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spm_FcUtil.m
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spm_FcUtil.m
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function varargout = spm_FcUtil(varargin)
% Contrast utilities
% FORMAT varargout = spm_FcUtil(action,varargin)
%_______________________________________________________________________
%
% spm_FcUtil is a multi-function function containing various utilities
% for contrast construction and manipulation. In general, it accepts
% design matrices as plain matrices or as space structures setup by
% spm_sp (that is preferable in general).
%
% The use of spm_FcUtil should help with robustness issues and
% maintainability of SPM. % Note that when space structures are passed
% as arguments is is assummed that their basic fields are filled in.
% See spm_sp for details of (design) space structures and their
% manipulation.
%
% Since the 99 beta version :
% Improvements in F-contrast handling : The first F-contrast structure
% used to store matrices such that each contrast may take as much memory
% as the design matrix. Because sometimes the number of contrasts tested
% is important, the matlab file storing those contrast became huge and
% could not be handled in matlab anymore. The contrast handling has been
% improved in 2 ways : first, memory requirements are now cut down to
% matrices that have sizes [number_of_parameters rank_of_contrast]. To do
% this, we store an orthonormal basis of the design space and the
% coordinates of the subspaces of the design space in this basis.
% Secondly, this allows a cut-down in computing time (see help in
% spm_FcUtil routines code) when computing an F-contrast.
%
%
% ======================================================================
% case 'fconfields' %- fields of F contrast
% Fc = spm_FcUtil('FconFields')
%
%- simply returns the fields of a contrast structure.
%
%=======================================================================
% case 'set' %- Create an F contrast
% Fc = spm_FcUtil('Set',name, STAT, set_action, value, sX)
%
%- Set will fill in the contrast structure, in particular
%- c (in the contrast space), X1o (the space actually tested) and
%- X0 (the space left untested), such that space([X1o X0]) == sX.
%- STAT is either 'F' or 'T';
%- name is a string descibing the contrast.
%
%- There are three ways to set a contrast :
%- set_action is 'c','c+' : value can then be zeros.
%- dimensions are in X',
%- f c+ is used, value is projected onto sX';
%- iX0 is set to 'c' or 'c+';
%- set_action is 'iX0' : defines the indices of the columns
%- that will not be tested. Can be empty.
%- set_action is 'X0' : defines the space that will remain
%- unchanged. The orthogonal complement is
%- tested; iX0 is set to 'X0';
%-
%=======================================================================
% case 'isfcon' %- Is it an F contrast ?
% b = spm_FcUtil('IsFcon',Fc)
%
%=======================================================================
% case 'fconedf' %- F contrast edf
% [edf_tsp edf_Xsp] = spm_FcUtil('FconEdf', Fc, sX [, V])
%
%- compute the effective degrees of freedom of the numerator edf_tsp
%- and (optionally) the denominator edf_Xsp of the contrast.
%-
%=======================================================================
% case 'rcompatible' %- Rcompatible F and sX
% b = spm_FcUtil('Rcompatible',Fc, sX)
%
%- Not implemented. Will check the contrast and the space compatibility
%
%=======================================================================
% case 'hsqr' %-Extra sum of squares sqr matrix for beta's from contrast
% hsqr = spm_FcUtil('Hsqr',Fc, sX)
%
%- This computes the matrix hsqr such that a the numerator of an F test
%- will be beta'*hsqr'*hsqr*beta
%
%=======================================================================
% case 'h' %-Extra sum of squares matrix for beta's from contrast
% H = spm_FcUtil('H',Fc, sX)
%
%- This computes the matrix H such that a the numerator of an F test
%- will be beta'*H*beta
%-
%=======================================================================
% case 'yc' %- Fitted data corrected for confounds defined by Fc
% Yc = spm_FcUtil('Yc',Fc, sX, b)
%
%- Input : b : the betas
%- Returns the corrected data Yc for given contrast. Y = Yc + Y0 + error
%
%=======================================================================
% case 'y0' %- Confounds data defined by Fc
% Y0 = spm_FcUtil('Y0',Fc, sX, b)
%
%- Input : b : the betas
%- Returns the confound data Y0 for a given contrast. Y = Yc + Y0 + error
%
%=======================================================================
% case {'|_'} %- Fc orthogonalisation
% Fc = spm_FcUtil('|_',Fc1, sX, Fc2)
%
%- Orthogonolise a (list of) contrasts Fc1 wrt a (list of) contrast Fc2
%- such that the space these contrasts test are orthogonal.
