Exemple #1
0
CPLErr GDALMRFRasterBand::FillBlock(int xblk, int yblk, void *buffer) {
    vector<GDALRasterBlock *> blocks;

    for (int i = 0; i < poDS->nBands; i++) {
        GDALRasterBand *b = poDS->GetRasterBand(i + 1);
        if (b->GetOverviewCount() && 0 != m_l)
            b = b->GetOverview(m_l - 1);

        // Get the other band blocks, keep them around until later
        if (b == this) {
            FillBlock(buffer);
        }
        else {
            GDALRasterBlock *poBlock = b->GetLockedBlockRef(xblk, yblk, 1);
            if (poBlock == nullptr) // Didn't get this block
                break;
            FillBlock(poBlock->GetDataRef());
            blocks.push_back(poBlock);
        }
    }

    // Drop the locks for blocks we acquired
    for (int i = 0; i < int(blocks.size()); i++)
        blocks[i]->DropLock();

    return CE_None;
}
Exemple #2
0
CPLErr VRTWarpedRasterBand::IReadBlock( int nBlockXOff, int nBlockYOff,
                                     void * pImage )

{
    CPLErr eErr;
    VRTWarpedDataset *poWDS = (VRTWarpedDataset *) poDS;
    GDALRasterBlock *poBlock;

    poBlock = GetLockedBlockRef( nBlockXOff, nBlockYOff, TRUE );

    eErr = poWDS->ProcessBlock( nBlockXOff, nBlockYOff );

    if( eErr == CE_None && pImage != poBlock->GetDataRef() )
    {
        int nDataBytes;
        nDataBytes = (GDALGetDataTypeSize(poBlock->GetDataType()) / 8)
            * poBlock->GetXSize() * poBlock->GetYSize();
        memcpy( pImage, poBlock->GetDataRef(), nDataBytes );
    }

    poBlock->DropLock();

    return eErr;
}
Exemple #3
0
CPLErr GDALMRFRasterBand::RB(int xblk, int yblk, buf_mgr /*src*/, void *buffer) {
    vector<GDALRasterBlock *> blocks;

    for (int i = 0; i < poDS->nBands; i++) {
	GDALRasterBand *b = poDS->GetRasterBand(i+1);
	if (b->GetOverviewCount() && m_l)
	    b = b->GetOverview(m_l-1);

	void *ob = buffer;
	// Get the other band blocks, keep them around until later
	if (b != this)
	{
	    GDALRasterBlock *poBlock = b->GetLockedBlockRef(xblk, yblk, 1);
            if( poBlock == NULL )
                break;
	    ob = poBlock->GetDataRef();
	    blocks.push_back(poBlock);
	} 

// Just the right mix of templates and macros make deinterleaving tidy
#define CpySI(T) cpy_stride_in<T> (ob, (T *)poDS->GetPBuffer() + i,\
    blockSizeBytes()/sizeof(T), img.pagesize.c)

	// Page is already in poDS->pbuffer, not empty
	// There are only four cases, since only the real data type matters
	switch (GDALGetDataTypeSize(eDataType)/8)
	{
	case 1: CpySI(GByte); break;
	case 2: CpySI(GInt16); break;
	case 4: CpySI(GInt32); break;
	case 8: CpySI(GIntBig); break;
	}
    }

#undef CpySI

    // Drop the locks we acquired
    for (int i=0; i < int(blocks.size()); i++)
	blocks[i]->DropLock();

    return CE_None;
}
CPLErr GDALWMSRasterBand::ZeroBlock(int x, int y, int to_buffer_band, void *buffer) {
    CPLErr ret = CE_None;

    for (int ib = 1; ib <= m_parent_dataset->nBands; ++ib) {
        if (ret == CE_None) {
            void *p = NULL;
            GDALRasterBlock *b = NULL;
            if ((buffer != NULL) && (ib == to_buffer_band)) {
                p = buffer;
            } else {
                GDALWMSRasterBand *band = static_cast<GDALWMSRasterBand *>(m_parent_dataset->GetRasterBand(ib));
                if (m_overview >= 0) band = static_cast<GDALWMSRasterBand *>(band->GetOverview(m_overview));
                if (!band->IsBlockInCache(x, y)) {
                    b = band->GetLockedBlockRef(x, y, true);
                    if (b != NULL) {
                        p = b->GetDataRef();
                        if (p == NULL) {
                          CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: GetDataRef returned NULL.");
                          ret = CE_Failure;
                        }
                    }
                }
            }
            if (p != NULL) {
                unsigned char *b = reinterpret_cast<unsigned char *>(p);
                int block_size = nBlockXSize * nBlockYSize * (GDALGetDataTypeSize(eDataType) / 8);
                for (int i = 0; i < block_size; ++i) b[i] = 0;
            }
            if (b != NULL) {
                b->DropLock();
            }
        }
    }

