X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=src%2FgdcmPixelReadConvert.cxx;h=45aaf812dd75df17a02bc981bebf4232b6f29c06;hb=fc4f7706c78baf3f60474c06d871b82db221f37b;hp=487c44cebc29448ac5f948906260d683b6f2b9e1;hpb=600bd74338ba921e7a05ffbba021463428065657;p=gdcm.git diff --git a/src/gdcmPixelReadConvert.cxx b/src/gdcmPixelReadConvert.cxx index 487c44ce..45aaf812 100644 --- a/src/gdcmPixelReadConvert.cxx +++ b/src/gdcmPixelReadConvert.cxx @@ -3,8 +3,8 @@ Program: gdcm Module: $RCSfile: gdcmPixelReadConvert.cxx,v $ Language: C++ - Date: $Date: 2005/11/09 11:04:20 $ - Version: $Revision: 1.99 $ + Date: $Date: 2008/05/20 09:22:03 $ + Version: $Revision: 1.128 $ Copyright (c) CREATIS (Centre de Recherche et d'Applications en Traitement de l'Image). All rights reserved. See Doc/License.txt or @@ -24,14 +24,19 @@ #include "gdcmDocEntry.h" #include "gdcmRLEFramesInfo.h" #include "gdcmJPEGFragmentsInfo.h" +#include "gdcmSegmentedPalette.h" #include #include //for sscanf -namespace gdcm +#if defined(__BORLANDC__) + #include // for memset +#endif + +namespace GDCM_NAME_SPACE { -bool ReadMPEGFile (std::ifstream *fp, char *inputdata, size_t lenght); +//bool ReadMPEGFile (std::ifstream *fp, char *inputdata, size_t lenght); bool gdcm_read_JPEG2000_file (void* raw, char *inputdata, size_t inputlength); //----------------------------------------------------------------------------- @@ -40,7 +45,7 @@ bool gdcm_read_JPEG2000_file (void* raw, //----------------------------------------------------------------------------- // Constructor / Destructor /// Constructor -PixelReadConvert::PixelReadConvert() +PixelReadConvert::PixelReadConvert() { RGB = 0; RGBSize = 0; @@ -66,7 +71,7 @@ PixelReadConvert::~PixelReadConvert() // Public /** * \brief Predicate to know whether the image[s] (once Raw) is RGB. - * \note See comments of \ref ConvertHandleColor + * \note See comments of ConvertHandleColor */ bool PixelReadConvert::IsRawRGB() { @@ -81,8 +86,10 @@ bool PixelReadConvert::IsRawRGB() /** * \brief Gets various usefull informations from the file header * @param file gdcm::File pointer + * @param fileHelper gdcm::FileHelper pointer */ -void PixelReadConvert::GrabInformationsFromFile( File *file ) +void PixelReadConvert::GrabInformationsFromFile( File *file, + FileHelper *fileHelper ) { // Number of Bits Allocated for storing a Pixel is defaulted to 16 // when absent from the file. @@ -91,6 +98,10 @@ void PixelReadConvert::GrabInformationsFromFile( File *file ) { BitsAllocated = 16; } + else if ( BitsAllocated > 8 && BitsAllocated < 16 && BitsAllocated != 12 ) + { + BitsAllocated = 16; + } // Number of "Bits Stored", defaulted to number of "Bits Allocated" // when absent from the file. @@ -110,53 +121,59 @@ void PixelReadConvert::GrabInformationsFromFile( File *file ) XSize = file->GetXSize(); YSize = file->GetYSize(); ZSize = file->GetZSize(); + TSize = file->GetTSize(); SamplesPerPixel = file->GetSamplesPerPixel(); //PixelSize = file->GetPixelSize(); Useless PixelSign = file->IsSignedPixelData(); SwapCode = file->GetSwapCode(); - - if (! file->IsDicomV3() ) // Should be ACR-NEMA file - { - IsRaw = true; - // Don't loose time checking unexistant Transfer Syntax ! - IsPrivateGETransferSyntax = IsMPEG + + IsPrivateGETransferSyntax = IsMPEG = IsJPEG2000 = IsJPEGLS = IsJPEGLossy = IsJPEGLossless = IsRLELossless = false; + + if (! file->IsDicomV3() ) // Should be ACR-NEMA file + { + IsRaw = true; } else { std::string ts = file->GetTransferSyntax(); IsRaw = false; - while (true) + while (true) // shorter to write than 'if elseif elseif elseif' ... { // mind the order : check the most usual first. - if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ExplicitVRLittleEndian) break; - if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ImplicitVRLittleEndian ) break; - if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ExplicitVRBigEndian) break; - if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ImplicitVRBigEndianPrivateGE) break; - if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::DeflatedExplicitVRLittleEndian) break; + if( IsRaw = (Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ExplicitVRLittleEndian)) break; + if( IsRaw = (Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ImplicitVRLittleEndian)) break; + if( IsRaw = (Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ExplicitVRBigEndian)) break; + if( IsRaw = (Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ImplicitVRBigEndianPrivateGE)) break; + // DeflatedExplicitVRLittleEndian syntax means the whole Dataset (Header + Pixels) is compressed ! + // Not dealt with ! (Parser hangs) + //if( IsRaw = Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::DeflatedExplicitVRLittleEndian) break; break; } - + // cache whether this is a strange GE transfer syntax (which uses + // a little endian transfer syntax for the header and a big endian + // transfer syntax for the pixel data). IsPrivateGETransferSyntax = ( Global::GetTS()->GetSpecialTransferSyntax(ts) == TS::ImplicitVRBigEndianPrivateGE ); - IsMPEG = IsJPEG2000 = IsJPEGLS = IsJPEGLossy = IsJPEGLossless = IsRLELossless = false; - + IsMPEG = IsJPEG2000 = IsJPEGLS = IsJPEGLossy = IsJPEGLossless = IsRLELossless = false; if (!IsRaw) - { + { while(true) { // mind the order : check the most usual first. - if( IsJPEGLossy = Global::GetTS()->IsJPEGLossy(ts) ) break; - if( IsJPEGLossless = Global::GetTS()->IsJPEGLossless(ts) ) break; - if( IsRLELossless = Global::GetTS()->IsRLELossless(ts) ) break; - if( IsJPEG2000 = Global::GetTS()->IsJPEG2000(ts) ) break; - if( IsMPEG = Global::GetTS()->IsMPEG(ts) ) break; - if( IsJPEGLS = Global::GetTS()->IsJPEGLS(ts) ) break; - gdcmWarningMacro("Unexepected Transfer Syntax :[" << ts << "]"); + if( IsJPEGLossy = (Global::GetTS()->IsJPEGLossy(ts))) break; + if( IsJPEGLossless = (Global::GetTS()->IsJPEGLossless(ts))) break; + if( IsRLELossless = (Global::GetTS()->IsRLELossless(ts))) break; + if( IsJPEG2000 = (Global::GetTS()->IsJPEG2000(ts))) break; + if( IsMPEG = (Global::GetTS()->IsMPEG(ts))) break; + if( IsJPEGLS = (Global::GetTS()->IsJPEGLS(ts))) break; + // DeflatedExplicitVRLittleEndian is considered as 'Unexpected' + // (we don't know yet how to process !) + gdcmWarningMacro("Unexpected Transfer Syntax :[" << ts << "]"); break; } } @@ -179,54 +196,117 @@ void PixelReadConvert::GrabInformationsFromFile( File *file ) HasLUT = file->HasLUT(); if ( HasLUT ) { - // Just in case some access to a File element requires disk access. +/* + C.7.6.3.1.5 + The three values of Palette Color Lookup Table Descriptor (0028,1101-1103) + describe the format of the Lookup Table Data in the corresponding + Data Element (0028,1201-1203) or (0028,1221-1223). + + The first value is the number of entries in the lookup table. + When the number of table entries is equal to 2**16 then this value shall be 0. + + The second value is the first stored pixel value mapped. + This pixel value is mapped to the first entry in the Lookup Table Data. + All image pixel values less than the first entry value mapped are also + mapped to the first entry in the Lookup Table Data. + An image pixel value one greater than the first entry value mapped is + mapped to the second entry in the Lookup Table Data. + Subsequent image pixel values are mapped to the subsequent entries in + the Lookup Table Data up to an image pixel value equal to number of + entries + first entry value mapped - 1 which is mapped to the last entry + in the Lookup Table Data. + Image pixel values greater than or equal to number of entries + first entry + value mapped are also mapped to the last entry in the Lookup Table Data. + + The third value specifies the number of bits for each entry in the Lookup + Table Data. It shall take the value of 8 or 16. + The LUT Data shall be stored in a format equivalent to 8 or 16 bits + allocated where the high bit is equal to bits allocated-1. + + When the Palette Color Lookup Table Descriptor (0028,1101-1103) are used as + part of the Palette Color Lookup Table Module, the third value shall be + equal to 16. + + Note: A value of 16 indicates the Lookup Table Data will range from (0,0,0) + minimum intensity to (65535,65535,65535) maximum intensity. + +*/ + + // Just in case some access to a File element requires disk access. LutRedDescriptor = file->GetEntryString( 0x0028, 0x1101 ); LutGreenDescriptor = file->GetEntryString( 0x0028, 0x1102 ); LutBlueDescriptor = file->GetEntryString( 0x0028, 0x1103 ); - - // FIXME : The following comment is probabely meaningless, since LUT are *always* - // loaded at parsing time, whatever their length is. - - // Depending on the value of Document::MAX_SIZE_LOAD_ELEMENT_VALUE - // [ refer to invocation of Document::SetMaxSizeLoadEntry() in - // Document::Document() ], the loading of the value (content) of a - // [Bin|Val]Entry occurence migth have been hindered (read simply NOT - // loaded). Hence, we first try to obtain the LUTs data from the file - // and when this fails we read the LUTs data directly from disk. - // \TODO Reading a [Bin|Val]Entry directly from disk is a kludge. - // We should NOT bypass the [Bin|Val]Entry class. Instead - // an access to an UNLOADED content of a [Bin|Val]Entry occurence - // (e.g. DataEntry::GetBinArea()) should force disk access from - // within the [Bin|Val]Entry class itself. The only problem - // is that the [Bin|Val]Entry is unaware of the FILE* is was - // parsed from. Fix that. FIXME. - - // //// Red round - file->LoadEntryBinArea(0x0028, 0x1201); - LutRedData = (uint8_t*)file->GetEntryBinArea( 0x0028, 0x1201 ); - if ( ! LutRedData ) - { - gdcmWarningMacro("Unable to read Red Palette Color Lookup Table data"); - } - - // //// Green round: - file->LoadEntryBinArea(0x0028, 0x1202); - LutGreenData = (uint8_t*)file->GetEntryBinArea(0x0028, 0x1202 ); - if ( ! LutGreenData) - { - gdcmWarningMacro("Unable to read Green Palette Color Lookup Table data"); - } - - // //// Blue round: - file->LoadEntryBinArea(0x0028, 0x1203); - LutBlueData = (uint8_t*)file->GetEntryBinArea( 