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TestClusterSimple.m
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555 lines (459 loc) · 22.7 KB
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Core Model, 2022
% Written by Maya Davis
% Concept by Maya Davis and Melissa A. Redford
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% METHODS TESTED
%
% Cluster
% FindActivation
% FindSilhouetteActivation
% FindExemplarActivation
% FindActivationWithWindow
% DistanceToActivationMap
% DistanceToActivationMapLinear
% CombineActivation
% Center
% Center_AverageJunctureAll
% MotorPlottingInfo
% PerceptualPlottingInfo
% PlotMotor
% PlotPerceptual
%% TESTS
function tests = TestClusterSimple
tests = functiontests(localfunctions);
end
function TestCreateObjectSimple(testCase)
Cluster1 = Cluster([86 1 10; 4 2 12], [3 3 400; 40 4 25]);
actMotorCoord = Cluster1.MotorCoordinateMatrix;
actPerceptualCoord = Cluster1.PerceptualCoordinateMatrix;
expMotorCoord = [86 1 10; 4 2 12];
expPerceptualCoord = [3 3 400; 40 4 25];
verifyEqual(testCase, actMotorCoord, expMotorCoord);
verifyEqual(testCase, actPerceptualCoord, expPerceptualCoord);
end
function TestFindActivationSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
Cluster2 = st1.CreateCluster([4 5 4 5; 0 0 1 1]);
Cluster3 = st1.CreateCluster([7 8 7 8; 2 2 3 3]);
%% Silhouette
MotorVertexList1 = [0 0; 0 3; 4 3; 4 0];
SimplexMatrix1 = [1 2 4; 2 3 4];
Weights1 = [2 6];
MotorVertexList2 = [0 0; 0 5; 5 5];
SimplexMatrix2 = [1 2 3];
Weights2 = 1;
MotorVertexList3 = [5 0; 12 0; 6 12];
SimplexMatrix3 = [1 2 3];
Weights3 = 5;
Region1 = WeightedMotorSimplicialComplex(MotorVertexList1, SimplexMatrix1, Weights1);
Region2 = WeightedMotorSimplicialComplex(MotorVertexList2, SimplexMatrix2, Weights2);
Region3 = WeightedMotorSimplicialComplex(MotorVertexList3, SimplexMatrix3, Weights3);
Silhouette1 = MotorSilhouette([Region1; Region2; Region3]);
%% Trajectory
Trajectory = PerceptualTrajectory([3 0 1 8; 0 1 4 3]);
%% Activations
actActivation11 = Cluster1.FindActivation(Silhouette1, 1, Trajectory, 1, 0.1, 1, 0.1);
actActivation12 = Cluster1.FindActivation(Silhouette1, 2, Trajectory, 1, 0.1, 1, 0.1);
actActivation13 = Cluster1.FindActivation(Silhouette1, 3, Trajectory, 1, 0.1, 1, 0.1);
actActivation21 = Cluster2.FindActivation(Silhouette1, 1, Trajectory, 1, 0.1, 1, 0.1);
actActivation22 = Cluster2.FindActivation(Silhouette1, 2, Trajectory, 1, 0.1, 1, 0.1);
actActivation23 = Cluster2.FindActivation(Silhouette1, 3, Trajectory, 1, 0.1, 1, 0.1);
actActivation31 = Cluster3.FindActivation(Silhouette1, 1, Trajectory, 1, 0.1, 1, 0.1);
actActivation32 = Cluster3.FindActivation(Silhouette1, 2, Trajectory, 1, 0.1, 1, 0.1);
actActivation33 = Cluster3.FindActivation(Silhouette1, 3, Trajectory, 1, 0.1, 1, 0.1);
expActivation11 = 0.739249723889701;
expActivation12 = 0.784396164688319;
expActivation13 = 0.585131085202092;
expActivation21 = 0.759396866150702;
expActivation22 = 0.662454107351842;
expActivation23 = 0.760814928966457;
expActivation31 = 0.555557131832453;
expActivation32 = 0.562335328939553;
expActivation33 = 0.700354336783294;
%% Testing
verifyEqual(testCase, actActivation11, expActivation11, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation12, expActivation12, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation13, expActivation13, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation21, expActivation21, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation22, expActivation22, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation23, expActivation23, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation31, expActivation31, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation32, expActivation32, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation33, expActivation33, "AbsTol", 0.000000001);
