mirror of https://github.com/AxioDL/boo.git
348 lines
11 KiB
C++
348 lines
11 KiB
C++
#include "LtRtProcessing.hpp"
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#include <cmath>
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#include <algorithm>
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#undef min
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#undef max
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namespace boo {
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template <typename T>
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inline T ClampFull(float in) {
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if (std::is_floating_point<T>()) {
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return std::min<T>(std::max<T>(in, -1.f), 1.f);
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} else {
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constexpr T MAX = std::numeric_limits<T>::max();
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constexpr T MIN = std::numeric_limits<T>::min();
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if (in < MIN)
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return MIN;
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else if (in > MAX)
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return MAX;
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else
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return in;
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}
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}
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#if INTEL_IPP
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#ifndef M_PI
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#define M_PI 3.14159265358979323846 /* pi */
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#endif
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#if USE_LPF
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constexpr int FirTaps = 27;
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FIRFilter12k::FIRFilter12k(int windowFrames, double sampleRate) {
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Ipp64f* taps = ippsMalloc_64f(FirTaps);
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Ipp32f* taps32 = ippsMalloc_32f(FirTaps);
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int sizeSpec, sizeBuf;
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ippsFIRGenGetBufferSize(FirTaps, &sizeBuf);
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m_firBuffer = ippsMalloc_8u(sizeBuf);
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ippsFIRGenLowpass_64f(12000.0 / sampleRate, taps, FirTaps, ippWinBartlett, ippTrue, m_firBuffer);
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ippsConvert_64f32f(taps, taps32, FirTaps);
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ippsFree(taps);
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ippsFree(m_firBuffer);
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m_dlySrc = ippsMalloc_32f(FirTaps);
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ippsFIRSRGetSize(FirTaps, ipp32f, &sizeSpec, &sizeBuf);
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m_firSpec = (IppsFIRSpec_32f*)ippsMalloc_8u(sizeSpec);
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m_firBuffer = ippsMalloc_8u(sizeBuf);
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ippsFIRSRInit_32f(taps32, FirTaps, ippAlgDirect, m_firSpec);
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ippsFree(taps32);
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m_inBuf = ippsMalloc_32f(windowFrames);
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}
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FIRFilter12k::~FIRFilter12k() {
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ippsFree(m_firSpec);
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ippsFree(m_firBuffer);
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ippsFree(m_dlySrc);
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ippsFree(m_inBuf);
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}
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void FIRFilter12k::Process(Ipp32f* buf, int windowFrames) {
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ippsZero_32f(m_dlySrc, FirTaps);
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ippsMove_32f(buf, m_inBuf, windowFrames);
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ippsFIRSR_32f(m_inBuf, buf, windowFrames, m_firSpec, m_dlySrc, nullptr, m_firBuffer);
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}
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#endif
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WindowedHilbert::WindowedHilbert(int windowFrames, double sampleRate)
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:
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#if USE_LPF
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m_fir(windowFrames, sampleRate)
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,
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#endif
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m_windowFrames(windowFrames)
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, m_halfFrames(windowFrames / 2)
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, m_inputBuf(ippsMalloc_32f(m_windowFrames * 2 + m_halfFrames))
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, m_outputBuf(ippsMalloc_32fc(m_windowFrames * 4))
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, m_hammingTable(ippsMalloc_32f(m_halfFrames)) {
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ippsZero_32f(m_inputBuf, m_windowFrames * 2 + m_halfFrames);
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ippsZero_32fc(m_outputBuf, m_windowFrames * 4);
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m_output[0] = m_outputBuf;
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m_output[1] = m_output[0] + m_windowFrames;
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m_output[2] = m_output[1] + m_windowFrames;
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m_output[3] = m_output[2] + m_windowFrames;
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int sizeSpec, sizeBuf;
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ippsHilbertGetSize_32f32fc(m_windowFrames, ippAlgHintFast, &sizeSpec, &sizeBuf);
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m_spec = (IppsHilbertSpec*)ippMalloc(sizeSpec);
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m_buffer = (Ipp8u*)ippMalloc(sizeBuf);
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ippsHilbertInit_32f32fc(m_windowFrames, ippAlgHintFast, m_spec, m_buffer);
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for (int i = 0; i < m_halfFrames; ++i)
