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author | Matt Argao <mcargao@email.wm.edu> | 2013-03-31 22:35:49 -0400 |
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committer | Matt Argao <mcargao@email.wm.edu> | 2013-03-31 22:35:49 -0400 |
commit | 4d08c162d5ce4ac8b7eaeb9d985bfef62c886e99 (patch) | |
tree | 45733367770ddc4585faa09976b403a858d5d8e5 /pick_visualization.m | |
parent | 2f3d161985ae2e57ed966981e58eb117d3a49c71 (diff) | |
download | mode_match-3.0.tar.gz mode_match-3.0.zip |
Added descriptions to each function.v3.0
Diffstat (limited to 'pick_visualization.m')
-rw-r--r-- | pick_visualization.m | 10 |
1 files changed, 5 insertions, 5 deletions
diff --git a/pick_visualization.m b/pick_visualization.m index 88f1989..5a11231 100644 --- a/pick_visualization.m +++ b/pick_visualization.m @@ -1,4 +1,4 @@ -function [ ] = pick_visualization( fitness_energy, possible_lens_placement_uniq, possible_lens_placement, possible_lens_set, index, n_visualizations, q0, qf, Ltot, lambda ) +function [ ] = pick_visualization( fitness_energy, possible_lens_placement_uniq, possible_lens_placement, possible_lens_set, index, n_visualizations, q0, qf, Ltot, lambda, lens_width, display_prop ) %Picks n_visualizations of sets of data and graphs each x0 = 0; @@ -6,11 +6,11 @@ n_possible_lens_placement = min(n_visualizations,size(possible_lens_placement_un for n_graph = 1:n_possible_lens_placement figure(n_graph) - [w_final_trial, r_final_trial] = solution_visualization(q0, x0, qf, Ltot, optics_placer(possible_lens_placement(index(n_graph),:), possible_lens_set(index(n_graph),:)), lambda); + [w_final_trial, r_final_trial] = solution_visualization(q0, x0, qf, Ltot, optics_placer(possible_lens_placement(index(n_graph),:), possible_lens_set(index(n_graph),:)), lambda, lens_width, display_prop); - str1=sprintf('\n f_1 = %0.4f, x_1 = %0.4f\n',possible_lens_set(index(n_graph),1),possible_lens_placement(index(n_graph),1)); - str2=sprintf('f_2 = %0.4f, x_2 = %0.4f\n',possible_lens_set(index(n_graph),2),possible_lens_placement(index(n_graph),2)); - str3=sprintf('f_3 = %0.4f, x_3 = %0.4f\n',possible_lens_set(index(n_graph),3),possible_lens_placement(index(n_graph),3)); + str1=sprintf('\n (red) f_1 = %0.4f, x_1 = %0.4f\n',possible_lens_set(index(n_graph),1),possible_lens_placement(index(n_graph),1)); + str2=sprintf(' (green) f_2 = %0.4f, x_2 = %0.4f\n',possible_lens_set(index(n_graph),2),possible_lens_placement(index(n_graph),2)); + str3=sprintf(' (blue) f_3 = %0.4f, x_3 = %0.4f\n',possible_lens_set(index(n_graph),3),possible_lens_placement(index(n_graph),3)); tstr='Solution #'; str_w = ['w_{final}= ',num2str(w_final_trial)]; str_r = [', r_{final}= ',num2str(r_final_trial)]; |