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87b08fd
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SVMCrossVal.git
NIFTI_20090325
save_nii.m
searchlight ready. missing nifti-image-write support. added timing to FBS
Christoph Budziszewski
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87b08fd
at 2009-03-30 17:54:25
save_nii.m
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% Save NIFTI dataset. Support both *.nii and *.hdr/*.img file extension. % If file extension is not provided, *.hdr/*.img will be used as default. % % Usage: save_nii(nii, filename, [old_RGB]) % % nii.hdr - struct with NIFTI header fields (from load_nii.m or make_nii.m) % % nii.img - 3D (or 4D) matrix of NIFTI data. % % filename - NIFTI file name. % % old_RGB - an optional boolean variable to handle special RGB data % sequence [R1 R2 ... G1 G2 ... B1 B2 ...] that is used only by % AnalyzeDirect (Analyze Software). Since both NIfTI and Analyze % file format use RGB triple [R1 G1 B1 R2 G2 B2 ...] sequentially % for each voxel, this variable is set to FALSE by default. If you % would like the saved image only to be opened by AnalyzeDirect % Software, set old_RGB to TRUE (or 1). It will be set to 0, if it % is default or empty. % % Tip: to change the data type, set nii.hdr.dime.datatype, % and nii.hdr.dime.bitpix to: % % 0 None (Unknown bit per voxel) % DT_NONE, DT_UNKNOWN % 1 Binary (ubit1, bitpix=1) % DT_BINARY % 2 Unsigned char (uchar or uint8, bitpix=8) % DT_UINT8, NIFTI_TYPE_UINT8 % 4 Signed short (int16, bitpix=16) % DT_INT16, NIFTI_TYPE_INT16 % 8 Signed integer (int32, bitpix=32) % DT_INT32, NIFTI_TYPE_INT32 % 16 Floating point (single or float32, bitpix=32) % DT_FLOAT32, NIFTI_TYPE_FLOAT32 % 32 Complex, 2 float32 (Use float32, bitpix=64) % DT_COMPLEX64, NIFTI_TYPE_COMPLEX64 % 64 Double precision (double or float64, bitpix=64) % DT_FLOAT64, NIFTI_TYPE_FLOAT64 % 128 Red-Green-Blue (Use uint8, bitpix=24) % DT_RGB24, NIFTI_TYPE_RGB24 % 256 Signed char (schar or int8, bitpix=8) % DT_INT8, NIFTI_TYPE_INT8 % 512 Unsigned short (uint16, bitpix=16) % DT_UNINT16, NIFTI_TYPE_UNINT16 % 768 Unsigned integer (uint32, bitpix=32) % DT_UNINT32, NIFTI_TYPE_UNINT32 % 1024 Signed long long (int64, bitpix=64) % DT_INT64, NIFTI_TYPE_INT64 % 1280 Unsigned long long (uint64, bitpix=64) % DT_UINT64, NIFTI_TYPE_UINT64 % 1536 Long double, float128 (Unsupported, bitpix=128) % DT_FLOAT128, NIFTI_TYPE_FLOAT128 % 1792 Complex128, 2 float64 (Use float64, bitpix=128) % DT_COMPLEX128, NIFTI_TYPE_COMPLEX128 % 2048 Complex256, 2 float128 (Unsupported, bitpix=256) % DT_COMPLEX128, NIFTI_TYPE_COMPLEX128 % % Part of this file is copied and modified under GNU license from % MRI_TOOLBOX developed by CNSP in Flinders University, Australia % % NIFTI data format can be found on: http://nifti.nimh.nih.gov % % - Jimmy Shen (jimmy@rotman-baycrest.on.ca) % - "old_RGB" related codes in "save_nii.m" are added by Mike Harms (2006.06.28) % function save_nii(nii, fileprefix, old_RGB) if ~exist('nii','var') | isempty(nii) | ~isfield(nii,'hdr') | ... ~isfield(nii,'img') | ~exist('fileprefix','var') | isempty(fileprefix) error('Usage: save_nii(nii, filename, [old_RGB])'); end if isfield(nii,'untouch') & nii.untouch == 1 error('Usage: please use ''save_untouch_nii.m'' for the untouched structure.'); end if ~exist('old_RGB','var') | isempty(old_RGB) old_RGB = 0; end filetype = 1; % Note: fileprefix is actually the filename you want to save % if findstr('.nii',fileprefix) filetype = 2; fileprefix = strrep(fileprefix,'.nii',''); end if findstr('.hdr',fileprefix) fileprefix = strrep(fileprefix,'.hdr',''); end if findstr('.img',fileprefix) fileprefix = strrep(fileprefix,'.img',''); end write_nii(nii, filetype, fileprefix, old_RGB); if filetype == 1 % So earlier versions of SPM can also open it with correct originator % M=[[diag(nii.hdr.dime.pixdim(2:4)) -[nii.hdr.hist.originator(1:3).