273 lines
8.7 KiB
C++
273 lines
8.7 KiB
C++
/**
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* @file testBayesTree.cpp
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* @brief Unit tests for Bayes Tree
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* @author Frank Dellaert
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* @author Michael Kaess
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* @author Viorela Ila
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*/
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#include <boost/assign/std/list.hpp> // for operator +=
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using namespace boost::assign;
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#include <CppUnitLite/TestHarness.h>
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#include "SymbolicBayesNet.h"
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#include "SymbolicFactorGraph.h"
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#include "Ordering.h"
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#include "BayesTree-inl.h"
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#include "smallExample.h"
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using namespace gtsam;
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typedef BayesTree<SymbolicConditional> SymbolicBayesTree;
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/* ************************************************************************* */
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// SLAM example from RSS sqrtSAM paper
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SymbolicConditional::shared_ptr x3(new SymbolicConditional("x3")),
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x2(new SymbolicConditional("x2","x3")),
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x1(new SymbolicConditional("x1","x2","x3")),
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l1(new SymbolicConditional("l1","x1","x2")),
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l2(new SymbolicConditional("l2","x1","x3"));
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// Bayes Tree for sqrtSAM example
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SymbolicBayesTree createSlamSymbolicBayesTree(){
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// Create using insert
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SymbolicBayesTree bayesTree_slam;
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bayesTree_slam.insert(x3);
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bayesTree_slam.insert(x2);
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bayesTree_slam.insert(x1);
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bayesTree_slam.insert(l2);
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bayesTree_slam.insert(l1);
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return bayesTree_slam;
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}
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/* ************************************************************************* */
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// Conditionals for ASIA example from the tutorial with A and D evidence
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SymbolicConditional::shared_ptr
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B(new SymbolicConditional("B")),
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L(new SymbolicConditional("L", "B")),
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E(new SymbolicConditional("E", "B", "L")),
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S(new SymbolicConditional("S", "L", "B")),
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T(new SymbolicConditional("T", "E", "L")),
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X(new SymbolicConditional("X", "E"));
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// Bayes Tree for Asia example
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SymbolicBayesTree createAsiaSymbolicBayesTree() {
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SymbolicBayesTree bayesTree;
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bayesTree.insert(B);
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bayesTree.insert(L);
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bayesTree.insert(E);
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bayesTree.insert(S);
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bayesTree.insert(T);
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bayesTree.insert(X);
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return bayesTree;
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}
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/* ************************************************************************* */
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TEST( BayesTree, Front )
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{
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SymbolicBayesNet f1;
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f1.push_back(B);
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f1.push_back(L);
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SymbolicBayesNet f2;
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f2.push_back(L);
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f2.push_back(B);
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CHECK(f1.equals(f1));
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CHECK(!f1.equals(f2));
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}
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/* ************************************************************************* */
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TEST( BayesTree, constructor )
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{
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// Create using insert
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SymbolicBayesTree bayesTree = createAsiaSymbolicBayesTree();
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// Check Size
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LONGS_EQUAL(4,bayesTree.size());
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// Check root
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BayesNet<SymbolicConditional> expected_root;
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expected_root.push_back(E);
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expected_root.push_back(L);
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expected_root.push_back(B);
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boost::shared_ptr<SymbolicBayesNet> actual_root = bayesTree.root();
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CHECK(assert_equal(expected_root,*actual_root));
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// Create from symbolic Bayes chain in which we want to discover cliques
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SymbolicBayesNet ASIA;
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ASIA.push_back(X);
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ASIA.push_back(T);
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ASIA.push_back(S);
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ASIA.push_back(E);
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ASIA.push_back(L);
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ASIA.push_back(B);
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SymbolicBayesTree bayesTree2(ASIA);
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// Check whether the same
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CHECK(assert_equal(bayesTree,bayesTree2));
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}
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/* ************************************************************************* *
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Bayes Tree for testing conversion to a forest of orphans needed for incremental.
