EXPECT_FALSE(Vec.none());
EXPECT_FALSE(Vec.empty());
+ Vec.resize(64);
+ EXPECT_EQ(64U, Vec.count());
+ EXPECT_EQ(64U, Vec.size());
+ EXPECT_TRUE(Vec.any());
+ EXPECT_TRUE(Vec.all());
+ EXPECT_FALSE(Vec.none());
+ EXPECT_FALSE(Vec.empty());
+
+ Vec.flip();
+ EXPECT_EQ(0U, Vec.count());
+ EXPECT_EQ(64U, Vec.size());
+ EXPECT_FALSE(Vec.any());
+ EXPECT_FALSE(Vec.all());
+ EXPECT_TRUE(Vec.none());
+ EXPECT_FALSE(Vec.empty());
+
Inv = TypeParam().flip();
EXPECT_EQ(0U, Inv.count());
EXPECT_EQ(0U, Inv.size());
const uint32_t Mask1[] = { 0x80000000, 6, 5 };
A.resize(10);
- A.setBitsInMask(Mask1, 3);
+ A.setBitsInMask(Mask1, 1);
EXPECT_EQ(10u, A.size());
EXPECT_FALSE(A.test(0));
A.resize(32);
- A.setBitsInMask(Mask1, 3);
+ A.setBitsInMask(Mask1, 1);
EXPECT_FALSE(A.test(0));
EXPECT_TRUE(A.test(31));
EXPECT_EQ(1u, A.count());
EXPECT_TRUE( E.test(1));
EXPECT_TRUE( E.test(32));
EXPECT_FALSE(E.test(33));
+
+ TypeParam BufferOverrun;
+ unsigned size = sizeof(unsigned long) * 8;
+ BufferOverrun.resize(size);
+ BufferOverrun.reset(0, size);
+ BufferOverrun.set(0, size);
+}
+
+TYPED_TEST(BitVectorTest, CompoundTestReset) {
+ TypeParam A(50, true);
+ TypeParam B(50, false);
+
+ TypeParam C(100, true);
+ TypeParam D(100, false);
+
+ EXPECT_FALSE(A.test(A));
+ EXPECT_TRUE(A.test(B));
+ EXPECT_FALSE(A.test(C));
+ EXPECT_TRUE(A.test(D));
+ EXPECT_FALSE(B.test(A));
+ EXPECT_FALSE(B.test(B));
+ EXPECT_FALSE(B.test(C));
+ EXPECT_FALSE(B.test(D));
+ EXPECT_TRUE(C.test(A));
+ EXPECT_TRUE(C.test(B));
+ EXPECT_FALSE(C.test(C));
+ EXPECT_TRUE(C.test(D));
+
+ A.reset(B);
+ A.reset(D);
+ EXPECT_TRUE(A.all());
+ A.reset(A);
+ EXPECT_TRUE(A.none());
+ A.set();
+ A.reset(C);
+ EXPECT_TRUE(A.none());
+ A.set();
+
+ C.reset(A);
+ EXPECT_EQ(50, C.find_first());
+ C.reset(C);
+ EXPECT_TRUE(C.none());
}
}
#endif