vp9_avg_test.cc 10.8 KB
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/*
 *  Copyright (c) 2012 The WebM project authors. All Rights Reserved.
 *
 *  Use of this source code is governed by a BSD-style license
 *  that can be found in the LICENSE file in the root of the source
 *  tree. An additional intellectual property rights grant can be found
 *  in the file PATENTS.  All contributing project authors may
 *  be found in the AUTHORS file in the root of the source tree.
 */

#include <limits.h>
#include <stdio.h>
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#include <string.h>

#include "third_party/googletest/src/include/gtest/gtest.h"
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#include "./vpx_config.h"
#if CONFIG_VP9_ENCODER
#include "./vp9_rtcd.h"
#endif

#include "test/acm_random.h"
#include "test/clear_system_state.h"
#include "test/register_state_check.h"
#include "test/util.h"
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#include "vpx_mem/vpx_mem.h"
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using libvpx_test::ACMRandom;

namespace {
class AverageTestBase : public ::testing::Test {
 public:
  AverageTestBase(int width, int height) : width_(width), height_(height) {}

  static void SetUpTestCase() {
    source_data_ = reinterpret_cast<uint8_t*>(
        vpx_memalign(kDataAlignment, kDataBlockSize));
  }

  static void TearDownTestCase() {
    vpx_free(source_data_);
    source_data_ = NULL;
  }

  virtual void TearDown() {
    libvpx_test::ClearSystemState();
  }

 protected:
  // Handle blocks up to 4 blocks 64x64 with stride up to 128
  static const int kDataAlignment = 16;
  static const int kDataBlockSize = 64 * 128;

  virtual void SetUp() {
    source_stride_ = (width_ + 31) & ~31;
    rnd_.Reset(ACMRandom::DeterministicSeed());
  }

  // Sum Pixels
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  unsigned int ReferenceAverage8x8(const uint8_t* source, int pitch ) {
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    unsigned int average = 0;
    for (int h = 0; h < 8; ++h)
      for (int w = 0; w < 8; ++w)
        average += source[h * source_stride_ + w];
    return ((average + 32) >> 6);
  }

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  unsigned int ReferenceAverage4x4(const uint8_t* source, int pitch ) {
    unsigned int average = 0;
    for (int h = 0; h < 4; ++h)
      for (int w = 0; w < 4; ++w)
        average += source[h * source_stride_ + w];
    return ((average + 8) >> 4);
  }

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  void FillConstant(uint8_t fill_constant) {
    for (int i = 0; i < width_ * height_; ++i) {
        source_data_[i] = fill_constant;
    }
  }

  void FillRandom() {
    for (int i = 0; i < width_ * height_; ++i) {
        source_data_[i] = rnd_.Rand8();
    }
  }

  int width_, height_;
  static uint8_t* source_data_;
  int source_stride_;

  ACMRandom rnd_;
};
typedef unsigned int (*AverageFunction)(const uint8_t* s, int pitch);

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typedef std::tr1::tuple<int, int, int, int, AverageFunction> AvgFunc;
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class AverageTest
    : public AverageTestBase,
      public ::testing::WithParamInterface<AvgFunc>{
 public:
  AverageTest() : AverageTestBase(GET_PARAM(0), GET_PARAM(1)) {}

 protected:
  void CheckAverages() {
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    unsigned int expected = 0;
    if (GET_PARAM(3) == 8) {
      expected = ReferenceAverage8x8(source_data_+ GET_PARAM(2),
                                     source_stride_);
    } else  if (GET_PARAM(3) == 4) {
      expected = ReferenceAverage4x4(source_data_+ GET_PARAM(2),
                                     source_stride_);
    }
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    ASM_REGISTER_STATE_CHECK(GET_PARAM(4)(source_data_+ GET_PARAM(2),
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                                          source_stride_));
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    unsigned int actual = GET_PARAM(4)(source_data_+ GET_PARAM(2),
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                                       source_stride_);

    EXPECT_EQ(expected, actual);
  }
};

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typedef void (*IntProRowFunc)(int16_t hbuf[16], uint8_t const *ref,
                              const int ref_stride, const int height);

typedef std::tr1::tuple<int, IntProRowFunc, IntProRowFunc> IntProRowParam;

class IntProRowTest
    : public AverageTestBase,
      public ::testing::WithParamInterface<IntProRowParam> {
 public:
  IntProRowTest()
    : AverageTestBase(16, GET_PARAM(0)),
      hbuf_asm_(NULL),
      hbuf_c_(NULL) {
    asm_func_ = GET_PARAM(1);
    c_func_ = GET_PARAM(2);
  }

 protected:
  virtual void SetUp() {
    hbuf_asm_ = reinterpret_cast<int16_t*>(
        vpx_memalign(kDataAlignment, sizeof(*hbuf_asm_) * 16));
    hbuf_c_ = reinterpret_cast<int16_t*>(
        vpx_memalign(kDataAlignment, sizeof(*hbuf_c_) * 16));
  }