end
function TestFindSilhouetteActivationSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
Cluster2 = st1.CreateCluster([4 5 4 5; 0 0 1 1]);
Cluster3 = st1.CreateCluster([7 8 7 8; 2 2 3 3]);
%% Silhouette
MotorVertexList1 = [0 0; 0 3; 4 3; 4 0];
SimplexMatrix1 = [1 2 4; 2 3 4];
Weights1 = [2 6];
MotorVertexList2 = [0 0; 0 5; 5 5];
SimplexMatrix2 = [1 2 3];
Weights2 = 1;
MotorVertexList3 = [5 0; 12 0; 6 12];
SimplexMatrix3 = [1 2 3];
Weights3 = 5;
Region1 = WeightedMotorSimplicialComplex(MotorVertexList1, SimplexMatrix1, Weights1);
Region2 = WeightedMotorSimplicialComplex(MotorVertexList2, SimplexMatrix2, Weights2);
Region3 = WeightedMotorSimplicialComplex(MotorVertexList3, SimplexMatrix3, Weights3);
Silhouette1 = MotorSilhouette([Region1; Region2; Region3]);
actActivation11 = Cluster1.FindSilhouetteActivation(Silhouette1, 1, 1, 0.1);
actActivation12 = Cluster1.FindSilhouetteActivation(Silhouette1, 2, 1, 0.1);
actActivation13 = Cluster1.FindSilhouetteActivation(Silhouette1, 3, 1, 0.1);
actActivation21 = Cluster2.FindSilhouetteActivation(Silhouette1, 1, 1, 0.1);
actActivation22 = Cluster2.FindSilhouetteActivation(Silhouette1, 2, 1, 0.1);
actActivation23 = Cluster2.FindSilhouetteActivation(Silhouette1, 3, 1, 0.1);
actActivation31 = Cluster3.FindSilhouetteActivation(Silhouette1, 1, 1, 0.1);
actActivation32 = Cluster3.FindSilhouetteActivation(Silhouette1, 2, 1, 0.1);
actActivation33 = Cluster3.FindSilhouetteActivation(Silhouette1, 3, 1, 0.1);
expActivation11 = 0.8725;
expActivation12 = 0.982322330470336;
expActivation13 = 0.546624930402216;
expActivation21 = 0.942411165235169;
expActivation22 = 0.717157287525381;
expActivation23 = 0.945934082051192;
expActivation31 = 0.629247950515108;
expActivation32 = 0.644696175168445;
expActivation33 = 1;
verifyEqual(testCase, actActivation11, expActivation11, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation12, expActivation12, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation13, expActivation13, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation21, expActivation21, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation22, expActivation22, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation23, expActivation23, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation31, expActivation31, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation32, expActivation32, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation33, expActivation33, "AbsTol", 0.000000001);
end
function TestFindExemplarActivationSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
Cluster2 = st1.CreateCluster([4 5 4 5; 0 0 1 1]);
Cluster3 = st1.CreateCluster([7 8 7 8; 2 2 3 3]);
Trajectory = PerceptualTrajectory([3 0 1 8; 0 1 4 3]);
actActivation1 = Cluster1.FindExemplarActivation(Trajectory, 1, 0.1);
actActivation2 = Cluster2.FindExemplarActivation(Trajectory, 1, 0.1);
actActivation3 = Cluster3.FindExemplarActivation(Trajectory, 1, 0.1);
expActivation1 = 0.626349747015472;
expActivation2 = 0.611923565417014;
expActivation3 = 0.490496197051167;
verifyEqual(testCase, actActivation1, expActivation1, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation2, expActivation2, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation3, expActivation3, "AbsTol", 0.000000001);
