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read_twix_hdr_Gannet.m
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read_twix_hdr_Gannet.m
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function [prot,rstraj] = read_twix_hdr_Gannet(fid)
% function to read raw data header information from siemens MRI scanners
% (currently VB and VD software versions are supported and tested).
%
% Author: Philipp Ehses MPI Tuebingen, Mar/11/2014
% email: [email protected]
% Bug fix for data containing long strings: Alex Craven, Oct 2020
nbuffers = fread(fid, 1, 'uint32');
prot = [];
for b = 1:nbuffers
% Read string up to null termination
% ARC 20201020: previous version failed to find null termination on buffer names > 10 characters
bl = 64;
bufname = fread(fid, bl, 'uint8=>char').';
null_ix = find(bufname == 0,1); % ARC: index of null termination
if isempty(null_ix)
% This is not a simple buffer name as would be expected.
% Since we don't have a good strategy for dealing with this, just
% carry on reading until a null temrinator is found, then discard this
% buffer.
warning('read_twix_hdr: skipping extraordinarily long buffer.');
% Keep reading until we find a null
while isempty(null_ix)
junk = fread(fid, bl, 'uint8=>char').';
if numel(junk) == 0
error('read_twix_hdr: reached EOF before null. This is perplexing.');
end
null_ix = find(junk == 0,1);
end
fseek(fid, null_ix-bl, 'cof');
continue % skip to the next buffer
end
bufname = bufname(1:null_ix-1);
fseek(fid, numel(bufname) - (bl-1), 'cof');
buflen = fread(fid, 1,'uint32');
buffer = fread(fid, buflen, 'uint8=>char').';
buffer = regexprep(buffer,'\n\s*\n',''); % delete empty lines
prot.(bufname) = parse_buffer(buffer);
end
if nargout>1
rstraj = [];
if isfield(prot,'Meas') && isfield(prot.Meas,'alRegridMode') && prot.Meas.alRegridMode(1) > 1
ncol = prot.Meas.alRegridDestSamples(1);
dwelltime = prot.Meas.aflRegridADCDuration(1)/ncol;
gr_adc = zeros(1,ncol,'single');
% start = prot.Meas.alRegridRampupTime(1) - (prot.Meas.aflRegridADCDuration(1)-prot.Meas.alRegridFlattopTime(1))/2;
start = prot.Meas.alRegridDelaySamplesTime(1);
time_adc = start + dwelltime * (0.5:ncol);
ixUp = time_adc <= prot.Meas.alRegridRampupTime(1);
ixFlat = (time_adc <= prot.Meas.alRegridRampupTime(1)+prot.Meas.alRegridFlattopTime(1)) & ~ixUp;
ixDn = ~ixUp & ~ixFlat;
gr_adc(ixFlat) = 1;
if prot.Meas.alRegridMode(1) == 2
% trapezoidal gradient
gr_adc(ixUp) = time_adc(ixUp)/prot.Meas.alRegridRampupTime(1);
gr_adc(ixDn) = 1 - (time_adc(ixDn)-prot.Meas.alRegridRampupTime(1)-prot.Meas.alRegridFlattopTime(1))/prot.Meas.alRegridRampdownTime(1);
elseif prot.Meas.alRegridMode(1) == 4
% sinusoidal gradient
gr_adc(ixUp) = sin(pi/2*time_adc(ixUp)/prot.Meas.alRegridRampupTime(1));
gr_adc(ixDn) = sin(pi/2*(1+(time_adc(ixDn)-prot.Meas.alRegridRampupTime(1)-prot.Meas.alRegridFlattopTime(1))/prot.Meas.alRegridRampdownTime(1)));
else
warning('regridding mode unknown');
return;
end
% make sure that gr_adc is always positive (rstraj needs to be
% strictly monotonic):
gr_adc = max(gr_adc, 1e-4);
rstraj = (cumtrapz(gr_adc(:)) - ncol/2)/sum(gr_adc(:));
rstraj = rstraj - mean(rstraj(ncol/2:ncol/2+1));
% scale rstraj by kmax (only works if all slices have same FoV!!!)
kmax = prot.MeasYaps.sKSpace.lBaseResolution/...
prot.MeasYaps.sSliceArray.asSlice{1}.dReadoutFOV;
rstraj = kmax * rstraj;
end
end
end
function prot = parse_buffer(buffer)
[ascconv, xprot] = regexp(buffer,'### ASCCONV BEGIN[^\n]*\n(.*)\s### ASCCONV END ###','tokens','split');
if ~isempty(ascconv)
ascconv = ascconv{:}{:};
prot = parse_ascconv(ascconv);
else
prot = struct();
end
if ~isempty(xprot)
xprot = strcat(xprot{:}); % bug fix by Qiuting Wen (added strcat)
xprot = parse_xprot(xprot);
if isstruct(xprot)
name = cat(1,fieldnames(prot),fieldnames(xprot));
val = cat(1,struct2cell(prot),struct2cell(xprot));
[~,ix] = unique(name);
prot = cell2struct(val(ix),name(ix));
end
end
end
function xprot = parse_xprot(buffer)
xprot = [];
tokens = regexp(buffer, '<Param(?:Bool|Long|String)\."(\w+)">\s*{([^}]*)','tokens');
tokens = [tokens, regexp(buffer, '<ParamDouble\."(\w+)">\s*{\s*(<Precision>\s*[0-9]*)?\s*([^}]*)','tokens')];
for m=1:numel(tokens)
name = char(tokens{m}(1));
% field name has to start with letter
if (~isletter(name(1)))
name = strcat('x', name);
end
value = char(strtrim(regexprep(tokens{m}(end), '("*)|( *<\w*> *[^\n]*)', '')));
value = regexprep(value, '\s*', ' ');
try %#ok<TRYNC>
value = eval(['[' value ']']); % inlined str2num()
end
xprot.(name) = value;
end
end
function mrprot = parse_ascconv(buffer)
mrprot = [];
% [mv] was: vararray = regexp(buffer,'(?<name>\S*)\s*=\s(?<value>\S*)','names');
vararray = regexp(buffer,'(?<name>\S*)\s*=\s*(?<value>\S*)','names');
isOctave = exist('OCTAVE_VERSION', 'builtin') ~= 0;
for var=vararray
try
value = eval(['[' var.value ']']); % inlined str2num()
catch
value = var.value;
end
% now split array name and index (if present)
v = regexp(var.name,'(?<name>\w*)\[(?<ix>[0-9]*)\]|(?<name>\w*)','names');
cnt = 0;
tmp = cell(2, numel(v));
breaked = false;
for k=1:numel(v)
if isOctave
vk = v{k};
if iscell(vk.name)
% lazy fix that throws some info away
vk.name = vk.name{1};
vk.ix = vk.ix{1};
end
else
vk = v(k);
end
if ~isletter(vk.name(1))
breaked = true;
break;
end
cnt = cnt+1;
tmp{1,cnt} = '.';
tmp{2,cnt} = vk.name;
if ~isempty(vk.ix)
cnt = cnt+1;
tmp{1,cnt} = '{}';
tmp{2,cnt}{1} = 1 + str2double(vk.ix);
end
end
if ~breaked && ~isempty(tmp)
S = substruct(tmp{:});
mrprot = subsasgn(mrprot,S,value);
end
end
end