    return ret;
}
Exemple #5
0
CPLErr EpsilonRasterBand::IReadBlock( int nBlockXOff,
                                      int nBlockYOff, void * pImage)
{
    EpsilonDataset* poGDS = (EpsilonDataset*) poDS;

    //CPLDebug("EPSILON", "IReadBlock(nBand=%d,nBlockXOff=%d,nBlockYOff=%d)",
    //         nBand, nBlockXOff, nBlockYOff);

    int l_nBlocksPerRow = (poGDS->nRasterXSize + nBlockXSize - 1) / nBlockXSize;
    int nBlock = nBlockXOff + nBlockYOff * l_nBlocksPerRow;

    BlockDesc* psDesc = &poGDS->pasBlocks[nBlock];
#ifdef DEBUG
    int l_nBlocksPerColumn = (poGDS->nRasterYSize + nBlockYSize - 1) / nBlockYSize;
    CPLAssert(psDesc->x == nBlockXOff * nBlockXSize);
    CPLAssert(psDesc->y == nBlockYOff * nBlockYSize);
    CPLAssert(psDesc->w == (nBlockXOff < l_nBlocksPerRow - 1) ?
                                nBlockXSize : poGDS->nRasterXSize - psDesc->x);
    CPLAssert(psDesc->h == (nBlockYOff < l_nBlocksPerColumn - 1) ?
                                nBlockYSize : poGDS->nRasterYSize - psDesc->y);
#endif

    poGDS->Seek(psDesc->offset);

    if (!poGDS->GetNextBlockData())
    {
        memset(pImage, 0, nBlockXSize * nBlockYSize);
        return CE_Failure;
    }

    eps_block_header hdr;
    if (eps_read_block_header (poGDS->pabyBlockData,
                               poGDS->nBlockDataSize, &hdr) != EPS_OK)
    {
        CPLError(CE_Warning, CPLE_AppDefined, "cannot read block header");
        memset(pImage, 0, nBlockXSize * nBlockYSize);
        return CE_Failure;
    }

    if (hdr.chk_flag == EPS_BAD_CRC ||
        hdr.crc_flag == EPS_BAD_CRC)
    {
        CPLError(CE_Warning, CPLE_AppDefined, "bad CRC");
        memset(pImage, 0, nBlockXSize * nBlockYSize);
        return CE_Failure;
    }

    int w = GET_FIELD(hdr, w);
    int h = GET_FIELD(hdr, h);
    int i;

    if (poGDS->nBands == 1)
    {
        unsigned char ** pTempData =
            (unsigned char **) CPLMalloc(h * sizeof(unsigned char*));
        for(i=0;i<h;i++)
            pTempData[i] = ((GByte*)pImage) + i * nBlockXSize;

        if (w != nBlockXSize || h != nBlockYSize)
            memset(pImage, 0, nBlockXSize * nBlockYSize);

        if (eps_decode_grayscale_block (pTempData,
                                        poGDS->pabyBlockData, &hdr) != EPS_OK)
        {
            CPLFree(pTempData);
            memset(pImage, 0, nBlockXSize * nBlockYSize);
            return CE_Failure;
        }
        CPLFree(pTempData);
    }
    else
    {
        if (poGDS->pabyRGBData == NULL)
        {
            poGDS->pabyRGBData =
                            (GByte*) VSIMalloc3(nBlockXSize, nBlockYSize, 3);
            if (poGDS->pabyRGBData == NULL)
            {
                memset(pImage, 0, nBlockXSize * nBlockYSize);
                return CE_Failure;
            }
        }