end
function TestFindActivationWithWindowSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
Cluster2 = st1.CreateCluster([4 5 4 5; 0 0 1 1]);
Cluster3 = st1.CreateCluster([7 8 7 8; 2 2 3 3]);
%% Silhouette
MotorVertexList1 = [0 0; 0 3; 4 3; 4 0];
SimplexMatrix1 = [1 2 4; 2 3 4];
Weights1 = [2 6];
MotorVertexList2 = [0 0; 0 5; 5 5];
SimplexMatrix2 = [1 2 3];
Weights2 = 1;
MotorVertexList3 = [5 0; 12 0; 6 12];
SimplexMatrix3 = [1 2 3];
Weights3 = 5;
Region1 = WeightedMotorSimplicialComplex(MotorVertexList1, SimplexMatrix1, Weights1);
Region2 = WeightedMotorSimplicialComplex(MotorVertexList2, SimplexMatrix2, Weights2);
Region3 = WeightedMotorSimplicialComplex(MotorVertexList3, SimplexMatrix3, Weights3);
Silhouette1 = MotorSilhouette([Region1; Region2; Region3]);
%% Trajectory
Trajectory = PerceptualTrajectory([3 0 1 8; 0 1 4 3]);
%% Activations
LookAheadWindow = 1;
LookBackWindow = 0;
actActivation11 = Cluster1.FindActivationWithWindow(Silhouette1, ...
Trajectory, 1, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation12 = Cluster1.FindActivationWithWindow(Silhouette1, ...
Trajectory, 2, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation13 = Cluster1.FindActivationWithWindow(Silhouette1, ...
Trajectory, 3, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation21 = Cluster2.FindActivationWithWindow(Silhouette1, ...
Trajectory, 1, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation22 = Cluster2.FindActivationWithWindow(Silhouette1, ...
Trajectory, 2, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation23 = Cluster2.FindActivationWithWindow(Silhouette1, ...
Trajectory, 3, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation31 = Cluster3.FindActivationWithWindow(Silhouette1, ...
Trajectory, 1, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation32 = Cluster3.FindActivationWithWindow(Silhouette1, ...
Trajectory, 2, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
actActivation33 = Cluster3.FindActivationWithWindow(Silhouette1, ...
Trajectory, 3, LookBackWindow, LookAheadWindow, 1, 0.1, 1, 0.1);
expActivation11 = 0.74827901204942;
expActivation12 = 0.744543148791074;
expActivation13 = 0.585131085202092;
expActivation21 = 0.74000831439093;
expActivation22 = 0.682126271674765;
expActivation23 = 0.760814928966457;
expActivation31 = 0.556912771253873;
expActivation32 = 0.589939130508301;
expActivation33 = 0.700354336783294;
%% Testing
verifyEqual(testCase, actActivation11, expActivation11, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation12, expActivation12, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation13, expActivation13, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation21, expActivation21, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation22, expActivation22, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation23, expActivation23, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation31, expActivation31, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation32, expActivation32, "AbsTol", 0.000000001);
verifyEqual(testCase, actActivation33, expActivation33, "AbsTol", 0.000000001);
end
function TestDistanceToActivationMapSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
Cluster2 = st1.CreateCluster([4 5 4 5; 0 0 1 1]);
Cluster3 = st1.CreateCluster([7 8 7 8; 2 2 3 3]);
%% Distances
DistanceA = 0;
DistanceB = 5;
DistanceC = 8;
DistanceD = 10;
DistanceE = 15;