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m_hammingTable[i] = Ipp32f(std::cos(M_PI * (i / double(m_halfFrames) + 1.0)) * 0.5 + 0.5);
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}
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WindowedHilbert::~WindowedHilbert() {
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ippFree(m_spec);
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ippFree(m_buffer);
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ippsFree(m_inputBuf);
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ippsFree(m_outputBuf);
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ippsFree(m_hammingTable);
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}
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void WindowedHilbert::_AddWindow() {
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#if USE_LPF
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Ipp32f* inBufBase = &m_inputBuf[m_windowFrames * m_bufIdx + m_halfFrames];
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m_fir.Process(inBufBase, m_windowFrames);
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#endif
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if (m_bufIdx) {
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/* Mirror last half of samples to start of input buffer */
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Ipp32f* bufBase = &m_inputBuf[m_windowFrames * 2];
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ippsCopy_32f(bufBase, m_inputBuf, m_halfFrames);
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ippsHilbert_32f32fc(&m_inputBuf[m_windowFrames], m_output[2], m_spec, m_buffer);
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ippsHilbert_32f32fc(&m_inputBuf[m_windowFrames + m_halfFrames], m_output[3], m_spec, m_buffer);
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} else {
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ippsHilbert_32f32fc(&m_inputBuf[0], m_output[0], m_spec, m_buffer);
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ippsHilbert_32f32fc(&m_inputBuf[m_halfFrames], m_output[1], m_spec, m_buffer);
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}
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m_bufIdx ^= 1;
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}
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void WindowedHilbert::AddWindow(const float* input, int stride) {
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Ipp32f* bufBase = &m_inputBuf[m_windowFrames * m_bufIdx + m_halfFrames];
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for (int i = 0; i < m_windowFrames; ++i)
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bufBase[i] = input[i * stride];
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_AddWindow();
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}
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void WindowedHilbert::AddWindow(const int32_t* input, int stride) {
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Ipp32f* bufBase = &m_inputBuf[m_windowFrames * m_bufIdx + m_halfFrames];
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for (int i = 0; i < m_windowFrames; ++i)
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bufBase[i] = input[i * stride] / (float(INT32_MAX) + 1.f);
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_AddWindow();
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}
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void WindowedHilbert::AddWindow(const int16_t* input, int stride) {
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Ipp32f* bufBase = &m_inputBuf[m_windowFrames * m_bufIdx + m_halfFrames];
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for (int i = 0; i < m_windowFrames; ++i)
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bufBase[i] = input[i * stride] / (float(INT16_MAX) + 1.f);
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_AddWindow();
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}
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template <typename T>
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void WindowedHilbert::Output(T* output, float lCoef, float rCoef) const {
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int first, middle, last;
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if (m_bufIdx) {
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first = 3;
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middle = 0;
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last = 1;
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} else {
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first = 1;
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middle = 2;
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last = 3;
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}
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#if 0
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for (int i=0 ; i<m_windowFrames ; ++i)
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{
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float tmp = m_output[middle][i].im;
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output[i*2] = ClampFull<T>(output[i*2] + tmp * lCoef);
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output[i*2+1] = ClampFull<T>(output[i*2+1] + tmp * rCoef);
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}
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return;
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#endif
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int i, t;
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for (i = 0, t = 0; i < m_halfFrames; ++i, ++t) {
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float tmp =
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m_output[first][m_halfFrames + i].im * (1.f - m_hammingTable[t]) + m_output[middle][i].im * m_hammingTable[t];
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output[i * 2] = ClampFull<T>(output[i * 2] + tmp * lCoef);
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output[i * 2 + 1] = ClampFull<T>(output[i * 2 + 1] + tmp * rCoef);
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}
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for (; i < m_windowFrames - m_halfFrames; ++i) {
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float tmp = m_output[middle][i].im;
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output[i * 2] = ClampFull<T>(output[i * 2] + tmp * lCoef);
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output[i * 2 + 1] = ClampFull<T>(output[i * 2 + 1] + tmp * rCoef);
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}
