}
-TEST(IntervalMapOverlapsTest, EmptyMaps) {
+TEST(IntervalMapOverlapsTest, SmallMaps) {
typedef IntervalMapOverlaps<UUMap,UUMap> UUOverlaps;
UUMap::Allocator allocator;
UUMap mapA(allocator);
EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
mapA.insert(1, 2, 3);
+
// full, empty
EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
// empty, full
EXPECT_FALSE(UUOverlaps(mapB, mapA).valid());
+
+ mapB.insert(3, 4, 5);
+
+ // full, full, non-overlapping
+ EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
+ EXPECT_FALSE(UUOverlaps(mapB, mapA).valid());
+
+ // Add an overlapping segment.
+ mapA.insert(4, 5, 6);
+
+ UUOverlaps AB(mapA, mapB);
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(4u, AB.a().start());
+ EXPECT_EQ(3u, AB.b().start());
+ ++AB;
+ EXPECT_FALSE(AB.valid());
+
+ UUOverlaps BA(mapB, mapA);
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(3u, BA.a().start());
+ EXPECT_EQ(4u, BA.b().start());
+ ++BA;
+ EXPECT_FALSE(BA.valid());
+}
+
+TEST(IntervalMapOverlapsTest, BigMaps) {
+ typedef IntervalMapOverlaps<UUMap,UUMap> UUOverlaps;
+ UUMap::Allocator allocator;
+ UUMap mapA(allocator);
+ UUMap mapB(allocator);
+
+ // [0;4] [10;14] [20;24] ...
+ for (unsigned n = 0; n != 100; ++n)
+ mapA.insert(10*n, 10*n+4, n);
+
+ // [5;6] [15;16] [25;26] ...
+ for (unsigned n = 10; n != 20; ++n)
+ mapB.insert(10*n+5, 10*n+6, n);
+
+ // [208;209] [218;219] ...
+ for (unsigned n = 20; n != 30; ++n)
+ mapB.insert(10*n+8, 10*n+9, n);
+
+ // insert some overlapping segments.
+ mapB.insert(400, 400, 400);
+ mapB.insert(401, 401, 401);
+ mapB.insert(402, 500, 402);
+ mapB.insert(600, 601, 402);
+
+ UUOverlaps AB(mapA, mapB);
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(400u, AB.a().start());
+ EXPECT_EQ(400u, AB.b().start());
+ ++AB;
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(400u, AB.a().start());
+ EXPECT_EQ(401u, AB.b().start());
+ ++AB;
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(400u, AB.a().start());
+ EXPECT_EQ(402u, AB.b().start());
+ ++AB;
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(410u, AB.a().start());
+ EXPECT_EQ(402u, AB.b().start());
+ ++AB;
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(420u, AB.a().start());
+ EXPECT_EQ(402u, AB.b().start());
+ AB.skipB();
+ ASSERT_TRUE(AB.valid());
+ EXPECT_EQ(600u, AB.a().start());
+ EXPECT_EQ(600u, AB.b().start());
+ ++AB;
+ EXPECT_FALSE(AB.valid());
+
+ // Check reversed maps.
+ UUOverlaps BA(mapB, mapA);
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(400u, BA.b().start());
+ EXPECT_EQ(400u, BA.a().start());
+ ++BA;
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(400u, BA.b().start());
+ EXPECT_EQ(401u, BA.a().start());
+ ++BA;
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(400u, BA.b().start());
+ EXPECT_EQ(402u, BA.a().start());
+ ++BA;
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(410u, BA.b().start());
+ EXPECT_EQ(402u, BA.a().start());
+ ++BA;
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(420u, BA.b().start());
+ EXPECT_EQ(402u, BA.a().start());
+ BA.skipA();
+ ASSERT_TRUE(BA.valid());
+ EXPECT_EQ(600u, BA.b().start());
+ EXPECT_EQ(600u, BA.a().start());
+ ++BA;
+ EXPECT_FALSE(BA.valid());
}
+
} // namespace