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87b08fd
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SVMCrossVal.git
NIFTI_20090325
reslice_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
reslice_nii.m
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% The basic application of the 'reslice_nii.m' program is to perform % any 3D affine transform defined by a NIfTI format image. % % In addition, the 'reslice_nii.m' program can also be applied to % generate an isotropic image from either a NIfTI format image or % an ANALYZE format image. % % The resliced NIfTI file will always be in RAS orientation. % % This program only supports real integer or floating-point data type. % For other data type, the program will exit with an error message % "Transform of this NIFTI data is not supported by the program". % % Usage: reslice_nii(old_fn, new_fn, [voxel_size], [verbose], [bg], ... % [method], [img_idx], [preferredForm]); % % old_fn - filename for original NIfTI file % % new_fn - filename for resliced NIfTI file % % voxel_size (optional) - size of a voxel in millimeter along x y z % direction for resliced NIfTI file. 'voxel_size' will use % the rounded minimum voxel_size in original NIfTI header, % if it is default or empty. % % verbose (optional) - 1, 0 % 1: show transforming progress in percentage % 2: progress will not be displayed % 'verbose' is 1 if it is default or empty. % % bg (optional) - background voxel intensity in any extra corner that % is caused by 3D interpolation. 0 in most cases. 'bg' % will be the average of two corner voxel intensities % in original image volume, if it is default or empty. % % method (optional) - 1, 2, or 3 % 1: for Trilinear interpolation % 2: for Nearest Neighbor interpolation % 3: for Fischer's Bresenham interpolation % 'method' is 1 if it is default or empty. % % img_idx (optional) - a numerical array of image volume indices. Only % the specified volumes will be loaded. All available image % volumes will be loaded, if it is default or empty. % % The number of images scans can be obtained from get_nii_frame.m, % or simply: hdr.dime.dim(5). % % preferredForm (optional) - selects which transformation from voxels % to RAS coordinates; values are s,q,S,Q. Lower case s,q indicate % "prefer sform or qform, but use others if preferred not present". % Upper case indicate the program is forced to use the specificied % tranform or fail loading. 'preferredForm' will be 's', if it is % default or empty. - Jeff Gunter % % NIFTI data format can be found on: http://nifti.nimh.nih.gov % % - Jimmy Shen (jimmy@rotman-baycrest.on.ca) % function reslice_nii(old_fn, new_fn, voxel_size, verbose, bg, method, img_idx, preferredForm) if ~exist('old_fn','var') | ~exist('new_fn','var') error('Usage: reslice_nii(old_fn, new_fn, [voxel_size], [verbose], [bg], [method], [img_idx])'); end if ~exist('method','var') | isempty(method) method = 1; end if ~exist('img_idx','var') | isempty(img_idx) img_idx = []; end if ~exist('verbose','var') | isempty(verbose) verbose = 1; end if ~exist('preferredForm','var') | isempty(preferredForm) preferredForm= 's'; % Jeff end nii = load_nii_no_xform(old_fn, img_idx, 0, preferredForm); if ~ismember(nii.hdr.dime.datatype, [2,4,8,16,64,256,512,768]) error('Transform of this NIFTI data is not supported by the program.'); end if ~exist('voxel_size','var') | isempty(voxel_size) voxel_size = round(min(nii.hdr.dime.pixdim(2:4)))*ones(1,3); elseif length(voxel_size) < 3 voxel_size = voxel_size(1)*ones(1,3); end if ~exist('bg','var') | isempty(bg) bg = mean([nii.img(1) nii.img(end)]); end old_M = nii.hdr.hist.old_affine; if nii.hdr.dime.dim(5) > 1 for i = 1:nii.hdr.dime.dim(5) if verbose fprintf('Reslicing %d of %d volumes.