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#include <gtest/gtest.h>
#include "matching.h"
#include "matching_comparator.h"
using namespace ::testing;
namespace {
class MatchingComparatorTest : public Test {
protected:
virtual void SetUp() {
comparator = make_shared<MatchingComparator>(1, 20);
}
shared_ptr<MatchingComparator> comparator;
};
TEST_F(MatchingComparatorTest, SmallerSentenceId) {
vector<int> left_locations{1};
Matching left(left_locations.begin(), 1, 1);
vector<int> right_locations{100};
Matching right(right_locations.begin(), 1, 5);
EXPECT_EQ(-1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, GreaterSentenceId) {
vector<int> left_locations{100};
Matching left(left_locations.begin(), 1, 5);
vector<int> right_locations{1};
Matching right(right_locations.begin(), 1, 1);
EXPECT_EQ(1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, SmalleraXb) {
vector<int> left_locations{1};
Matching left(left_locations.begin(), 1, 1);
vector<int> right_locations{21};
Matching right(right_locations.begin(), 1, 1);
// The matching exceeds the max rule span.
EXPECT_EQ(-1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, EqualaXb) {
vector<int> left_locations{1};
Matching left(left_locations.begin(), 1, 1);
vector<int> lower_right_locations{3};
Matching right(lower_right_locations.begin(), 1, 1);
EXPECT_EQ(0, comparator->Compare(left, right, 1, true));
vector<int> higher_right_locations{20};
right = Matching(higher_right_locations.begin(), 1, 1);
EXPECT_EQ(0, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, GreateraXb) {
vector<int> left_locations{1};
Matching left(left_locations.begin(), 1, 1);
vector<int> right_locations{2};
Matching right(right_locations.begin(), 1, 1);
// The gap between the prefix and the suffix is of size 0, less than the
// min gap size.
EXPECT_EQ(1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, SmalleraXbXc) {
vector<int> left_locations{1, 3};
Matching left(left_locations.begin(), 2, 1);
vector<int> right_locations{4, 6};
// The common part doesn't match.
Matching right(right_locations.begin(), 2, 1);
EXPECT_EQ(-1, comparator->Compare(left, right, 1, true));
// The common part matches, but the rule exceeds the max span.
vector<int> other_right_locations{3, 21};
right = Matching(other_right_locations.begin(), 2, 1);
EXPECT_EQ(-1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, EqualaXbXc) {
vector<int> left_locations{1, 3};
Matching left(left_locations.begin(), 2, 1);
vector<int> right_locations{3, 5};
// The leftmost possible match.
Matching right(right_locations.begin(), 2, 1);
EXPECT_EQ(0, comparator->Compare(left, right, 1, true));
// The rightmost possible match.
vector<int> other_right_locations{3, 20};
right = Matching(other_right_locations.begin(), 2, 1);
EXPECT_EQ(0, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, GreateraXbXc) {
vector<int> left_locations{1, 4};
Matching left(left_locations.begin(), 2, 1);
vector<int> right_locations{3, 5};
// The common part doesn't match.
Matching right(right_locations.begin(), 2, 1);
EXPECT_EQ(1, comparator->Compare(left, right, 1, true));
}
TEST_F(MatchingComparatorTest, SmallerabXcXd) {
vector<int> left_locations{9, 13};
Matching left(left_locations.begin(), 2, 1);
// The suffix doesn't start on the next position.
vector<int> right_locations{11, 13, 15};
Matching right(right_locations.begin(), 3, 1);
EXPECT_EQ(-1, comparator->Compare(left, right, 1, false));
// The common part doesn't match.
vector<int> other_right_locations{10, 16, 18};
right = Matching(other_right_locations.begin(), 3, 1);
EXPECT_EQ(-1, comparator->Compare(left, right, 1, false));
}
TEST_F(MatchingComparatorTest, EqualabXcXd) {
vector<int> left_locations{10, 13};
Matching left(left_locations.begin(), 2, 1);
vector<int> right_locations{11, 13, 15};
Matching right(right_locations.begin(), 3, 1);
EXPECT_EQ(0, comparator->Compare(left, right, 1, false));
}
TEST_F(MatchingComparatorTest, GreaterabXcXd) {
vector<int> left_locations{9, 15};
Matching left(left_locations.begin(), 2, 1);
// The suffix doesn't start on the next position.
vector<int> right_locations{7, 15, 17};
Matching right(right_locations.begin(), 3, 1);
EXPECT_EQ(1, comparator->Compare(left, right, 1, false));
// The common part doesn't match.
vector<int> other_right_locations{10, 13, 16};
right = Matching(other_right_locations.begin(), 3, 1);
EXPECT_EQ(1, comparator->Compare(left, right, 1, false));
}
} // namespace
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