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-rw-r--r--supp/add_wedges.m35
-rw-r--r--supp/filtersinc.m28
-rw-r--r--supp/ssim_index.m181
-rw-r--r--supp/subplot_tight.m1
4 files changed, 0 insertions, 245 deletions
diff --git a/supp/add_wedges.m b/supp/add_wedges.m
deleted file mode 100644
index 5bc215c..0000000
--- a/supp/add_wedges.m
+++ /dev/null
@@ -1,35 +0,0 @@
-% create a wedge mask to simulate the missing wedge
-
-[rows, columns] = size(sino_zing_rings);
-grayImage = ones(rows, columns, 'uint8');
-xCoords = [0 360 0];
-yCoords = [35 7 7];
-mask = poly2mask(xCoords, yCoords, rows, columns);
-grayImage(mask) = 0;
-
-xCoords = [727 360 727];
-yCoords = [35 7 7];
-mask = poly2mask(xCoords, yCoords, rows, columns);
-grayImage(mask) = 0;
-
-xCoords = [0 360 0];
-yCoords = [145 173 173];
-mask = poly2mask(xCoords, yCoords, rows, columns);
-grayImage(mask) = 0;
-
-xCoords = [727 360 727];
-yCoords = [145 173 173];
-mask = poly2mask(xCoords, yCoords, rows, columns);
-grayImage(mask) = 0;
-
-grayImage(1:7,:) = 0;
-grayImage(173:end,:) = 0;
-
-%figure; imshow(grayImage, [0 1]);
-MW_sino_artifacts = sino_zing_rings.*double(grayImage);
-% !!!
-% note that we do not re-calculate Dweights for MW_sino_artifacts
-% if one does: Dweights = Dweights.*double(grayImage);
-% then the MW artifacts will be reduced substantially,
-% through weighting. However we would like to explore
-% the effect of the penalty instead. \ No newline at end of file
diff --git a/supp/filtersinc.m b/supp/filtersinc.m
deleted file mode 100644
index 6c29c98..0000000
--- a/supp/filtersinc.m
+++ /dev/null
@@ -1,28 +0,0 @@
-function g = filtersinc(PR)
-
-
-% filtersinc.m
-%
-% Written by Waqas Akram
-%
-% "a": This parameter varies the filter magnitude response.
-% When "a" is very small (a<<1), the response approximates |w|
-% As "a" is increased, the filter response starts to
-% roll off at high frequencies.
-a = 1;
-
-[Length, Count] = size(PR);
-w = [-pi:(2*pi)/Length:pi-(2*pi)/Length];
-
-rn1 = abs(2/a*sin(a.*w./2));
-rn2 = sin(a.*w./2);
-rd = (a*w)./2;
-r = rn1*(rn2/rd)^2;
-
-f = fftshift(r);
-for i = 1:Count
- IMG = fft(PR(:,i));
- fimg = IMG.*f';
- g(:,i) = ifft(fimg);
-end
-g = real(g); \ No newline at end of file
diff --git a/supp/ssim_index.m b/supp/ssim_index.m
deleted file mode 100644
index 4fa7a79..0000000
--- a/supp/ssim_index.m
+++ /dev/null
@@ -1,181 +0,0 @@
-function [mssim, ssim_map] = ssim_index(img1, img2, K, window, L)
-
-%========================================================================
-%SSIM Index, Version 1.0
-%Copyright(c) 2003 Zhou Wang
-%All Rights Reserved.
-%
-%This is an implementation of the algorithm for calculating the
-%Structural SIMilarity (SSIM) index between two images. Please refer
-%to the following paper:
-%
-%Z. Wang, A. C. Bovik, H. R. Sheikh, and E. P. Simoncelli, "Image
-%quality assessment: From error visibility to structural similarity"
-%IEEE Transactios on Image Processing, vol. 13, no. 4, pp.600-612,
-%Apr. 2004.
-%
-%Kindly report any suggestions or corrections to zhouwang@ieee.org
-%
-%----------------------------------------------------------------------
-%
-%Input : (1) img1: the first image being compared
-% (2) img2: the second image being compared
-% (3) K: constants in the SSIM index formula (see the above
-% reference). defualt value: K = [0.01 0.03]
-% (4) window: local window for statistics (see the above
-% reference). default widnow is Gaussian given by
-% window = fspecial('gaussian', 11, 1.5);
-% (5) L: dynamic range of the images. default: L = 255
-%
-%Output: (1) mssim: the mean SSIM index value between 2 images.