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for (t = 0; i < m_windowFrames; ++i, ++t) {
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float tmp = m_output[middle][i].im * (1.f - m_hammingTable[t]) + m_output[last][t].im * m_hammingTable[t];
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output[i * 2] = ClampFull<T>(output[i * 2] + tmp * lCoef);
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output[i * 2 + 1] = ClampFull<T>(output[i * 2 + 1] + tmp * rCoef);
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}
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}
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template void WindowedHilbert::Output<int16_t>(int16_t* output, float lCoef, float rCoef) const;
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template void WindowedHilbert::Output<int32_t>(int32_t* output, float lCoef, float rCoef) const;
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template void WindowedHilbert::Output<float>(float* output, float lCoef, float rCoef) const;
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#endif
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template <>
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int16_t* LtRtProcessing::_getInBuf<int16_t>() {
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return m_16Buffer.get();
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}
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template <>
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int32_t* LtRtProcessing::_getInBuf<int32_t>() {
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return m_32Buffer.get();
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}
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template <>
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float* LtRtProcessing::_getInBuf<float>() {
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return m_fltBuffer.get();
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}
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template <>
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int16_t* LtRtProcessing::_getOutBuf<int16_t>() {
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return m_16Buffer.get() + m_outputOffset;
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}
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template <>
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int32_t* LtRtProcessing::_getOutBuf<int32_t>() {
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return m_32Buffer.get() + m_outputOffset;
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}
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template <>
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float* LtRtProcessing::_getOutBuf<float>() {
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return m_fltBuffer.get() + m_outputOffset;
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}
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LtRtProcessing::LtRtProcessing(int _5msFrames, const AudioVoiceEngineMixInfo& mixInfo)
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: m_inMixInfo(mixInfo)
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, m_windowFrames(_5msFrames * 4)
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, m_halfFrames(m_windowFrames / 2)
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, m_outputOffset(m_windowFrames * 5 * 2)
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#if INTEL_IPP
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, m_hilbertSL(m_windowFrames, mixInfo.m_sampleRate)
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, m_hilbertSR(m_windowFrames, mixInfo.m_sampleRate)
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#endif
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{
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m_inMixInfo.m_channels = AudioChannelSet::Surround51;
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m_inMixInfo.m_channelMap.m_channelCount = 5;
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m_inMixInfo.m_channelMap.m_channels[0] = AudioChannel::FrontLeft;
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m_inMixInfo.m_channelMap.m_channels[1] = AudioChannel::FrontRight;
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m_inMixInfo.m_channelMap.m_channels[2] = AudioChannel::FrontCenter;
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m_inMixInfo.m_channelMap.m_channels[3] = AudioChannel::RearLeft;
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m_inMixInfo.m_channelMap.m_channels[4] = AudioChannel::RearRight;
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int samples = m_windowFrames * (5 * 2 + 2 * 2);
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switch (mixInfo.m_sampleFormat) {
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case SOXR_INT16_I:
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m_16Buffer.reset(new int16_t[samples]);
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memset(m_16Buffer.get(), 0, sizeof(int16_t) * samples);
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break;
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case SOXR_INT32_I:
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m_32Buffer.reset(new int32_t[samples]);
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memset(m_32Buffer.get(), 0, sizeof(int32_t) * samples);
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break;
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case SOXR_FLOAT32_I:
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m_fltBuffer.reset(new float[samples]);
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memset(m_fltBuffer.get(), 0, sizeof(float) * samples);
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break;
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default:
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break;
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}
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}
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template <typename T>
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void LtRtProcessing::Process(const T* input, T* output, int frameCount) {
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#if 0
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for (int i=0 ; i<frameCount ; ++i)
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{
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output[i * 2] = input[i * 5 + 3];
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output[i * 2 + 1] = input[i * 5 + 4];
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}
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return;
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#endif