0x0028, 0x1203 ); - if ( ! LutBlueData ) - { - gdcmWarningMacro("Unable to read Blue Palette Color Lookup Table data"); - } + // Is it a Segmented Palette ? Check if we find the red one: + if( file->GetDocEntry(0x0028,0x1221) ) // no need to check for blue & green + { + GDCM_NAME_SPACE::TagKey DCM_RedPaletteColorLookupTableDescriptor (0x0028, 0x1101); + GDCM_NAME_SPACE::TagKey DCM_GreenPaletteColorLookupTableDescriptor (0x0028, 0x1102); + GDCM_NAME_SPACE::TagKey DCM_BluePaletteColorLookupTableDescriptor (0x0028, 0x1103); + + GDCM_NAME_SPACE::TagKey DCM_SegmentedRedPaletteColorLookupTableData (0x0028, 0x1221); + GDCM_NAME_SPACE::TagKey DCM_SegmentedGreenPaletteColorLookupTableData (0x0028, 0x1222); + GDCM_NAME_SPACE::TagKey DCM_SegmentedBluePaletteColorLookupTableData (0x0028, 0x1223); + + + LutRedData = new uint8_t[65535*2]; // FIXME: leak + LutGreenData = new uint8_t[65535*2]; + LutBlueData = new uint8_t[65535*2]; + // TODO need to check file is indeed PALETTE COLOR: + ReadPaletteInto(file, DCM_RedPaletteColorLookupTableDescriptor, + DCM_SegmentedRedPaletteColorLookupTableData,LutRedData); + ReadPaletteInto(file, DCM_GreenPaletteColorLookupTableDescriptor, + DCM_SegmentedGreenPaletteColorLookupTableData,LutGreenData); + ReadPaletteInto(file, DCM_BluePaletteColorLookupTableDescriptor, + DCM_SegmentedBluePaletteColorLookupTableData,LutBlueData); + + } + else + { + + // FIXME : The following comment is probabely meaningless, since LUT are *always* + // loaded at parsing time, whatever their length is. + + // Depending on the value of Document::MAX_SIZE_LOAD_ELEMENT_VALUE + // [ refer to invocation of Document::SetMaxSizeLoadEntry() in + // Document::Document() ], the loading of the value (content) of a + // [Bin|Val]Entry occurence migth have been hindered (read simply NOT + // loaded). Hence, we first try to obtain the LUTs data from the file + // and when this fails we read the LUTs data directly from disk. + // \TODO Reading a [Bin|Val]Entry directly from disk is a kludge. + // We should NOT bypass the [Bin|Val]Entry class. Instead + // an access to an UNLOADED content of a [Bin|Val]Entry occurence + // (e.g. DataEntry::GetBinArea()) should force disk access from + // within the [Bin|Val]Entry class itself. The only problem + // is that the [Bin|Val]Entry is unaware of the FILE* is was + // parsed from. Fix that. FIXME. + + // //// Red round + file->LoadEntryBinArea(0x0028, 0x1201); + LutRedData = (uint8_t*)file->GetEntryBinArea( 0x0028, 0x1201 ); + if ( ! LutRedData ) + { + gdcmWarningMacro("Unable to read Red Palette Color Lookup Table data"); + } + + // //// Green round: + file->LoadEntryBinArea(0x0028, 0x1202); + LutGreenData = (uint8_t*)file->GetEntryBinArea(0x0028, 0x1202 ); + if ( ! LutGreenData) + { + gdcmWarningMacro("Unable to read Green Palette Color Lookup Table data"); + } + + // //// Blue round: + file->LoadEntryBinArea(0x0028, 0x1203); + LutBlueData = (uint8_t*)file->GetEntryBinArea( 0x0028, 0x1203 ); + if ( ! LutBlueData ) + { + gdcmWarningMacro("Unable to read Blue Palette Color Lookup Table data"); + } + } } FileInternal = file; - + FH = fileHelper; ComputeRawAndRGBSizes(); } @@ -256,8 +336,19 @@ bool PixelReadConvert::ReadAndDecompressPixelData( std::ifstream *fp ) AllocateRaw(); ////////////////////////////////////////////////// + + CallStartMethod(); // for