refactored constraint plotting to remove superfluous property
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@@ -132,11 +132,6 @@ function [obj] = constrainMotion(obj)
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idx = idx + 6;
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end
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if coder.target('MATLAB')
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% Save off h function values (logging only — not needed in compiled mode)
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obj.h(:, obj.timestepIndex) = [h(triu(true(nAgents), 1)); reshape(hObs, [], 1); h_xMin; h_xMax; h_yMin; h_yMax; h_zMin; h_zMax;];
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end
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% Add communication network constraints
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hComms = NaN(nAgents, nAgents);
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hComms(logical(eye(nAgents))) = 0;
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@@ -109,8 +109,6 @@ function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, m
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% Prepare performance data store (at t = 0, all have 0 performance)
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obj.perf = [zeros(size(obj.agents, 1) + 1, 1), NaN(size(obj.agents, 1) + 1, size(obj.partitioningTimes, 1) - 1)];
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% Prepare h function data store
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obj.h = NaN(size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2 + size(obj.agents, 1) * size(obj.obstacles, 1) + 6, size(obj.times, 1));
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end
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% Create initial partitioning
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@@ -54,7 +54,6 @@ classdef miSim
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partitionGraphIndex = 1;
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% CBF plotting
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h; % h function values
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hf; % h function plotting figure
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caPlot; % objects for collision avoidance h function plot
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obsPlot; % objects for obstacle h function plot
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+13
-4
@@ -6,6 +6,10 @@ function obj = plotH(obj)
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obj (1, 1) {mustBeA(obj, "miSim")};
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end
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nCA = size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2;
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nObs = size(obj.agents, 1) * size(obj.obstacles, 1);
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nDom = size(obj.agents, 1) * 6;
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obj.hf = figure;
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tiledlayout(obj.hf, 4, 1, "TileSpacing", "tight", "Padding", "compact");
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@@ -15,7 +19,7 @@ function obj = plotH(obj)
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xlabel(obj.hf.Children(1).Children(1), "Time (s)");
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title(obj.hf.Children(1).Children(1), "Collision Avoidance");
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hold(obj.hf.Children(1).Children(1), "on");
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obj.caPlot = plot(obj.h(1:(size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2), :)');
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obj.caPlot = plot(obj.barriers(1:nCA, :)');
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legendStrings = [];
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for ii = 2:size(obj.agents, 1)
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for jj = 1:(ii - 1)
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@@ -31,7 +35,7 @@ function obj = plotH(obj)
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xlabel(obj.hf.Children(1).Children(1), "Time (s)");
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title(obj.hf.Children(1).Children(1), "Obstacles");
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hold(obj.hf.Children(1).Children(1), "on");
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obj.obsPlot = plot(obj.h((1 + (size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)):(((size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)) + size(obj.agents, 1) * size(obj.obstacles, 1)), :)');
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obj.obsPlot = plot(obj.barriers((nCA + 1):(nCA + nObs), :)');
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legendStrings = [];
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for ii = 1:size(obj.obstacles, 1)
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for jj = 1:size(obj.agents, 1)
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@@ -47,8 +51,13 @@ function obj = plotH(obj)
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xlabel(obj.hf.Children(1).Children(1), "Time (s)");
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title(obj.hf.Children(1).Children(1), "Domain");
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hold(obj.hf.Children(1).Children(1), "on");
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obj.domPlot = plot(obj.h((1 + (((size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)) + size(obj.agents, 1) * size(obj.obstacles, 1))):size(obj.h, 1), 1:end)');
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legend(obj.hf.Children(1).Children(1), ["X Min"; "X Max"; "Y Min"; "Y Max"; "Z Min"; "Z Max";], "Location", "bestoutside");
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obj.domPlot = plot(obj.barriers((nCA + nObs + 1):(nCA + nObs + nDom), :)');
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domLabels = ["X Min", "X Max", "Y Min", "Y Max", "Z Min", "Z Max"];
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legendStrings = strings(nDom, 1);
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for ii = 1:size(obj.agents, 1)
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legendStrings((ii - 1) * 6 + (1:6)) = sprintf("A%d ", ii) + domLabels;
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end
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legend(obj.hf.Children(1).Children(1), legendStrings, "Location", "bestoutside");
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hold(obj.hf.Children(1).Children(2), "off");
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nexttile(obj.hf.Children(1));
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@@ -61,13 +61,15 @@ function [obj] = updatePlots(obj)
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end
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% Update h function plots
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for ii = 1:size(obj.caPlot, 1)
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obj.caPlot(ii).YData(obj.timestepIndex) = obj.h(ii, obj.timestepIndex);
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nCA = size(obj.caPlot, 1);
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nObs = size(obj.obsPlot, 1);
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for ii = 1:nCA
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obj.caPlot(ii).YData(obj.timestepIndex) = obj.barriers(ii, obj.timestepIndex);
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end
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for ii = 1:size(obj.obsPlot, 1)
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obj.obsPlot(ii).YData(obj.timestepIndex) = obj.h(ii + size(obj.caPlot, 1), obj.timestepIndex);
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for ii = 1:nObs
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obj.obsPlot(ii).YData(obj.timestepIndex) = obj.barriers(nCA + ii, obj.timestepIndex);
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end
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for ii = 1:size(obj.domPlot, 1)
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obj.domPlot(ii).YData(obj.timestepIndex) = obj.h(ii + size(obj.caPlot, 1) + size(obj.obsPlot, 1), obj.timestepIndex);
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obj.domPlot(ii).YData(obj.timestepIndex) = obj.barriers(nCA + nObs + ii, obj.timestepIndex);
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end
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end
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+2
-2
@@ -20,8 +20,8 @@ function validate(obj)
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for kk = 1:size(obj.agents, 1)
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P = min(max(obj.agents{kk}.pos, obj.obstacles{jj}.minCorner), obj.obstacles{jj}.maxCorner);
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d = obj.agents{kk}.pos - P;
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if dot(d, d) < obj.agents{kk}.collisionGeometry.radius^2
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error("%s colliding with %s by %d", obj.agents{kk}.label, obj.obstacles{jj}.label, obj.agents{kk}.collisionGeometry.radius^2 - dot(d, d)); % this will cause quadprog to fail
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if dot(d, d) < obj.agents{kk}.collisionGeometry.radius^2 - 1e-3
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error("%s colliding with %s by %d", obj.agents{kk}.label, obj.obstacles{jj}.label, - dot(d, d) + obj.agents{kk}.collisionGeometry.radius^2); % this will cause quadprog to fail
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end
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end
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end
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