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diff --git a/third_party/aom/test/lpf_test.cc b/third_party/aom/test/lpf_test.cc
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+++ b/third_party/aom/test/lpf_test.cc
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+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cmath>
+#include <cstdlib>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/av1_loopfilter.h"
+#include "av1/common/entropy.h"
+#include "aom/aom_integer.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+// Horizontally and Vertically need 32x32: 8 Coeffs preceeding filtered section
+// 16 Coefs within filtered section
+// 8 Coeffs following filtered section
+const int kNumCoeffs = 1024;
+
+const int number_of_iterations = 10000;
+
+const int kSpeedTestNum = 500000;
+
+#define LOOP_PARAM \
+ int p, const uint8_t *blimit, const uint8_t *limit, const uint8_t *thresh
+#define DUAL_LOOP_PARAM \
+ int p, const uint8_t *blimit0, const uint8_t *limit0, \
+ const uint8_t *thresh0, const uint8_t *blimit1, const uint8_t *limit1, \
+ const uint8_t *thresh1
+
+typedef void (*loop_op_t)(uint8_t *s, LOOP_PARAM);
+typedef void (*dual_loop_op_t)(uint8_t *s, DUAL_LOOP_PARAM);
+typedef void (*hbdloop_op_t)(uint16_t *s, LOOP_PARAM, int bd);
+typedef void (*hbddual_loop_op_t)(uint16_t *s, DUAL_LOOP_PARAM, int bd);
+
+typedef ::testing::tuple<hbdloop_op_t, hbdloop_op_t, int> hbdloop_param_t;
+typedef ::testing::tuple<hbddual_loop_op_t, hbddual_loop_op_t, int>
+ hbddual_loop_param_t;
+typedef ::testing::tuple<loop_op_t, loop_op_t, int> loop_param_t;
+typedef ::testing::tuple<dual_loop_op_t, dual_loop_op_t, int> dual_loop_param_t;
+
+template <typename Pixel_t, int PIXEL_WIDTH_t>
+void InitInput(Pixel_t *s, Pixel_t *ref_s, ACMRandom *rnd, const uint8_t limit,
+ const int mask, const int32_t p, const int i) {
+ uint16_t tmp_s[kNumCoeffs];
+
+ for (int j = 0; j < kNumCoeffs;) {
+ const uint8_t val = rnd->Rand8();
+ if (val & 0x80) { // 50% chance to choose a new value.
+ tmp_s[j] = rnd->Rand16();
+ j++;
+ } else { // 50% chance to repeat previous value in row X times.
+ int k = 0;
+ while (k++ < ((val & 0x1f) + 1) && j < kNumCoeffs) {
+ if (j < 1) {
+ tmp_s[j] = rnd->Rand16();
+ } else if (val & 0x20) { // Increment by a value within the limit.
+ tmp_s[j] = tmp_s[j - 1] + (limit - 1);
+ } else { // Decrement by a value within the limit.
+ tmp_s[j] = tmp_s[j - 1] - (limit - 1);
+ }
+ j++;
+ }
+ }
+ }
+
+ for (int j = 0; j < kNumCoeffs;) {
+ const uint8_t val = rnd->Rand8();
+ if (val & 0x80) {
+ j++;
+ } else { // 50% chance to repeat previous value in column X times.
+ int k = 0;
+ while (k++ < ((val & 0x1f) + 1) && j < kNumCoeffs) {
+ if (j < 1) {
+ tmp_s[j] = rnd->Rand16();
+ } else if (val & 0x20) { // Increment by a value within the limit.
+ tmp_s[(j % 32) * 32 + j / 32] =
+ tmp_s[((j - 1) % 32) * 32 + (j - 1) / 32] + (limit - 1);
+ } else { // Decrement by a value within the limit.
