forked from OSchip/llvm-project
262 lines
7.9 KiB
C++
262 lines
7.9 KiB
C++
//===- llvm/unittest/XRay/GraphTest.cpp - XRay Graph unit tests -*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/XRay/Graph.h"
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#include "gtest/gtest.h"
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#include <iostream>
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#include <set>
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#include <type_traits>
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using namespace llvm;
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using namespace xray;
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namespace {
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struct VAttr {
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unsigned VA;
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};
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struct EAttr {
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unsigned EA;
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};
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typedef Graph<VAttr, EAttr, unsigned> GraphT;
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typedef typename GraphT::VertexIdentifier VI;
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typedef typename GraphT::EdgeIdentifier EI;
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// Test Fixture
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template <typename T> class GraphTest : public testing::Test {
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protected:
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T Graph = getTestGraph();
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private:
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static T getTestGraph() {
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using std::make_pair;
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typename std::remove_const<T>::type G;
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G.insert(make_pair(1u, VAttr({3u})));
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G.insert(make_pair(2u, VAttr({5u})));
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G.insert(make_pair(3u, VAttr({7u})));
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G.insert(make_pair(4u, VAttr({11u})));
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G.insert(make_pair(5u, VAttr({13u})));
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G.insert(make_pair(6u, VAttr({17u})));
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G.insert(std::make_pair(EI(1u, 2u), EAttr({3u * 5u})));
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G.insert(std::make_pair(EI(2u, 3u), EAttr({5u * 7u})));
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G.insert(std::make_pair(EI(6u, 3u), EAttr({2u * 7u * 17u})));
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G.insert(std::make_pair(EI(4u, 6u), EAttr({11u * 17u})));
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G.insert(std::make_pair(EI(2u, 4u), EAttr({5u * 11u})));
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G.insert(std::make_pair(EI(2u, 5u), EAttr({5u * 13u})));
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G.insert(std::make_pair(EI(4u, 5u), EAttr({11u * 13u})));
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return G;
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}
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};
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typedef ::testing::Types<GraphT, const GraphT> GraphTestTypes;
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using VVT = typename GraphT::VertexValueType;
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using EVT = typename GraphT::EdgeValueType;
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TYPED_TEST_CASE(GraphTest, GraphTestTypes);
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template <typename T> void graphVertexTester(T &G) {
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std::set<unsigned> V({1u, 2u, 3u, 4u, 5u, 6u});
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std::vector<unsigned> VA({0u, 3u, 5u, 7u, 11u, 13u, 17u});
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EXPECT_EQ(V.size(), G.vertices().size());
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EXPECT_FALSE(G.vertices().empty());
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for (unsigned u : V) {
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auto EVV = G.at(u);
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ASSERT_TRUE(!!EVV);
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EXPECT_EQ(1u, G.count(u));
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EXPECT_EQ(VA[u], EVV->VA);
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EXPECT_NE(G.vertices().end(),
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std::find_if(G.vertices().begin(), G.vertices().end(),
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[&](const VVT &VV) { return VV.first == u; }));
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consumeError(EVV.takeError());
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}
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for (auto &VVT : G.vertices()) {
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EXPECT_EQ(1u, V.count(VVT.first));
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EXPECT_EQ(VA[VVT.first], VVT.second.VA);
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}
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}
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template <typename T> void graphEdgeTester(T &G) {
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std::set<unsigned> V({1u, 2u, 3u, 4u, 5u, 6u});
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std::set<std::pair<unsigned, unsigned>> E(
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{{1u, 2u}, {2u, 3u}, {6u, 3u}, {4u, 6u}, {2u, 4u}, {2u, 5u}, {4u, 5u}});
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std::vector<unsigned> VA({0u, 3u, 5u, 7u, 11u, 13u, 17u});
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EXPECT_EQ(E.size(), G.edges().size());
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EXPECT_FALSE(G.edges().empty());
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for (std::pair<unsigned, unsigned> u : E) {
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auto EEV = G.at(u);
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ASSERT_TRUE(!!EEV);
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EXPECT_EQ(1u, G.count(u));
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EXPECT_EQ(VA[u.first] * VA[u.second] * ((u.first > u.second) ? 2 : 1),
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EEV->EA);
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auto Pred = [&](const EVT &EV) { return EV.first == u; };
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EXPECT_NE(G.edges().end(),
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std::find_if(G.edges().begin(), G.edges().end(), Pred));
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consumeError(EEV.takeError());
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}
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for (auto &EV : G.edges()) {
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EXPECT_EQ(1u, E.count(EV.first));
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EXPECT_EQ(VA[EV.first.first] * VA[EV.first.second] *
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((EV.first.first > EV.first.second) ? 2 : 1),
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EV.second.EA);
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const auto &IE = G.inEdges(EV.first.second);
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const auto &OE = G.outEdges(EV.first.first);
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EXPECT_NE(IE.size(), 0u);
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EXPECT_NE(OE.size(), 0u);
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EXPECT_NE(IE.begin(), IE.end());
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EXPECT_NE(OE.begin(), OE.end());
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{
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auto It = std::find_if(
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G.inEdges(EV.first.second).begin(), G.inEdges(EV.first.second).end(),
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[&](const EVT &EVI) { return EVI.first == EV.first; });
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EXPECT_NE(G.inEdges(EV.first.second).end(), It);
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}
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{
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auto It = std::find_if(
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G.inEdges(EV.first.first).begin(), G.inEdges(EV.first.first).end(),
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[&](const EVT &EVI) { return EVI.first == EV.first; });
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EXPECT_EQ(G.inEdges(EV.first.first).end(), It);
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}
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{
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auto It =