\n', i, nii.hdr.dime.dim(5)); end [img(:,:,:,i) M] = ... affine(nii.img(:,:,:,i), old_M, voxel_size, verbose, bg, method); end else [img M] = affine(nii.img, old_M, voxel_size, verbose, bg, method); end new_dim = size(img); nii.img = img; nii.hdr.dime.dim(2:4) = new_dim(1:3); nii.hdr.dime.datatype = 16; nii.hdr.dime.bitpix = 32; nii.hdr.dime.pixdim(2:4) = voxel_size(:)'; nii.hdr.dime.glmax = max(img(:)); nii.hdr.dime.glmin = min(img(:)); nii.hdr.hist.qform_code = 0; nii.hdr.hist.sform_code = 1; nii.hdr.hist.srow_x = M(1,:); nii.hdr.hist.srow_y = M(2,:); nii.hdr.hist.srow_z = M(3,:); nii.hdr.hist.new_affine = M; save_nii(nii, new_fn); return; % reslice_nii %-------------------------------------------------------------------- function [nii] = load_nii_no_xform(filename, img_idx, old_RGB, preferredForm) if ~exist('filename','var'), error('Usage: [nii] = load_nii(filename, [img_idx], [old_RGB])'); end if ~exist('img_idx','var'), img_idx = []; end if ~exist('old_RGB','var'), old_RGB = 0; end if ~exist('preferredForm','var'), preferredForm= 's'; end % Jeff % Read the dataset header % [nii.hdr,nii.filetype,nii.fileprefix,nii.machine] = load_nii_hdr(filename); % Read the header extension % % nii.ext = load_nii_ext(filename); % Read the dataset body % [nii.img,nii.hdr] = ... load_nii_img(nii.hdr,nii.filetype,nii.fileprefix,nii.machine,img_idx,'','','',old_RGB); % Perform some of sform/qform transform % % nii = xform_nii(nii, preferredForm); hdr = nii.hdr; % NIFTI can have both sform and qform transform. This program % will check sform_code prior to qform_code by default. % % If user specifys "preferredForm", user can then choose the % priority. - Jeff % useForm=[]; % Jeff if isequal(preferredForm,'S') if isequal(hdr.hist.sform_code,0) error('User requires sform, sform not set in header'); else useForm='s'; end end % Jeff if isequal(preferredForm,'Q') if isequal(hdr.hist.qform_code,0) error('User requires sform, sform not set in header'); else useForm='q'; end end % Jeff if isequal(preferredForm,'s') if hdr.hist.sform_code > 0 useForm='s'; elseif hdr.hist.qform_code > 0 useForm='q'; end end % Jeff if isequal(preferredForm,'q') if hdr.hist.qform_code > 0 useForm='q'; elseif hdr.hist.sform_code > 0 useForm='s'; end end % Jeff if isequal(useForm,'s') R = [hdr.hist.srow_x(1:3) hdr.hist.srow_y(1:3) hdr.hist.srow_z(1:3)]; T = [hdr.hist.srow_x(4) hdr.hist.srow_y(4) hdr.hist.srow_z(4)]; nii.hdr.hist.old_affine = [ [R;[0 0 0]] [T;1] ]; elseif isequal(useForm,'q') b = hdr.hist.quatern_b; c = hdr.hist.quatern_c; d = hdr.hist.quatern_d; if 1.0-(b*b+c*c+d*d) < 0 if abs(1.0-(b*b+c*c+d*d)) < 1e-5 a = 0; else error('Incorrect quaternion values in this NIFTI data.'); end else a = sqrt(1.0-(b*b+c*c+d*d)); end qfac = hdr.dime.pixdim(1); i = hdr.dime.pixdim(2); j = hdr.dime.pixdim(3); k = qfac * hdr.dime.pixdim(4); R = [a*a+b*b-c*c-d*d 2*b*c-2*a*d 2*b*d+2*a*c 2*b*c+2*a*d a*a+c*c-b*b-d*d 2*c*d-2*a*b 2*b*d-2*a*c 2*c*d+2*a*b a*a+d*d-c*c-b*b]; T = [hdr.hist.qoffset_x hdr.hist.qoffset_y hdr.hist.qoffset_z]; nii.hdr.hist.old_affine = [ [R * diag([i j k]);[0 0 0]] [T;1] ]; elseif nii.filetype == 0 & exist([nii.fileprefix '.mat'],'file') load([nii.fileprefix '.mat']); % old SPM affine matrix R=M(1:3,1:3); T=M(1:3,4); T=R*ones(3,1)+T; M(1:3,4)=T; nii.hdr.hist.old_affine = M; else M = diag(hdr.dime.pixdim(2:5)); M(1:3,4) = -M(1:3,1:3)*(hdr.hist.originator(1:3)-1)'; M(4,4) = 1; nii.hdr.hist.old_affine = M; end return % load_nii_no_xform