www.gusucode.com > 可控金字塔(steerable pyramids)的代码程序 > matlabPyrTools/cconv2.m
% RES = CCONV2(MTX1, MTX2, CTR)
%
% Circular convolution of two matrices. Result will be of size of
% LARGER vector.
%
% The origin of the smaller matrix is assumed to be its center.
% For even dimensions, the origin is determined by the CTR (optional)
% argument:
% CTR origin
% 0 DIM/2 (default)
% 1 (DIM/2)+1
% Eero Simoncelli, 6/96. Modified 2/97.
function c = cconv2(a,b,ctr)
if (exist('ctr') ~= 1)
ctr = 0;
end
if (( size(a,1) >= size(b,1) ) & ( size(a,2) >= size(b,2) ))
large = a; small = b;
elseif (( size(a,1) <= size(b,1) ) & ( size(a,2) <= size(b,2) ))
large = b; small = a;
else
error('one arg must be larger than the other in both dimensions!');
end
ly = size(large,1);
lx = size(large,2);
sy = size(small,1);
sx = size(small,2);
%% These values are the index of the small mtx that falls on the
%% border pixel of the large matrix when computing the first
%% convolution response sample:
sy2 = floor((sy+ctr+1)/2);
sx2 = floor((sx+ctr+1)/2);
% pad:
clarge = [ ...
large(ly-sy+sy2+1:ly,lx-sx+sx2+1:lx), large(ly-sy+sy2+1:ly,:), ...
large(ly-sy+sy2+1:ly,1:sx2-1); ...
large(:,lx-sx+sx2+1:lx), large, large(:,1:sx2-1); ...
large(1:sy2-1,lx-sx+sx2+1:lx), ...
large(1:sy2-1,:), ...
large(1:sy2-1,1:sx2-1) ];
c = conv2(clarge,small,'valid');