        if (poGDS->nBufferedBlock == nBlock)
        {
            memcpy(pImage,
                   poGDS->pabyRGBData + (nBand - 1) * nBlockXSize * nBlockYSize,
                   nBlockXSize * nBlockYSize);
            return CE_None;
        }

        unsigned char ** pTempData[3];
        int iBand;
        for(iBand=0;iBand<3;iBand++)
        {
            pTempData[iBand] =
                (unsigned char **) CPLMalloc(h * sizeof(unsigned char*));
            for(i=0;i<h;i++)
                pTempData[iBand][i] = poGDS->pabyRGBData +
                    iBand * nBlockXSize * nBlockYSize + i * nBlockXSize;
        }

        if (w != nBlockXSize || h != nBlockYSize)
            memset(poGDS->pabyRGBData, 0, 3 * nBlockXSize * nBlockYSize);

        if (eps_decode_truecolor_block (pTempData[0], pTempData[1], pTempData[2],
                                        poGDS->pabyBlockData, &hdr) != EPS_OK)
        {
            for(iBand=0;iBand<3;iBand++)
                CPLFree(pTempData[iBand]);
            memset(pImage, 0, nBlockXSize * nBlockYSize);
            return CE_Failure;
        }

        for(iBand=0;iBand<3;iBand++)
            CPLFree(pTempData[iBand]);

        poGDS->nBufferedBlock = nBlock;
        memcpy(pImage,
               poGDS->pabyRGBData + (nBand - 1) * nBlockXSize * nBlockYSize,
               nBlockXSize * nBlockYSize);

        if (nBand == 1)
        {
            int iOtherBand;
            for(iOtherBand=2;iOtherBand<=3;iOtherBand++)
            {
                GDALRasterBlock *poBlock = poGDS->GetRasterBand(iOtherBand)->
                    GetLockedBlockRef(nBlockXOff,nBlockYOff, TRUE);
                if (poBlock == NULL)
                    break;

                GByte* pabySrcBlock = (GByte *) poBlock->GetDataRef();
                if( pabySrcBlock == NULL )
                {
                    poBlock->DropLock();
                    break;
                }

                memcpy(pabySrcBlock,
                       poGDS->pabyRGBData + (iOtherBand - 1) * nBlockXSize * nBlockYSize,
                       nBlockXSize * nBlockYSize);

                poBlock->DropLock();
            }
        }
    }

    return CE_None;
}
CPLErr GDALWMSRasterBand::ReadBlockFromFile(int x, int y, const char *file_name, int to_buffer_band, void *buffer, int advise_read) {
    CPLErr ret = CE_None;
    GDALDataset *ds = 0;
    GByte *color_table = NULL;
    int i;

    //CPLDebug("WMS", "ReadBlockFromFile: to_buffer_band=%d, (x,y)=(%d, %d)", to_buffer_band, x, y);

    /* expected size */
    const int esx = MIN(MAX(0, (x + 1) * nBlockXSize), nRasterXSize) - MIN(MAX(0, x * nBlockXSize), nRasterXSize);
    const int esy = MIN(MAX(0, (y + 1) * nBlockYSize), nRasterYSize) - MIN(MAX(0, y * nBlockYSize), nRasterYSize);
    ds = reinterpret_cast<GDALDataset*>(GDALOpen(file_name, GA_ReadOnly));
    if (ds != NULL) {
        int sx = ds->GetRasterXSize();
        int sy = ds->GetRasterYSize();
        bool accepted_as_no_alpha = false;  // if the request is for 4 bands but the wms returns 3  
        /* Allow bigger than expected so pre-tiled constant size images work on corners */
        if ((sx > nBlockXSize) || (sy > nBlockYSize) || (sx < esx) || (sy < esy)) {
            CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Incorrect size %d x %d of downloaded block, expected %d x %d, max %d x %d.",
                sx, sy, esx, esy, nBlockXSize, nBlockYSize);
            ret = CE_Failure;
        }
        if (ret == CE_None) {
            int nDSRasterCount = ds->GetRasterCount();
            if (nDSRasterCount != m_parent_dataset->nBands) {
                /* Maybe its an image with color table */
                bool accepted_as_ct = false;
                if ((eDataType == GDT_Byte) && (ds->GetRasterCount() == 1)) {
                    GDALRasterBand *rb = ds->GetRasterBand(1);
                    if (rb->GetRasterDataType() == GDT_Byte) {
                        GDALColorTable *ct = rb->GetColorTable();
                        if (ct != NULL) {
                            accepted_as_ct = true;
                            if (!advise_read) {
                                color_table = new GByte[256 * 4];
                                const int count = MIN(256, ct->GetColorEntryCount());
                                for (i = 0; i < count; ++i) {
                                    GDALColorEntry ce;
                                    ct->GetColorEntryAsRGB(i, &ce);
                                    color_table[i] = static_cast<GByte>(ce.c1);
                                    color_table[i + 256] = static_cast<GByte>(ce.c2);
                                    color_table[i + 512] = static_cast<GByte>(ce.c3);
                                    color_table[i + 768] = static_cast<GByte>(ce.c4);
                                }
                                for (i = count; i < 256; ++i) {
                                    color_table[i] = 0;
                                    color_table[i + 256] = 0;
                                    color_table[i + 512] = 0;
                                    color_table[i + 768] = 0;
                                }
                            }
                        }
                    }
                }

