franziska-wegner · franziska-wegner · Dec 23, 2023 · Dec 23, 2023 · Dec 23, 2023
diff --git a/tests/Algorithms/PathFinding/TestDominatingThetaPath.cpp b/tests/Algorithms/PathFinding/TestDominatingThetaPath.cpp
@@ -0,0 +1,361 @@
+/*
+ * TestDominatingThetaPath.cpp
+ *
+ *  Created on: Feb 14, 2019
+ *      Author: Franziska Wegner
+ */
+
+#include "TestDominatingThetaPath.hpp"
+#include "Helper/TestHelper.hpp"
+
+#ifdef OPENMP_AVAILABLE
+    #include <omp.h>
+#endif
+
+using ::testing::Eq;
+using ::testing::MatchesRegex;
+
+namespace egoa::test {
+
+#pragma mark TEST_DOMINATING_THETA_PATH_PRIMITIVES
+
+TEST_F ( TestDTPEmptyGraph
+       , QueueEmpty )
+{
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+TEST_F ( TestDTPEmptyGraph
+       , Reset )
+{
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+    dtp_.Clear();
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+TEST_F ( TestDTPEmptyGraph
+       , Run )
+{
+    dtp_.Run();
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+#ifdef EGOA_ENABLE_ASSERTION
+    TEST_F ( TestDTPEmptyGraphDeathTest
+           , SetSource )
+    {
+        auto assertionString = buildAssertionString ( "DominatingThetaPath.hpp"
+                                                    , "DominatingThetaPath"
+                                                    , "Source"
+                                                    , "source < labelSets_.size\\(\\)");
+
+        ASSERT_DEATH ( {dtp_.Source(0);}, assertionString );
+    }
+#else // EGOA_ENABLE_ASSERTION
+#ifdef EGOA_ENABLE_EXCEPTION_HANDLING
+    TEST_F ( TestDTPEmptyGraphExceptionHandling
+           , SetSource )
+    {
+        auto assertionString = buildAssertionString ( "DominatingThetaPath.hpp"
+                                                    , "DominatingThetaPath"
+                                                    , "Source"
+                                                    , "source < labelSets_.size\\(\\)");
+
+        try {
+            dtp_.Source(0);
+        } catch ( std::runtime_error const & error ) {
+                EXPECT_THAT ( error.what(), MatchesRegex( assertionString.c_str() ) );
+        } catch ( ... ) {
+            FAIL()  << "Expected std::runtime_error with message: " 
+                    << assertionString;
+        }
+    }
+#endif // ifdef EGOA_ENABLE_EXCEPTION_HANDLING
+#endif // ifdef EGOA_ENABLE_ASSERTION
+
+#pragma mark TEST_DOMINATING_THETA_PATH_WITH_GRAPH_ACM_FIGURE_4A
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , NumberOfLabels ) 
+{
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , Initialization ) 
+{
+    EXPECT_EQ ( graph_.NumberOfVertices(), 4 );
+    EXPECT_EQ ( graph_.NumberOfEdges(),    5 );
+    EXPECT_EQ ( graph_.NumberOfEdges(),    5 );
+    EXPECT_EQ ( graph_.MinDegree(),        2 );
+    EXPECT_EQ ( graph_.MaxDegree(),        3 );
+
+    Types::edgeId edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                                         , static_cast<Types::vertexId>(1) );
+    TestEdgeValues ( edgeId, 0, 1.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                           , static_cast<Types::vertexId>(2) );
+    TestEdgeValues ( edgeId, 1, 4.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                           , static_cast<Types::vertexId>(3) );
+    TestEdgeValues ( edgeId, 2, 3.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(1)
+                           , static_cast<Types::vertexId>(2) );
+    TestEdgeValues ( edgeId, 3, 1.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(2)
+                           , static_cast<Types::vertexId>(3) );
+    TestEdgeValues ( edgeId, 4, 1.00, -1.00, -1.00, 0.00, 0.00 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , RunDTPwithEmptySource ) 
+{
+    dtp_.Run();