%% Actual activations
actActivation1A = Cluster1.DistanceToActivationMap(DistanceA);
actActivation2A = Cluster2.DistanceToActivationMap(DistanceA);
actActivation3A = Cluster3.DistanceToActivationMap(DistanceA);
actActivation1B = Cluster1.DistanceToActivationMap(DistanceB);
actActivation2B = Cluster2.DistanceToActivationMap(DistanceB);
actActivation3B = Cluster3.DistanceToActivationMap(DistanceB);
actActivation1C = Cluster1.DistanceToActivationMap(DistanceC);
actActivation2C = Cluster2.DistanceToActivationMap(DistanceC);
actActivation3C = Cluster3.DistanceToActivationMap(DistanceC);
actActivation1D = Cluster1.DistanceToActivationMap(DistanceD);
actActivation2D = Cluster2.DistanceToActivationMap(DistanceD);
actActivation3D = Cluster3.DistanceToActivationMap(DistanceD);
actActivation1E = Cluster1.DistanceToActivationMap(DistanceE);
actActivation2E = Cluster2.DistanceToActivationMap(DistanceE);
actActivation3E = Cluster3.DistanceToActivationMap(DistanceE);
%% Expected activations
expActivationA = 1;
expActivationB = 0.5;
expActivationC = 0.2;
expActivationD = 0;
expActivationE = 0;
%% Testing
verifyEqual(testCase, actActivation1A, expActivationA, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation2A, expActivationA, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation3A, expActivationA, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation1B, expActivationB, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation2B, expActivationB, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation3B, expActivationB, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation1C, expActivationC, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation2C, expActivationC, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation3C, expActivationC, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation1D, expActivationD, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation2D, expActivationD, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation3D, expActivationD, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation1E, expActivationE, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation2E, expActivationE, "AbsTol", 0.00000001);
verifyEqual(testCase, actActivation3E, expActivationE, "AbsTol", 0.00000001);
end
function TestDistanceToActivationMapLinearSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
actActivation1 = Cluster1.DistanceToActivationMapLinear( ...
3, 1, 0.1);
actActivation2 = Cluster1.DistanceToActivationMapLinear( ...
20, 1, 0.1);
actActivation3 = Cluster1.DistanceToActivationMapLinear( ...
2, 0.5, 0.2);
actActivation4 = Cluster1.DistanceToActivationMapLinear( ...
45, 100, 1);
expActivation1 = 0.7;
expActivation2 = 0;
expActivation3 = 0.1;
expActivation4 = 55;
verifyEqual(testCase, actActivation1, expActivation1, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation2, expActivation2, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation3, expActivation3, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation4, expActivation4, "AbsTol", 0.0000001);
end
function TestCombineActivationSimple(testCase)
st1 = testCase.TestData.spaceTransformation1;
%% Clusters
Cluster1 = st1.CreateCluster([0 1 0 1; 0 0 1 1]);
actActivation1 = Cluster1.CombineActivation(0.8, 0.2);
actActivation2 = Cluster1.CombineActivation(1, 0.36);
actActivation3 = Cluster1.CombineActivation(6.05, 0.2);
actActivation4 = Cluster1.CombineActivation(0, 0.5);
expActivation1 = 0.4;
expActivation2 = 0.6;
expActivation3 = 1.1;