%- If contrasts are not estimable contrasts, works with the estimable
%- part. In any case, returns estimable contrasts.
%
%=======================================================================
% case {'|_?'} %- Are contrasts orthogonals
% b = spm_FcUtil('|_?',Fc1, sX [, Fc2])
%
%- Tests whether a (list of) contrast is orthogonal. Works with the
%- estimable part if they are not estimable. With only one argument,
%- tests whether the list is made of orthogonal contrasts. With Fc2
%- provided, tests whether the two (list of) contrast are orthogonal.
%
%=======================================================================
% case 'in' %- Fc1 is in list of contrasts Fc2
% [iFc2 iFc1] = spm_FcUtil('In', Fc1, sX, Fc2)
%
%- Tests wether a (list of) contrast Fc1 is in a list of contrast Fc2.
%- returns the indices iFc2 where element of Fc1 have been found
%- in Fc2 and the indices iFc1 of the element of Fc1 found in Fc2.
%- These indices are not necessarily unique.
%
%=======================================================================
% case '~unique' %- Fc list unique
% idx = spm_FcUtil('~unique', Fc, sX)
%
%- returns indices ofredundant contrasts in Fc
%- such that Fc(idx) = [] makes Fc unique.
%
%=======================================================================
% case {'0|[]','[]|0'} %- Fc is null or empty
% b = spm_FcUtil('0|[]', Fc, sX)
%
%- NB : for the "null" part, checks if the contrast is in the null space
%- of sX (completely non estimable !)
%=======================================================================
%
%_______________________________________________________________________
% @(#)spm_FcUtil.m 2.13 Jean-Baptiste Poline 00/01/25
%-Format arguments
%-----------------------------------------------------------------------
if nargin==0, error('do what? no arguments given...')
else, action = varargin{1}; end
switch lower(action),
case 'fconfields' %- fields of F contrast
%=======================================================================
% Fc = spm_FcUtil('FconFields')
%
%
if nargout > 1, error('Too many output arguments FconFields'), end;
if nargin > 1, error('Too many input arguments FconFields'), end;
varargout = {sf_FconFields;}
case {'set','v1set'} %- Create an F contrast
%=======================================================================
% Fc = spm_FcUtil('Set',name, STAT, set_action, value, sX)
%
% Sets the contrast structure with set_action either 'c', 'X0' or 'iX0'
% resp. for a contrast, the null hyp. space or the indices of which.
% STAT can be 'T' or 'F'.
%
% If not set by iX0 (in which case field .iX0 containes the indices),
% field .iX0 is set as a string containing the set_action: {'X0','c','c+','ukX0'}
%
% if STAT is T, then set_action should be 'c' or 'c+'
% (at the moment, just a warning...)
% if STAT is T and set_action is 'c' or 'c+', then
% checks whether it is a real T.
%
% 'v1set' is NOT provided for backward compatibility so far ...
%--- check # arguments...
if nargin<6, error('insufficient arguments'), end;
if nargout > 1, error('Too many output arguments Set'), end;
%--- check arguments...
if ~isstr(varargin{2}), error('~isstr(name)'), end;
if ~(varargin{3}=='F'|varargin{3}=='T'),
error('~(STAT==F|STAT==T)'), end;
if ~isstr(varargin{4}), error('~isstr(varargin{4})');
else set_action = varargin{4}; end;
sX = varargin{6};
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
if isempty(sX.X), error('Empty space X in Set'); end;
Fc = sf_FconFields;
%- use the name as a flag to insure that F-contrast has been
%- properly created;
Fc.name = varargin{2};
Fc.STAT = varargin{3};
if Fc.STAT=='T' & ~(any(strcmp(set_action,{'c+','c'})))
warning('enter T stat with contrast - here no check rank == 1');
end
[sC sL] = spm_sp('size',sX);
%- allow to define the contrast the old (version 1) way ?