+    EXPECT_EQ ( 0, dtp_.NumberOfLabels() );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , RunDTPwithSource ) 
+{
+    dtp_.Source ( source_ );
+    dtp_.Run();
+    EXPECT_EQ ( 4, dtp_.NumberOfLabels() );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , RunDTPthetaWithSource ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( 7, dtpTheta_.NumberOfLabels() );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , RunDTPthetaWithSourceResultGraph ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( 7, dtpTheta_.NumberOfLabels() );
+
+    // Sink at 0
+    Subgraph<TGraph const> expectedGraphWithSink0{&graph_, {0}, {}};
+    Subgraph<TGraph const> resultGraphWithSink0{nullptr, {}, {}};
+    Types::real result = dtpTheta_.Result( resultGraphWithSink0, 0 );
+
+    EXPECT_EQ ( expectedGraphWithSink0, resultGraphWithSink0 );
+    EXPECT_EQ ( 0, result );
+
+    // Sink at 1
+    Subgraph<TGraph const> expectedGraphWithSink1{&graph_, {0, 1}, {0}};
+    Subgraph<TGraph const> resultGraphWithSink1{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink1, 1 );
+    EXPECT_EQ ( expectedGraphWithSink1, resultGraphWithSink1 );
+    EXPECT_EQ ( 1, result );
+
+    // Sink at 2
+    Subgraph<TGraph const> expectedGraphWithSink2{&graph_, {0, 1, 2, 3}, {0, 3, 2, 4}};
+    Subgraph<TGraph const> resultGraphWithSink2{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink2, 2 );
+    EXPECT_EQ(expectedGraphWithSink2, resultGraphWithSink2);
+    EXPECT_EQ ( 2, result );
+
+    // Sink at 3
+    Subgraph<TGraph const> expectedGraphWithSink3{&graph_, {0, 2, 3}, {1, 4}};
+    Subgraph<TGraph const> resultGraphWithSink3{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink3, 3 );
+    EXPECT_EQ(expectedGraphWithSink3, resultGraphWithSink3);
+    EXPECT_EQ ( 2, result );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4a
+        , RunDTPthetaWithSourceResultVector ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( 7, dtpTheta_.NumberOfLabels() );
+
+    std::vector<std::vector<Types::vertexId>> resultVectorWithSink;
+
+    Types::real result = dtpTheta_.Result( resultVectorWithSink, 0 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ ( result, 0 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 1 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 1 );
+    EXPECT_EQ ( result, 1 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 2 );
+    EXPECT_EQ( resultVectorWithSink.size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 3 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 3 );
+    EXPECT_EQ( resultVectorWithSink[0][2], 2 );
+    EXPECT_EQ( resultVectorWithSink[1].size(), 3 );
+    EXPECT_EQ( resultVectorWithSink[1][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[1][1], 1 );
+    EXPECT_EQ( resultVectorWithSink[1][2], 2 );
+    EXPECT_EQ ( result, 2 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 3 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 3 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 2 );
+    EXPECT_EQ( resultVectorWithSink[0][2], 3 );
+    EXPECT_EQ ( result, 2 );
+}
+
+#pragma mark TEST_DOMINATING_THETA_PATH_WITH_GRAPH_ACM_FIGURE_4B
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , NumberOfLabels ) 
+{
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , Initialization ) 
+{
+    EXPECT_EQ ( graph_.NumberOfVertices(), 4 );
+    EXPECT_EQ ( graph_.NumberOfEdges(),    5 );
+    EXPECT_EQ ( graph_.NumberOfEdges(),    5 );
+    EXPECT_EQ ( graph_.MinDegree(),        2 );
+    EXPECT_EQ ( graph_.MaxDegree(),        3 );
+
+    Types::edgeId edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                                         , static_cast<Types::vertexId>(1) );
+    TestEdgeValues ( edgeId, 0, 1.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                           , static_cast<Types::vertexId>(2) );
