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ad86c297fb
Closes #1626
272 lines
7.6 KiB
C++
Vendored
272 lines
7.6 KiB
C++
Vendored
/*
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* Copyright 2019 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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#ifndef OBOE_MULTICHANNEL_RESAMPLER_H
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#define OBOE_MULTICHANNEL_RESAMPLER_H
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#include <memory>
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#include <vector>
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#include <sys/types.h>
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#include <unistd.h>
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#ifndef MCR_USE_KAISER
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// It appears from the spectrogram that the HyperbolicCosine window leads to fewer artifacts.
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// And it is faster to calculate.
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#define MCR_USE_KAISER 0
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#endif
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#if MCR_USE_KAISER
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#include "oboe_flowgraph_resampler_KaiserWindow_android.h"
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#else
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#include "oboe_flowgraph_resampler_HyperbolicCosineWindow_android.h"
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#endif
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namespace resampler {
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class MultiChannelResampler {
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public:
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enum class Quality : int32_t {
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Fastest,
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Low,
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Medium,
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High,
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Best,
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};
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class Builder {
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public:
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/**
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* Construct an optimal resampler based on the specified parameters.
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* @return address of a resampler
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*/
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MultiChannelResampler *build();
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/**
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* The number of taps in the resampling filter.
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* More taps gives better quality but uses more CPU time.
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* This typically ranges from 4 to 64. Default is 16.
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*
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* For polyphase filters, numTaps must be a multiple of four for loop unrolling.
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* @param numTaps number of taps for the filter
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* @return address of this builder for chaining calls
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*/
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Builder *setNumTaps(int32_t numTaps) {
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mNumTaps = numTaps;
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return this;
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}
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/**
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* Use 1 for mono, 2 for stereo, etc. Default is 1.
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*
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* @param channelCount number of channels
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* @return address of this builder for chaining calls
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*/
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Builder *setChannelCount(int32_t channelCount) {
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mChannelCount = channelCount;
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return this;
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}
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/**
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* Default is 48000.
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*
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* @param inputRate sample rate of the input stream
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* @return address of this builder for chaining calls
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*/
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Builder *setInputRate(int32_t inputRate) {
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mInputRate = inputRate;
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return this;
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}
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/**
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* Default is 48000.
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*
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* @param outputRate sample rate of the output stream
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* @return address of this builder for chaining calls
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*/
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Builder *setOutputRate(int32_t outputRate) {
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mOutputRate = outputRate;
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return this;
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}
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/**
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* Set cutoff frequency relative to the Nyquist rate of the output sample rate.
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* Set to 1.0 to match the Nyquist frequency.
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* Set lower to reduce aliasing.
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* Default is 0.70.
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*
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* @param normalizedCutoff anti-aliasing filter cutoff
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* @return address of this builder for chaining calls
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*/
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Builder *setNormalizedCutoff(float normalizedCutoff) {
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mNormalizedCutoff = normalizedCutoff;
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return this;
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}
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int32_t getNumTaps() const {
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return mNumTaps;
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}
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int32_t getChannelCount() const {
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return mChannelCount;
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}
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int32_t getInputRate() const {
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return mInputRate;
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}
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int32_t getOutputRate() const {
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return mOutputRate;
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}
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float getNormalizedCutoff() const {
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return mNormalizedCutoff;
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}
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protected:
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int32_t mChannelCount = 1;
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int32_t mNumTaps = 16;
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int32_t mInputRate = 48000;
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int32_t mOutputRate = 48000;
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float mNormalizedCutoff = kDefaultNormalizedCutoff;
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};
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virtual ~MultiChannelResampler() = default;
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/**
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* Factory method for making a resampler that is optimal for the given inputs.
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*
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* @param channelCount number of channels, 2 for stereo
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* @param inputRate sample rate of the input stream
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* @param outputRate sample rate of the output stream
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* @param quality higher quality sounds better but uses more CPU
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* @return an optimal resampler
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*/
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static MultiChannelResampler *make(int32_t channelCount,
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int32_t inputRate,
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int32_t outputRate,
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Quality quality);
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bool isWriteNeeded() const {
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return mIntegerPhase >= mDenominator;
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}
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/**
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* Write a frame containing N samples.
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*
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* @param frame pointer to the first sample in a frame
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*/
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void writeNextFrame(const float *frame) {
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writeFrame(frame);
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advanceWrite();
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}
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/**
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* Read a frame containing N samples.
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*
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* @param frame pointer to the first sample in a frame
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*/
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void readNextFrame(float *frame) {
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readFrame(frame);
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advanceRead();
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}
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int getNumTaps() const {
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return mNumTaps;
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}
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int getChannelCount() const {
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return mChannelCount;
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}
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static float hammingWindow(float radians, float spread);
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static float sinc(float radians);
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protected:
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explicit MultiChannelResampler(const MultiChannelResampler::Builder &builder);
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/**
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* Write a frame containing N samples.
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* Call advanceWrite() after calling this.
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* @param frame pointer to the first sample in a frame
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*/
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virtual void writeFrame(const float *frame);
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/**
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* Read a frame containing N samples using interpolation.
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* Call advanceRead() after calling this.
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* @param frame pointer to the first sample in a frame
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*/
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virtual void readFrame(float *frame) = 0;
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void advanceWrite() {
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mIntegerPhase -= mDenominator;
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}
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void advanceRead() {
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mIntegerPhase += mNumerator;
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}
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/**
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* Generate the filter coefficients in optimal order.
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* @param inputRate sample rate of the input stream
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* @param outputRate sample rate of the output stream
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* @param numRows number of rows in the array that contain a set of tap coefficients
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* @param phaseIncrement how much to increment the phase between rows
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* @param normalizedCutoff filter cutoff frequency normalized to Nyquist rate of output
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*/
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void generateCoefficients(int32_t inputRate,
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int32_t outputRate,
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int32_t numRows,
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double phaseIncrement,
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float normalizedCutoff);
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int32_t getIntegerPhase() {
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return mIntegerPhase;
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}
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static constexpr int kMaxCoefficients = 8 * 1024;
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std::vector<float> mCoefficients;
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const int mNumTaps;
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int mCursor = 0;
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std::vector<float> mX; // delayed input values for the FIR
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std::vector<float> mSingleFrame; // one frame for temporary use
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int32_t mIntegerPhase = 0;
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int32_t mNumerator = 0;
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int32_t mDenominator = 0;
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private:
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#if MCR_USE_KAISER
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KaiserWindow mKaiserWindow;
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#else
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HyperbolicCosineWindow mCoshWindow;
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#endif
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static constexpr float kDefaultNormalizedCutoff = 0.70f;
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const int mChannelCount;
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};
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}
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#endif //OBOE_MULTICHANNEL_RESAMPLER_H
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