckOK(GDALDataset* sourceDS); RPFTOCSubDataset* GetSubDataset() { return subdataset; } }; /************************************************************************/ /* ==================================================================== */ /* RPFTOCProxyRasterBandRGBA */ /* ==================================================================== */ /************************************************************************/ class RPFTOCProxyRasterBandRGBA : public GDALPamRasterBand { int initDone; unsigned char colorTable[256]; int blockByteSize; private: void Expand(void* pImage, const void* srcImage); public: RPFTOCProxyRasterBandRGBA(GDALProxyPoolDataset* poDS, int nBand, int nBlockXSize, int nBlockYSize) { this->poDS = poDS; nRasterXSize = poDS->GetRasterXSize(); nRasterYSize = poDS->GetRasterYSize(); this->nBlockXSize = nBlockXSize; this->nBlockYSize = nBlockYSize; eDataType = GDT_Byte; this->nBand = nBand; blockByteSize = nBlockXSize * nBlockYSize; initDone = FALSE; } virtual GDALColorInterp GetColorInterpretation() { return (GDALColorInterp)(GCI_RedBand + nBand - 1); } protected: virtual CPLErr IReadBlock( int nBlockXOff, int nBlockYOff, void * pImage ); }; /************************************************************************/ /* Expand() */ /************************************************************************/ /* Expand the array or indexed colors to an array of their corresponding R,G,B or A component */ void RPFTOCProxyRasterBandRGBA::Expand(void* pImage, const void* srcImage) { int i; if ((blockByteSize & (~3)) != 0) { for(i=0;i<blockByteSize;i++) { ((unsigned char*)pImage)[i] = colorTable[((unsigned char*)srcImage)[i]]; } } else { int nIter = blockByteSize/4; for(i=0;i<nIter;i++) { unsigned int four_pixels = ((unsigned int*)srcImage)[i]; ((unsigned int*)pImage)[i] = (colorTable[four_pixels >> 24] << 24) | (colorTable[(four_pixels >> 16) & 0xFF] << 16) | (colorTable[(four_pixels >> 8) & 0xFF] << 8) | colorTable[four_pixels & 0xFF]; } } } /************************************************************************/ /* IReadBlock() */ /************************************************************************/ CPLErr RPFTOCProxyRasterBandRGBA::IReadBlock( int nBlockXOff, int nBlockYOff, void * pImage ) { CPLErr ret; RPFTOCProxyRasterDataSet* proxyDS = (RPFTOCProxyRasterDataSet*)poDS; GDALDataset* ds = proxyDS->RefUnderlyingDataset(); if (ds) { if (proxyDS->SanityCheckOK(ds) == FALSE) { proxyDS->UnrefUnderlyingDataset(ds); return CE_Failure; } GDALRasterBand* srcBand = ds->GetRasterBand(1); if (initDone == FALSE) { GDALColorTable* srcColorTable = srcBand->GetColorTable(); int i; int bHasNoDataValue; int noDataValue = (int)srcBand->GetNoDataValue(&bHasNoDataValue); int nEntries = srcColorTable->GetColorEntryCount(); for(i=0;i<nEntries;i++) { const GDALColorEntry* entry = srcColorTable->GetColorEntry(i); if (nBand == 1) colorTable[i] = (unsigned char)entry->c1; else if (nBand == 2) colorTable[i] = (unsigned char)entry->c2; else if (nBand == 3) colorTable[i] = (unsigned char)entry->c3; else { colorTable[i] = (bHasNoDataValue && i == noDataValue) ? 0 : (unsigned char)entry->c4; } } if (bHasNoDataValue && nEntries == noDataValue) colorTable[nEntries] = 0; initDone = TRUE; } /* We use a 1-tile cache as the same source tile will be consecutively asked for */ /* computing the R tile, the G tile, the B tile and the A tile */ void* cachedImage = proxyDS->GetSubDataset()->GetCachedTile(GetDescription(), nBlockXOff, nBlockYOff); if (cachedImage == NULL) { CPLDebug("RPFTOC", "Read (%d, %d) of band %d, of file %s", nBlockXOff, nBlockYOff, nBand, GetDescription()); ret = srcBand->ReadBlock(nBlockXOff, nBlockYOff, pImage); if (ret == CE_None) { proxyDS->GetSubDataset()->SetCachedTile (GetDescription(), nBlockXOff, nBlockYOff, pImage, blockByteSize); Expand(pImage, pImage); } /* -------------------------------------------------------------------- */ /* Forceably load the other bands associated with this scanline. */ /* -------------------------------------------------------------------- */ if(nBand == 1 ) { GDALRasterBlock *poBlock; poBlock = poDS->GetRasterBand(2)->GetLockedBlockRef(nBlockXOff,nBlockYOff); if (poBlock) poBlock->DropLock(); poBlock = poDS->GetRasterBand(3)->GetLockedBlockRef(nBlockXOff,nBlockYOff); if (poBlock) poBlock->DropLock(); poBlock = poDS->GetRasterBand(4)->GetLockedBlockRef(nBlockXOff,nBlockYOff); if (poBlock) poBlock->DropLock(); } } else { Expand(pImage, cachedImage); ret = CE_None; } } else ret = CE_Failure; proxyDS->UnrefUnderlyingDataset(ds); return ret; } /************************************************************************/ /* ==================================================================== */ /* RPFTOCProxyRasterBandPalette */ /* ==================================================================== */ /************************************************************************/ class RPFTOCProxyRasterBandPalette : public GDALPamRasterBand { int initDone; int blockByteSize; int samePalette; unsigned char remapLUT[256]; public: RPFTOCProxyRasterBandPalette(GDALProxyPoolDataset* poDS, int nBand, int nBlockXSize, int nBlockYSize) { this->poDS = poDS; nRasterXSize = poDS->GetRasterXSize(); nRasterYSize = poDS->GetRasterYSize(); this->nBlockXSize = nBlockXSize; this->nBlockYSize = nBlockYSize; eDataType = GDT_Byte; this->nBand = nBand; blockByteSize = nBlockXSize * nBlockYSize; initDone = FALSE; } virtual GDALColorInterp GetColorInterpretation() { return GCI_PaletteIndex; } virtual double GetNoDataValue(int* bHasNoDataValue) { return ((RPFTOCProxyRasterDataSet*)poDS)->GetNoDataValue(bHasNoDataValue); } virtual GDALColorTable *GetColorTable() { return (GDALColorTable *) ((RPFTOCProxyRasterDataSet*)poDS)->GetReferenceColorTable(); } protected: virtual CPLErr IReadBlock( int nBlockXOff, int nBlockYOff, void * pImage ); }; /************************************************************************/ /* IReadBlock() */ /************************************************************************/ CPLErr RPFTOCProxyRasterBandPalette::IReadBlock( int nBlockXOff, int nBlockYOff, void * pImage ) { CPLErr ret; RPFTOCProxyRasterDataSet* proxyDS = (RPFTOCProxyRasterDataSet*)poDS; GDALDataset* ds = proxyDS->RefUnderlyingDataset(); if (ds) { if (proxyDS->SanityCheckOK(ds) == FALSE) { proxyDS->UnrefUnderlyingDataset(ds); return CE_Failure; } GDALRasterBand* srcBand = ds->GetRasterBand(1); ret = srcBand->ReadBlock(nBlockXOff, nBlockYOff, pImage); if (initDone == FALSE) { int approximateMatching; if (srcBand->GetIndexColorTranslationTo(this, remapLUT, &approximateMatching )) { samePalette = FALSE; if (approximateMatching) { CPLError( CE_Failure, CPLE_AppDefined, "Palette for %s is different from reference palette. " "Coudln't remap exactly all colors. Trying to find closest matches.\n", GetDescription()); } } else { samePalette = TRUE; } initDone = TRUE; } if (samePalette == FALSE) { unsigned char* data = (unsigned char*)pImage; int i; for(i=0;i<blockByteSize;i++) { data[i] = remapLUT[data[i]]; } } } else ret = CE_Failure; proxyDS->UnrefUnderlyingDataset(ds); return ret; } /************************************************************************/ /* RPFTOCProxyRasterDataSet() */ /************************************************************************/ RPFTOCProxyRasterDataSet::RPFTOCProxyRasterDataSet (RPFTOCSubDataset* subdataset, const char* fileName, int nRasterXSize, int nRasterYSize, int nBlockXSize, int