  virtual void TearDown() {
    vpx_free(hbuf_c_);
    hbuf_c_ = NULL;
    vpx_free(hbuf_asm_);
    hbuf_asm_ = NULL;
  }

  void RunComparison() {
    ASM_REGISTER_STATE_CHECK(c_func_(hbuf_c_, source_data_, 0, height_));
    ASM_REGISTER_STATE_CHECK(asm_func_(hbuf_asm_, source_data_, 0, height_));
    EXPECT_EQ(0, memcmp(hbuf_c_, hbuf_asm_, sizeof(*hbuf_c_) * 16))
        << "Output mismatch";
  }

 private:
  IntProRowFunc asm_func_;
  IntProRowFunc c_func_;
  int16_t *hbuf_asm_;
  int16_t *hbuf_c_;
};

typedef int16_t (*IntProColFunc)(uint8_t const *ref, const int width);

typedef std::tr1::tuple<int, IntProColFunc, IntProColFunc> IntProColParam;

class IntProColTest
    : public AverageTestBase,
      public ::testing::WithParamInterface<IntProColParam> {
 public:
  IntProColTest() : AverageTestBase(GET_PARAM(0), 1), sum_asm_(0), sum_c_(0) {
    asm_func_ = GET_PARAM(1);
    c_func_ = GET_PARAM(2);
  }

 protected:
  void RunComparison() {
    ASM_REGISTER_STATE_CHECK(sum_c_ = c_func_(source_data_, width_));
    ASM_REGISTER_STATE_CHECK(sum_asm_ = asm_func_(source_data_, width_));
    EXPECT_EQ(sum_c_, sum_asm_) << "Output mismatch";
  }

 private:
  IntProColFunc asm_func_;
  IntProColFunc c_func_;
  int16_t sum_asm_;
  int16_t sum_c_;
};

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typedef int (*SatdFunc)(const int16_t *coeffs, int length);
typedef std::tr1::tuple<int, SatdFunc> SatdTestParam;

class SatdTest
    : public ::testing::Test,
      public ::testing::WithParamInterface<SatdTestParam> {
 protected:
  virtual void SetUp() {
    satd_size_ = GET_PARAM(0);
    satd_func_ = GET_PARAM(1);
    rnd_.Reset(ACMRandom::DeterministicSeed());
    src_ = reinterpret_cast<int16_t*>(
        vpx_memalign(16, sizeof(*src_) * satd_size_));
    ASSERT_TRUE(src_ != NULL);
  }

  virtual void TearDown() {
    libvpx_test::ClearSystemState();
    vpx_free(src_);
  }

  void FillConstant(const int16_t val) {
    for (int i = 0; i < satd_size_; ++i) src_[i] = val;
  }

  void FillRandom() {
    for (int i = 0; i < satd_size_; ++i) src_[i] = rnd_.Rand16();
  }

  void Check(const int expected) {
    int total;
    ASM_REGISTER_STATE_CHECK(total = satd_func_(src_, satd_size_));
    EXPECT_EQ(expected, total);
  }

  int satd_size_;

 private:
  int16_t *src_;
  SatdFunc satd_func_;
  ACMRandom rnd_;
};
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uint8_t* AverageTestBase::source_data_ = NULL;

TEST_P(AverageTest, MinValue) {
  FillConstant(0);
  CheckAverages();
}

TEST_P(AverageTest, MaxValue) {
  FillConstant(255);
  CheckAverages();
}

TEST_P(AverageTest, Random) {
  // The reference frame, but not the source frame, may be unaligned for
  // certain types of searches.
  for (int i = 0; i < 1000; i++) {
    FillRandom();
    CheckAverages();
  }
}

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TEST_P(IntProRowTest, MinValue) {
  FillConstant(0);
  RunComparison();
}

TEST_P(IntProRowTest, MaxValue) {
  FillConstant(255);
  RunComparison();
}

TEST_P(IntProRowTest, Random) {
  FillRandom();
  RunComparison();
}

TEST_P(IntProColTest, MinValue) {
  FillConstant(0);
  RunComparison();
}

TEST_P(IntProColTest, MaxValue) {
  FillConstant(255);
  RunComparison();
}

TEST_P(IntProColTest, Random) {
  FillRandom();
  RunComparison();
}

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TEST_P(SatdTest, MinValue) {
  const int kMin = -32640;
  const int expected = -kMin * satd_size_;
  FillConstant(kMin);
  Check(expected);
}

TEST_P(SatdTest, MaxValue) {
  const int kMax = 32640;
  const int expected = kMax * satd_size_;
  FillConstant(kMax);
  Check(expected);
}