expActivation4 = 0;
verifyEqual(testCase, actActivation1, expActivation1, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation2, expActivation2, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation3, expActivation3, "AbsTol", 0.0000001);
verifyEqual(testCase, actActivation4, expActivation4, "AbsTol", 0.0000001);
end
function TestCenterSimple(testCase)
st2 = testCase.TestData.spaceTransformation2;
%% Clusters
Cluster1 = st2.CreateCluster([0 1 0 1; 0 0 1 1]); % Perceptual: [0 1 0 1; 0 0 1 1]
Cluster2 = st2.CreateCluster([0 1 0 1; 3 3 4 4]); % Perceptual: [0 1 6 7; 3 3 4 4]
Cluster3 = st2.CreateCluster([8 9 8 9; 3 3 4 4]); % Perceptual: [8 9 4 5; 3 3 4 4]
actCentroid1_M = Cluster1.Center().MotorPoint.Coordinates;
actCentroid2_M = Cluster2.Center().MotorPoint.Coordinates;
actCentroid3_M = Cluster3.Center().MotorPoint.Coordinates;
expCentroid1_M = [0.5; 0.5];
expCentroid2_M = [0.5; 3.5];
expCentroid3_M = [8.5; 3.5];
actCentroid1_P = Cluster1.Center().PerceptualPoint.Coordinates;
actCentroid2_P = Cluster2.Center().PerceptualPoint.Coordinates;
actCentroid3_P = Cluster3.Center().PerceptualPoint.Coordinates;
expCentroid1_P = [0.5; 0.5];
expCentroid2_P = [3.5; 3.5];
expCentroid3_P = [6.5; 3.5];
verifyEqual(testCase, actCentroid1_M, expCentroid1_M);
verifyEqual(testCase, actCentroid2_M, expCentroid2_M);
verifyEqual(testCase, actCentroid3_M, expCentroid3_M);
verifyEqual(testCase, actCentroid1_P, expCentroid1_P);
verifyEqual(testCase, actCentroid2_P, expCentroid2_P);
verifyEqual(testCase, actCentroid3_P, expCentroid3_P);
end
function TestCenter_AverageJunctureAllSimple(testCase)
st2 = testCase.TestData.spaceTransformation2;
%% Clusters
Cluster1 = st2.CreateCluster([0 1 0 1; 0 0 1 1]); % Perceptual: [0 1 0 1; 0 0 1 1]
Cluster2 = st2.CreateCluster([0 1 0 1; 3 3 4 4]); % Perceptual: [0 1 6 7; 3 3 4 4]
Cluster3 = st2.CreateCluster([8 9 8 9; 3 3 4 4]); % Perceptual: [8 9 4 5; 3 3 4 4]
actCentroid1_M = Cluster1.Center_AverageJunctureAll().MotorPoint.Coordinates;
actCentroid2_M = Cluster2.Center_AverageJunctureAll().MotorPoint.Coordinates;
actCentroid3_M = Cluster3.Center_AverageJunctureAll().MotorPoint.Coordinates;
expCentroid1_M = [0.5; 0.5];
expCentroid2_M = [0.5; 3.5];
expCentroid3_M = [8.5; 3.5];
actCentroid1_P = Cluster1.Center_AverageJunctureAll().PerceptualPoint.Coordinates;
actCentroid2_P = Cluster2.Center_AverageJunctureAll().PerceptualPoint.Coordinates;
actCentroid3_P = Cluster3.Center_AverageJunctureAll().PerceptualPoint.Coordinates;
expCentroid1_P = [0.5; 0.5];
expCentroid2_P = [3.5; 3.5];
expCentroid3_P = [6.5; 3.5];
verifyEqual(testCase, actCentroid1_M, expCentroid1_M);
verifyEqual(testCase, actCentroid2_M, expCentroid2_M);
verifyEqual(testCase, actCentroid3_M, expCentroid3_M);
verifyEqual(testCase, actCentroid1_P, expCentroid1_P);
verifyEqual(testCase, actCentroid2_P, expCentroid2_P);
verifyEqual(testCase, actCentroid3_P, expCentroid3_P);
end
function TestMotorPlottingInfoSimple(testCase)
st2 = testCase.TestData.spaceTransformation2;
%% Clusters
Cluster1 = st2.CreateCluster([0 1 0 1; 0 0 1 1]); % Perceptual: [0 1 0 1; 0 0 1 1]
Cluster2 = st2.CreateCluster([0 1 0 1; 3 3 4 4]); % Perceptual: [0 1 6 7; 3 3 4 4]
Cluster3 = st2.CreateCluster([8 9 8 9; 3 3 4 4]); % Perceptual: [8 9 4 5; 3 3 4 4]
color = [1 0 0.8];
%% Actual values
[actXValues1, actYValues1, actColorValues1] = ...
Cluster1.MotorPlottingInfo(color);
[actXValues2, actYValues2, actColorValues2] = ...
Cluster2.MotorPlottingInfo(color);
[actXValues3, actYValues3, actColorValues3] = ...
