0x0f000000);
EXPECT_EQ((endian::readAtBitAlignment<int, big, unaligned>(&bigval2[0], 4)),
0x0f000000);
+ // Test to make sure left shift of start bit doesn't overflow.
+ EXPECT_EQ(
+ (endian::readAtBitAlignment<int, little, unaligned>(&littleval2[0], 1)),
+ 0x78000000);
+ EXPECT_EQ((endian::readAtBitAlignment<int, big, unaligned>(&bigval2[0], 1)),
+ 0x78000000);
+ // Test to make sure 64-bit int doesn't overflow.
+ unsigned char littleval3[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf0,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
+ unsigned char bigval3[] = {0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
+ EXPECT_EQ((endian::readAtBitAlignment<int64_t, little, unaligned>(
+ &littleval3[0], 4)),
+ 0x0f00000000000000);
+ EXPECT_EQ(
+ (endian::readAtBitAlignment<int64_t, big, unaligned>(&bigval3[0], 4)),
+ 0x0f00000000000000);
}
TEST(Endian, WriteBitAligned) {
EXPECT_EQ(littleval[5], 0x00);
EXPECT_EQ(littleval[6], 0x00);
EXPECT_EQ(littleval[7], 0x00);
+
+ // This test makes sure 1<<31 doesn't overflow.
+ // Test to make sure left shift of start bit doesn't overflow.
+ unsigned char bigval2[8] = {0x00};
+ endian::writeAtBitAlignment<int32_t, big, unaligned>(bigval2, (int)0xffffffff,
+ 1);
+ EXPECT_EQ(bigval2[0], 0xff);
+ EXPECT_EQ(bigval2[1], 0xff);
+ EXPECT_EQ(bigval2[2], 0xff);
+ EXPECT_EQ(bigval2[3], 0xfe);
+ EXPECT_EQ(bigval2[4], 0x00);
+ EXPECT_EQ(bigval2[5], 0x00);
+ EXPECT_EQ(bigval2[6], 0x00);
+ EXPECT_EQ(bigval2[7], 0x01);
+
+ unsigned char littleval2[8] = {0x00};
+ endian::writeAtBitAlignment<int32_t, little, unaligned>(littleval2,
+ (int)0xffffffff, 1);
+ EXPECT_EQ(littleval2[0], 0xfe);
+ EXPECT_EQ(littleval2[1], 0xff);
+ EXPECT_EQ(littleval2[2], 0xff);
+ EXPECT_EQ(littleval2[3], 0xff);
+ EXPECT_EQ(littleval2[4], 0x01);
+ EXPECT_EQ(littleval2[5], 0x00);
+ EXPECT_EQ(littleval2[6], 0x00);
+ EXPECT_EQ(littleval2[7], 0x00);
+
+ // Test to make sure 64-bit int doesn't overflow.
+ unsigned char bigval64[16] = {0x00};
+ endian::writeAtBitAlignment<int64_t, big, unaligned>(
+ bigval64, (int64_t)0xffffffffffffffff, 1);
+ EXPECT_EQ(bigval64[0], 0xff);
+ EXPECT_EQ(bigval64[1], 0xff);
+ EXPECT_EQ(bigval64[2], 0xff);
+ EXPECT_EQ(bigval64[3], 0xff);
+ EXPECT_EQ(bigval64[4], 0xff);
+ EXPECT_EQ(bigval64[5], 0xff);
+ EXPECT_EQ(bigval64[6], 0xff);
+ EXPECT_EQ(bigval64[7], 0xfe);
+ EXPECT_EQ(bigval64[8], 0x00);
+ EXPECT_EQ(bigval64[9], 0x00);
+ EXPECT_EQ(bigval64[10], 0x00);
+ EXPECT_EQ(bigval64[11], 0x00);
+ EXPECT_EQ(bigval64[12], 0x00);
+ EXPECT_EQ(bigval64[13], 0x00);
+ EXPECT_EQ(bigval64[14], 0x00);
+ EXPECT_EQ(bigval64[15], 0x01);
+
+ unsigned char littleval64[16] = {0x00};
+ endian::writeAtBitAlignment<int64_t, little, unaligned>(
+ littleval64, (int64_t)0xffffffffffffffff, 1);
+ EXPECT_EQ(littleval64[0], 0xfe);
+ EXPECT_EQ(littleval64[1], 0xff);
+ EXPECT_EQ(littleval64[2], 0xff);
+ EXPECT_EQ(littleval64[3], 0xff);
+ EXPECT_EQ(littleval64[4], 0xff);
+ EXPECT_EQ(littleval64[5], 0xff);
+ EXPECT_EQ(littleval64[6], 0xff);
+ EXPECT_EQ(littleval64[7], 0xff);
+ EXPECT_EQ(littleval64[8], 0x01);
+ EXPECT_EQ(littleval64[9], 0x00);
+ EXPECT_EQ(littleval64[10], 0x00);
+ EXPECT_EQ(littleval64[11], 0x00);
+ EXPECT_EQ(littleval64[12], 0x00);
+ EXPECT_EQ(littleval64[13], 0x00);
+ EXPECT_EQ(littleval64[14], 0x00);
+ EXPECT_EQ(littleval64[15], 0x00);
}
TEST(Endian, Write) {