progress bar + unsigned int count = 0; + unsigned int frameSize; + unsigned int bitsAllocated = BitsAllocated; + //if(bitsAllocated == 12) + if(bitsAllocated > 8 && bitsAllocated < 16) + bitsAllocated = 16; + frameSize = XSize*YSize*SamplesPerPixel*bitsAllocated/8; + //// Second stage: read from disk and decompress. - if ( BitsAllocated == 12 ) + + if ( BitsAllocated == 12 ) // We suppose 'BitsAllocated' = 12 only exist for uncompressed files { ReadAndDecompress12BitsTo16Bits( fp); } @@ -270,16 +361,33 @@ bool PixelReadConvert::ReadAndDecompressPixelData( std::ifstream *fp ) if ( PixelDataLength != RawSize ) { gdcmWarningMacro( "Mismatch between PixelReadConvert : " - << PixelDataLength << " and RawSize : " << RawSize ); + << PixelDataLength << " and RawSize : " << RawSize ); } + + //todo : is it the right patch? + char *raw = (char*)Raw; + uint32_t remainingLength; + unsigned int i; + unsigned int lengthToRead; + if ( PixelDataLength > RawSize ) - { - fp->read( (char*)Raw, RawSize); - } + lengthToRead = RawSize; else + lengthToRead = PixelDataLength; + + // perform a frame by frame reading + remainingLength = lengthToRead; + unsigned int nbFrames = lengthToRead / frameSize; + for (i=0;iread( (char*)Raw, PixelDataLength); + Progress = (float)(count+1)/(float)nbFrames; + fp->read( raw, frameSize); + raw += frameSize; + remainingLength -= frameSize; + count++; } + if (remainingLength !=0 ) + fp->read( raw, remainingLength); if ( fp->fail() || fp->eof()) { @@ -290,7 +398,7 @@ bool PixelReadConvert::ReadAndDecompressPixelData( std::ifstream *fp ) else if ( IsRLELossless ) { if ( ! RLEInfo->DecompressRLEFile - ( fp, Raw, XSize, YSize, ZSize, BitsAllocated ) ) + ( fp, Raw, XSize, YSize, ZSize, TSize, BitsAllocated ) ) { gdcmWarningMacro( "RLE decompressor failed." ); return false; @@ -301,7 +409,7 @@ bool PixelReadConvert::ReadAndDecompressPixelData( std::ifstream *fp ) //gdcmWarningMacro( "Sorry, MPEG not yet taken into account" ); //return false; // fp has already been seek to start of mpeg - ReadMPEGFile(fp, (char*)Raw, PixelDataLength); + //ReadMPEGFile(fp, (char*)Raw, PixelDataLength); return true; } else @@ -310,7 +418,7 @@ bool PixelReadConvert::ReadAndDecompressPixelData( std::ifstream *fp ) if ( ! ReadAndDecompressJPEGFile( fp ) ) { gdcmWarningMacro( "JPEG decompressor ( ReadAndDecompressJPEGFile()" - << " method ) failed." ); + << " method ) failed." ); return false; } } @@ -338,9 +446,9 @@ void PixelReadConvert::Squeeze() delete [] Raw; Raw = 0; - if ( LutRGBA ) - delete [] LutRGBA; - LutRGBA = 0; + //if ( LutRGBA ) + // delete [] LutRGBA; + //LutRGBA = 0; } /** @@ -367,7 +475,7 @@ bool PixelReadConvert::BuildRGBImage() return false; } - gdcmWarningMacro( "--> BuildRGBImage" ); + gdcmDebugMacro( "--> BuildRGBImage" ); // Build RGB Pixels AllocateRGB(); @@ -412,7 +520,8 @@ bool PixelReadConvert::BuildRGBImage() void PixelReadConvert::ReadAndDecompress12BitsTo16Bits( std::ifstream *fp ) throw ( FormatError ) { - int nbPixels = XSize * YSize; + /// \todo Fix the 3D, 4D pb + int nbPixels = XSize * YSize * TSize; uint16_t *localDecompres = (uint16_t*)Raw; for( int p = 0; p < nbPixels; p += 2 ) @@ -469,33 +578,60 @@ bool PixelReadConvert::ReadAndDecompressJPEGFile( std::ifstream *fp ) // jpeg2000 stream to use jasper: // I don't think we'll ever be able to deal with