nBlockYSize, const char* projectionRef, double nwLong, double nwLat, int nBands) : /* Mark as shared since the VRT will take several references if we are in RGBA mode (4 bands for this dataset) */ GDALProxyPoolDataset(fileName, nRasterXSize, nRasterYSize, GA_ReadOnly, TRUE, projectionRef) { int i; this->subdataset = subdataset; this->nwLong = nwLong; this->nwLat = nwLat; bHasNoDataValue = FALSE; noDataValue = 0; colorTableRef = NULL; checkDone = FALSE; checkOK = FALSE; if (nBands == 4) { for(i=0;i<4;i++) { SetBand(i + 1, new RPFTOCProxyRasterBandRGBA(this, i+1, nBlockXSize, nBlockYSize)); } } else SetBand(1, new RPFTOCProxyRasterBandPalette(this, 1, nBlockXSize, nBlockYSize)); } /************************************************************************/ /* SanityCheckOK() */ /************************************************************************/ #define WARN_ON_FAIL(x) do { if (!(x)) { CPLError(CE_Warning, CPLE_AppDefined, "For %s, assert '" #x "' failed", GetDescription()); } } while(0) #define ERROR_ON_FAIL(x) do { if (!(x)) { CPLError(CE_Warning, CPLE_AppDefined, "For %s, assert '" #x "' failed", GetDescription()); checkOK = FALSE; } } while(0) int RPFTOCProxyRasterDataSet::SanityCheckOK(GDALDataset* sourceDS) { int src_nBlockXSize, src_nBlockYSize; int nBlockXSize, nBlockYSize; double adfGeoTransform[6]; if (checkDone) return checkOK; checkOK = TRUE; checkDone = TRUE; sourceDS->GetGeoTransform(adfGeoTransform); WARN_ON_FAIL(fabs(adfGeoTransform[GEOTRSFRM_TOPLEFT_X] - nwLong) < adfGeoTransform[1] ); WARN_ON_FAIL(fabs(adfGeoTransform[GEOTRSFRM_TOPLEFT_Y] - nwLat) < fabs(adfGeoTransform[5]) ); WARN_ON_FAIL(adfGeoTransform[GEOTRSFRM_ROTATION_PARAM1] == 0 && adfGeoTransform[GEOTRSFRM_ROTATION_PARAM2] == 0); /* No rotation */ ERROR_ON_FAIL(sourceDS->GetRasterCount() == 1); /* Just 1 band */ ERROR_ON_FAIL(sourceDS->GetRasterXSize() == nRasterXSize); ERROR_ON_FAIL(sourceDS->GetRasterYSize() == nRasterYSize); WARN_ON_FAIL(EQUAL(sourceDS->GetProjectionRef(), GetProjectionRef())); sourceDS->GetRasterBand(1)->GetBlockSize(&src_nBlockXSize, &src_nBlockYSize); GetRasterBand(1)->GetBlockSize(&nBlockXSize, &nBlockYSize); ERROR_ON_FAIL(src_nBlockXSize == nBlockXSize); ERROR_ON_FAIL(src_nBlockYSize == nBlockYSize); WARN_ON_FAIL(sourceDS->GetRasterBand(1)->GetColorInterpretation() == GCI_PaletteIndex); WARN_ON_FAIL(sourceDS->GetRasterBand(1)->GetRasterDataType() == GDT_Byte); return checkOK; } /************************************************************************/ /* MakeTOCEntryName() */ /************************************************************************/ static const char* MakeTOCEntryName(RPFTocEntry* tocEntry ) { char* str; if (tocEntry->seriesAbbreviation) str = (char*)CPLSPrintf( "%s_%s_%s_%s_%d", tocEntry->type, tocEntry->seriesAbbreviation, tocEntry->scale, tocEntry->zone, tocEntry->boundaryId ); else str = (char*)CPLSPrintf( "%s_%s_%s_%d", tocEntry->type, tocEntry->scale, tocEntry->zone, tocEntry->boundaryId ); char* c = str; while(*c) { if (*c == ':' || *c == ' ') *c = '_'; c++; } return str; } /************************************************************************/ /* AddSubDataset() */ /************************************************************************/ void RPFTOCDataset::AddSubDataset( const char* pszFilename, RPFTocEntry* tocEntry ) { char szName[80]; int nCount = CSLCount(papszSubDatasets ) / 2; sprintf( szName, "SUBDATASET_%d_NAME", nCount+1 ); papszSubDatasets = CSLSetNameValue( papszSubDatasets, szName, CPLSPrintf( "NITF_TOC_ENTRY:%s:%s", MakeTOCEntryName(tocEntry), pszFilename ) ); sprintf( szName, "SUBDATASET_%d_DESC", nCount+1 ); if (tocEntry->seriesName && tocEntry->seriesAbbreviation) papszSubDatasets = CSLSetNameValue( papszSubDatasets, szName, CPLSPrintf( "%s:%s:%s:%s:%s:%d", tocEntry->type, tocEntry->seriesAbbreviation, tocEntry->seriesName, tocEntry->scale, tocEntry->zone, tocEntry->boundaryId )); else papszSubDatasets = CSLSetNameValue( papszSubDatasets, szName, CPLSPrintf( "%s:%s:%s:%d", tocEntry->type, tocEntry->scale, tocEntry->zone, tocEntry->boundaryId )); } /************************************************************************/ /* GetMetadata() */ /************************************************************************/ char **RPFTOCDataset::GetMetadata( const char *pszDomain ) { if( pszDomain != NULL && EQUAL(pszDomain,"SUBDATASETS") ) return papszSubDatasets; return GDALPamDataset::GetMetadata( pszDomain ); } /************************************************************************/ /* NITFCreateVRTDataSetFromTocEntry() */ /************************************************************************/ #define ASSERT_CREATE_VRT(x) do { if (!(x)) { CPLError(CE_Failure, CPLE_AppDefined, "For %s, assert '" #x "' failed", entry->frameEntries[i].fullFilePath); if (poSrcDS) GDALClose(poSrcDS); CPLFree(projectionRef); return NULL;} } while(0) /* Builds a RPFTOCSubDataset from the set of files of the toc entry */ GDALDataset* RPFTOCSubDataset::CreateDataSetFromTocEntry(const char* openInformationName, const char* pszTOCFileName, int nEntry, const RPFTocEntry* entry, int isRGBA, char** papszMetadataRPFTOCFile) { int i, j; GDALDriver *poDriver; RPFTOCSubDataset *poVirtualDS; int sizeX, sizeY; int nBlockXSize = 0, nBlockYSize = 0; double geoTransf[6]; char* projectionRef = NULL; int N; int index = 0; poDriver = GetGDALDriverManager()->GetDriverByName("VRT"); if( poDriver == NULL ) return NULL; N = entry->nVertFrames * entry->nHorizFrames; /* This may not be reliable. See below */ sizeX = (int)((entry->seLong - entry->nwLong) / (entry->nHorizFrames * entry->horizInterval) + 0.5); sizeY = (int)((entry->nwLat - entry->seLat) / (entry->nVertFrames * entry->vertInterval) + 0.5); for(i=0;i<N; i++) { if (!entry->frameEntries[i].fileExists) continue; if (index == 0) { int ds_sizeX, ds_sizeY; /* Open the first available file to get its geotransform, projection ref and block size */ /* Do a few sanity checks too */ /* Ideally we should make these sanity checks now on ALL files, but it would be too slow */ /* for large datasets. So these sanity checks will be done at the time we really need */ /* to access the file (see SanityCheckOK metho) */ GDALDataset *poSrcDS = (GDALDataset *) GDALOpenShared( entry->frameEntries[i].fullFilePath, GA_ReadOnly ); ASSERT_CREATE_VRT(poSrcDS); poSrcDS->GetGeoTransform(geoTransf); projectionRef = CPLStrdup(poSrcDS->GetProjectionRef()); ASSERT_CREATE_VRT(geoTransf[GEOTRSFRM_ROTATION_PARAM1] == 0 && geoTransf[GEOTRSFRM_ROTATION_PARAM2] == 0); /* No rotation */ ASSERT_CREATE_VRT(poSrcDS->GetRasterCount() == 1); /* Just 1 band */ /* Tolerance of 1%... This is necessary for CADRG_L22/RPF/A.TOC for example */ ASSERT_CREATE_VRT((entry->horizInterval - geoTransf[GEOTRSFRM_WE_RES]) / entry->horizInterval < 0.01); /* X interval same as in TOC */ ASSERT_CREATE_VRT((entry->vertInterval - (-geoTransf[GEOTRSFRM_NS_RES])) / entry->horizInterval < 0.01); /* Y interval same as in TOC */ ds_sizeX = poSrcDS->GetRasterXSize(); ds_sizeY = poSrcDS->GetRasterYSize(); /* In the case the east longitude is 180, there's a great chance that it is in fact */ /* truncated in the A.TOC. Thus, the only reliable way to find out the tile width, is to */ /* read it from the tile dataset itself... */ /* This is the case for the GNCJNCN dataset that has world coverage */ if (entry->seLong == 180.00) sizeX = ds_sizeX; else ASSERT_CREATE_VRT(sizeX == ds_sizeX); ASSERT_CREATE_VRT(sizeY == ds_sizeY); poSrcDS->GetRasterBand(1)->GetBlockSize(&nBlockXSize, &nBlockYSize); ASSERT_CREATE_VRT(poSrcDS->GetRasterBand(1)->GetColorInterpretation() == GCI_PaletteIndex); ASSERT_CREATE_VRT(poSrcDS->GetRasterBand(1)->GetRasterDataType() == GDT_Byte); GDALClose(poSrcDS); } index++; } if (index == 0) return NULL; /* ------------------------------------ */ /* Create the VRT with the overall size */ /* ------------------------------------ */ poVirtualDS = new RPFTOCSubDataset( sizeX * entry->nHorizFrames, sizeY * entry->nVertFrames); if (papszMetadataRPFTOCFile) poVirtualDS->SetMetadata(papszMetadataRPFTOCFile); poVirtualDS->SetProjection(projectionRef); geoTransf[GEOTRSFRM_TOPLEFT_X] = entry->nwLong; geoTransf[GEOTRSFRM_TOPLEFT_Y] = entry->nwLat; poVirtualDS->SetGeoTransform(geoTransf); int nBands; /* In most cases, all the files inside a TOC entry share the same */ /* palette and we could use it for the VRT. */ /* In other cases like for CADRG801_France_250K (TOC entry CADRG_250K_2_2), */ /* the file for Corsica and the file for Sardegna do not share the same palette */ /* however they contain the same RGB triplets and are just ordered differently */ /* So we can use the same palette */ /* In the unlikely event where palettes would be incompatible, we can use the RGBA */ /* option through the config option RPFTOC_FORCE_RGBA */ if (isRGBA == FALSE) { poVirtualDS->AddBand(GDT_Byte, NULL); GDALRasterBand *poBand = poVirtualDS->GetRasterBand( 1 ); poBand->SetColorInterpretation(GCI_PaletteIndex); nBands = 1; for(i=0;i<N; i++) { if (!entry->frameEntries[i].fileExists) continue; int bAllBlack = TRUE; GDALDataset *poSrcDS = (GDALDataset *) GDALOpenShared( entry->frameEntries[i].fullFilePath, GA_ReadOnly ); if( poSrcDS != NULL ) { if( poSrcDS->GetRasterCount() == 1 ) { int bHasNoDataValue; double noDataValue = poSrcDS->GetRasterBand(1)->GetNoDataValue(&bHasNoDataValue); if (bHasNoDataValue) poBand->SetNoDataValue(noDataValue); /* Avoid setting a color table that is all black (which might be */ /* the case of the edge tiles of a RPF subdataset) */ GDALColorTable* poCT = poSrcDS->GetRasterBand(1)->GetColorTable(); if( poCT != NULL ) { for(int iC = 0; iC < poCT->GetColorEntryCount(); iC++) { if( bHasNoDataValue && iC == (int)noDataValue ) continue; const GDALColorEntry* entry = poCT->GetColorEntry(iC); if( entry->c1 != 0 || entry->c2 != 0 || entry->c3 != 0) { bAllBlack = FALSE; break; } } /* Assign it temporarily, in the hope of a better match */ /* afterwards */ poBand->SetColorTable(poCT); if( bAllBlack ) { CPLDebug("RPFTOC", "Skipping %s. Its palette is all black.", poSrcDS->GetDescription()); } } } GDALClose(poSrcDS); } if( !bAllBlack ) break; } } else { for (i=0;i<4;i++) { poVirtualDS->AddBand(GDT_Byte, NULL); GDALRasterBand *poBand = poVirtualDS->GetRasterBand( i + 1 ); poBand->SetColorInterpretation((GDALColorInterp)(GCI_RedBand+i)); } nBands = 4; } CPLFree(projectionRef); projectionRef = NULL; /* -------------------------------------------------------------------- */ /* Check for overviews. */ /* -------------------------------------------------------------------- */ poVirtualDS->oOvManager.Initialize( poVirtualDS, CPLString().Printf("%s.