-% If one of the images being compared is regarded as
-% perfect quality, then mssim can be considered as the
-% quality measure of the other image.
-% If img1 = img2, then mssim = 1.
-% (2) ssim_map: the SSIM index map of the test image. The map
-% has a smaller size than the input images. The actual size:
-% size(img1) - size(window) + 1.
-%
-%Default Usage:
-% Given 2 test images img1 and img2, whose dynamic range is 0-255
-%
-% [mssim ssim_map] = ssim_index(img1, img2);
-%
-%Advanced Usage:
-% User defined parameters. For example
-%
-% K = [0.05 0.05];
-% window = ones(8);
-% L = 100;
-% [mssim ssim_map] = ssim_index(img1, img2, K, window, L);
-%
-%See the results:
-%
-% mssim %Gives the mssim value
-% imshow(max(0, ssim_map).^4) %Shows the SSIM index map
-%
-%========================================================================
-
-
-if (nargin < 2 | nargin > 5)
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
-end
-
-if (size(img1) ~= size(img2))
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
-end
-
-[M N] = size(img1);
-
-if (nargin == 2)
- if ((M < 11) | (N < 11)) % ͼССû塣
- ssim_index = -Inf;
- ssim_map = -Inf;
- return
- end
- window = fspecial('gaussian', 11, 1.5); % һ׼ƫ1.511*11ĸ˹ͨ˲
- K(1) = 0.01; % default settings
- K(2) = 0.03; %
- L = 255; %
-end
-
-if (nargin == 3)
- if ((M < 11) | (N < 11))
- ssim_index = -Inf;
- ssim_map = -Inf;
- return
- end
- window = fspecial('gaussian', 11, 1.5);
- L = 255;
- if (length(K) == 2)
- if (K(1) < 0 | K(2) < 0)
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
- else
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
-end
-
-if (nargin == 4)
- [H W] = size(window);
- if ((H*W) < 4 | (H > M) | (W > N))
- ssim_index = -Inf;
- ssim_map = -Inf;
- return
- end
- L = 255;
- if (length(K) == 2)
- if (K(1) < 0 | K(2) < 0)
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
- else
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
-end
-
-if (nargin == 5)
- [H W] = size(window);
- if ((H*W) < 4 | (H > M) | (W > N))
- ssim_index = -Inf;
- ssim_map = -Inf;
- return
- end
- if (length(K) == 2)
- if (K(1) < 0 | K(2) < 0)
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
- else
- ssim_index = -Inf;
- ssim_map = -Inf;
- return;
- end
-end
-%%
-C1 = (K(1)*L)^2; % C1Lxyá
-C2 = (K(2)*L)^2; % C2ԱȶCxyá
-window = window/sum(sum(window)); %˲һ
-img1 = double(img1);
-img2 = double(img2);
-
-mu1 = filter2(window, img1, 'valid'); % ͼ˲ӼȨ
-mu2 = filter2(window, img2, 'valid'); % ͼ˲ӼȨ
-
-mu1_sq = mu1.*mu1; % Uxƽֵ
-mu2_sq = mu2.*mu2; % Uyƽֵ
-mu1_mu2 = mu1.*mu2; % Ux*Uyֵ
-
-sigma1_sq = filter2(window, img1.*img1, 'valid') - mu1_sq; % sigmax ׼
-sigma2_sq = filter2(window, img2.*img2, 'valid') - mu2_sq; % sigmay ׼
-sigma12 = filter2(window, img1.*img2, 'valid') - mu1_mu2; % sigmaxy׼
-
-if (C1 > 0 & C2 > 0)
- ssim_map = ((2*mu1_mu2 + C1).*(2*sigma12 + C2))./((mu1_sq + mu2_sq + C1).*(sigma1_sq + sigma2_sq + C2));
-else
- numerator1 = 2*mu1_mu2 + C1;
- numerator2 = 2*sigma12 + C2;
- denominator1 = mu1_sq + mu2_sq + C1;
- denominator2 = sigma1_sq + sigma2_sq + C2;
- ssim_map = ones(size(mu1));
- index = (denominator1.*denominator2 > 0);
- ssim_map(index) = (numerator1(index).*numerator2(index))./(denominator1(index).*denominator2(index));
- index = (denominator1 ~= 0) & (denominator2 == 0);
- ssim_map(index) = numerator1(index)./denominator1(index);
-end
-
-mssim = mean2(ssim_map);
-
-return \ No newline at end of file
diff --git a/supp/subplot_tight.m b/supp/subplot_tight.m
deleted file mode 100644
index 0b0cbd5..0000000
--- a/supp/subplot_tight.m
+++ /dev/null