*nii.hdr.dime.pixdim(2:4)]'];[0 0 0 1]]; save(fileprefix, 'M'); end return % save_nii %----------------------------------------------------------------------------------- function write_nii(nii, filetype, fileprefix, old_RGB) hdr = nii.hdr; if isfield(nii,'ext') & ~isempty(nii.ext) ext = nii.ext; [ext, esize_total] = verify_nii_ext(ext); else ext = []; end switch double(hdr.dime.datatype), case 1, hdr.dime.bitpix = int16(1 ); precision = 'ubit1'; case 2, hdr.dime.bitpix = int16(8 ); precision = 'uint8'; case 4, hdr.dime.bitpix = int16(16); precision = 'int16'; case 8, hdr.dime.bitpix = int16(32); precision = 'int32'; case 16, hdr.dime.bitpix = int16(32); precision = 'float32'; case 32, hdr.dime.bitpix = int16(64); precision = 'float32'; case 64, hdr.dime.bitpix = int16(64); precision = 'float64'; case 128, hdr.dime.bitpix = int16(24); precision = 'uint8'; case 256 hdr.dime.bitpix = int16(8 ); precision = 'int8'; case 512 hdr.dime.bitpix = int16(16); precision = 'uint16'; case 768 hdr.dime.bitpix = int16(32); precision = 'uint32'; case 1024 hdr.dime.bitpix = int16(64); precision = 'int64'; case 1280 hdr.dime.bitpix = int16(64); precision = 'uint64'; case 1792, hdr.dime.bitpix = int16(128); precision = 'float64'; otherwise error('This datatype is not supported'); end hdr.dime.glmax = round(double(max(nii.img(:)))); hdr.dime.glmin = round(double(min(nii.img(:)))); if filetype == 2 fid = fopen(sprintf('%s.nii',fileprefix),'w'); if fid < 0, msg = sprintf('Cannot open file %s.nii.',fileprefix); error(msg); end hdr.dime.vox_offset = 352; if ~isempty(ext) hdr.dime.vox_offset = hdr.dime.vox_offset + esize_total; end hdr.hist.magic = 'n+1'; save_nii_hdr(hdr, fid); if ~isempty(ext) save_nii_ext(ext, fid); end else fid = fopen(sprintf('%s.hdr',fileprefix),'w'); if fid < 0, msg = sprintf('Cannot open file %s.hdr.',fileprefix); error(msg); end hdr.dime.vox_offset = 0; hdr.hist.magic = 'ni1'; save_nii_hdr(hdr, fid); if ~isempty(ext) save_nii_ext(ext, fid); end fclose(fid); fid = fopen(sprintf('%s.img',fileprefix),'w'); end ScanDim = double(hdr.dime.dim(5)); % t SliceDim = double(hdr.dime.dim(4)); % z RowDim = double(hdr.dime.dim(3)); % y PixelDim = double(hdr.dime.dim(2)); % x SliceSz = double(hdr.dime.pixdim(4)); RowSz = double(hdr.dime.pixdim(3)); PixelSz = double(hdr.dime.pixdim(2)); x = 1:PixelDim; if filetype == 2 & isempty(ext) skip_bytes = double(hdr.dime.vox_offset) - 348; else skip_bytes = 0; end if double(hdr.dime.datatype) == 128 % RGB planes are expected to be in the 4th dimension of nii.img % if(size(nii.img,4)~=3) error(['The NII structure does not appear to have 3 RGB color planes in the 4th dimension']); end if old_RGB nii.img = permute(nii.img, [1 2 4 3 5 6 7 8]); else nii.img = permute(nii.img, [4 1 2 3 5 6 7 8]); end end % For complex float32 or complex float64, voxel values % include [real, imag] % if hdr.dime.datatype == 32 | hdr.dime.datatype == 1792 real_img = real(nii.img(:))'; nii.img = imag(nii.img(:))'; nii.img = [real_img; nii.img]; end if skip_bytes fwrite(fid, ones(1,skip_bytes), 'uint8'); end fwrite(fid, nii.img, precision); % fwrite(fid, nii.img, precision, skip_bytes); % error using skip fclose(fid); return; % write_nii