+    TestEdgeValues ( edgeId, 1, 1.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(0)
+                           , static_cast<Types::vertexId>(3) );
+    TestEdgeValues ( edgeId, 2, 2.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(1)
+                           , static_cast<Types::vertexId>(2) );
+    TestEdgeValues ( edgeId, 3, 1.00, -1.00, -1.00, 0.00, 0.00 );
+
+    edgeId = graph_.EdgeId ( static_cast<Types::vertexId>(2)
+                           , static_cast<Types::vertexId>(3) );
+    TestEdgeValues ( edgeId, 4, 1.00, -1.00, -1.00, 0.00, 0.00 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , RunDTPwithEmptySource ) 
+{
+    dtp_.Run();
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 0 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , RunDTPwithSource ) 
+{
+    dtp_.Source ( source_ );
+    dtp_.Run();
+    EXPECT_EQ ( dtp_.NumberOfLabels(), 4 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , RunDTPthetaWithSource ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( dtpTheta_.NumberOfLabels(), 5 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , RunDTPthetaWithSourceResultGraph ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( dtpTheta_.NumberOfLabels(), 5 );
+
+    // Sink at 0
+    Subgraph<TGraph const> expectedGraphWithSink0{&graph_, {0}, {}};
+    Subgraph<TGraph const> resultGraphWithSink0{nullptr, {}, {}};
+    Types::real result = dtpTheta_.Result( resultGraphWithSink0, 0 );
+    EXPECT_EQ(expectedGraphWithSink0, resultGraphWithSink0);
+    EXPECT_EQ ( result, 0 );
+
+    // Sink at 1
+    Subgraph<TGraph const> expectedGraphWithSink1{&graph_, {0, 1}, {0}};
+    Subgraph<TGraph const> resultGraphWithSink1{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink1, 1 );
+    EXPECT_EQ(expectedGraphWithSink1, resultGraphWithSink1);
+    EXPECT_EQ ( result, 1 );
+
+    // Sink at 2
+    Subgraph<TGraph const> expectedGraphWithSink2{&graph_, {0, 2}, {1}};
+    Subgraph<TGraph const> resultGraphWithSink2{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink2, 2 );
+    EXPECT_EQ(expectedGraphWithSink2, resultGraphWithSink2);
+    EXPECT_EQ ( result, 1 );
+
+    // Sink at 3
+    Subgraph<TGraph const> expectedGraphWithSink3{&graph_, {0, 2, 3}, {1, 2, 4}};
+    Subgraph<TGraph const> resultGraphWithSink3{nullptr, {}, {}};
+    result = dtpTheta_.Result( resultGraphWithSink3, 3 );
+    EXPECT_EQ(expectedGraphWithSink3, resultGraphWithSink3);
+    EXPECT_EQ ( result, 2 );
+}
+
+TEST_F  ( TestDTPUsingAcm2018MtsfFigure4b
+        , RunDTPthetaWithSourceResultVector ) 
+{
+    dtpTheta_.Source ( source_ );
+    dtpTheta_.Run();
+    EXPECT_EQ ( dtpTheta_.NumberOfLabels(), 5 );
+
+    std::vector<std::vector<Types::vertexId>> resultVectorWithSink;
+
+    Types::real result = dtpTheta_.Result( resultVectorWithSink, 0 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ ( result, 0 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 1 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 1 );
+    EXPECT_EQ ( result, 1 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 2 );
+    EXPECT_EQ( resultVectorWithSink.size(), 1 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 2 );
+    EXPECT_EQ ( result, 1 );
+
+    resultVectorWithSink.clear();
+    result = dtpTheta_.Result( resultVectorWithSink, 3 );
+    EXPECT_EQ( resultVectorWithSink.size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0].size(), 2 );
+    EXPECT_EQ( resultVectorWithSink[0][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[0][1], 3 );
+    EXPECT_EQ( resultVectorWithSink[1].size(), 3 );
+    EXPECT_EQ( resultVectorWithSink[1][0], 0 );
+    EXPECT_EQ( resultVectorWithSink[1][1], 2 );
+    EXPECT_EQ( resultVectorWithSink[1][2], 3 );
+    EXPECT_EQ ( result, 2 );
+}
+
+} // namespace egoa::test