                if (nDSRasterCount == 4 && m_parent_dataset->nBands == 3)
                {
                    /* metacarta TMS service sometimes return a 4 band PNG instead of the expected 3 band... */
                }
                else if (!accepted_as_ct) {
                   if (ds->GetRasterCount()==3 && m_parent_dataset->nBands == 4 && (eDataType == GDT_Byte))
                   { // WMS returned a file with no alpha so we will fill the alpha band with "opaque" 
                      accepted_as_no_alpha = true;
                   }
                   else
                   {
                      CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Incorrect bands count %d in downloaded block, expected %d.",
                         nDSRasterCount, m_parent_dataset->nBands);
                      ret = CE_Failure;
                   }
                }
            }
        }
        if (!advise_read) {
            for (int ib = 1; ib <= m_parent_dataset->nBands; ++ib) {
                if (ret == CE_None) {
                    void *p = NULL;
                    GDALRasterBlock *b = NULL;
                    if ((buffer != NULL) && (ib == to_buffer_band)) {
                        p = buffer;
                    } else {
                        GDALWMSRasterBand *band = static_cast<GDALWMSRasterBand *>(m_parent_dataset->GetRasterBand(ib));
                        if (m_overview >= 0) band = static_cast<GDALWMSRasterBand *>(band->GetOverview(m_overview));
                        if (!band->IsBlockInCache(x, y)) {
                            b = band->GetLockedBlockRef(x, y, true);
                            if (b != NULL) {
                                p = b->GetDataRef();
                                if (p == NULL) {
                                  CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: GetDataRef returned NULL.");
                                  ret = CE_Failure;
                                }
                            }
                        }
                        else
                        {
                            //CPLDebug("WMS", "Band %d, block (x,y)=(%d, %d) already in cache", band->GetBand(), x, y);
                        }
                    }
                    if (p != NULL) {
                        int pixel_space = GDALGetDataTypeSize(eDataType) / 8;
                        int line_space = pixel_space * nBlockXSize;
                        if (color_table == NULL) {
                            if( ib <= ds->GetRasterCount()) {
                               if (ds->RasterIO(GF_Read, 0, 0, sx, sy, p, sx, sy, eDataType, 1, &ib, pixel_space, line_space, 0) != CE_None) {
                                   CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: RasterIO failed on downloaded block.");
                                   ret = CE_Failure;
                               }
                            }
                            else
                            {  // parent expects 4 bands but file only has 3 so generate a all "opaque" 4th band
                               if (accepted_as_no_alpha)
                               {
                                  // the file had 3 bands and we are reading band 4 (Alpha) so fill with 255 (no alpha)
                                  GByte *byte_buffer = reinterpret_cast<GByte *>(p);
                                  for (int y = 0; y < sy; ++y) {
                                     for (int x = 0; x < sx; ++x) {
                                        const int offset = x + y * line_space;
                                        byte_buffer[offset] = 255;  // fill with opaque
                                     }
                                  }
                               }
                               else
                               {  // we should never get here because this case was caught above
                                  CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Incorrect bands count %d in downloaded block, expected %d.",
                                     ds->GetRasterCount(), m_parent_dataset->nBands);
                                  ret = CE_Failure;
                               }     
                            }
                        } else if (ib <= 4) {
                            if (ds->RasterIO(GF_Read, 0, 0, sx, sy, p, sx, sy, eDataType, 1, NULL, pixel_space, line_space, 0) != CE_None) {
                                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: RasterIO failed on downloaded block.");
                                ret = CE_Failure;
                            }
                            if (ret == CE_None) {
                                GByte *band_color_table = color_table + 256 * (ib - 1);
                                GByte *byte_buffer = reinterpret_cast<GByte *>(p);
                                for (int y = 0; y < sy; ++y) {
                                    for (int x = 0; x < sx; ++x) {
                                        const int offset = x + y * line_space;
                                        byte_buffer[offset] = band_color_table[byte_buffer[offset]];
                                    }
                                }
                            }
                        } else {
                            CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Color table supports at most 4 components.");
                            ret = CE_Failure;
                        }
                    }
                    if (b != NULL) {
                        b->DropLock();
                    }
                }
            }
        }
        GDALClose(ds);
    } else {
        CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Unable to open downloaded block.");
        ret = CE_Failure;
    }