+ tmp_s[(j % 32) * 32 + j / 32] =
+ tmp_s[((j - 1) % 32) * 32 + (j - 1) / 32] - (limit - 1);
+ }
+ j++;
+ }
+ }
+ }
+
+ for (int j = 0; j < kNumCoeffs; j++) {
+ if (i % 2) {
+ s[j] = tmp_s[j] & mask;
+ } else {
+ s[j] = tmp_s[p * (j % p) + j / p] & mask;
+ }
+ ref_s[j] = s[j];
+ }
+}
+
+uint8_t GetOuterThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(3 * MAX_LOOP_FILTER + 5));
+}
+
+uint8_t GetInnerThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(MAX_LOOP_FILTER + 1));
+}
+
+uint8_t GetHevThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(MAX_LOOP_FILTER + 1) >> 4);
+}
+
+template <typename func_type_t, typename params_t>
+class LoopTestParam : public ::testing::TestWithParam<params_t> {
+ public:
+ virtual ~LoopTestParam() {}
+ virtual void SetUp() {
+ loopfilter_op_ = ::testing::get<0>(this->GetParam());
+ ref_loopfilter_op_ = ::testing::get<1>(this->GetParam());
+ bit_depth_ = ::testing::get<2>(this->GetParam());
+ mask_ = (1 << bit_depth_) - 1;
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ int bit_depth_;
+ int mask_;
+ func_type_t loopfilter_op_;
+ func_type_t ref_loopfilter_op_;
+};
+
+void call_filter(uint16_t *s, LOOP_PARAM, int bd, hbdloop_op_t op) {
+ op(s, p, blimit, limit, thresh, bd);
+}
+void call_filter(uint8_t *s, LOOP_PARAM, int bd, loop_op_t op) {
+ (void)bd;
+ op(s, p, blimit, limit, thresh);
+}
+void call_dualfilter(uint16_t *s, DUAL_LOOP_PARAM, int bd,
+ hbddual_loop_op_t op) {
+ op(s, p, blimit0, limit0, thresh0, blimit1, limit1, thresh1, bd);
+}
+void call_dualfilter(uint8_t *s, DUAL_LOOP_PARAM, int bd, dual_loop_op_t op) {
+ (void)bd;
+ op(s, p, blimit0, limit0, thresh0, blimit1, limit1, thresh1);
+};
+
+typedef LoopTestParam<hbdloop_op_t, hbdloop_param_t> Loop8Test6Param_hbd;
+typedef LoopTestParam<loop_op_t, loop_param_t> Loop8Test6Param_lbd;
+typedef LoopTestParam<hbddual_loop_op_t, hbddual_loop_param_t>
+ Loop8Test9Param_hbd;
+typedef LoopTestParam<dual_loop_op_t, dual_loop_param_t> Loop8Test9Param_lbd;
+
+#define OPCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ const int32_t p = kNumCoeffs / 32; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ InitInput<a, b>(s, ref_s, &rnd, *limit, mask_, p, i); \
+ call_filter(ref_s + 8 + p * 8, p, blimit, limit, thresh, bit_depth_, \
+ ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK(call_filter(s + 8 + p * 8, p, blimit, limit, \
+ thresh, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test6Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test6Param_hbd, OperationCheck) { OPCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, OperationCheck) { OPCHECK(uint8_t, 8); }
+
+#define VALCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ ref_s[j] = s[j]; \
+ } \
+ call_filter(ref_s + 8 + p * 8, p, blimit, limit, thresh, bit_depth_, \
+ ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK(call_filter(s + 8 + p * 8, p, blimit, limit, \
+ thresh, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test6Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test6Param_hbd, ValueCheck) { VALCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, ValueCheck) { VALCHECK(uint8_t, 8); }
+
+#define SPEEDCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = kSpeedTestNum; \
+ const int32_t bd = bit_depth_; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ } \
+ for (int i = 0; i < count_test_block; ++i) { \
+ call_filter(s + 8 + p * 8, p, blimit, limit, thresh, bd, loopfilter_op_); \
+ }
+
+TEST_P(Loop8Test6Param_hbd, DISABLED_Speed) { SPEEDCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, DISABLED_Speed) { SPEEDCHECK(uint8_t, 8); }
+
+#define OPCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ const uint8_t limit = *limit0 < *limit1 ? *limit0 : *limit1; \
+ InitInput<a, b>(s, ref_s, &rnd, limit, mask_, p, i); \
