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1d6a5087d2
After having generated one second of comfort noise and not received any packets, switch to expand mode which will fade out to silence and enter the efficient muted mode. The behavior is enabled by default but can be disabled through a field trial. Bug: webrtc:12790 Change-Id: I1e2c1acced3e4a2c1c1595824f1303a0c339aeb5 Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/290578 Reviewed-by: Henrik Lundin <henrik.lundin@webrtc.org> Commit-Queue: Jakob Ivarsson <jakobi@webrtc.org> Cr-Commit-Position: refs/heads/main@{#39043}
216 lines
8 KiB
C++
216 lines
8 KiB
C++
/*
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* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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// Unit tests for DecisionLogic class and derived classes.
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#include "modules/audio_coding/neteq/decision_logic.h"
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#include "api/neteq/neteq_controller.h"
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#include "api/neteq/tick_timer.h"
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#include "modules/audio_coding/neteq/buffer_level_filter.h"
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#include "modules/audio_coding/neteq/delay_manager.h"
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#include "modules/audio_coding/neteq/mock/mock_buffer_level_filter.h"
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#include "modules/audio_coding/neteq/mock/mock_delay_manager.h"
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#include "test/gtest.h"
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namespace webrtc {
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namespace {
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constexpr int kSampleRate = 8000;
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constexpr int kSamplesPerMs = kSampleRate / 1000;
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constexpr int kOutputSizeSamples = kSamplesPerMs * 10;
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constexpr int kMinTimescaleInterval = 5;
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NetEqController::NetEqStatus CreateNetEqStatus(NetEq::Mode last_mode,
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int current_delay_ms) {
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NetEqController::NetEqStatus status;
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status.play_dtmf = false;
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status.last_mode = last_mode;
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status.target_timestamp = 1234;
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status.generated_noise_samples = 0;
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status.expand_mutefactor = 0;
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status.packet_buffer_info.num_samples = current_delay_ms * kSamplesPerMs;
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status.packet_buffer_info.span_samples = current_delay_ms * kSamplesPerMs;
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status.packet_buffer_info.span_samples_no_dtx =
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current_delay_ms * kSamplesPerMs;
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status.packet_buffer_info.dtx_or_cng = false;
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status.next_packet = {status.target_timestamp, false, false};
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return status;
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}
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using ::testing::Return;
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} // namespace
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class DecisionLogicTest : public ::testing::Test {
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protected:
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DecisionLogicTest() {
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NetEqController::Config config;
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config.tick_timer = &tick_timer_;
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config.allow_time_stretching = true;
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auto delay_manager = std::make_unique<MockDelayManager>(
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DelayManager::Config(), config.tick_timer);
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mock_delay_manager_ = delay_manager.get();
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auto buffer_level_filter = std::make_unique<MockBufferLevelFilter>();
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mock_buffer_level_filter_ = buffer_level_filter.get();
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decision_logic_ = std::make_unique<DecisionLogic>(
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config, std::move(delay_manager), std::move(buffer_level_filter));
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decision_logic_->SetSampleRate(kSampleRate, kOutputSizeSamples);
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}
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TickTimer tick_timer_;
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std::unique_ptr<DecisionLogic> decision_logic_;
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MockDelayManager* mock_delay_manager_;
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MockBufferLevelFilter* mock_buffer_level_filter_;
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};
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TEST_F(DecisionLogicTest, NormalOperation) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(100));
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EXPECT_CALL(*mock_buffer_level_filter_, filtered_current_level())
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.WillRepeatedly(Return(90 * kSamplesPerMs));
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bool reset_decoder = false;
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tick_timer_.Increment(kMinTimescaleInterval + 1);
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 100), &reset_decoder),
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NetEq::Operation::kNormal);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, Accelerate) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(100));
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EXPECT_CALL(*mock_buffer_level_filter_, filtered_current_level())
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.WillRepeatedly(Return(110 * kSamplesPerMs));
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bool reset_decoder = false;
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tick_timer_.Increment(kMinTimescaleInterval + 1);
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 100), &reset_decoder),
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NetEq::Operation::kAccelerate);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, FastAccelerate) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(100));
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EXPECT_CALL(*mock_buffer_level_filter_, filtered_current_level())
