161 lines
8.0 KiB
C++
161 lines
8.0 KiB
C++
/*
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* Copyright (C) 2023 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <aidl/android/hardware/audio/effect/DynamicsProcessing.h>
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#include <aidl/android/hardware/audio/effect/Range.h>
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#include "EffectRangeSpecific.h"
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#include "effect-impl/EffectRange.h"
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namespace aidl::android::hardware::audio::effect {
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namespace DynamicsProcessingRanges {
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static bool isInputGainConfigInRange(const std::vector<DynamicsProcessing::InputGain>& cfgs,
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const DynamicsProcessing::InputGain& min,
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const DynamicsProcessing::InputGain& max) {
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auto func = [](const DynamicsProcessing::InputGain& arg) {
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return std::make_tuple(arg.channel, arg.gainDb);
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};
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return isTupleInRange(cfgs, min, max, func);
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}
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static bool isLimiterConfigInRange(const std::vector<DynamicsProcessing::LimiterConfig>& cfgs,
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const DynamicsProcessing::LimiterConfig& min,
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const DynamicsProcessing::LimiterConfig& max) {
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auto func = [](const DynamicsProcessing::LimiterConfig& arg) {
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return std::make_tuple(arg.channel, arg.enable, arg.linkGroup, arg.attackTimeMs,
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arg.releaseTimeMs, arg.ratio, arg.thresholdDb, arg.postGainDb);
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};
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return isTupleInRange(cfgs, min, max, func);
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}
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static bool isMbcBandConfigInRange(const std::vector<DynamicsProcessing::MbcBandConfig>& cfgs,
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const DynamicsProcessing::MbcBandConfig& min,
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const DynamicsProcessing::MbcBandConfig& max) {
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auto func = [](const DynamicsProcessing::MbcBandConfig& arg) {
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return std::make_tuple(arg.channel, arg.band, arg.enable, arg.cutoffFrequencyHz,
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arg.attackTimeMs, arg.releaseTimeMs, arg.ratio, arg.thresholdDb,
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arg.kneeWidthDb, arg.noiseGateThresholdDb, arg.expanderRatio,
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arg.preGainDb, arg.postGainDb);
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};
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return isTupleInRange(cfgs, min, max, func);
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}
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static bool isEqBandConfigInRange(const std::vector<DynamicsProcessing::EqBandConfig>& cfgs,
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const DynamicsProcessing::EqBandConfig& min,
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const DynamicsProcessing::EqBandConfig& max) {
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auto func = [](const DynamicsProcessing::EqBandConfig& arg) {
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return std::make_tuple(arg.channel, arg.band, arg.enable, arg.cutoffFrequencyHz,
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arg.gainDb);
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};
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return isTupleInRange(cfgs, min, max, func);
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}
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static bool isChannelConfigInRange(const std::vector<DynamicsProcessing::ChannelConfig>& cfgs,
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const DynamicsProcessing::ChannelConfig& min,
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const DynamicsProcessing::ChannelConfig& max) {
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auto func = [](const DynamicsProcessing::ChannelConfig& arg) {
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return std::make_tuple(arg.channel, arg.enable);
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};
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return isTupleInRange(cfgs, min, max, func);
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}
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static bool isEngineConfigInRange(const DynamicsProcessing::EngineArchitecture& cfg,
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const DynamicsProcessing::EngineArchitecture& min,
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const DynamicsProcessing::EngineArchitecture& max) {
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auto func = [](const DynamicsProcessing::EngineArchitecture& arg) {
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return std::make_tuple(arg.resolutionPreference, arg.preferredProcessingDurationMs,
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arg.preEqStage.inUse, arg.preEqStage.bandCount,
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arg.postEqStage.inUse, arg.postEqStage.bandCount, arg.mbcStage.inUse,
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arg.mbcStage.bandCount, arg.limiterInUse);
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};
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return isTupleInRange(func(cfg), func(min), func(max));
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}
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static int locateMinMaxForTag(DynamicsProcessing::Tag tag,
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const std::vector<Range::DynamicsProcessingRange>& ranges) {
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for (int i = 0; i < (int)ranges.size(); i++) {
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if (tag == ranges[i].min.getTag() && tag == ranges[i].max.getTag()) {
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return i;
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}
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}
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return -1;
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}
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bool isParamInRange(const DynamicsProcessing& dp,
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const std::vector<Range::DynamicsProcessingRange>& ranges) {
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auto tag = dp.getTag();
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int i = locateMinMaxForTag(tag, ranges);
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if (i == -1) return true;
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switch (tag) {
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case DynamicsProcessing::engineArchitecture: {
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return isEngineConfigInRange(
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dp.get<DynamicsProcessing::engineArchitecture>(),
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ranges[i].min.get<DynamicsProcessing::engineArchitecture>(),
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ranges[i].max.get<DynamicsProcessing::engineArchitecture>());
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}
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case DynamicsProcessing::preEq: {
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return isChannelConfigInRange(dp.get<DynamicsProcessing::preEq>(),
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ranges[i].min.get<DynamicsProcessing::preEq>()[0],
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ranges[i].max.get<DynamicsProcessing::preEq>()[0]);
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}
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case DynamicsProcessing::postEq: {
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return isChannelConfigInRange(dp.get<DynamicsProcessing::postEq>(),
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ranges[i].min.get<DynamicsProcessing::postEq>()[0],
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ranges[i].max.get<DynamicsProcessing::postEq>()[0]);
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}
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case DynamicsProcessing::mbc: {
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return isChannelConfigInRange(dp.get<DynamicsProcessing::mbc>(),
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ranges[i].min.get<DynamicsProcessing::mbc>()[0],
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ranges[i].max.get<DynamicsProcessing::mbc>()[0]);
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}
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case DynamicsProcessing::preEqBand: {
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return isEqBandConfigInRange(dp.get<DynamicsProcessing::preEqBand>(),
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ranges[i].min.get<DynamicsProcessing::preEqBand>()[0],
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ranges[i].max.get<DynamicsProcessing::preEqBand>()[0]);
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}
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case DynamicsProcessing::postEqBand: {
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return isEqBandConfigInRange(dp.get<DynamicsProcessing::postEqBand>(),
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ranges[i].min.get<DynamicsProcessing::postEqBand>()[0],
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ranges[i].max.get<DynamicsProcessing::postEqBand>()[0]);
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}
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case DynamicsProcessing::mbcBand: {
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return isMbcBandConfigInRange(dp.get<DynamicsProcessing::mbcBand>(),
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ranges[i].min.get<DynamicsProcessing::mbcBand>()[0],
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ranges[i].max.get<DynamicsProcessing::mbcBand>()[0]);
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}
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case DynamicsProcessing::limiter: {
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return isLimiterConfigInRange(dp.get<DynamicsProcessing::limiter>(),
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ranges[i].min.get<DynamicsProcessing::limiter>()[0],
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ranges[i].max.get<DynamicsProcessing::limiter>()[0]);
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}
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case DynamicsProcessing::inputGain: {
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return isInputGainConfigInRange(dp.get<DynamicsProcessing::inputGain>(),
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ranges[i].min.get<DynamicsProcessing::inputGain>()[0],
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ranges[i].max.get<DynamicsProcessing::inputGain>()[0]);
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}
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default: {
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return true;
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}
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}
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return true;
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}
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} // namespace DynamicsProcessingRanges
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} // namespace aidl::android::hardware::audio::effect
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