%- NO. v1 = strcmp(action,'v1set');
switch set_action,
case {'c','c+'}
Fc.iX0 = set_action;
c = spm_sp(':', sX, varargin{5});
if isempty(c)
[Fc.X1o.ukX1o Fc.X0.ukX0] = spm_SpUtil('+c->Tsp',sX,[]);
%- v1 [Fc.X1o Fc.X0] = spm_SpUtil('c->Tsp',sX,[]);
Fc.c = c;
elseif size(c,1) ~= sL,
error(['not contrast dim. in ' mfilename ' ' set_action]);
else
if strcmp(set_action,'c+')
if ~spm_sp('isinspp',sX,c), c = spm_sp('oPp:',sX,c); end;
end;
if Fc.STAT=='T' & ~sf_is_T(sX,c)
%- Could be make more self-correcting by giving back an F
error('trying to define a t that looks like an F');
end
Fc.c = c;
[Fc.X1o.ukX1o Fc.X0.ukX0] = spm_SpUtil('+c->Tsp',sX,c);
%- v1 [Fc.X1o Fc.X0] = spm_SpUtil('c->Tsp',sX,c);
end;
%~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
% 'option given for completeness - not for SPM use'
case {'X0'}
warning(['option given for completeness - not for SPM use']);
Fc.iX0 = set_action;
X0 = spm_sp(':', sX, varargin{5});
if isempty(X0),
Fc.c = spm_sp('xpx',sX);
Fc.X1o.ukX1o = spm_sp('cukx',sX);
Fc.X0.ukX0 = [];
elseif size(X0,1) ~= sC,
error('dimension of X0 wrong in Set');
else
Fc.c = spm_SpUtil('X0->c',sX,X0);
Fc.X0.ukX0 = spm_sp('ox',sX)'*X0;
Fc.X1o.ukX1o = spm_SpUtil('+c->Tsp',sX,Fc.c);
end
case 'ukX0'
warning(['option given for completeness - not for SPM use']);
Fc.iX0 = set_action;
if isempty(ukX0),
Fc.c = spm_sp('xpx',sX);
Fc.X1o.ukX1o = spm_sp('cukx',sX);
Fc.X0.ukX0 = [];
elseif size(ukX0,1) ~= spm_sp('rk',sX),
error('dimension of cukX0 wrong in Set');
else
Fc.c = spm_SpUtil('+X0->c',sX,ukX0);
Fc.X0.ukX0 = ukX0;
Fc.X1o.ukX1o = spm_SpUtil('+c->Tsp',sX,Fc.c);
end
%~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
case 'iX0'
iX0 = varargin{5};
iX0 = spm_SpUtil('iX0check',iX0,sL);
Fc.iX0 = iX0;
Fc.X0.ukX0 = spm_sp('ox',sX)' * spm_sp('Xi',sX,iX0);
if isempty(iX0),
Fc.c = spm_sp('xpx',sX);
Fc.X1o.ukX1o = spm_sp('cukx',sX);
else
Fc.c = spm_SpUtil('i0->c',sX,iX0);
Fc.X1o.ukX1o = spm_SpUtil('+c->Tsp',sX,Fc.c);
end;
otherwise
error('wrong action in Set ');
end;
varargout = {Fc};
case 'x0' % spm_FcUtil('X0',Fc,sX)
%=======================================================================
if nargin ~= 3,
error('too few/many input arguments - need 2');
else
Fc = varargin{2}; sX = varargin{3};
end
if nargout ~= 1, error('too few/many output arguments - need 1'), end
if ~sf_IsFcon(Fc), error('argument is not a contrast struct'), end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
varargout = {sf_X0(Fc,sX)};
case 'x1o' % spm_FcUtil('X1o',Fc,sX)
%=======================================================================
if nargin ~= 3,
error('too few/many input arguments - need 2');
else
Fc = varargin{2}; sX = varargin{3};
end
if nargout ~= 1, error('too few/many output arguments - need 1'), end
if ~sf_IsFcon(Fc), error('argument is not a contrast struct'), end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
varargout = {sf_X1o(Fc,sX)};
case 'isfcon' %- Is it an F contrast ?
%=======================================================================
% yes_no = spm_FcUtil('IsFcon',Fc)
if nargin~=2, error('too few/many input arguments - need 2'), end
if ~isstruct(varargin{2}), varargout={0};
else, varargout = {sf_IsFcon(varargin{2})};
end
case 'fconedf' %- F contrast edf
%=======================================================================
% [edf_tsp edf_Xsp] = spm_FcUtil('FconEdf', Fc, sX [, V])
if nargin<3, error('Insufficient arguments'), end
if nargout >= 3, error('Too many output argument.'), end
Fc = varargin{2};
sX = varargin{3};
if nargin == 4, V = varargin{4}; else V = []; end;
if ~sf_IsFcon(Fc), error('Fc must be Fcon'), end
if ~spm_sp('isspc',sX)
sX = spm_sp('set',sX); end;
% if ~spm_FcUtil('Rcompatible',Fc,sX), ...