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.WillRepeatedly(Return(400 * kSamplesPerMs));
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bool reset_decoder = false;
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tick_timer_.Increment(kMinTimescaleInterval + 1);
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 100), &reset_decoder),
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NetEq::Operation::kFastAccelerate);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, PreemptiveExpand) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(100));
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EXPECT_CALL(*mock_buffer_level_filter_, filtered_current_level())
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.WillRepeatedly(Return(50 * kSamplesPerMs));
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bool reset_decoder = false;
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tick_timer_.Increment(kMinTimescaleInterval + 1);
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 100), &reset_decoder),
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NetEq::Operation::kPreemptiveExpand);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, DecelerationTargetLevelOffset) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(500));
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EXPECT_CALL(*mock_buffer_level_filter_, filtered_current_level())
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.WillRepeatedly(Return(400 * kSamplesPerMs));
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bool reset_decoder = false;
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tick_timer_.Increment(kMinTimescaleInterval + 1);
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 400), &reset_decoder),
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NetEq::Operation::kPreemptiveExpand);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, PostponeDecodeAfterExpand) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(500));
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// Below 50% target delay threshold.
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bool reset_decoder = false;
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kExpand, 200), &reset_decoder),
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NetEq::Operation::kExpand);
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EXPECT_FALSE(reset_decoder);
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// Above 50% target delay threshold.
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kExpand, 250), &reset_decoder),
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NetEq::Operation::kNormal);
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EXPECT_FALSE(reset_decoder);
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}
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TEST_F(DecisionLogicTest, TimeStrechComfortNoise) {
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EXPECT_CALL(*mock_delay_manager_, TargetDelayMs())
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.WillRepeatedly(Return(500));
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{
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bool reset_decoder = false;
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// Below target window.
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auto status = CreateNetEqStatus(NetEq::Mode::kCodecInternalCng, 400);
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status.generated_noise_samples = 400 * kSamplesPerMs;
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status.next_packet->timestamp =
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status.target_timestamp + 400 * kSamplesPerMs;
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EXPECT_EQ(decision_logic_->GetDecision(status, &reset_decoder),
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NetEq::Operation::kCodecInternalCng);
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EXPECT_FALSE(reset_decoder);
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}
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{
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bool reset_decoder = false;
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// Above target window.
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auto status = CreateNetEqStatus(NetEq::Mode::kCodecInternalCng, 600);
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status.generated_noise_samples = 200 * kSamplesPerMs;
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status.next_packet->timestamp =
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status.target_timestamp + 400 * kSamplesPerMs;
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EXPECT_EQ(decision_logic_->GetDecision(status, &reset_decoder),
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NetEq::Operation::kNormal);
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EXPECT_FALSE(reset_decoder);
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// The buffer level filter should be adjusted with the number of samples
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// that was skipped.
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int timestamp_leap = status.next_packet->timestamp -
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status.target_timestamp -
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status.generated_noise_samples;
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EXPECT_CALL(*mock_buffer_level_filter_,
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Update(400 * kSamplesPerMs, timestamp_leap));
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EXPECT_EQ(decision_logic_->GetDecision(
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CreateNetEqStatus(NetEq::Mode::kNormal, 400), &reset_decoder),
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NetEq::Operation::kNormal);
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EXPECT_FALSE(reset_decoder);
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}
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}
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TEST_F(DecisionLogicTest, CngTimeout) {
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auto status = CreateNetEqStatus(NetEq::Mode::kCodecInternalCng, 0);
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status.next_packet = absl::nullopt;
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status.generated_noise_samples = kSamplesPerMs * 500;
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bool reset_decoder = false;
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EXPECT_EQ(decision_logic_->GetDecision(status, &reset_decoder),
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NetEq::Operation::kCodecInternalCng);
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status.generated_noise_samples = kSamplesPerMs * 1010;
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EXPECT_EQ(decision_logic_->GetDecision(status, &reset_decoder),
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NetEq::Operation::kExpand);
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}
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} // namespace webrtc
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