multiple fragments properly - unsigned long inputlength = 0; - JPEGFragment *jpegfrag = JPEGInfo->GetFirstFragment(); - while( jpegfrag ) - { + if( ZSize == 1 ) + { + unsigned long inputlength = 0; + JPEGFragment *jpegfrag = JPEGInfo->GetFirstFragment(); + while( jpegfrag ) + { inputlength += jpegfrag->GetLength(); jpegfrag = JPEGInfo->GetNextFragment(); - } - gdcmAssertMacro( inputlength != 0); - uint8_t *inputdata = new uint8_t[inputlength]; - char *pinputdata = (char*)inputdata; - jpegfrag = JPEGInfo->GetFirstFragment(); - while( jpegfrag ) - { + } + gdcmAssertMacro( inputlength != 0); + uint8_t *inputdata = new uint8_t[inputlength]; + char *pinputdata = (char*)inputdata; + jpegfrag = JPEGInfo->GetFirstFragment(); + while( jpegfrag ) + { fp->seekg( jpegfrag->GetOffset(), std::ios::beg); fp->read(pinputdata, jpegfrag->GetLength()); pinputdata += jpegfrag->GetLength(); jpegfrag = JPEGInfo->GetNextFragment(); - } - // Warning the inputdata buffer is delete in the function - if ( ! gdcm_read_JPEG2000_file( Raw, - (char*)inputdata, inputlength ) ) - { + } + // Warning the inputdata buffer is deleted in the function + if ( gdcm_read_JPEG2000_file( Raw, + (char*)inputdata, inputlength ) ) + { return true; - } - // wow what happen, must be an error - gdcmWarningMacro( "gdcm_read_JPEG2000_file() failed "); - return false; + } + // wow what happen, must be an error + gdcmWarningMacro( "gdcm_read_JPEG2000_file() failed "); + return false; + } + else + { + if( (unsigned int)ZSize != JPEGInfo->GetFragmentCount() ) + { + gdcmErrorMacro( "Sorry GDCM does not handle this type of fragments" ); + return false; + } + // Hopefully every dicom fragment is *exactly* the j2k stream + JPEGFragment *jpegfrag = JPEGInfo->GetFirstFragment(); + char *praw = (char*)Raw; + while( jpegfrag ) + { + unsigned long inputlength = jpegfrag->GetLength(); + char *inputdata = new char[inputlength]; + fp->seekg( jpegfrag->GetOffset(), std::ios::beg); + fp->read(inputdata, jpegfrag->GetLength()); + // Warning the inputdata buffer is deleted in the function + gdcm_read_JPEG2000_file( praw, + inputdata, inputlength) ; + praw += XSize*YSize*SamplesPerPixel*(BitsAllocated/8); + jpegfrag = JPEGInfo->GetNextFragment(); + } + return true; + } } else if ( IsJPEGLS ) { @@ -543,17 +679,25 @@ bool PixelReadConvert::ReadAndDecompressJPEGFile( std::ifstream *fp ) // if ( ! gdcm_read_JPEGLS_file( fp,Raw ) ) return false; } - else + else if( JPEGInfo ) { // make sure this is the right JPEG compression assert( !IsJPEGLS || !IsJPEG2000 ); // Precompute the offset localRaw will be shifted with - int length = XSize * YSize * SamplesPerPixel; + int length = XSize * YSize * ZSize * SamplesPerPixel; int numberBytes = BitsAllocated / 8; - JPEGInfo->DecompressFromFile(fp, Raw, BitsStored, numberBytes, length ); + // to avoid major troubles when BitsStored == 8 && BitsAllocated==16 ! + int dummy; + if (BitsStored == 8 && BitsAllocated==16) + dummy = 16; + else + dummy = BitsStored; + JPEGInfo->DecompressFromFile(fp, Raw, dummy, numberBytes, length ); return true; } + //else (not sure how get there...), must be one of those crazy DICOM file + return false; } /** @@ -562,7 +706,7 @@ bool PixelReadConvert::ReadAndDecompressJPEGFile( std::ifstream *fp ) * and * - (0028,1101),(0028,1102),(0028,1102) * xxx Palette Color Lookup Table Descriptor are