TEST_P(SatdTest, Random) {
  int expected;
  switch (satd_size_) {
    case 16: expected = 205298; break;
    case 64: expected = 1113950; break;
    case 256: expected = 4268415; break;
    case 1024: expected = 16954082; break;
    default:
      FAIL() << "Invalid satd size (" << satd_size_
             << ") valid: 16/64/256/1024";
  }
  FillRandom();
  Check(expected);
}

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using std::tr1::make_tuple;

INSTANTIATE_TEST_CASE_P(
    C, AverageTest,
    ::testing::Values(
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        make_tuple(16, 16, 1, 8, &vp9_avg_8x8_c),
        make_tuple(16, 16, 1, 4, &vp9_avg_4x4_c)));
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INSTANTIATE_TEST_CASE_P(
    C, SatdTest,
    ::testing::Values(
        make_tuple(16, &vp9_satd_c),
        make_tuple(64, &vp9_satd_c),
        make_tuple(256, &vp9_satd_c),
        make_tuple(1024, &vp9_satd_c)));

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#if HAVE_SSE2
INSTANTIATE_TEST_CASE_P(
    SSE2, AverageTest,
    ::testing::Values(
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        make_tuple(16, 16, 0, 8, &vp9_avg_8x8_sse2),
        make_tuple(16, 16, 5, 8, &vp9_avg_8x8_sse2),
        make_tuple(32, 32, 15, 8, &vp9_avg_8x8_sse2),
        make_tuple(16, 16, 0, 4, &vp9_avg_4x4_sse2),
        make_tuple(16, 16, 5, 4, &vp9_avg_4x4_sse2),
        make_tuple(32, 32, 15, 4, &vp9_avg_4x4_sse2)));
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INSTANTIATE_TEST_CASE_P(
    SSE2, IntProRowTest, ::testing::Values(
        make_tuple(16, &vp9_int_pro_row_sse2, &vp9_int_pro_row_c),
        make_tuple(32, &vp9_int_pro_row_sse2, &vp9_int_pro_row_c),
        make_tuple(64, &vp9_int_pro_row_sse2, &vp9_int_pro_row_c)));

INSTANTIATE_TEST_CASE_P(
    SSE2, IntProColTest, ::testing::Values(
        make_tuple(16, &vp9_int_pro_col_sse2, &vp9_int_pro_col_c),
        make_tuple(32, &vp9_int_pro_col_sse2, &vp9_int_pro_col_c),
        make_tuple(64, &vp9_int_pro_col_sse2, &vp9_int_pro_col_c)));
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INSTANTIATE_TEST_CASE_P(
    SSE2, SatdTest,
    ::testing::Values(
        make_tuple(16, &vp9_satd_sse2),
        make_tuple(64, &vp9_satd_sse2),
        make_tuple(256, &vp9_satd_sse2),
        make_tuple(1024, &vp9_satd_sse2)));
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#endif

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#if HAVE_NEON
INSTANTIATE_TEST_CASE_P(
    NEON, AverageTest,
    ::testing::Values(
        make_tuple(16, 16, 0, 8, &vp9_avg_8x8_neon),
        make_tuple(16, 16, 5, 8, &vp9_avg_8x8_neon),
        make_tuple(32, 32, 15, 8, &vp9_avg_8x8_neon)));

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INSTANTIATE_TEST_CASE_P(
    NEON, IntProRowTest, ::testing::Values(
        make_tuple(16, &vp9_int_pro_row_neon, &vp9_int_pro_row_c),
        make_tuple(32, &vp9_int_pro_row_neon, &vp9_int_pro_row_c),
        make_tuple(64, &vp9_int_pro_row_neon, &vp9_int_pro_row_c)));
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INSTANTIATE_TEST_CASE_P(
    NEON, IntProColTest, ::testing::Values(
        make_tuple(16, &vp9_int_pro_col_neon, &vp9_int_pro_col_c),
        make_tuple(32, &vp9_int_pro_col_neon, &vp9_int_pro_col_c),
        make_tuple(64, &vp9_int_pro_col_neon, &vp9_int_pro_col_c)));
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INSTANTIATE_TEST_CASE_P(
    NEON, SatdTest,
    ::testing::Values(
        make_tuple(16, &vp9_satd_neon),
        make_tuple(64, &vp9_satd_neon),
        make_tuple(256, &vp9_satd_neon),
        make_tuple(1024, &vp9_satd_neon)));
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#endif

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#if HAVE_MSA
INSTANTIATE_TEST_CASE_P(
    MSA, AverageTest,
    ::testing::Values(
        make_tuple(16, 16, 0, 8, &vp9_avg_8x8_msa),
        make_tuple(16, 16, 5, 8, &vp9_avg_8x8_msa),
        make_tuple(32, 32, 15, 8, &vp9_avg_8x8_msa),
        make_tuple(16, 16, 0, 4, &vp9_avg_4x4_msa),
        make_tuple(16, 16, 5, 4, &vp9_avg_4x4_msa),
        make_tuple(32, 32, 15, 4, &vp9_avg_4x4_msa)));
#endif

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}  // namespace