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int outFramesRem = frameCount;
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T* inBuf = _getInBuf<T>();
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T* outBuf = _getOutBuf<T>();
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int tail = std::min(m_windowFrames * 2, m_bufferTail + frameCount);
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int samples = (tail - m_bufferTail) * 5;
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memmove(&inBuf[m_bufferTail * 5], input, samples * sizeof(T));
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// printf("input %d to %d\n", tail - m_bufferTail, m_bufferTail);
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input += samples;
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frameCount -= tail - m_bufferTail;
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int head = std::min(m_windowFrames * 2, m_bufferHead + outFramesRem);
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samples = (head - m_bufferHead) * 2;
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memmove(output, outBuf + m_bufferHead * 2, samples * sizeof(T));
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// printf("output %d from %d\n", head - m_bufferHead, m_bufferHead);
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output += samples;
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outFramesRem -= head - m_bufferHead;
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int bufIdx = m_bufferTail / m_windowFrames;
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if (tail / m_windowFrames > bufIdx) {
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T* in = &inBuf[bufIdx * m_windowFrames * 5];
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T* out = &outBuf[bufIdx * m_windowFrames * 2];
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#if INTEL_IPP
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m_hilbertSL.AddWindow(in + 3, 5);
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m_hilbertSR.AddWindow(in + 4, 5);
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#endif
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// x(:,1) + sqrt(.5)*x(:,3) + sqrt(19/25)*x(:,4) + sqrt(6/25)*x(:,5)
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// x(:,2) + sqrt(.5)*x(:,3) - sqrt(6/25)*x(:,4) - sqrt(19/25)*x(:,5)
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if (bufIdx) {
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int delayI = -m_halfFrames;
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for (int i = 0; i < m_windowFrames; ++i, ++delayI) {
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out[i * 2] = ClampFull<T>(in[delayI * 5] + 0.7071068f * in[delayI * 5 + 2]);
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out[i * 2 + 1] = ClampFull<T>(in[delayI * 5 + 1] + 0.7071068f * in[delayI * 5 + 2]);
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// printf("in %d out %d\n", bufIdx * m_5msFrames + delayI, bufIdx * m_5msFrames + i);
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}
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} else {
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int delayI = m_windowFrames * 2 - m_halfFrames;
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int i;
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for (i = 0; i < m_halfFrames; ++i, ++delayI) {
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out[i * 2] = ClampFull<T>(in[delayI * 5] + 0.7071068f * in[delayI * 5 + 2]);
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out[i * 2 + 1] = ClampFull<T>(in[delayI * 5 + 1] + 0.7071068f * in[delayI * 5 + 2]);
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// printf("in %d out %d\n", bufIdx * m_5msFrames + delayI, bufIdx * m_5msFrames + i);
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}
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delayI = 0;
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for (; i < m_windowFrames; ++i, ++delayI) {
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out[i * 2] = ClampFull<T>(in[delayI * 5] + 0.7071068f * in[delayI * 5 + 2]);
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out[i * 2 + 1] = ClampFull<T>(in[delayI * 5 + 1] + 0.7071068f * in[delayI * 5 + 2]);
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// printf("in %d out %d\n", bufIdx * m_5msFrames + delayI, bufIdx * m_5msFrames + i);
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}
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}
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#if INTEL_IPP
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m_hilbertSL.Output(out, 0.8717798f, 0.4898979f);
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m_hilbertSR.Output(out, -0.4898979f, -0.8717798f);
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#endif
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}
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m_bufferTail = (tail == m_windowFrames * 2) ? 0 : tail;
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m_bufferHead = (head == m_windowFrames * 2) ? 0 : head;
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if (frameCount) {
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samples = frameCount * 5;
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memmove(inBuf, input, samples * sizeof(T));
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// printf("input %d to %d\n", frameCount, 0);
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m_bufferTail = frameCount;
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}
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if (outFramesRem) {
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samples = outFramesRem * 2;
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memmove(output, outBuf, samples * sizeof(T));
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// printf("output %d from %d\n", outFramesRem, 0);
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m_bufferHead = outFramesRem;
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}
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}
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template void LtRtProcessing::Process<int16_t>(const int16_t* input, int16_t* output, int frameCount);
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template void LtRtProcessing::Process<int32_t>(const int32_t* input, int32_t* output, int frameCount);
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template void LtRtProcessing::Process<float>(const float* input, float* output, int frameCount);
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} // namespace boo
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