    if (color_table != NULL) {
        delete[] color_table;
    }

    return ret;
}
Exemple #7
0
CPLErr VRTWarpedDataset::ProcessBlock( int iBlockX, int iBlockY )

{
    if( poWarper == NULL )
        return CE_Failure;

    const GDALWarpOptions *psWO = poWarper->GetOptions();

/* -------------------------------------------------------------------- */
/*      Allocate block of memory large enough to hold all the bands     */
/*      for this block.                                                 */
/* -------------------------------------------------------------------- */
    int iBand;
    GByte *pabyDstBuffer;
    int   nDstBufferSize;
    int   nWordSize = (GDALGetDataTypeSize(psWO->eWorkingDataType) / 8);

    // FIXME? : risk of overflow in multiplication if nBlockXSize or nBlockYSize are very large
    nDstBufferSize = nBlockXSize * nBlockYSize * psWO->nBandCount * nWordSize;

    pabyDstBuffer = (GByte *) VSIMalloc(nDstBufferSize);

    if( pabyDstBuffer == NULL )
    {
        CPLError( CE_Failure, CPLE_OutOfMemory,
                  "Out of memory allocating %d byte buffer in VRTWarpedDataset::ProcessBlock()",
                  nDstBufferSize );
        return CE_Failure;
    }				

    memset( pabyDstBuffer, 0, nDstBufferSize );

/* -------------------------------------------------------------------- */
/*      Process INIT_DEST option to initialize the buffer prior to      */
/*      warping into it.                                                */
/* NOTE:The following code is 99% similar in gdalwarpoperation.cpp and  */
/*      vrtwarped.cpp. Be careful to keep it in sync !                  */
/* -------------------------------------------------------------------- */
    const char *pszInitDest = CSLFetchNameValue( psWO->papszWarpOptions,
                                                 "INIT_DEST" );

    if( pszInitDest != NULL && !EQUAL(pszInitDest, "") )
    {
        char **papszInitValues = 
            CSLTokenizeStringComplex( pszInitDest, ",", FALSE, FALSE );
        int nInitCount = CSLCount(papszInitValues);
                                                           
        for( iBand = 0; iBand < psWO->nBandCount; iBand++ )
        {
            double adfInitRealImag[2];
            GByte *pBandData;
            int nBandSize = nBlockXSize * nBlockYSize * nWordSize;
            const char *pszBandInit = papszInitValues[MIN(iBand,nInitCount-1)];

            if( EQUAL(pszBandInit,"NO_DATA")
                && psWO->padfDstNoDataReal != NULL )
            {
                adfInitRealImag[0] = psWO->padfDstNoDataReal[iBand];
                adfInitRealImag[1] = psWO->padfDstNoDataImag[iBand];
            }
            else
            {
                CPLStringToComplex( pszBandInit,
                                    adfInitRealImag + 0, adfInitRealImag + 1);
            }

            pBandData = ((GByte *) pabyDstBuffer) + iBand * nBandSize;
            