found - * and + * and * - (0028,1201),(0028,1202),(0028,1202) * xxx Palette Color Lookup Table Data - are found * \warning does NOT deal with : @@ -639,11 +783,11 @@ void PixelReadConvert::BuildLUTRGBA() } gdcmDebugMacro(" lengthR " << lengthR << " debR " - << debR << " nbitsR " << nbitsR); + << debR << " nbitsR " << nbitsR); gdcmDebugMacro(" lengthG " << lengthG << " debG " - << debG << " nbitsG " << nbitsG); + << debG << " nbitsG " << nbitsG); gdcmDebugMacro(" lengthB " << lengthB << " debB " - << debB << " nbitsB " << nbitsB); + << debB << " nbitsB " << nbitsB); if ( !lengthR ) // if = 2^16, this shall be 0 see : CP-143 lengthR=65536; @@ -779,7 +923,7 @@ void PixelReadConvert::BuildLUTRGBA() *a16 = 1; // Alpha component a16 += 4; } -/* Just to 'see' the LUT, at debug time +// Just to 'see' the LUT, at debug time // Don't remove this commented out code. a16=(uint16_t*)LutRGBA; @@ -789,18 +933,17 @@ void PixelReadConvert::BuildLUTRGBA() << *(a16+2) << " " << *(a16+3) << std::endl; a16+=4; } -*/ + } } /** - * \brief Swap the bytes, according to \ref SwapCode. + * \brief Swap the bytes, according to SwapCode. */ void PixelReadConvert::ConvertSwapZone() { unsigned int i; - uint16_t localSwapCode = SwapCode; - + // If this file is 'ImplicitVR BigEndian PrivateGE Transfer Syntax', // then the header is in little endian format and the pixel data is in // big endian format. When reading the header, GDCM has already established @@ -827,26 +970,27 @@ void PixelReadConvert::ConvertSwapZone() // Therefore, in either case, if the file is in // 'ImplicitVR BigEndian PrivateGE Transfer Syntax', then GDCM needs to switch // the byte swapping code when entering the pixel data. - + + int tempSwapCode = SwapCode; if ( IsPrivateGETransferSyntax ) { + gdcmWarningMacro(" IsPrivateGETransferSyntax found; turn the SwapCode"); // PrivateGETransferSyntax only exists for 'true' Dicom images // we assume there is no 'exotic' 32 bits endianess! - switch (localSwapCode) + if (SwapCode == 1234) { - case 1234: - localSwapCode = 4321; - break; - case 4321: - localSwapCode = 1234; - break; - } + tempSwapCode = 4321; + } + else if (SwapCode == 4321) + { + tempSwapCode = 1234; + } } - + if ( BitsAllocated == 16 ) { uint16_t *im16 = (uint16_t*)Raw; - switch( localSwapCode ) + switch( tempSwapCode ) { case 1234: break; @@ -859,7 +1003,8 @@ void PixelReadConvert::ConvertSwapZone() } break; default: - gdcmWarningMacro("SwapCode value (16 bits) not allowed."); + gdcmWarningMacro("SwapCode value (16 bits) not allowed." + << tempSwapCode); } } else if ( BitsAllocated == 32 ) @@ -868,7 +1013,7 @@ void PixelReadConvert::ConvertSwapZone() uint16_t high; uint16_t low; uint32_t *im32 = (uint32_t*)Raw; - switch ( localSwapCode ) + switch ( tempSwapCode ) { case 1234: break; @@ -904,7 +1049,7 @@ void PixelReadConvert::ConvertSwapZone() } break; default: - gdcmWarningMacro("SwapCode value (32 bits) not allowed." ); + gdcmWarningMacro("SwapCode value (32 bits) not allowed." << tempSwapCode ); } } } @@ -1020,27 +1165,38 @@ bool PixelReadConvert::ConvertReArrangeBits() throw ( FormatError ) { // pmask : to mask the 'unused bits' (may contain overlays) uint16_t pmask = 0xffff; - pmask = pmask >> ( BitsAllocated - BitsStored ); + + // It's up to the user to decide if he wants to ignore overlays (if any), + // not to gdcm, without