-->load('evolution.data','v0') -->v1 !--error 4 undefined variable : v1 -->v0 v0 = 0. 0.6283918 0.5608486 0.2320748 0.3076091 0.6283918 0. 0.6623569 0.2312237 0.9329616 0.5608486 0.6623569 0. 0.2164633 0.2146008 0.2320748 0.2312237 0.2164633 0. 0.312642 0.3076091 0.9329616 0.2146008 0.312642 0. -->max(v0,'r') ans = 0.6283918 0.9329616 0.6623569 0.312642 0.9329616 -->min(max(v0,'r')) ans = 0.312642 -->p=1-min(max(v0,'r')) p = 0.687358 -->fix(v0+p) ans = 0. 1. 1. 0. 0. 1. 0. 1. 0. 1. 1. 1. 0. 0. 0. 0. 0. 0. 0. 1. 0. 1. 0. 1. 0. -->a=fix(v0+p) a = 0. 1. 1. 0. 0. 1. 0. 1. 0. 1. 1. 1. 0. 0. 0. 0. 0. 0. 0. 1. 0. 1. 0. 1. 0. -->sum(a)/2 ans = 5. -->g=mat_2_graph(sparse(fix(v0+p),0,'node-node'); !--error 52 argument must be a real matrix -->g=mat_2_graph(sparse(fix(v0+p)),0,'node-node'); -->graph_diameter(g) ans = 3. -->g=mat_2_graph(sparse(fix(v0+0.5)),0,'node-node'); -->graph_diameter(g) ans = 1.000E+09 -->g=mat_2_graph(sparse(fix(v0+0.8)),0,'node-node'); -->graph_diameter(g) ans = 1. -->g=mat_2_graph(sparse(fix(v0+0.7)),0,'node-node'); -->graph_diameter(g) ans = 3. -->g=mat_2_graph(sparse(fix(v0+0.75)),0,'node-node'); -->graph_diameter(g) ans = 3. -->g=mat_2_graph(sparse(fix(v0+0.78)),0,'node-node'); -->graph_diameter(g) ans = 2. -->for p = .75:.01:.78, graph_diameter(mat_2_graph(sparse(fix(v0+p)),0,'node-node')), end ans = 3. ans = 3. ans = 2. ans = 2. -->for p = .76:.001:.77, graph_diameter(mat_2_graph(sparse(fix(v0+p)),0,'node-node')), end ans = 3. ans = 3. ans = 3. ans = 3. ans = 3. ans = 3. ans = 3. ans = 3. ans = 2. ans = 2. ans = 2. -->v0 v0 = 0. 0.6283918 0.5608486 0.2320748 0.3076091 0.6283918 0. 0.6623569 0.2312237 0.9329616 0.5608486 0.6623569 0. 0.2164633 0.2146008 0.2320748 0.2312237 0.2164633 0. 0.312642 0.3076091 0.9329616 0.2146008 0.312642 0. -->diary(0)