1 /*=========================================================================
4 Module: $RCSfile: TestCopyRescaleDicom.cxx,v $
6 Date: $Date: 2005/01/24 16:44:54 $
7 Version: $Revision: 1.10 $
9 Copyright (c) CREATIS (Centre de Recherche et d'Applications en Traitement de
10 l'Image). All rights reserved. See Doc/License.txt or
11 http://www.creatis.insa-lyon.fr/Public/Gdcm/License.html for details.
13 This software is distributed WITHOUT ANY WARRANTY; without even
14 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
15 PURPOSE. See the above copyright notices for more information.
17 =========================================================================*/
19 #include "gdcmFileHelper.h"
20 #include "gdcmValEntry.h"
21 #include "gdcmBinEntry.h"
24 #include "gdcmDataImages.h"
26 bool FileExists(const char* filename);
28 bool RemoveFile(const char* source);
30 int CopyRescaleDicom(std::string const & filename,
31 std::string const & output )
33 std::cout << " Testing: " << filename << std::endl;
34 if( FileExists( output.c_str() ) )
36 // std::cerr << "Don't try to cheat, I am removing the file anyway" << std::endl;
37 if( !RemoveFile( output.c_str() ) )
39 std::cout << "Ouch, the file exist, but I cannot remove it" << std::endl;
44 //////////////// Step 1:
46 gdcm::File *originalH = new gdcm::File( filename );
47 gdcm::File *copyH = new gdcm::File( );
49 //First of all copy the header field by field
51 //////////////// Step 2:
53 // Copy of the header content
54 gdcm::DocEntry* d = originalH->GetFirstEntry();
57 if ( gdcm::BinEntry* b = dynamic_cast<gdcm::BinEntry*>(d) )
66 else if ( gdcm::ValEntry* v = dynamic_cast<gdcm::ValEntry*>(d) )
76 // We skip pb of SQ recursive exploration
79 d=originalH->GetNextEntry();
82 gdcm::FileHelper *original = new gdcm::FileHelper( originalH );
83 gdcm::FileHelper *copy = new gdcm::FileHelper( copyH );
85 size_t dataSize = original->GetImageDataSize();
88 uint8_t *rescaleImage;
90 const std::string & bitsStored = originalH->GetEntryValue(0x0028,0x0101);
91 if( bitsStored == "16" )
93 std::cout << "Rescale...";
94 copyH->Insert( "8", 0x0028, 0x0100); // BitsAllocated
95 copyH->Insert( "8", 0x0028, 0x0101); // BitsStored
96 copyH->Insert( "7", 0x0028, 0x0102); // HighBit
97 copyH->Insert( "0", 0x0028, 0x0103); //Pixel Representation
99 // We assume the value were from 0 to uint16_t max
100 rescaleSize = dataSize / 2;
101 rescaleImage = new uint8_t[dataSize];
103 uint16_t* imageData16 = (uint16_t*)original->GetImageData();
104 for(unsigned int i=0; i<rescaleSize; i++)
106 rescaleImage[i] = imageData16[i]/256;
111 std::cout << "Same...";
112 rescaleSize = dataSize;
113 rescaleImage = new uint8_t[dataSize];
114 memcpy(rescaleImage,original->GetImageData(),dataSize);
117 copy->SetImageData(rescaleImage, rescaleSize);
119 //////////////// Step 3:
121 copy->SetWriteModeToRGB();
122 if( !copy->WriteDcmExplVR(output) )
124 std::cout << " Failed" << std::endl
125 << " " << output << " not written" << std::endl;
131 delete[] rescaleImage;
139 //////////////// Step 4:
141 copy = new gdcm::FileHelper( output );
143 //Is the file written still gdcm parsable ?
144 if ( !copy->GetFile()->IsReadable() )
146 std::cout << " Failed" << std::endl
147 << " " << output << " not readable" << std::endl;
151 delete[] rescaleImage;
156 //////////////// Step 5:
158 size_t dataSizeWritten = copy->GetImageDataSize();
159 uint8_t* imageDataWritten = copy->GetImageData();
161 if (originalH->GetXSize() != copy->GetFile()->GetXSize() ||
162 originalH->GetYSize() != copy->GetFile()->GetYSize() ||
163 originalH->GetZSize() != copy->GetFile()->GetZSize())
165 std::cout << "Failed" << std::endl
166 << " X Size differs: "
167 << "X: " << originalH->GetXSize() << " # "
168 << copy->GetFile()->GetXSize() << " | "
169 << "Y: " << originalH->GetYSize() << " # "
170 << copy->GetFile()->GetYSize() << " | "
171 << "Z: " << originalH->GetZSize() << " # "
172 << copy->GetFile()->GetZSize() << std::endl;
176 delete[] rescaleImage;
181 if (rescaleSize != dataSizeWritten)
183 std::cout << " Failed" << std::endl
184 << " Pixel areas lengths differ: "
185 << dataSize << " # " << dataSizeWritten << std::endl;
190 delete[] rescaleImage;
195 if (int res = memcmp(rescaleImage, imageDataWritten, rescaleSize) !=0)
198 std::cout << " Failed" << std::endl
199 << " Pixel differ (as expanded in memory)." << std::endl;
204 delete[] rescaleImage;
208 std::cout << "OK." << std::endl ;
213 delete[] rescaleImage;
218 // Here we load a gdcmFile and then try to create from scratch a copy of it,
219 // copying field by field the dicom image
221 int TestCopyRescaleDicom(int argc, char* argv[])
225 // The test is specified a specific filename, use it instead of looping
227 const std::string input = argv[1];
228 const std::string reference = argv[2];
229 return CopyRescaleDicom( input, reference );
231 else if ( argc > 3 || argc == 2 )
233 std::cout << " Usage: " << argv[0]
234 << " (no arguments needed)." << std::endl;
235 std::cout << "or Usage: " << argv[0]
236 << " filename.dcm reference.dcm" << std::endl;
241 std::cout << " Description (Test::TestCopyDicom): "
243 std::cout << " For all images in gdcmData (and not blacklisted in "
244 "Test/CMakeLists.txt)"
246 std::cout << " apply the following to each filename.xxx: "
248 std::cout << " step 1: parse the image (as gdcmFile) and call"
249 << " IsReadable(). After that, call GetImageData() and "
250 << "GetImageDataSize() "
252 std::cout << " step 2: create a copy of the readed file and the new"
253 << " pixel datas are set to the copy"
255 std::cout << " step 3: write the copy of the image"
257 std::cout << " step 4: read the copy and call IsReadable()"
259 std::cout << " step 5: compare (in memory with memcmp) that the two "
260 << "images " << std::endl
261 << " match (as expanded by gdcm)." << std::endl;
262 std::cout << std::endl;
265 int retVal = 0; //by default this is an error
266 while( gdcmDataImages[i] != 0 )
268 std::string filename = GDCM_DATA_ROOT;
269 filename += "/"; //doh!
270 filename += gdcmDataImages[i];
272 std::string output = "output.dcm";
274 if( CopyRescaleDicom( filename, output ) != 0 )