fixed test cases

2026-03-13 16:58:23 -07:00
parent 771575560f
commit ca891a809f
2 changed files with 15 additions and 12 deletions
--- a/test/test_miSim.m
+++ b/test/test_miSim.m
@@ -33,6 +33,8 @@ classdef test_miSim < matlab.unittest.TestCase
        initialStepSize = 0.2; % gradient ascent step size at the first iteration. Decreases linearly to 0 based on maxIter.
        minAgents = 3; % Minimum number of agents to be randomly generated
        maxAgents = 4; % Maximum number of agents to be randomly generated
+        useDoubleIntegrator = false;
+        dampingCoeff = 2;
        agents = cell(0, 1);
        
        % Collision
@@ -52,6 +54,7 @@ classdef test_miSim < matlab.unittest.TestCase
        sensor = sigmoidSensor;

        % Communications
+        useFixedTopology = false;
        minCommsRange = 3; % Minimum randomly generated collision geometry size
        maxCommsRange = 5; % Maximum randomly generated collision geometry size
        commsRanges = NaN;
@@ -224,7 +227,7 @@ classdef test_miSim < matlab.unittest.TestCase
            end

            % Initialize the simulation
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
        end
        function miSim_run(tc)
            % randomly create obstacles
@@ -363,7 +366,7 @@ classdef test_miSim < matlab.unittest.TestCase
            end

            % Initialize the simulation
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);

            % Write out initialization state
            tc.testClass.writeInits();
@@ -397,7 +400,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.obstacles = cell(0, 1);
            tc.makePlots = false;
            tc.makeVideo = false;
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
        
            centerIdx = floor(size(tc.testClass.partitioning, 1) / 2);
            tc.verifyEqual(tc.testClass.partitioning(centerIdx, centerIdx:(centerIdx + 2)), [2, 3, 1]); % all three near center
@@ -422,7 +425,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.obstacles = cell(0, 1);
            tc.makePlots = false;
            tc.makeVideo = false;
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
            close(tc.testClass.fPerf);

            tc.verifyEqual(unique(tc.testClass.partitioning), [0; 1]);
@@ -450,7 +453,7 @@ classdef test_miSim < matlab.unittest.TestCase

            % Initialize the simulation
            tc.obstacles = cell(0, 1);
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
            
            % Run the simulation
            tc.testClass = tc.testClass.run();end
@@ -485,7 +488,7 @@ classdef test_miSim < matlab.unittest.TestCase

            % Initialize the simulation
            tc.obstacles = cell(0, 1);
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
            
            % Run the simulation
            tc.testClass.run();
@@ -531,7 +534,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.agents{2} = tc.agents{2}.initialize(tc.domain.center - d - [0, tc.collisionRanges(2)  *1.1 + yOffset, 0], geometry2, tc.sensor, tc.commsRanges(2), tc.maxIter, tc.initialStepSize);
            
            % Initialize the simulation
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
            
            % Run the simulation
            tc.testClass.run();
@@ -571,7 +574,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.agents{2} = tc.agents{2}.initialize(tc.domain.center - d, geometry2, tc.sensor, tc.commsRanges(2), tc.maxIter, tc.initialStepSize);

            % Initialize the simulation
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);
            
            % Run the simulation
            tc.testClass = tc.testClass.run();
@@ -614,7 +617,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.minAlt = 0;
            tc.makePlots = false;
            tc.makeVideo = false;
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);

            % Communications link should be established
            tc.assertEqual(tc.testClass.adjacency, logical(true(2)));
@@ -659,7 +662,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.minAlt = 0;
            tc.makePlots = false;
            tc.makeVideo = false;
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);

            % Constraint adjacency matrix defined by LNA should be as follows
            tc.assertEqual(tc.testClass.constraintAdjacencyMatrix, logical( ...
@@ -713,7 +716,7 @@ classdef test_miSim < matlab.unittest.TestCase
            tc.minAlt = 0;
            tc.makePlots = false;
            tc.makeVideo = false;
-            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo);
+            tc.testClass = tc.testClass.initialize(tc.domain, tc.agents, tc.barrierGain, tc.barrierExponent, tc.minAlt, tc.timestep, tc.maxIter, tc.obstacles, tc.makePlots, tc.makeVideo, tc.useDoubleIntegrator, tc.dampingCoeff, tc.useFixedTopology);

            % Constraint adjacency matrix defined by LNA should be as follows
            tc.assertEqual(tc.testClass.constraintAdjacencyMatrix, logical( ...