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annotate toolboxes/FullBNT-1.0.7/graph/Old/mk_2D_lattice_slow.m @ 0:cc4b1211e677 tip

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initial commit to HG from Changeset: 646 (e263d8a21543) added further path and more save "camirversion.m"
author Daniel Wolff
date Fri, 19 Aug 2016 13:07:06 +0200
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Daniel@0 1 function G = mk_2D_lattice(nrows, ncols, wrap_around)
Daniel@0 2 % MK_2D_LATTICE Return adjacency matrix for 4-nearest neighbor connected 2D lattice
Daniel@0 3 % G = mk_2D_lattice(nrows, ncols, wrap_around)
Daniel@0 4 % G(k1, k2) = 1 iff k1=(i1,j1) is connected to k2=(i2,j2)
Daniel@0 5 %
Daniel@0 6 % If wrap_around = 1, we use toroidal boundary conditions (default = 0)
Daniel@0 7 %
Daniel@0 8 % Nodes are assumed numbered as in the following 3x3 lattice
Daniel@0 9 % 1 4 7
Daniel@0 10 % 2 5 8
Daniel@0 11 % 3 6 9
Daniel@0 12 %
Daniel@0 13 % e.g., G = mk_2D_lattice(3, 3, 0) returns
Daniel@0 14 % 0 1 0 1 0 0 0 0 0
Daniel@0 15 % 1 0 1 0 1 0 0 0 0
Daniel@0 16 % 0 1 0 0 0 1 0 0 0
Daniel@0 17 % 1 0 0 0 1 0 1 0 0
Daniel@0 18 % 0 1 0 1 0 1 0 1 0
Daniel@0 19 % 0 0 1 0 1 0 0 0 1
Daniel@0 20 % 0 0 0 1 0 0 0 1 0
Daniel@0 21 % 0 0 0 0 1 0 1 0 1
Daniel@0 22 % 0 0 0 0 0 1 0 1 0
Daniel@0 23 % so find(G(5,:)) = [2 4 6 8]
Daniel@0 24 % but find(G(1,:)) = [2 4]
Daniel@0 25 %
Daniel@0 26 % Using wrap around, G = mk_2D_lattice(3, 3, 1), we get
Daniel@0 27 % 0 1 1 1 0 0 1 0 0
Daniel@0 28 % 1 0 1 0 1 0 0 1 0
Daniel@0 29 % 1 1 0 0 0 1 0 0 1
Daniel@0 30 % 1 0 0 0 1 1 1 0 0
Daniel@0 31 % 0 1 0 1 0 1 0 1 0
Daniel@0 32 % 0 0 1 1 1 0 0 0 1
Daniel@0 33 % 1 0 0 1 0 0 0 1 1
Daniel@0 34 % 0 1 0 0 1 0 1 0 1
Daniel@0 35 % 0 0 1 0 0 1 1 1 0
Daniel@0 36 % so find(G(5,:)) = [2 4 6 8]
Daniel@0 37 % and find(G(1,:)) = [2 3 4 7]
Daniel@0 38
Daniel@0 39 if nargin < 3, wrap_around = 0; end
Daniel@0 40
Daniel@0 41 % M contains the number of each cell e.g.
Daniel@0 42 % 1 4 7
Daniel@0 43 % 2 5 8
Daniel@0 44 % 3 6 9
Daniel@0 45 % North neighbors (assuming wrap around) are
Daniel@0 46 % 3 6 9
Daniel@0 47 % 1 4 7
Daniel@0 48 % 2 5 8
Daniel@0 49 % Without wrap around, they are
Daniel@0 50 % 1 4 7
Daniel@0 51 % 1 4 7
Daniel@0 52 % 2 5 8
Daniel@0 53 % The first row is arbitrary, since pixels at the top have no north neighbor.
Daniel@0 54
Daniel@0 55 npixels = nrows*ncols;
Daniel@0 56
Daniel@0 57 N = 1; E = 2; S = 3; W = 4;
Daniel@0 58 if wrap_around
Daniel@0 59 rows{N} = [nrows 1:nrows-1]; cols{N} = 1:ncols;
Daniel@0 60 rows{E} = 1:nrows; cols{E} = [2:ncols 1];
Daniel@0 61 rows{S} = [2:nrows 1]; cols{S} = 1:ncols;
Daniel@0 62 rows{W} = 1:nrows; cols{W} = [ncols 1:ncols-1];
Daniel@0 63 else
Daniel@0 64 rows{N} = [1 1:nrows-1]; cols{N} = 1:ncols;
Daniel@0 65 rows{E} = 1:nrows; cols{E} = [2:ncols 2];
Daniel@0 66 rows{S} = [2:nrows 2]; cols{S} = 1:ncols;
Daniel@0 67 rows{W} = 1:nrows; cols{W} = [1 1:ncols-1];
Daniel@0 68 end
Daniel@0 69
Daniel@0 70 M = reshape(1:npixels, [nrows ncols]);
Daniel@0 71 nbrs = cell(1, 4);
Daniel@0 72 for i=1:4
Daniel@0 73 nbrs{i} = M(rows{i}, cols{i});
Daniel@0 74 end
Daniel@0 75
Daniel@0 76
Daniel@0 77 G = zeros(npixels, npixels);
Daniel@0 78 if wrap_around
Daniel@0 79 for i=1:4
Daniel@0 80 if 0
Daniel@0 81 % naive
Daniel@0 82 for p=1:npixels
Daniel@0 83 G(p, nbrs{i}(p)) = 1;
Daniel@0 84 end
Daniel@0 85 else
Daniel@0 86 % vectorized
Daniel@0 87 ndx2 = sub2ind([npixels npixels], 1:npixels, nbrs{i}(:)');
Daniel@0 88 G(ndx2) = 1;
Daniel@0 89 end
Daniel@0 90 end
Daniel@0 91 else
Daniel@0 92 i = N;
Daniel@0 93 mask = ones(nrows, ncols);
Daniel@0 94 mask(1,:) = 0; % pixels in row 1 have no nbr to the north
Daniel@0 95 ndx = find(mask);
Daniel@0 96 ndx2 = sub2ind([npixels npixels], ndx, nbrs{i}(ndx));
Daniel@0 97 G(ndx2) = 1;
Daniel@0 98
Daniel@0 99 i = E;
Daniel@0 100 mask = ones(nrows, ncols);
Daniel@0 101 mask(:,ncols) = 0;
Daniel@0 102 ndx = find(mask);
Daniel@0 103 ndx2 = sub2ind([npixels npixels], ndx, nbrs{i}(ndx));
Daniel@0 104 G(ndx2) = 1;
Daniel@0 105
Daniel@0 106 i = S;
Daniel@0 107 mask = ones(nrows, ncols);
Daniel@0 108 mask(nrows,:)=0;
Daniel@0 109 ndx = find(mask);
Daniel@0 110 ndx2 = sub2ind([npixels npixels], ndx, nbrs{i}(ndx));
Daniel@0 111 G(ndx2) = 1;
Daniel@0 112
Daniel@0 113 i = W;
Daniel@0 114 mask = ones(nrows, ncols);
Daniel@0 115 mask(:,1)=0;
Daniel@0 116 ndx = find(mask);
Daniel@0 117 ndx2 = sub2ind([npixels npixels], ndx, nbrs{i}(ndx));
Daniel@0 118 G(ndx2) = 1;
Daniel@0 119 end
Daniel@0 120
Daniel@0 121 G = setdiag(G, 0);