            if( psWO->eWorkingDataType == GDT_Byte )
                memset( pBandData, 
                        MAX(0,MIN(255,(int)adfInitRealImag[0])), 
                        nBandSize);
            else if( adfInitRealImag[0] == 0.0 && adfInitRealImag[1] == 0 )
            {
                memset( pBandData, 0, nBandSize );
            }
            else if( adfInitRealImag[1] == 0.0 )
            {
                GDALCopyWords( &adfInitRealImag, GDT_Float64, 0, 
                               pBandData,psWO->eWorkingDataType,nWordSize,
                               nBlockXSize * nBlockYSize );
            }
            else
            {
                GDALCopyWords( &adfInitRealImag, GDT_CFloat64, 0, 
                               pBandData,psWO->eWorkingDataType,nWordSize,
                               nBlockXSize * nBlockYSize );
            }
        }

        CSLDestroy( papszInitValues );
    }

/* -------------------------------------------------------------------- */
/*      Warp into this buffer.                                          */
/* -------------------------------------------------------------------- */
    CPLErr eErr;

    eErr = 
        poWarper->WarpRegionToBuffer( 
            iBlockX * nBlockXSize, iBlockY * nBlockYSize, 
            nBlockXSize, nBlockYSize,
            pabyDstBuffer, psWO->eWorkingDataType );

    if( eErr != CE_None )
    {
        VSIFree( pabyDstBuffer );
        return eErr;
    }
                        
/* -------------------------------------------------------------------- */
/*      Copy out into cache blocks for each band.                       */
/* -------------------------------------------------------------------- */
    for( iBand = 0; iBand < psWO->nBandCount; iBand++ )
    {
        GDALRasterBand *poBand;
        GDALRasterBlock *poBlock;

        poBand = GetRasterBand(iBand+1);
        poBlock = poBand->GetLockedBlockRef( iBlockX, iBlockY, TRUE );

        CPLAssert( poBlock != NULL && poBlock->GetDataRef() != NULL );

        GDALCopyWords( pabyDstBuffer + iBand*nBlockXSize*nBlockYSize*nWordSize,
                       psWO->eWorkingDataType, nWordSize, 
                       poBlock->GetDataRef(), 
                       poBlock->GetDataType(), 
                       GDALGetDataTypeSize(poBlock->GetDataType())/8,
                       nBlockXSize * nBlockYSize );

        poBlock->DropLock();
    }

    VSIFree( pabyDstBuffer );
    
    return CE_None;
}
Exemple #8
0
CPLErr JP2LuraRasterBand::IReadBlock(int nBlockXOff, int nBlockYOff,
                                     void * pImage)
{
    JP2LuraDataset *poGDS = reinterpret_cast<JP2LuraDataset *>(poDS);
#ifdef DEBUG_VERBOSE
    CPLDebug("JP2Lura", "IReadBlock(nBand=%d,nLevel=%d %d,%d)",
             nBand, poGDS->iLevel, nBlockXOff, nBlockYOff);
#endif
    int nXOff = nBlockXOff * nBlockXSize;
    int nYOff = nBlockYOff * nBlockYSize;
    int nXSize = nBlockXSize;
    int nYSize = nBlockYSize;
    if( nXOff + nXSize > nRasterXSize )
        nXSize = nRasterXSize - nXOff;
    if( nYOff + nYSize > nRasterYSize )
        nYSize = nRasterYSize - nYOff;
    GDALRasterIOExtraArg sExtraArgs;
    INIT_RASTERIO_EXTRA_ARG(sExtraArgs);
    const int nDTSizeBytes = GDALGetDataTypeSizeBytes(eDataType);
    CPLErr eErr = IRasterIO(GF_Read, nXOff, nYOff, nXSize, nYSize,
                            pImage, nXSize, nYSize,
                            eDataType,
                            nDTSizeBytes,
                            nDTSizeBytes * nXSize,
                            &sExtraArgs);

    // Unpack previously packed buffer if needed
    if( eErr == CE_None && nXSize < nBlockXSize )
    {
        GByte* pabyData = reinterpret_cast<GByte*>(pImage);
        for( int j = nYSize - 1; j >= 0; --j )
        {
            memmove( pabyData + j * nBlockXSize * nDTSizeBytes,
                     pabyData + j * nXSize * nDTSizeBytes,
                     nXSize * nDTSizeBytes );
        }
    }