Cluster3.MotorPlottingInfo(color);
%% Expected values
expXValues1 = [0 1 0 1];
expYValues1 = [0 0 1 1];
expColorValues1 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
expXValues2 = [0 1 0 1];
expYValues2 = [3 3 4 4];
expColorValues2 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
expXValues3 = [8 9 8 9];
expYValues3 = [3 3 4 4];
expColorValues3 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
%% Testing
verifyEqual(testCase, actXValues1, expXValues1);
verifyEqual(testCase, actYValues1, expYValues1);
verifyEqual(testCase, actColorValues1, expColorValues1);
verifyEqual(testCase, actXValues2, expXValues2);
verifyEqual(testCase, actYValues2, expYValues2);
verifyEqual(testCase, actColorValues2, expColorValues2);
verifyEqual(testCase, actXValues3, expXValues3);
verifyEqual(testCase, actYValues3, expYValues3);
verifyEqual(testCase, actColorValues3, expColorValues3);
end
function TestPerceptualPlottingInfoSimple(testCase)
st2 = testCase.TestData.spaceTransformation2;
%% Clusters
Cluster1 = st2.CreateCluster([0 1 0 1; 0 0 1 1]); % Perceptual: [0 1 0 1; 0 0 1 1]
Cluster2 = st2.CreateCluster([0 1 0 1; 3 3 4 4]); % Perceptual: [0 1 6 7; 3 3 4 4]
Cluster3 = st2.CreateCluster([8 9 8 9; 3 3 4 4]); % Perceptual: [8 9 4 5; 3 3 4 4]
color = [1 0 0.8];
%% Actual values
[actXValues1, actYValues1, actColorValues1] = ...
Cluster1.PerceptualPlottingInfo(color);
[actXValues2, actYValues2, actColorValues2] = ...
Cluster2.PerceptualPlottingInfo(color);
[actXValues3, actYValues3, actColorValues3] = ...
Cluster3.PerceptualPlottingInfo(color);
%% Expected values
expXValues1 = [0 1 0 1];
expYValues1 = [0 0 1 1];
expColorValues1 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
expXValues2 = [0 1 6 7];
expYValues2 = [3 3 4 4];
expColorValues2 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
expXValues3 = [8 9 4 5];
expYValues3 = [3 3 4 4];
expColorValues3 = [1 0 0.8; 1 0 0.8; 1 0 0.8; 1 0 0.8];
%% Testing
verifyEqual(testCase, actXValues1, expXValues1);
verifyEqual(testCase, actYValues1, expYValues1);
verifyEqual(testCase, actColorValues1, expColorValues1);
verifyEqual(testCase, actXValues2, expXValues2);
verifyEqual(testCase, actYValues2, expYValues2);
verifyEqual(testCase, actColorValues2, expColorValues2);
verifyEqual(testCase, actXValues3, expXValues3);
verifyEqual(testCase, actYValues3, expYValues3);
verifyEqual(testCase, actColorValues3, expColorValues3);
end
%% SET UP & TEAR DOWN
function setupOnce(testCase)
% Create and change to temporary folder
testCase.TestData.origPath = pwd;
testCase.TestData.tmpFolder = "tmpFolder" + ...
string(datetime('now','Format',"yyyyMMdd'T'HHmmss"));
mkdir(testCase.TestData.tmpFolder)
cd(testCase.TestData.tmpFolder)
% Create and save variables
testCase.TestData.spaceTransformation1 = SpaceTransformation(@transformationFunction1);
testCase.TestData.spaceTransformation2 = SpaceTransformation(@transformationFunction2);
end
function teardownOnce(testCase)
cd(testCase.TestData.origPath)
rmdir(testCase.TestData.tmpFolder)
end
function PerceptualCoordinates = transformationFunction1(MotorCoordinates)
PerceptualCoordinates = MotorCoordinates;
end
function PerceptualCoordinates = transformationFunction2(MotorCoordinates)
MX = MotorCoordinates(1,1);
MY = MotorCoordinates(2,1);
if MY < 4
PX = MX;
PY = MY;
else
if MX < 4
PX = MX + 6;
PY = MY;
else
PX = MX - 4;
PY = MY;
end
end
PerceptualCoordinates = [PX; PY];
end