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A,B
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C|A E|B
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D|C F|E
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/* ************************************************************************* */
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TEST( BayesTree, removePath )
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{
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SymbolicConditional::shared_ptr
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A(new SymbolicConditional("A")),
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B(new SymbolicConditional("B", "A")),
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C(new SymbolicConditional("C", "A")),
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D(new SymbolicConditional("D", "C")),
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E(new SymbolicConditional("E", "B")),
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F(new SymbolicConditional("F", "E"));
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SymbolicBayesTree bayesTree;
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bayesTree.insert(A);
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bayesTree.insert(B);
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bayesTree.insert(C);
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bayesTree.insert(D);
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bayesTree.insert(E);
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bayesTree.insert(F);
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// remove C, expected outcome: factor graph with ABC,
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// Bayes Tree now contains two orphan trees: D|C and E|B,F|E
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SymbolicFactorGraph expected;
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expected.push_factor("A","B");
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expected.push_factor("A");
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expected.push_factor("A","C");
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SymbolicBayesTree::Cliques expectedOrphans;
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expectedOrphans += bayesTree["D"], bayesTree["E"];
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FactorGraph<SymbolicFactor> factors;
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SymbolicBayesTree::Cliques orphans;
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boost::tie(factors,orphans) = bayesTree.removePath<SymbolicFactor>(bayesTree["C"]);
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected, factors));
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CHECK(assert_equal(expectedOrphans, orphans));
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// remove E: factor graph with EB; E|B removed from second orphan tree
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SymbolicFactorGraph expected2;
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expected2.push_factor("B","E");
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SymbolicBayesTree::Cliques expectedOrphans2;
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expectedOrphans2 += bayesTree["F"];
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boost::tie(factors,orphans) = bayesTree.removePath<SymbolicFactor>(bayesTree["E"]);
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected2, factors));
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CHECK(assert_equal(expectedOrphans2, orphans));
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}
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/* ************************************************************************* */
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TEST( BayesTree, removePath2 )
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{
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SymbolicBayesTree bayesTree = createAsiaSymbolicBayesTree();
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// Call remove-path with clique B
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FactorGraph<SymbolicFactor> factors;
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SymbolicBayesTree::Cliques orphans;
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boost::tie(factors,orphans) = bayesTree.removePath<SymbolicFactor>(bayesTree["B"]);
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// Check expected outcome
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SymbolicFactorGraph expected;
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expected.push_factor("B","L","E");
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expected.push_factor("B","L");
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expected.push_factor("B");
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected, factors));
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SymbolicBayesTree::Cliques expectedOrphans;
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expectedOrphans += bayesTree["S"], bayesTree["T"], bayesTree["X"];
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CHECK(assert_equal(expectedOrphans, orphans));
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}
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/* ************************************************************************* */
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TEST( BayesTree, removePath3 )
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{
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SymbolicBayesTree bayesTree = createAsiaSymbolicBayesTree();
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// Call remove-path with clique S
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FactorGraph<SymbolicFactor> factors;
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SymbolicBayesTree::Cliques orphans;
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boost::tie(factors,orphans) = bayesTree.removePath<SymbolicFactor>(bayesTree["S"]);
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// Check expected outcome
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SymbolicFactorGraph expected;
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expected.push_factor("B","L","E");
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expected.push_factor("B","L");
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expected.push_factor("B");
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expected.push_factor("L","B","S");
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected, factors));
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SymbolicBayesTree::Cliques expectedOrphans;
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expectedOrphans += bayesTree["T"], bayesTree["X"];
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CHECK(assert_equal(expectedOrphans, orphans));
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}
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/* ************************************************************************* */
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TEST( BayesTree, removeTop )
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{
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SymbolicBayesTree bayesTree = createAsiaSymbolicBayesTree();
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// create a new factor to be inserted
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boost::shared_ptr<SymbolicFactor> newFactor(new SymbolicFactor("B","S"));
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// Remove the contaminated part of the Bayes tree
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FactorGraph<SymbolicFactor> factors;
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SymbolicBayesTree::Cliques orphans;
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bayesTree.removeTop<SymbolicFactor>(newFactor, factors, orphans);
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// Check expected outcome
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SymbolicFactorGraph expected;
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expected.push_factor("B","L","E");
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expected.push_factor("B","L");
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expected.push_factor("B");
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expected.push_factor("L","B","S");
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected, factors));
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SymbolicBayesTree::Cliques expectedOrphans;
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expectedOrphans += bayesTree["T"], bayesTree["X"];
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CHECK(assert_equal(expectedOrphans, orphans));
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// Try removeTop again with a factor that should not change a thing
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boost::shared_ptr<SymbolicFactor> newFactor2(new SymbolicFactor("B"));
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FactorGraph<SymbolicFactor> factors2;
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SymbolicBayesTree::Cliques orphans2;
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bayesTree.removeTop<SymbolicFactor>(newFactor2, factors2, orphans2);
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SymbolicFactorGraph expected2;
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected2, factors2));
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SymbolicBayesTree::Cliques expectedOrphans2;
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CHECK(assert_equal(expectedOrphans2, orphans2));
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}
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/* ************************************************************************* */
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TEST( BayesTree, removeTop2 )
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{
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SymbolicBayesTree bayesTree = createAsiaSymbolicBayesTree();
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// create two factors to be inserted
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SymbolicFactorGraph newFactors;
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newFactors.push_factor("B");
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newFactors.push_factor("S");
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// Remove the contaminated part of the Bayes tree
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FactorGraph<SymbolicFactor> factors;
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SymbolicBayesTree::Cliques orphans;
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boost::tie(factors,orphans) = bayesTree.removeTop<SymbolicFactor>(newFactors);
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// Check expected outcome
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SymbolicFactorGraph expected;
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expected.push_factor("B","L","E");
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expected.push_factor("B","L");
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expected.push_factor("B");
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expected.push_factor("L","B","S");
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CHECK(assert_equal((FactorGraph<SymbolicFactor>)expected, factors));
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SymbolicBayesTree::Cliques expectedOrphans;
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expectedOrphans += bayesTree["T"], bayesTree["X"];
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CHECK(assert_equal(expectedOrphans, orphans));
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}
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/* ************************************************************************* */
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int main() {
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TestResult tr;
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return TestRegistry::runAllTests(tr);
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}
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/* ************************************************************************* */
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