%d", pszTOCFileName, nEntry + 1)); poVirtualDS->SetDescription(pszTOCFileName); poVirtualDS->papszFileList = poVirtualDS->GDALDataset::GetFileList(); poVirtualDS->SetDescription(openInformationName); int iFile = 0; for(i=0;i<N; i++) { if (! entry->frameEntries[i].fileExists) continue; poVirtualDS->SetMetadataItem(CPLSPrintf("FILENAME_%d", iFile), entry->frameEntries[i].fullFilePath); poVirtualDS->papszFileList = CSLAddString(poVirtualDS->papszFileList, entry->frameEntries[i].fullFilePath); iFile++; /* We create proxy datasets and raster bands */ /* Using real datasets and raster bands is possible in theory */ /* However for large datasets, a TOC entry can include several hundreds of files */ /* and we finally reach the limit of maximum file descriptors open at the same time ! */ /* So the idea is to warp the datasets into a proxy and open the underlying dataset only when it is */ /* needed (IRasterIO operation). To improve a bit efficiency, we have a cache of opened */ /* underlying datasets */ RPFTOCProxyRasterDataSet* ds = new RPFTOCProxyRasterDataSet( (RPFTOCSubDataset*)poVirtualDS, entry->frameEntries[i].fullFilePath, sizeX, sizeY, nBlockXSize, nBlockYSize, poVirtualDS->GetProjectionRef(), entry->nwLong + entry->frameEntries[i].frameCol * entry->horizInterval * sizeX, entry->nwLat - entry->frameEntries[i].frameRow * entry->vertInterval * sizeY, nBands); if (nBands == 1) { GDALRasterBand *poBand = poVirtualDS->GetRasterBand( 1 ); ds->SetReferenceColorTable(poBand->GetColorTable()); int bHasNoDataValue; double noDataValue = poBand->GetNoDataValue(&bHasNoDataValue); if (bHasNoDataValue) ds->SetNoDataValue(noDataValue); } for(j=0;j<nBands;j++) { VRTSourcedRasterBand *poBand = (VRTSourcedRasterBand*)poVirtualDS->GetRasterBand( j + 1 ); /* Place the raster band at the right position in the VRT */ poBand->AddSimpleSource(ds->GetRasterBand(j + 1), 0, 0, sizeX, sizeY, entry->frameEntries[i].frameCol * sizeX, entry->frameEntries[i].frameRow * sizeY, sizeX, sizeY); } /* The RPFTOCProxyRasterDataSet will be destroyed when its last raster band will be */ /* destroyed */ ds->Dereference(); } poVirtualDS->SetMetadataItem("NITF_SCALE", entry->scale); poVirtualDS->SetMetadataItem("NITF_SERIES_ABBREVIATION", (entry->seriesAbbreviation) ? entry->seriesAbbreviation : "Unknown"); poVirtualDS->SetMetadataItem("NITF_SERIES_NAME", (entry->seriesName) ? entry->seriesName : "Unknown"); return poVirtualDS; } /************************************************************************/ /* IsNonNITFFileTOC() */ /************************************************************************/ /* Check whether the file is a TOC file without NITF header */ int RPFTOCDataset::IsNonNITFFileTOC(GDALOpenInfo * poOpenInfo, const char* pszFilename ) { const char pattern[] = { 0, 0, '0', ' ', ' ', ' ', ' ', ' ', ' ', ' ', 'A', '.', 'T', 'O', 'C' }; if (poOpenInfo) { if (poOpenInfo->nHeaderBytes < 48 ) return FALSE; return memcmp(pattern, poOpenInfo->pabyHeader, 15) == 0; } else { char buffer[48]; VSILFILE* fp = NULL; fp = VSIFOpenL( pszFilename, "rb" ); if( fp == NULL ) { return FALSE; } int ret = (VSIFReadL(buffer, 1, 48, fp) == 48) && memcmp(pattern, buffer, 15) == 0; VSIFCloseL(fp); return ret; } } /************************************************************************/ /* IsNITFFileTOC() */ /************************************************************************/ /* Check whether this NITF file is a TOC file */ int RPFTOCDataset::IsNITFFileTOC(NITFFile *psFile) { const char* fileTitle = CSLFetchNameValue(psFile->papszMetadata, "NITF_FTITLE"); while(fileTitle && *fileTitle) { if (EQUAL(fileTitle, "A.TOC")) { return TRUE; } fileTitle++; } return FALSE; } /************************************************************************/ /* OpenFileTOC() */ /************************************************************************/ /* Create a dataset from a TOC file */ /* If psFile == NULL, the TOC file has no NITF header */ /* If entryName != NULL, the dataset will be made just of the entry of the TOC file */ GDALDataset* RPFTOCDataset::OpenFileTOC(NITFFile *psFile, const char* pszFilename, const char* entryName, const char* openInformationName) { char buffer[48]; VSILFILE* fp = NULL; if (psFile == NULL) { fp = VSIFOpenL( pszFilename, "rb" ); if( fp == NULL ) { CPLError( CE_Failure, CPLE_OpenFailed, "Failed to open file %s.", pszFilename ); return NULL; } VSIFReadL(buffer, 1, 48, fp); } int isRGBA = CSLTestBoolean(CPLGetConfigOption("RPFTOC_FORCE_RGBA", "NO")); RPFToc* toc = (psFile) ? RPFTOCRead( pszFilename, psFile ) : RPFTOCReadFromBuffer( pszFilename, fp, buffer); if (fp) VSIFCloseL(fp); fp = NULL; if (entryName != NULL) { if (toc) { int i; for(i=0;i<toc->nEntries;i++) { if (EQUAL(entryName, MakeTOCEntryName(&toc->entries[i]))) { GDALDataset* ds = RPFTOCSubDataset::CreateDataSetFromTocEntry(openInformationName, pszFilename, i, &toc->entries[i], isRGBA, (psFile) ? psFile->papszMetadata : NULL); RPFTOCFree(toc); return ds; } } CPLError( CE_Failure, CPLE_AppDefined, "The entry %s does not exist in file %s.", entryName, pszFilename ); } RPFTOCFree(toc); return NULL; } if (toc) { RPFTOCDataset* ds = new RPFTOCDataset(); if (psFile) ds->SetMetadata( psFile->papszMetadata ); int i; int ok = FALSE; char* projectionRef = NULL; double nwLong = 0, nwLat = 0, seLong = 0, seLat = 0; double adfGeoTransform[6]; ds->papszFileList = CSLAddString(ds->papszFileList, pszFilename); for(i=0;i<toc->nEntries;i++) { if (!toc->entries[i].isOverviewOrLegend) { GDALDataset* tmpDS = RPFTOCSubDataset::CreateDataSetFromTocEntry(openInformationName, pszFilename, i, &toc->entries[i], isRGBA, NULL); if (tmpDS) { char** papszSubDatasetFileList = tmpDS->GetFileList(); /* Yes, begin at 1, since the first is the a.toc */ ds->papszFileList = CSLInsertStrings(ds->papszFileList, -1, papszSubDatasetFileList + 1); CSLDestroy(papszSubDatasetFileList); tmpDS->GetGeoTransform(adfGeoTransform); if (projectionRef == NULL) { ok = TRUE; projectionRef = CPLStrdup(tmpDS->GetProjectionRef()); nwLong = adfGeoTransform[GEOTRSFRM_TOPLEFT_X]; nwLat = adfGeoTransform[GEOTRSFRM_TOPLEFT_Y]; seLong = nwLong + adfGeoTransform[GEOTRSFRM_WE_RES] * tmpDS->GetRasterXSize(); seLat = nwLat + adfGeoTransform[GEOTRSFRM_NS_RES] * tmpDS->GetRasterYSize(); } else if (ok) { double _nwLong = adfGeoTransform[GEOTRSFRM_TOPLEFT_X]; double _nwLat = adfGeoTransform[GEOTRSFRM_TOPLEFT_Y]; double _seLong = _nwLong + adfGeoTransform[GEOTRSFRM_WE_RES] * tmpDS->GetRasterXSize(); double _seLat = _nwLat + adfGeoTransform[GEOTRSFRM_NS_RES] * tmpDS->GetRasterYSize(); if (! EQUAL(projectionRef, tmpDS->GetProjectionRef()) ) ok = FALSE; if (_nwLong < nwLong) nwLong = _nwLong; if (_nwLat > nwLat) nwLat = _nwLat; if (_seLong > seLong) seLong = _seLong; if (_seLat < seLat) seLat = _seLat; } delete tmpDS; ds->AddSubDataset(pszFilename, &toc->entries[i]); } } } if (ok) { adfGeoTransform[GEOTRSFRM_TOPLEFT_X] = nwLong; adfGeoTransform[GEOTRSFRM_TOPLEFT_Y] = nwLat; ds->SetSize((int)(0.5 + (seLong - nwLong) / adfGeoTransform[GEOTRSFRM_WE_RES]), (int)(0.5 + (seLat - nwLat) / adfGeoTransform[GEOTRSFRM_NS_RES])); ds->SetGeoTransform(adfGeoTransform); ds->SetProjection(projectionRef); } CPLFree(projectionRef); RPFTOCFree(toc); /* -------------------------------------------------------------------- */ /* Initialize any PAM information. */ /* -------------------------------------------------------------------- */ ds->SetDescription( pszFilename ); ds->TryLoadXML(); return ds; } else { return NULL; } } /************************************************************************/ /* Identify() */ /************************************************************************/ int RPFTOCDataset::Identify( GDALOpenInfo * poOpenInfo ) { const char *pszFilename = poOpenInfo->pszFilename; /* -------------------------------------------------------------------- */ /* Is this a sub-dataset selector? If so, it is obviously RPFTOC. */ /* -------------------------------------------------------------------- */ if( EQUALN(pszFilename, "NITF_TOC_ENTRY:",strlen("NITF_TOC_ENTRY:"))) return TRUE; /* -------------------------------------------------------------------- */ /* First we check to see if the file has the expected header */ /* bytes. */ /* -------------------------------------------------------------------- */ if( poOpenInfo->nHeaderBytes < 48 ) return FALSE; if ( IsNonNITFFileTOC( poOpenInfo, pszFilename) ) return TRUE; if( !EQUALN((char *) poOpenInfo->pabyHeader,"NITF",4) && !EQUALN((char *) poOpenInfo->pabyHeader,"NSIF",4) && !EQUALN((char *) poOpenInfo->pabyHeader,"NITF",4) ) return FALSE; int i; /* If it's a NITF A.TOC file, it must contain A.TOC in it's header */ for(i=0;i<(int)poOpenInfo->nHeaderBytes-(int)strlen("A.TOC");i++) { if (EQUALN((const char*)poOpenInfo->pabyHeader + i, "A.TOC", strlen("A.TOC"))) return TRUE; } return FALSE; } /************************************************************************/ /* Open() */ /************************************************************************/ GDALDataset *RPFTOCDataset::Open( GDALOpenInfo * poOpenInfo ) { const char *pszFilename = poOpenInfo->pszFilename; char* entryName = NULL; if( !Identify( poOpenInfo ) ) return NULL; if( EQUALN(pszFilename, "NITF_TOC_ENTRY:",strlen("NITF_TOC_ENTRY:"))) { pszFilename += strlen("NITF_TOC_ENTRY:"); entryName = CPLStrdup(pszFilename); char* c = entryName; while( *c != '\0' && *c != ':' ) c++; if( *c != ':' ) { CPLFree(entryName); return NULL; } *c = 0; while( *pszFilename != '\0' && *pszFilename != ':' ) pszFilename++; pszFilename++; } if (IsNonNITFFileTOC((entryName != NULL) ? NULL : poOpenInfo, pszFilename)) { GDALDataset* poDS = OpenFileTOC(NULL, pszFilename, entryName, poOpenInfo->pszFilename); CPLFree(entryName); if (poDS && poOpenInfo->eAccess == GA_Update) { CPLError(CE_Failure, CPLE_NotSupported, "RPFTOC driver does not support update mode"); delete poDS; return NULL; } return poDS; } /* -------------------------------------------------------------------- */ /* Open the file with library. */ /* -------------------------------------------------------------------- */ NITFFile *psFile; psFile = NITFOpen( pszFilename, FALSE ); if( psFile == NULL ) { CPLFree(entryName); return NULL; } /* -------------------------------------------------------------------- */ /* Check if it is a TOC file . */ /* -------------------------------------------------------------------- */ if (IsNITFFileTOC(psFile)) { GDALDataset* poDS = OpenFileTOC(psFile, pszFilename, entryName, poOpenInfo->pszFilename); NITFClose( psFile ); CPLFree(entryName); if (poDS && poOpenInfo->eAccess == GA_Update) { CPLError(CE_Failure, CPLE_NotSupported, "RPFTOC driver does not support update mode"); delete poDS; return NULL; } return poDS; } else { CPLError( CE_Failure, CPLE_AppDefined, "File %s is not a TOC file.", pszFilename ); NITFClose( psFile ); CPLFree(entryName); return NULL; } } /************************************************************************/ /* GDALRegister_RPFTOC() */ /************************************************************************/ void GDALRegister_RPFTOC() { GDALDriver *poDriver; if( GDALGetDriverByName( "RPFTOC" ) == NULL ) { poDriver = new GDALDriver(); poDriver->SetDescription( "RPFTOC" ); poDriver->SetMetadataItem( GDAL_DMD_LONGNAME, "Raster Product Format TOC format" ); poDriver->pfnIdentify = RPFTOCDataset::Identify; poDriver->pfnOpen = RPFTOCDataset::Open; poDriver->SetMetadataItem( GDAL_DMD_HELPTOPIC, "frmt_various.html#RPFTOC" ); poDriver->SetMetadataItem( GDAL_DMD_EXTENSION, "toc" ); poDriver->SetMetadataItem( GDAL_DCAP_VIRTUALIO, "YES" ); poDriver->SetMetadataItem( GDAL_DMD_SUBDATASETS, "YES" ); GetGDALDriverManager()->RegisterDriver( poDriver ); } }