    // Caching other bands while we have the cached buffer valid
    for( int iBand = 1;eErr == CE_None && iBand <= poGDS->nBands; iBand++ )
    {
        if( iBand == nBand )
            continue;
        JP2LuraRasterBand* poOtherBand =
            reinterpret_cast<JP2LuraRasterBand*>(poGDS->GetRasterBand(iBand));
        GDALRasterBlock* poBlock = poOtherBand->
                                TryGetLockedBlockRef(nBlockXOff,nBlockYOff);
        if (poBlock != nullptr)
        {
            poBlock->DropLock();
            continue;
        }

        poBlock = poOtherBand->
                            GetLockedBlockRef(nBlockXOff,nBlockYOff, TRUE);
        if (poBlock == nullptr)
        {
            continue;
        }

        GByte* pabyData = reinterpret_cast<GByte*>(poBlock->GetDataRef());
        eErr = poOtherBand->IRasterIO(GF_Read, nXOff, nYOff, nXSize, nYSize,
                        pabyData, nXSize, nYSize,
                        eDataType,
                        nDTSizeBytes,
                        nDTSizeBytes * nXSize,
                        &sExtraArgs);

        // Unpack previously packed buffer if needed
        if( eErr == CE_None && nXSize < nBlockXSize )
        {
            for( int j = nYSize - 1; j >= 0; --j )
            {
                memmove( pabyData + j * nBlockXSize * nDTSizeBytes,
                        pabyData + j * nXSize * nDTSizeBytes,
                        nXSize * nDTSizeBytes );
            }
        }

        poBlock->DropLock();
    }

    return eErr;
}
Exemple #9
0
CPLErr GDALMRFRasterBand::IWriteBlock(int xblk, int yblk, void *buffer)

{
    GInt32 cstride = img.pagesize.c;
    ILSize req(xblk, yblk, 0, (nBand-1)/cstride, m_l);
    GUIntBig infooffset = IdxOffset(req, img);

    CPLDebug("MRF_IB", "IWriteBlock %d,%d,0,%d, level  %d, stride %d\n", xblk, yblk,
        nBand, m_l, cstride);

    // Finish the Create call
    if (!poDS->bCrystalized)
        poDS->Crystalize();

    if (1 == cstride) {     // Separate bands, we can write it as is
        // Empty page skip

        int success;
        double val = GetNoDataValue(&success);
        if (!success) val = 0.0;
        if (isAllVal(eDataType, buffer, img.pageSizeBytes, val))
            return poDS->WriteTile(nullptr, infooffset, 0);

        // Use the pbuffer to hold the compressed page before writing it
        poDS->tile = ILSize(); // Mark it corrupt

        buf_mgr src;
        src.buffer = (char *)buffer;
        src.size = static_cast<size_t>(img.pageSizeBytes);
        buf_mgr dst = {(char *)poDS->GetPBuffer(), poDS->GetPBufferSize()};

        // Swab the source before encoding if we need to
        if (is_Endianess_Dependent(img.dt, img.comp) && (img.nbo != NET_ORDER))
            swab_buff(src, img);

        // Compress functions need to return the compressed size in
        // the bytes in buffer field
        Compress(dst, src);
        void *usebuff = dst.buffer;
        if (deflatep) {
            usebuff = DeflateBlock(dst, poDS->pbsize - dst.size, deflate_flags);
            if (!usebuff) {
                CPLError(CE_Failure,CPLE_AppDefined, "MRF: Deflate error");
                return CE_Failure;
            }
        }
        return poDS->WriteTile(usebuff, infooffset , dst.size);
    }

    // Multiple bands per page, use a temporary to assemble the page
    // Temporary is large because we use it to hold both the uncompressed and the compressed
    poDS->tile=req; poDS->bdirty=0;

    // Keep track of what bands are empty
    GUIntBig empties=0;

    void *tbuffer = VSIMalloc(img.pageSizeBytes + poDS->pbsize);

    if (!tbuffer) {
        CPLError(CE_Failure,CPLE_AppDefined, "MRF: Can't allocate write buffer");
        return CE_Failure;
    }

