188 строки
5.8 KiB
C++
188 строки
5.8 KiB
C++
/*
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* Copyright (c) 2016, Alliance for Open Media. All rights reserved
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*
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* This source code is subject to the terms of the BSD 2 Clause License and
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* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
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* was not distributed with this source code in the LICENSE file, you can
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* obtain it at www.aomedia.org/license/software. If the Alliance for Open
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* Media Patent License 1.0 was not distributed with this source code in the
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* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
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*/
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#include <assert.h>
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#include <math.h>
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#include <stdio.h>
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#include <ctime>
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#include <utility>
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#include <vector>
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#include "third_party/googletest/src/include/gtest/gtest.h"
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#include "test/acm_random.h"
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#include "aom_dsp/ansreader.h"
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#include "aom_dsp/buf_ans.h"
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namespace {
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typedef std::vector<std::pair<uint8_t, bool> > PvVec;
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const int kPrintStats = 0;
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// Use a small buffer size to exercise ANS window spills or buffer growth
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const int kBufAnsSize = 1 << 8;
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PvVec abs_encode_build_vals(int iters) {
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PvVec ret;
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libaom_test::ACMRandom gen(0x30317076);
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double entropy = 0;
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for (int i = 0; i < iters; ++i) {
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uint8_t p;
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do {
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p = gen.Rand8();
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} while (p == 0); // zero is not a valid coding probability
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bool b = gen.Rand8() < p;
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ret.push_back(std::make_pair(static_cast<uint8_t>(p), b));
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if (kPrintStats) {
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double d = p / 256.;
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entropy += -d * log2(d) - (1 - d) * log2(1 - d);
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}
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}
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if (kPrintStats) printf("entropy %f\n", entropy);
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return ret;
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}
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bool check_uabs(const PvVec &pv_vec, uint8_t *buf) {
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BufAnsCoder a;
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aom_buf_ans_alloc(&a, NULL, kBufAnsSize);
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buf_ans_write_init(&a, buf);
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std::clock_t start = std::clock();
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for (PvVec::const_iterator it = pv_vec.begin(); it != pv_vec.end(); ++it) {
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buf_uabs_write(&a, it->second, 256 - it->first);
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}
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aom_buf_ans_flush(&a);
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std::clock_t enc_time = std::clock() - start;
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int offset = buf_ans_write_end(&a);
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aom_buf_ans_free(&a);
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bool okay = true;
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AnsDecoder d;
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#if ANS_MAX_SYMBOLS
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d.window_size = kBufAnsSize;
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#endif
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if (ans_read_init(&d, buf, offset)) return false;
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start = std::clock();
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for (PvVec::const_iterator it = pv_vec.begin(); it != pv_vec.end(); ++it) {
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okay = okay && (uabs_read(&d, 256 - it->first) != 0) == it->second;
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}
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std::clock_t dec_time = std::clock() - start;
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if (!okay) return false;
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if (kPrintStats)
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printf("uABS size %d enc_time %f dec_time %f\n", offset,
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static_cast<float>(enc_time) / CLOCKS_PER_SEC,
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static_cast<float>(dec_time) / CLOCKS_PER_SEC);
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return ans_read_end(&d) != 0;
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}
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const aom_cdf_prob spareto65[] = { 8320, 6018, 4402, 3254, 4259,
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3919, 2057, 492, 45, 2 };
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const int kRansSymbols =
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static_cast<int>(sizeof(spareto65) / sizeof(spareto65[0]));
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std::vector<int> ans_encode_build_vals(rans_sym *const tab, int iters) {
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aom_cdf_prob sum = 0;
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for (int i = 0; i < kRansSymbols; ++i) {
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tab[i].cum_prob = sum;
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tab[i].prob = spareto65[i];
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sum += spareto65[i];
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}
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std::vector<int> p_to_sym;
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for (int i = 0; i < kRansSymbols; ++i) {
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p_to_sym.insert(p_to_sym.end(), tab[i].prob, i);
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}
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assert(p_to_sym.size() == RANS_PRECISION);
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std::vector<int> ret;
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libaom_test::ACMRandom gen(18543637);
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for (int i = 0; i < iters; ++i) {
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int sym =
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p_to_sym[((gen.Rand8() << 8) + gen.Rand8()) & (RANS_PRECISION - 1)];
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ret.push_back(sym);
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}
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return ret;
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}
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void rans_build_dec_tab(const struct rans_sym sym_tab[],
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aom_cdf_prob *dec_tab) {
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unsigned int sum = 0;
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for (int i = 0; sum < RANS_PRECISION; ++i) {
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dec_tab[i] = sum += sym_tab[i].prob;
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}
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}
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bool check_rans(const std::vector<int> &sym_vec, const rans_sym *const tab,
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uint8_t *buf) {
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BufAnsCoder a;
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aom_buf_ans_alloc(&a, NULL, kBufAnsSize);
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buf_ans_write_init(&a, buf);
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aom_cdf_prob dec_tab[kRansSymbols];
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rans_build_dec_tab(tab, dec_tab);
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std::clock_t start = std::clock();
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for (std::vector<int>::const_iterator it = sym_vec.begin();
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it != sym_vec.end(); ++it) {
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buf_rans_write(&a, &tab[*it]);
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}
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aom_buf_ans_flush(&a);
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std::clock_t enc_time = std::clock() - start;
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int offset = buf_ans_write_end(&a);
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aom_buf_ans_free(&a);
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bool okay = true;
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AnsDecoder d;
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#if ANS_MAX_SYMBOLS
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d.window_size = kBufAnsSize;
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#endif
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if (ans_read_init(&d, buf, offset)) return false;
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start = std::clock();
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for (std::vector<int>::const_iterator it = sym_vec.begin();
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it != sym_vec.end(); ++it) {
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okay &= rans_read(&d, dec_tab) == *it;
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}
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std::clock_t dec_time = std::clock() - start;
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if (!okay) return false;
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if (kPrintStats)
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printf("rANS size %d enc_time %f dec_time %f\n", offset,
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static_cast<float>(enc_time) / CLOCKS_PER_SEC,
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static_cast<float>(dec_time) / CLOCKS_PER_SEC);
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return ans_read_end(&d) != 0;
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}
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class AbsTest : public ::testing::Test {
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protected:
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static void SetUpTestCase() { pv_vec_ = abs_encode_build_vals(kNumBools); }
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virtual void SetUp() { buf_ = new uint8_t[kNumBools / 8]; }
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virtual void TearDown() { delete[] buf_; }
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static const int kNumBools = 100000000;
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static PvVec pv_vec_;
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uint8_t *buf_;
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};
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PvVec AbsTest::pv_vec_;
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class AnsTest : public ::testing::Test {
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protected:
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static void SetUpTestCase() {
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sym_vec_ = ans_encode_build_vals(rans_sym_tab_, kNumSyms);
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}
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virtual void SetUp() { buf_ = new uint8_t[kNumSyms / 2]; }
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virtual void TearDown() { delete[] buf_; }
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static const int kNumSyms = 25000000;
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static std::vector<int> sym_vec_;
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static rans_sym rans_sym_tab_[kRansSymbols];
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uint8_t *buf_;
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};
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std::vector<int> AnsTest::sym_vec_;
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rans_sym AnsTest::rans_sym_tab_[kRansSymbols];
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TEST_F(AbsTest, Uabs) { EXPECT_TRUE(check_uabs(pv_vec_, buf_)); }
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TEST_F(AnsTest, Rans) {
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EXPECT_TRUE(check_rans(sym_vec_, rans_sym_tab_, buf_));
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}
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} // namespace
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