% error('sX and Fc must be compatible'), end
if ~sf_isempty_X1o(Fc)
[trMV, trMVMV] = spm_SpUtil('trMV',sf_X1o(Fc,sX),V);
else
trMV = 0; trMVMV = 0;
end
if ~trMVMV, edf_tsp = 0; warning('edf_tsp = 0'),
else, edf_tsp = trMV^2/trMVMV; end;
if nargout == 2
[trRV, trRVRV] = spm_SpUtil('trRV',sX,V);
if ~trRVRV, edf_Xsp = 0, warning('edf_Xsp = 0'),
else, edf_Xsp = trRV^2/trRVRV; end;
varargout = {edf_tsp, edf_Xsp};
else
varargout = {edf_tsp};
end;
case 'rcompatible' %- Rcompatible F and sX
%=======================================================================
% b = spm_FcUtil('Rcompatible',Fc, sX)
%- Check if the space and the contrast are compatible.
%if nargin ~=3, error('Insufficient arguments'), end
%Fc = varargin{2};
%sX = varargin{3};
%if ~sf_IsFcon(Fc), error('Fc must be Fcon'), end
%if ~spm_sp('isspc',sX)
% sX = spm_sp('set',sX); end;
%
%varargout = {sf_rcompatible(Fc,sX)};
varargout = {1};
%=======================================================================
%=======================================================================
% part that use F contrast
%=======================================================================
%=======================================================================
%
% Quick reference : L : can be lists of ...
%-------------------------
% ('Hsqr',Fc, sX) : Out: Hsqr / ESS = b' * Hsqr' * Hsqr * b
% ('H',Fc, sX) : Out: H / ESS = b' * H * b
% ('Yc',Fc, sX, b) : Out: Y corrected = X*b - X0*X0- *Y
% ('Y0',Fc, sX, b) : Out: Y0 = X0*X0- *Y
% ('|_',LFc1, sX, LFc2) : Out: Fc1 orthog. wrt Fc2
% ('|_?',LFc1,sX [,LFc2]): Out: is Fc2 ortho to Fc1 or is Fc1 ortho ?
% ('In', LFc1, sX, LFc2) : Out: indices of Fc2 if "in", 0 otherwise
% ('~unique', LFc, sX) : Out: indices of redundant contrasts
% ('0|[]', Fc, sX) : Out: 1 if Fc is zero or empty, 0 otherwise
case 'hsqr' %-Extra sum of squares matrix for beta's from contrast
%=======================================================================
% hsqr = spm_FcUtil('Hsqr',Fc, sX)
if nargin<3, error('Insufficient arguments'), end
if nargout>1, error('Too many output argument.'), end
Fc = varargin{2};
sX = varargin{3};
if ~sf_IsFcon(Fc), error('Fc must be F-contrast'), end
if ~sf_IsSet(Fc), error('Fcon must be set'); end; %-
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
% if ~spm_FcUtil('Rcompatible',Fc,sX), ...
% error('sX and Fc must be compatible'), end;
if sf_isempty_X1o(Fc)
if ~sf_isempty_X0(Fc)
%- assumes that X0 is sX.X
%- warning(' Empty X1o in spm_FcUtil(''Hsqr'',Fc,sX) ');
varargout = { zeros(1,spm_sp('size',sX,2)) };
else
error(' Fc must be set ');
end
else
varargout = { sf_Hsqr(Fc,sX) };
end
case 'h' %-Extra sum of squares matrix for beta's from contrast
%=======================================================================
% H = spm_FcUtil('H',Fc, sX)
%
% Empty and zeros dealing :
% This routine never returns an empty matrix.
% If sf_isempty_X1o(Fc) | isempty(Fc.c) it explicitly
% returns a zeros projection matrix.
if nargin<2, error('Insufficient arguments'), end
if nargout>1, error('Too many output argument.'), end
Fc = varargin{2};
sX = varargin{3};
if ~sf_IsFcon(Fc), error('Fc must be F-contrast'), end
if ~sf_IsSet(Fc), error('Fcon must be set'); end; %-
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
% if ~spm_FcUtil('Rcompatible',Fc,sX), ...
% error('sX and Fc must be compatible'), end;
if sf_isempty_X1o(Fc)
if ~sf_isempty_X0(Fc)
%- assumes that X0 is sX.X
%- warning(' Empty X1o in spm_FcUtil(''H'',Fc,sX) ');
varargout = { zeros(spm_sp('size',sX,2)) };
else
error(' Fc must be set ');
end
else
varargout = { sf_H(Fc,sX) };
end
case 'yc' %- Fitted data corrected for confounds defined by Fc
%=======================================================================
% Yc = spm_FcUtil('Yc',Fc, sX, b)
if nargin < 4, error('Insufficient arguments'), end
if nargout > 1, error('Too many output argument.'), end
Fc = varargin{2}; sX = varargin{3}; b = varargin{4};
if ~sf_IsFcon(Fc), error('Fc must be F-contrast'), end
if ~sf_IsSet(Fc), error('Fcon must be set'); end;
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
% if ~spm_FcUtil('Rcompatible',Fc,sX), ...