    // Get the other bands from the block cache
    for (int iBand=0; iBand < poDS->nBands; iBand++ )
    {
        char *pabyThisImage = nullptr;
        GDALRasterBlock *poBlock = nullptr;

        if (iBand == nBand-1)
        {
            pabyThisImage = reinterpret_cast<char *>(buffer);
            poDS->bdirty |= bandbit();
        } else {
            GDALRasterBand *band = poDS->GetRasterBand(iBand +1);
            // Pick the right overview
            if (m_l) band = band->GetOverview(m_l -1);
            poBlock = (reinterpret_cast<GDALMRFRasterBand *>(band))->TryGetLockedBlockRef(xblk, yblk);
            if (nullptr==poBlock) continue;
            // This is where the image data is for this band

            pabyThisImage = reinterpret_cast<char*>(poBlock->GetDataRef());
            poDS->bdirty |= bandbit(iBand);
        }

        // Keep track of empty bands, but encode them anyhow, in case some are not empty
        int success;
        double val = GetNoDataValue(&success);
        if (!success) val = 0.0;
        if (isAllVal(eDataType, pabyThisImage, blockSizeBytes(), val))
            empties |= bandbit(iBand);

        // Copy the data into the dataset buffer here
        // Just the right mix of templates and macros make this real tidy
#define CpySO(T) cpy_stride_out<T> ((reinterpret_cast<T *>(tbuffer))+iBand, pabyThisImage,\
                blockSizeBytes()/sizeof(T), cstride)

        // Build the page in tbuffer
        switch (GDALGetDataTypeSize(eDataType)/8)
        {
            case 1: CpySO(GByte); break;
            case 2: CpySO(GInt16); break;
            case 4: CpySO(GInt32); break;
            case 8: CpySO(GIntBig); break;
            default:
            {
                CPLError(CE_Failure,CPLE_AppDefined, "MRF: Write datatype of %d bytes "
                        "not implemented", GDALGetDataTypeSize(eDataType)/8);
                if (poBlock != nullptr)
                {
                    poBlock->MarkClean();
                    poBlock->DropLock();
                }
                CPLFree(tbuffer);
                return CE_Failure;
            }
        }

        if (poBlock != nullptr)
        {
            poBlock->MarkClean();
            poBlock->DropLock();
        }
    }

    // Should keep track of the individual band buffers and only mix them if this is not
    // an empty page ( move the Copy with Stride Out from above below this test
    // This way works fine, but it does work extra for empty pages

    if (GIntBig(empties) == AllBandMask()) {
        CPLFree(tbuffer);
        return poDS->WriteTile(nullptr, infooffset, 0);
    }

    if (poDS->bdirty != AllBandMask())
        CPLError(CE_Warning, CPLE_AppDefined,
        "MRF: IWrite, band dirty mask is " CPL_FRMT_GIB " instead of " CPL_FRMT_GIB,
        poDS->bdirty, AllBandMask());

    buf_mgr src;
    src.buffer = (char *)tbuffer;
    src.size = static_cast<size_t>(img.pageSizeBytes);

    // Use the space after pagesizebytes for compressed output, it is of pbsize
    char *outbuff = (char *)tbuffer + img.pageSizeBytes;

    buf_mgr dst = {outbuff, poDS->pbsize};
    CPLErr ret;

    ret = Compress(dst, src);
    if (ret != CE_None) {
        // Compress failed, write it as an empty tile
        CPLFree(tbuffer);
        poDS->WriteTile(nullptr, infooffset, 0);
        return CE_None; // Should report the error, but it triggers partial band attempts
    }

    // Where the output is, in case we deflate
    void *usebuff = outbuff;
    if (deflatep) {
        // Move the packed part at the start of tbuffer, to make more space available
        memcpy(tbuffer, outbuff, dst.size);
        dst.buffer = (char *)tbuffer;
        usebuff = DeflateBlock(dst, img.pageSizeBytes + poDS->pbsize - dst.size, deflate_flags);
        if (!usebuff) {
            CPLError(CE_Failure,CPLE_AppDefined, "MRF: Deflate error");
            CPLFree(tbuffer);
            poDS->WriteTile(nullptr, infooffset, 0);
            poDS->bdirty = 0;
            return CE_Failure;
        }
    }

    ret = poDS->WriteTile(usebuff, infooffset, dst.size);
    CPLFree(tbuffer);

    poDS->bdirty = 0;
    return ret;
}