#include #include "gdcmFile.h" #include /* to declare isprint() */ #define str2num(str, typeNum) *((typeNum *)(str)) static int _gdcm_read_RLE_fragment (char ** image_buffer, long lengthToDecode, long uncompressedSegmentSize, FILE* fp); // static because nothing but gdcm_read_RLE_file may call it // ---------------------------------------------------------------------------- /** * \ingroup gdcmFile * \brief Reads a 'Run Length Encoded' Dicom encapsulated file * @param image_buffer destination Address (in caller's memory space) * at which the pixel data should be copied * * @return int acts as a Boolean */ // This is a debug version. // Forget the printf as they will be removed // as soon as the last Heuristics are checked // pb with RLE 16 Bits : int gdcmFile::gdcm_read_RLE_file (void * image_buffer) { long fragmentBegining; // for ftell, fseek char * im = (char *)image_buffer; long RleSegmentLength[15],fragmentLength,uncompressedSegmentSize;; long ftellRes, ln; guint32 nbRleSegments; guint32 RleSegmentOffsetTable[15]; guint16 ItemTagGr,ItemTagEl; uncompressedSegmentSize=GetXSize()*GetYSize(); ftellRes=ftell(fp); // Basic Offset Table with Item Value // Item Tag fread(&ItemTagGr,2,1,fp); // Reading (fffe):Basic Offset Table Item Tag Gr fread(&ItemTagEl,2,1,fp); // Reading (e000):Basic Offset Table Item Tag El if(GetSwapCode()) { ItemTagGr=SwapShort(ItemTagGr); ItemTagEl=SwapShort(ItemTagEl); } // Item Length ftellRes=ftell(fp); fread(&ln,4,1,fp); if(GetSwapCode()) ln=SwapLong(ln); // Basic Offset Table Item Lentgh if (ln != 0) { // What is it used for ?? char * BasicOffsetTableItemValue= (char *)malloc(ln+1); fread(BasicOffsetTableItemValue,ln,1,fp); guint32 a; for (int i=0;i1) { for(int k=1; k<=nbRleSegments-1; k++) { // reading RLE Segments RleSegmentLength[k]=RleSegmentOffsetTable[k+1]-RleSegmentOffsetTable[k]; ftellRes=ftell(fp); fragmentBegining=ftell(fp); _gdcm_read_RLE_fragment (&im, RleSegmentLength[k],uncompressedSegmentSize,fp); fseek(fp,fragmentBegining,SEEK_SET); fseek(fp,RleSegmentLength[k],SEEK_CUR); } } RleSegmentLength[nbRleSegments] = fragmentLength - RleSegmentOffsetTable[nbRleSegments]; ftellRes=ftell(fp); fragmentBegining=ftell(fp); _gdcm_read_RLE_fragment (&im, RleSegmentLength[nbRleSegments],uncompressedSegmentSize, fp); fseek(fp,fragmentBegining,SEEK_SET); fseek(fp,RleSegmentLength[nbRleSegments],SEEK_CUR); // end of scanning fragment pixels ftellRes=ftell(fp); fread(&ItemTagGr,2,1,fp); // Reading (fffe) : Item Tag Gr fread(&ItemTagEl,2,1,fp); // Reading (e000) : Item Tag El if(GetSwapCode()) { ItemTagGr=SwapShort(ItemTagGr); ItemTagEl=SwapShort(ItemTagEl); } } if (GetBitsAllocated()==16) { // try to deal with RLE 16 Bits im = (char *)image_buffer; // need to make 16 Bits Pixels from Low Byte and Hight Byte 'Planes' int l = GetXSize()*GetYSize(); int nbFrames = GetZSize(); char * newDest = (char*) malloc(l*nbFrames*2); char *x = newDest; char * a = (char *)image_buffer; char * b = a + l; for (int i=0;i= 0 && count <= 127) { fread(*areaToRead,(count+1)*sizeof(char),1,fp); *areaToRead+=count+1; numberOfOutputBytes+=count+1; } else { if (count <= -1 && count >= -127) { fread(&car,sizeof(char),1,fp); for(int i=0; i<-count+1; i++) { (*areaToRead)[i]=car; } *areaToRead+=(-count+1); numberOfOutputBytes+=(-count+1); } } // if count = 128 output nothing (See : PS 3.5-2003 Page 86) } return 1; }