% error('sX and Fc must be compatible'), end;
if spm_sp('size',sX,2) ~= size(b,1),
error('sX and b must be compatible'), end;
if sf_isempty_X1o(Fc)
if ~sf_isempty_X0(Fc)
%- if space of interest empty or null, returns zeros !
varargout = { zeros(spm_sp('size',sX,1),size(b,2)) };
else
error(' Fc must be set ');
end
else
varargout = { sf_Yc(Fc,sX,b) };
end
case 'y0' %- Fitted data corrected for confounds defined by Fc
%=======================================================================
% Y0 = spm_FcUtil('Y0',Fc, sX, b)
if nargin < 4, error('Insufficient arguments'), end
if nargout > 1, error('Too many output argument.'), end
Fc = varargin{2}; sX = varargin{3}; b = varargin{4};
if ~sf_IsFcon(Fc), error('Fc must be F-contrast'), end
if ~sf_IsSet(Fc), error('Fcon must be set'); end;
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
% if ~spm_FcUtil('Rcompatible',Fc,sX), ...
% error('sX and Fc must be compatible'), end;
if spm_sp('size',sX,2) ~= size(b,1),
error('sX and b must be compatible'), end;
if sf_isempty_X1o(Fc)
if ~sf_isempty_X0(Fc)
%- if space of interest empty or null, returns zeros !
varargout = { sX.X*b };
else
error(' Fc must be set ');
end
else
varargout = { sf_Y0(Fc,sX,b) };
end
case {'|_'} %- Fc orthogonalisation
%=======================================================================
% Fc = spm_FcUtil('|_',Fc1, sX, Fc2)
%
% returns Fc1 orthogonolised wrt Fc2
if nargin < 4, error('Insufficient arguments'), end
if nargout > 1, error('Too many output argument.'), end
Fc1 = varargin{2}; sX = varargin{3}; Fc2 = varargin{4};
%------------------ check arguments
L1 = length(Fc1);
if ~L1, warning('no contrast given to |_'); varargout = {[]}; return; end
for i=1:L1
if ~sf_IsFcon(Fc1(i)), error('Fc1(i) must be a contrast'), end
end
L2 = length(Fc2);
if ~L2, error('must have at least a contrast in Fc2'); end
for i=1:L2
if ~sf_IsFcon(Fc2(i)), error('Fc2(i) must be a contrast'), end
end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
%------------------
%- create an F-contrast for all the Fc2
str = Fc2(1).name; for i=2:L2 str = [str ' ' Fc2(i).name]; end;
Fc2 = spm_FcUtil('Set',str,'F','c+',cat(2,Fc2(:).c),sX);
if sf_isempty_X1o(Fc2) | sf_isnull(Fc2,sX)
varargout = {Fc1};
else
for i=1:L1
if sf_isempty_X1o(Fc1(i)) | sf_isnull(Fc1(i),sX)
%- Fc1(i) is an [] or 0 contrast : ortho to anything;
out(i) = Fc1(i);
else
out(i) = sf_fcortho(Fc1(i), sX, Fc2);
end
end
varargout = {out};
end
case {'|_?'} %- Are contrasts orthogonals
%=======================================================================
% b = spm_FcUtil('|_?',Fc1, sX [, Fc2])
%
if nargin < 3, error('Insufficient arguments'), end
Fc1 = varargin{2}; sX = varargin{3};
if nargin > 3, Fc2 = varargin{4}; else, Fc2 = []; end;
if isempty(Fc1), error('give at leat one non empty contrast'), end;
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
for i=1:length(Fc1)
if ~sf_IsFcon(Fc1(i)), error('Fc1(i) must be a contrast'), end
end
for i=1:length(Fc2)
if ~sf_IsFcon(Fc2(i)), error('Fc2(i) must be a contrast'), end
end
varargout = { sf_Rortho(Fc1,sX,Fc2) };
case 'in' %- Fc1 is in list of contrasts Fc2
%=======================================================================
% [iFc2 iFc1] = spm_FcUtil('In', Fc1, sX, Fc2)
%
% returns indice of Fc2 if "in", 0 otherwise
% NB : If T- stat, the routine checks whether Fc.c is of
% size one. This is ensure if contrast is set
% or manipulated (ortho ..) with spm_FcUtil
% note that the algorithmn works \emph{only because} Fc2(?).c
% and Fc1.c are in space(X')
%----------------------------
if nargin < 4, error('Insufficient arguments'), end
if nargout > 2, error('Too many output argument.'), end
Fc1 = varargin{2}; Fc2 = varargin{4}; sX = varargin{3};
L1 = length(Fc1);
if ~L1, warning('no contrast given to in');