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std::find_if(G.outEdges(EV.first.second).begin(),
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G.outEdges(EV.first.second).end(),
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[&](const EVT &EVI) { return EVI.first == EV.first; });
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EXPECT_EQ(G.outEdges(EV.first.second).end(), It);
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}
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{
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auto It = std::find_if(
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G.outEdges(EV.first.first).begin(), G.outEdges(EV.first.first).end(),
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[&](const EVT &EVI) { return EVI.first == EV.first; });
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EXPECT_NE(G.outEdges(EV.first.first).end(), It);
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}
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}
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}
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TYPED_TEST(GraphTest, TestGraphEdge) {
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auto &G = this->Graph;
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graphEdgeTester(G);
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}
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TYPED_TEST(GraphTest, TestGraphVertex) {
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auto &G = this->Graph;
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graphVertexTester(G);
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}
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TYPED_TEST(GraphTest, TestCopyConstructor) {
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TypeParam G(this->Graph);
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graphEdgeTester(G);
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graphVertexTester(G);
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}
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TYPED_TEST(GraphTest, TestCopyAssign) {
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TypeParam G = this->Graph;
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graphEdgeTester(G);
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graphVertexTester(G);
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}
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TYPED_TEST(GraphTest, TestMoveConstructor) {
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TypeParam G(std::move(this->Graph));
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graphEdgeTester(G);
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graphVertexTester(G);
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}
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// Tests the incremental Construction of a graph
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TEST(GraphTest, TestConstruction) {
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GraphT MG;
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const GraphT &G = MG;
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EXPECT_EQ(0u, G.count(0u));
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EXPECT_EQ(0u, G.count({0u, 1u}));
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auto VE = G.at(0);
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auto EE = G.at({0, 0});
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EXPECT_FALSE(VE); // G.at[0] returns an error
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EXPECT_FALSE(EE); // G.at[{0,0}] returns an error
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consumeError(VE.takeError());
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consumeError(EE.takeError());
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EXPECT_TRUE(G.vertices().empty());
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EXPECT_TRUE(G.edges().empty());
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EXPECT_EQ(G.vertices().begin(), G.vertices().end());
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EXPECT_EQ(G.edges().begin(), G.edges().end());
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}
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TEST(GraphTest, TestiVertexAccessOperator) {
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GraphT MG;
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const GraphT &G = MG;
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MG[0u] = {1u};
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EXPECT_EQ(1u, MG[0u].VA);
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EXPECT_EQ(1u, G.count(0u));
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EXPECT_EQ(0u, G.count(1u));
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EXPECT_EQ(1u, MG[0u].VA);
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auto T = G.at(0u);
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EXPECT_TRUE(!!T);
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EXPECT_EQ(1u, T->VA);
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EXPECT_EQ(1u, G.vertices().size());
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EXPECT_EQ(0u, G.edges().size());
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EXPECT_FALSE(G.vertices().empty());
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EXPECT_TRUE(G.edges().empty());
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EXPECT_NE(G.vertices().begin(), G.vertices().end());
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EXPECT_EQ(G.edges().begin(), G.edges().end());
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EXPECT_EQ(1u, G.vertices().begin()->second.VA);
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EXPECT_EQ(0u, G.vertices().begin()->first);
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EXPECT_EQ(0u, G.outEdges(0u).size());
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EXPECT_TRUE(G.outEdges(0u).empty());
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EXPECT_EQ(G.outEdges(0u).begin(), G.outEdges(0u).end());
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EXPECT_EQ(0u, G.inEdges(0u).size());
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EXPECT_TRUE(G.inEdges(0u).empty());
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EXPECT_EQ(G.inEdges(0u).begin(), G.inEdges(0u).end());
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}
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TEST(GraphTest, TestEdgeAccessOperator) {
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GraphT MG;
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const GraphT &G = MG;
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MG[{0u, 0u}] = {2u};
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EI EdgeIdent({0u, 0u});
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EXPECT_EQ(2u, MG[EdgeIdent].EA);
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EXPECT_EQ(1u, G.count({0u, 0u}));
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EXPECT_EQ(0u, G.count({0u, 1u}));
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EXPECT_EQ(1u, G.count(0u));
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EXPECT_NE(1u, G.count(1u));
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auto T = G.at({0u, 0u});
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EXPECT_TRUE(T && T->EA == 2u);
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EXPECT_EQ(1u, G.edges().size());
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EXPECT_EQ(1u, G.vertices().size());
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EXPECT_FALSE(G.edges().empty());
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EXPECT_FALSE(G.vertices().empty());
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EXPECT_NE(G.edges().begin(), G.edges().end());
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EXPECT_EQ(EI(0u, 0u), G.edges().begin()->first);
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EXPECT_EQ(2u, G.edges().begin()->second.EA);
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EXPECT_EQ(1u, G.outEdges(0u).size());
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EXPECT_FALSE(G.outEdges(0u).empty());
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EXPECT_NE(G.outEdges(0u).begin(), G.outEdges(0u).end());
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EXPECT_EQ(EI(0u, 0u), G.outEdges(0u).begin()->first);
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EXPECT_EQ(2u, G.outEdges(0u).begin()->second.EA);
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EXPECT_EQ(++(G.outEdges(0u).begin()), G.outEdges(0u).end());
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EXPECT_EQ(1u, G.inEdges(0u).size());
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EXPECT_FALSE(G.inEdges(0u).empty());
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EXPECT_NE(G.inEdges(0u).begin(), G.inEdges(0u).end());
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EXPECT_EQ(EI(0u, 0u), G.inEdges(0u).begin()->first);
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EXPECT_EQ(2u, G.inEdges(0u).begin()->second.EA);
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EXPECT_EQ(++(G.inEdges(0u).begin()), G.inEdges(0u).end());
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}
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}
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