asking. + // default is NOT TO LOAD, in order not to confuse ITK users (and others!). + + if ( !FH->GetKeepOverlays() ) // mask spurious bits ! (overlay are NOT loaded!) + { + pmask = pmask >> ( BitsAllocated - BitsStored ); + } + // else : it's up to the user to manage the 'pixels + overlays' he just loaded! uint16_t *deb = (uint16_t*)Raw; if ( !PixelSign ) // Pixels are unsigned { for(int i = 0; i> (BitsStored - HighBitPosition - 1)) & pmask; deb++; } } else // Pixels are signed { + // Hope there is never ACR-NEMA-like overlays within signed pixels (?!?) + // smask : to check the 'sign' when BitsStored != BitsAllocated uint16_t smask = 0x0001; smask = smask << ( 16 - (BitsAllocated - BitsStored + 1) ); // nmask : to propagate sign bit on negative values int16_t nmask = (int16_t)0x8000; nmask = nmask >> ( BitsAllocated - BitsStored - 1 ); - + for(int i = 0; i> (BitsStored - HighBitPosition - 1); @@ -1142,9 +1298,9 @@ void PixelReadConvert::ConvertYcBcRPlanesToRGBPixels() // except for the few patches of color on the image. // On such images, RLE achieves a compression ratio that is much better // than the compression ratio on an equivalent RGB image. - + gdcmWarningMacro("--> ConvertYcBcRPlanesToRGBPixels"); - + uint8_t *localRaw = Raw; uint8_t *copyRaw = new uint8_t[ RawSize ]; memmove( copyRaw, localRaw, RawSize ); @@ -1154,7 +1310,9 @@ void PixelReadConvert::ConvertYcBcRPlanesToRGBPixels() // ftp://medical.nema.org/medical/dicom/final/sup61_ft.pdf // and be *very* affraid // - int l = XSize * YSize; + + /// \todo : find an example to see how 3rd dim and 4th dim work together + int l = XSize * YSize * TSize; int nbFrames = ZSize; uint8_t *a = copyRaw + 0; @@ -1244,7 +1402,7 @@ void PixelReadConvert::ConvertHandleColor() // - [Planar 2] OR [Photo D] requires LUT intervention. gdcmDebugMacro("--> ConvertHandleColor " - << "Planar Configuration " << PlanarConfiguration ); + << "Planar Configuration " << PlanarConfiguration ); if ( ! IsRawRGB() ) { @@ -1288,13 +1446,13 @@ void PixelReadConvert::ComputeRawAndRGBSizes() int bitsAllocated = BitsAllocated; // Number of "Bits Allocated" is fixed to 16 when it's 12, since // in this case we will expand the image to 16 bits (see - // \ref ReadAndDecompress12BitsTo16Bits() ) + // ReadAndDecompress12BitsTo16Bits() ) if ( BitsAllocated == 12 ) { bitsAllocated = 16; } - RawSize = XSize * YSize * ZSize + RawSize = XSize * YSize * ZSize * TSize * ( bitsAllocated / 8 ) * SamplesPerPixel; if ( HasLUT ) @@ -1305,6 +1463,8 @@ void PixelReadConvert::ComputeRawAndRGBSizes() { RGBSize = RawSize; } + RawSize += RawSize%2; + RGBSize += RGBSize%2; } /// Allocates room for RGB Pixels @@ -1367,6 +1527,33 @@ void PixelReadConvert::Print( std::ostream &os, std::string const &indent ) } } +/** + * \brief CallStartMethod + */ +void PixelReadConvert::CallStartMethod() +{ + Progress = 0.0f; + Abort = false; + CommandManager::ExecuteCommand(FH,CMD_STARTPROGRESS); +} + +/** + * \brief CallProgressMethod + */ +void PixelReadConvert::CallProgressMethod() +{ + CommandManager::ExecuteCommand(FH,CMD_PROGRESS); +} + +/** + * \brief CallEndMethod + */ +void PixelReadConvert::CallEndMethod() +{ + Progress = 1.0f; + CommandManager::ExecuteCommand(FH,CMD_ENDPROGRESS); +} + //----------------------------------------------------------------------------- } // end namespace gdcm