if nargout == 2, varargout = {[] []};
else, varargout = {[]}; end;
return;
end
for i=1:L1
if ~sf_IsFcon(Fc1(i)), error('Fc1(i) must be a contrast'), end
end
L2 = length(Fc2);
if ~L2, error('must have at least a contrast in Fc2'); end
for i=1:L2
if ~sf_IsFcon(Fc2(i)), error('Fc2(i) must be F-contrast'), end
end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
%----------------------------
[idxFc2 idxFc1] = sf_in(Fc1, sX, Fc2);
if isempty(idxFc2), idxFc2 = 0; end
if isempty(idxFc1), idxFc1 = 0; end
switch nargout
case {0,1}
varargout = { idxFc2 };
case 2
varargout = { idxFc2 idxFc1 };
otherwise
error('Too many or not enough output arguments');
end
case '~unique' %- Fc list unique
%=======================================================================
% idx = spm_FcUtil('~unique', Fc, sX)
%
%- returns indices of redundant contrasts in Fc
%- such that Fc(idx) = [] makes Fc unique.
%- if already unique returns []
if nargin ~= 3, error('Insufficient/too many arguments'), end
Fc = varargin{2}; sX = varargin{3};
%----------------------------
L1 = length(Fc);
if ~L1, warning('no contrast given '); varargout = {[]}; return; end
for i=1:L1
if ~sf_IsFcon(Fc(i)), error('Fc(i) must be a contrast'), end
end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
%----------------------------
varargout = { unique(sf_notunique(Fc, sX))};
case {'0|[]','[]|0'} %- Fc is null or empty
%=======================================================================
% b = spm_FcUtil('0|[]', Fc, sX)
%
% returns 1 if F-contrast is empty or null; assumes the contrast is set.
if nargin ~= 3, error('Insufficient/too many arguments'), end
Fc = varargin{2}; sX = varargin{3};
%----------------------------
L1 = length(Fc);
if ~L1, warning('no contrast given to |_'); varargout = {[]}; return; end
for i=1:L1
if ~sf_IsFcon(Fc(i)), error('Fc(i) must be a contrast'), end
end
if ~spm_sp('isspc',sX), sX = spm_sp('set',sX); end;
%----------------------------
idx = [];
for i=1:L1
if sf_isempty_X1o(Fc(i)) | sf_isnull(Fc(i),sX), idx = [idx i]; end
end
if isempty(idx)
varargout = {0};
else
varargout = {idx};
end
%=======================================================================
otherwise
%=======================================================================
error('Unknown action string in spm_FcUtil')
end; %---- switch lower(action),
%=======================================================================
%=======================================================================
% Sub Functions
%=======================================================================
%=======================================================================
%=======================================================================
% Fcon = spm_FcUtil('FconFields')
%
function Fc = sf_FconFields
Fc = struct(...
'name', '',...
'STAT', '',...
'c', [],...
'X0', struct('ukX0',[]),... %!15/10
'iX0', [],...
'X1o', struct('ukX1o',[]),... %!15/10
'eidf', [],...
'Vcon', [],...
'Vspm', [] );
%=======================================================================
% used internally. Minimum contrast structure
%
function minFc = sf_MinFcFields
minFc = struct(...
'name', '',...
'STAT', '',...
'c', [],...
'X0', [],...
'X1o', []...
);
%=======================================================================
% yes_no = spm_FcUtil('IsFcon',Fc)
%
function b = sf_IsFcon(Fc)
%- check that minimum fields of a contrast are in Fc
b = 1;
minnames = fieldnames(sf_MinFcFields);
FCnames = fieldnames(Fc);
for str = minnames'
b = b & any(strcmp(str,FCnames));
if ~b, break, end
end
%=======================================================================
% used internally; To be set, a contrast structure should have
% either X1o or X0 non empty. X1o can be non empty because c
% is non empty.