+ call_dualfilter(ref_s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK( \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test9Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test9Param_hbd, OperationCheck) { OPCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, OperationCheck) { OPCHECKd(uint8_t, 8); }
+
+#define VALCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ ref_s[j] = s[j]; \
+ } \
+ call_dualfilter(ref_s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK( \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test9Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test9Param_hbd, ValueCheck) { VALCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, ValueCheck) { VALCHECKd(uint8_t, 8); }
+
+#define SPEEDCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = kSpeedTestNum; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ } \
+ for (int i = 0; i < count_test_block; ++i) { \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_); \
+ }
+
+TEST_P(Loop8Test9Param_hbd, DISABLED_Speed) { SPEEDCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, DISABLED_Speed) { SPEEDCHECKd(uint8_t, 8); }
+
+using ::testing::make_tuple;
+
+#if HAVE_SSE2
+
+const hbdloop_param_t kHbdLoop8Test6[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 8),
+
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 12)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test6Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test6));
+
+const loop_param_t kLoop8Test6[] = {
+ make_tuple(&aom_lpf_horizontal_4_sse2, &aom_lpf_horizontal_4_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_sse2, &aom_lpf_horizontal_8_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_sse2, &aom_lpf_horizontal_6_c, 8),
+ make_tuple(&aom_lpf_vertical_6_sse2, &aom_lpf_vertical_6_c, 8),
+ make_tuple(&aom_lpf_horizontal_14_sse2, &aom_lpf_horizontal_14_c, 8),
+ make_tuple(&aom_lpf_vertical_4_sse2, &aom_lpf_vertical_4_c, 8),
+ make_tuple(&aom_lpf_vertical_8_sse2, &aom_lpf_vertical_8_c, 8),
+ make_tuple(&aom_lpf_vertical_14_sse2, &aom_lpf_vertical_14_c, 8),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test6Param_lbd,
+ ::testing::ValuesIn(kLoop8Test6));
+
+const dual_loop_param_t kLoop8Test9[] = {
+ make_tuple(&aom_lpf_horizontal_4_dual_sse2, &aom_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_4_dual_sse2, &aom_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_dual_sse2, &aom_lpf_horizontal_6_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_6_dual_sse2, &aom_lpf_vertical_6_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_dual_sse2, &aom_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_8_dual_sse2, &aom_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_14_dual_sse2, &aom_lpf_horizontal_14_dual_c,
+ 8),
+ make_tuple(&aom_lpf_vertical_14_dual_sse2, &aom_lpf_vertical_14_dual_c, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test9Param_lbd,
+ ::testing::ValuesIn(kLoop8Test9));
+
+#endif // HAVE_SSE2
+
+#if HAVE_SSE2
+const hbddual_loop_param_t kHbdLoop8Test9[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 12),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test9Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test9));
+
+#endif // HAVE_SSE2
+
+#if HAVE_NEON
+const loop_param_t kLoop8Test6[] = {
+ make_tuple(&aom_lpf_vertical_14_neon, &aom_lpf_vertical_14_c, 8),
+ make_tuple(&aom_lpf_vertical_8_neon, &aom_lpf_vertical_8_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_neon, &aom_lpf_horizontal_8_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_neon, &aom_lpf_horizontal_6_c, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(NEON, Loop8Test6Param_lbd,
+ ::testing::ValuesIn(kLoop8Test6));
+#endif // HAVE_NEON
+
+#if HAVE_AVX2
+const hbddual_loop_param_t kHbdLoop8Test9Avx2[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 12),
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, Loop8Test9Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test9Avx2));
+#endif
+} // namespace