// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "media/base/bit_reader.h" #include #include #include "base/macros.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { static void SetBit(uint8_t* buf, size_t size, size_t bit_pos) { size_t byte_pos = bit_pos / 8; bit_pos -= byte_pos * 8; DCHECK_LT(byte_pos, size); buf[byte_pos] |= (1 << (7 - bit_pos)); } TEST(BitReaderTest, NormalOperationTest) { uint8_t value8; uint64_t value64; // 0101 0101 1001 1001 repeats 4 times uint8_t buffer[] = {0x55, 0x99, 0x55, 0x99, 0x55, 0x99, 0x55, 0x99}; BitReader reader1(buffer, 6); // Initialize with 6 bytes only EXPECT_TRUE(reader1.ReadBits(1, &value8)); EXPECT_EQ(value8, 0); EXPECT_TRUE(reader1.ReadBits(8, &value8)); EXPECT_EQ(value8, 0xab); // 1010 1011 EXPECT_TRUE(reader1.ReadBits(7, &value64)); EXPECT_TRUE(reader1.ReadBits(32, &value64)); EXPECT_EQ(value64, 0x55995599u); EXPECT_FALSE(reader1.ReadBits(1, &value8)); value8 = 0xff; EXPECT_TRUE(reader1.ReadBits(0, &value8)); EXPECT_EQ(value8, 0); BitReader reader2(buffer, 8); EXPECT_TRUE(reader2.ReadBits(64, &value64)); EXPECT_EQ(value64, 0x5599559955995599ull); EXPECT_FALSE(reader2.ReadBits(1, &value8)); EXPECT_TRUE(reader2.ReadBits(0, &value8)); } TEST(BitReaderTest, ReadBeyondEndTest) { uint8_t value8; uint8_t buffer[] = {0x12}; BitReader reader1(buffer, sizeof(buffer)); EXPECT_TRUE(reader1.ReadBits(4, &value8)); EXPECT_FALSE(reader1.ReadBits(5, &value8)); EXPECT_FALSE(reader1.ReadBits(1, &value8)); EXPECT_TRUE(reader1.ReadBits(0, &value8)); } TEST(BitReaderTest, SkipBitsTest) { uint8_t value8; uint8_t buffer[] = {0x0a, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15}; BitReader reader1(buffer, sizeof(buffer)); EXPECT_TRUE(reader1.SkipBits(2)); EXPECT_TRUE(reader1.ReadBits(3, &value8)); EXPECT_EQ(value8, 1); EXPECT_TRUE(reader1.SkipBits(11)); EXPECT_TRUE(reader1.ReadBits(8, &value8)); EXPECT_EQ(value8, 3); EXPECT_TRUE(reader1.SkipBits(76)); EXPECT_TRUE(reader1.ReadBits(4, &value8)); EXPECT_EQ(value8, 13); EXPECT_FALSE(reader1.SkipBits(100)); EXPECT_TRUE(reader1.SkipBits(0)); EXPECT_FALSE(reader1.SkipBits(1)); } TEST(BitReaderTest, VariableSkipBitsTest) { uint8_t buffer[256] = {0}; // The test alternates between ReadBits and SkipBits. // The first number is the number of bits to read, the second one is the // number of bits to skip. The number of bits to read was arbitrarily chosen // while the number of bits to skip was chosen so as to cover from small skips // to large skips. const size_t pattern_read_skip[][2] = { { 5, 17 }, { 4, 34 }, { 0, 44 }, { 3, 4 }, // Note: aligned read. { 7, 7 }, // Note: both read&skip cross byte boundary. { 17, 68 }, { 7, 102 }, { 9, 204 }, { 3, 408 } }; // Set bits to one only for the first and last bit of each read // in the pattern. size_t pos = 0; for (size_t k = 0; k < arraysize(pattern_read_skip); ++k) { const size_t read_bit_count = pattern_read_skip[k][0]; if (read_bit_count > 0) { SetBit(buffer, sizeof(buffer), pos); SetBit(buffer, sizeof(buffer), pos + read_bit_count - 1); pos += read_bit_count; } pos += pattern_read_skip[k][1]; } // Run the test. BitReader bit_reader(buffer, sizeof(buffer)); EXPECT_EQ(bit_reader.bits_available(), static_cast(sizeof(buffer) * 8)); for (size_t k = 0; k < arraysize(pattern_read_skip); ++k) { const size_t read_bit_count = pattern_read_skip[k][0]; if (read_bit_count > 0) { int value; EXPECT_TRUE(bit_reader.ReadBits(read_bit_count, &value)); EXPECT_EQ(value, 1 | (1 << (read_bit_count - 1))); } EXPECT_TRUE(bit_reader.SkipBits(pattern_read_skip[k][1])); } } TEST(BitReaderTest, BitsReadTest) { int value; bool flag; uint8_t buffer[] = {0x0a, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15}; BitReader reader1(buffer, sizeof(buffer)); EXPECT_EQ(reader1.bits_available(), 120); EXPECT_TRUE(reader1.SkipBits(2)); EXPECT_EQ(reader1.bits_read(), 2); EXPECT_EQ(reader1.bits_available(), 118); EXPECT_TRUE(reader1.ReadBits(3, &value)); EXPECT_EQ(reader1.bits_read(), 5); EXPECT_EQ(reader1.bits_available(), 115); EXPECT_TRUE(reader1.ReadFlag(&flag)); EXPECT_EQ(reader1.bits_read(), 6); EXPECT_EQ(reader1.bits_available(), 114); EXPECT_TRUE(reader1.SkipBits(76)); EXPECT_EQ(reader1.bits_read(), 82); EXPECT_EQ(reader1.bits_available(), 38); } } // namespace media