%
function b = sf_IsSet(Fc)
b = ~sf_isempty_X0(Fc) | ~sf_isempty_X1o(Fc);
%=======================================================================
% used internally
%
function v = sf_ver(Fc)
if isstruct(Fc.X0), v = 2; else v = 1; end
%=======================================================================
% used internally
%
function b = sf_isempty_X1o(Fc)
if sf_ver(Fc) > 1,
b = isempty(Fc.X1o.ukX1o);
%- consistency check
if b ~= isempty(Fc.c),
Fc.c, Fc.X1o.ukX1o, error('Contrast internally not consistent');
end
else,
b = isempty(Fc.X1o);
%- consistency check
if b ~= isempty(Fc.c),
Fc.c, Fc.X1o, error('Contrast internally not consistent');
end
end
%=======================================================================
% used internally
%
function b = sf_X1o(Fc,sX)
if sf_ver(Fc) > 1,
b = spm_sp('ox',sX)*Fc.X1o.ukX1o;
else,
b = Fc.X1o;
end
%=======================================================================
% used internally
%
function b = sf_X0(Fc,sX)
if sf_ver(Fc) > 1,
b = spm_sp('ox',sX)*Fc.X0.ukX0;
else,
b = Fc.X0;
end
%=======================================================================
% used internally
%
function b = sf_isempty_X0(Fc)
if sf_ver(Fc) > 1,
b = isempty(Fc.X0.ukX0);
else,
b = isempty(Fc.X0);
end
%=======================================================================
% Hsqr = spm_Fcutil('Hsqr',Fc,sX)
%
function hsqr = sf_Hsqr(Fc,sX)
%
% Notations : H equiv to X1o, H = uk*a1, X = uk*ax, r = rk(sX),
% sX.X is (n,p), H is (n,q), a1 is (r,q), ax is (r,p)
% oxa1 is an orthonormal basis for a1, oxa1 is (r,qo<=q)
% Algorithm :
% v1 : Y'*H*(H'*H)-*H'*Y = b'*X'*H*(H'*H)-*H'*X*b
% = b'*X'*oxH*oxH'*X*b
% so hsrq is set to oxH'*X, a (q,n)*(n,p) op. + computation of oxH
% v2 : X'*H*(H'*H)-*H'*X = ax'*uk'*uk*a1*(a1'*uk'*uk*a1)-*a1'*uk'*uk*ax
% = ax'*a1*(a1'*a1)-*a1'*ax
% = ax'*oxa1*oxa1'*ax
%
% so hsrq is set to oxa1'*ax : a (qo,r)*(r,p) operation! -:))
% + computation of oxa1.
%-**** fprintf('v%d\n',sf_ver(Fc));
if sf_ver(Fc) > 1,
hsqr = spm_sp('ox',spm_sp('set',Fc.X1o.ukX1o))' * spm_sp('cukx',sX);
else,
hsqr = spm_sp('ox',spm_sp('set',Fc.X1o))'*spm_sp('x',sX);
end
%=======================================================================
% H = spm_FcUtil('H',Fc)
%
function H = sf_H(Fc,sX)
%
% Notations : H equiv to X1o, H = uk*a1, X = uk*ax
% Algorithm :
% v1 : Y'*H*(H'*H)-*H'*Y = b'*X'*H*(H'*H)-*H'*X*b
% = b'*c*(H'*H)-*c'*b
% = b'*c*(c'*(X'*X)-*c)-*c'*b
%- v1 : Note that pinv(Fc.X1o' * Fc.X1o) is not too bad
%- because dimensions are only (q,q). See sf_hsqr for notations.
%- Fc.c and Fc.X1o should match. This is ensure by using FcUtil.
%-**** fprintf('v%d\n',sf_ver(Fc));
if sf_ver(Fc) > 1,
hsqr = sf_Hsqr(Fc,sX);
H = hsqr' * hsqr;
else
H = Fc.c * pinv(Fc.X1o' * Fc.X1o) * Fc.c';
% H = {c*spm_sp('x-',spm_sp('Set',c'*spm_sp('xpx-',sX)*c) )*c'}
end
%=======================================================================
% Yc = spm_FcUtil('Yc',Fc,sX,b)
%
function Yc = sf_Yc(Fc,sX,b)
Yc = sX.X*spm_sp('xpx-',sX)*sf_H(Fc,sX)*b;
%=======================================================================
% Y0 = spm_FcUtil('Y0',Fc,sX,b)
%
function Y0 = sf_Y0(Fc,sX,b)
Y0 = sX.X*(eye(spm_sp('size',sX,2)) - spm_sp('xpx-',sX)*sf_H(Fc,sX))*b;
%=======================================================================
% Fc = spm_FcUtil('|_',Fc1, sX, Fc2)
%
function Fc1o = sf_fcortho(Fc1, sX, Fc2)
%--- use the space facility to ensure the proper tolerance dealing...
c1_2 = Fc1.c - sf_H(Fc2,sX)*spm_sp('xpx-:',sX,Fc1.c);
Fc1o = spm_FcUtil('Set',['(' Fc1.name ' |_ (' Fc2.name '))'], ...