@@ -1 +0,0 @@
-function vargout=subplot_tight(m, n, p, margins, varargin) %% subplot_tight % A subplot function substitude with margins user tunabble parameter. % %% Syntax % h=subplot_tight(m, n, p); % h=subplot_tight(m, n, p, margins); % h=subplot_tight(m, n, p, margins, subplotArgs...); % %% Description % Our goal is to grant the user the ability to define the margins between neighbouring % subplots. Unfotrtunately Matlab subplot function lacks this functionality, and the % margins between subplots can reach 40% of figure area, which is pretty lavish. While at % the begining the function was implememnted as wrapper function for Matlab function % subplot, it was modified due to axes del;etion resulting from what Matlab subplot % detected as overlapping. Therefore, the current implmenetation makes no use of Matlab % subplot function, using axes instead. This can be problematic, as axis and subplot % parameters are quie different. Set isWrapper to "True" to return to wrapper mode, which % fully supports subplot format. % %% Input arguments (defaults exist): % margins- two elements vector [vertical,horizontal] defining the margins between % neighbouring axes. Default value is 0.04 % %% Output arguments % same as subplot- none, or axes handle according to function call. % %% Issues & Comments % - Note that if additional elements are used in order to be passed to subplot, margins % parameter must be defined. For default margins value use empty element- []. % - % %% Example % close all; % img=imread('peppers.png'); % figSubplotH=figure('Name', 'subplot'); % figSubplotTightH=figure('Name', 'subplot_tight'); % nElems=17; % subplotRows=ceil(sqrt(nElems)-1); % subplotRows=max(1, subplotRows); % subplotCols=ceil(nElems/subplotRows); % for iElem=1:nElems % figure(figSubplotH); % subplot(subplotRows, subplotCols, iElem); % imshow(img); % figure(figSubplotTightH); % subplot_tight(subplotRows, subplotCols, iElem, [0.0001]); % imshow(img); % end % %% See also % - subplot % %% Revision history % First version: Nikolay S. 2011-03-29. % Last update: Nikolay S. 2012-05-24. % % *List of Changes:* % 2012-05-24 % Non wrapping mode (based on axes command) added, to deal with an issue of disappearing % subplots occuring with massive axes. %% Default params isWrapper=false; if (nargin<4) || isempty(margins) margins=[0.04,0.04]; % default margins value- 4% of figure end if length(margins)==1 margins(2)=margins; end %note n and m are switched as Matlab indexing is column-wise, while subplot indexing is row-wise :( [subplot_col,subplot_row]=ind2sub([n,m],p); height=(1-(m+1)*margins(1))/m; % single subplot height width=(1-(n+1)*margins(2))/n; % single subplot width % note subplot suppors vector p inputs- so a merged subplot of higher dimentions will be created subplot_cols=1+max(subplot_col)-min(subplot_col); % number of column elements in merged subplot subplot_rows=1+max(subplot_row)-min(subplot_row); % number of row elements in merged subplot merged_height=subplot_rows*( height+margins(1) )- margins(1); % merged subplot height merged_width= subplot_cols*( width +margins(2) )- margins(2); % merged subplot width merged_bottom=(m-max(subplot_row))*(height+margins(1)) +margins(1); % merged subplot bottom position merged_left=min(subplot_col)*(width+margins(2))-width; % merged subplot left position pos=[merged_left, merged_bottom, merged_width, merged_height]; if isWrapper h=subplot(m, n, p, varargin{:}, 'Units', 'Normalized', 'Position', pos); else h=axes('Position', pos, varargin{:}); end if nargout==1 vargout=h; end \ No newline at end of file