Fc1.STAT, 'c+',c1_2,sX);
%- In the large (scans) dimension :
%- c = sX.X'*spm_sp('r:',spm_sp('set',Fc2.X1o),Fc1.X1o);
%- Fc1o = spm_FcUtil('Set',['(' Fc1.name ' |_ (' Fc2.name '))'], ...
%- Fc1.STAT, 'c',c,sX);
%=======================================================================
function b = sf_Rortho(Fc1,sX,Fc2);
%
if isempty(Fc2)
if length(Fc1) <= 1, b = 0;
else
c1 = cat(2,Fc1(:).c);
b = ~any(any( abs(triu(c1'*spm_sp('xpx-:',sX,c1), 1)) > sX.tol));
end
else
c1 = cat(2,Fc1(:).c); c2 = cat(2,Fc2(:).c);
b = ~any(any( abs(c1'*spm_sp('xpx-:',sX,c2)) > sX.tol ));
end
%=======================================================================
% b = spm_FcUtil('0|[]', Fc, sX)
%
%- returns 1 if F-contrast is empty or null; assumes the contrast is set.
%- Assumes that if Fc.c contains only zeros, so does Fc.X1o.
%- this is ensured if spm_FcUtil is used
function boul = sf_isnull(Fc,sX)
%
boul = ~any(any(spm_sp('oPp:',sX,Fc.c)));
%=======================================================================
%
function boul = sf_rcompatible(Fc,sX)
%
%- ways for Fc and sX to be uncompatible
% size(c,1) ~= size(sX.X,2)
% size(Fc.X0,1) ~= size(sX.X,1)
% size(Fc.X1o,1) ~= size(sX.X,1)
boul = 1;
%=======================================================================
% Fc = spm_FcUtil('Set',name, STAT, set_action, value, sX)
function boul = sf_is_T(sX,c)
%- assumes that the dimensions are OK
%- assumes c is not empty
%- Does NOT assumes that c is space of sX'
%- A rank of zero can be defined
%- if the rank == 1, checks whether same directions
boul = 1;
if ~spm_sp('isinspp',sX,c), c = spm_sp('oPp:',sX,c); end;
if rank(c) > 1 | any(any(c'*c < 0)), boul = 0; end;
%=======================================================================
function [idxFc2, idxFc1] = sf_in(Fc1, sX, Fc2);
L2 = length(Fc2);
L1 = length(Fc1);
idxFc1 = []; idxFc2 = [];
for j=1:L1
%- project Fc1(j).c if not estimable
if ~spm_sp('isinspp',sX,Fc1(j).c), %- warning ?
c1 = spm_sp('oPp:',sX,Fc1(j).c);
else,
c1 = Fc1(j).c;
end
sc1 = spm_sp('Set',c1);
S = Fc1(j).STAT;
boul = 0; i = 1;
for i =1:L2,
if Fc2(i).STAT == S
%- the same statistics. else just go on to the next contrast
boul = spm_sp('==',sc1,spm_sp('oPp',sX,Fc2(i).c));
%- if they are the same space and T stat (same direction),
%- then check wether they are in the same ORIENTATION
%- works because size(X1o,2) == 1, else .* with (Fc1(j).c'*Fc2(i).c)
if boul & S == 'T'
atmp = sf_X1o(Fc1(j),sX);
btmp = sf_X1o(Fc2(i),sX);
boul = ~any(any( (atmp' * btmp) < 0 ));
end
%- note the indices
if boul, idxFc1 = [idxFc1 j]; idxFc2 = [idxFc2 i]; end;
end;
end
end %- for j=1:L1
%=======================================================================
function idx = sf_notunique(Fc, sX)
%- works recursively ...
%- and use the fact that [] + i == []
%- quite long for large sets ...
l = length(Fc);
if l == 1, idx = [];
else
idx = [ (1+sf_in(Fc(1),sX,Fc(2:l))) (1+sf_notunique(Fc(2:l), sX))];
end
%=======================================================================
% edf = spm_FcUtil('FconEdf', Fc, sX, V)
%
% function Fc = sf_FconEdf(Fc,sX,V)