Mercurial > hg > svapp
view audioio/ClipMixer.cpp @ 397:f747be6743ab
Debug bits
| author | Chris Cannam |
|---|---|
| date | Wed, 13 Aug 2014 16:44:50 +0100 |
| parents | 0876ea394902 |
| children | b0b49da13975 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam, 2006-2014 QMUL. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "ClipMixer.h" #include <sndfile.h> #include <cmath> #include "base/Debug.h" ClipMixer::ClipMixer(int channels, int sampleRate, int blockSize) : m_channels(channels), m_sampleRate(sampleRate), m_blockSize(blockSize), m_clipData(0) { } ClipMixer::~ClipMixer() { if (m_clipData) free(m_clipData); } void ClipMixer::setChannelCount(int channels) { m_channels = channels; } bool ClipMixer::loadClipData(QString path, float f0, float level) { if (m_clipData) { cerr << "ClipMixer::loadClipData: Already have clip loaded" << endl; return false; } SF_INFO info; SNDFILE *file; float *tmpFrames; int i; info.format = 0; file = sf_open(path.toLocal8Bit().data(), SFM_READ, &info); if (!file) { cerr << "ClipMixer::loadClipData: Failed to open file path \"" << path << "\": " << sf_strerror(file) << endl; return false; } tmpFrames = (float *)malloc(info.frames * info.channels * sizeof(float)); if (!tmpFrames) { cerr << "ClipMixer::loadClipData: malloc(" << info.frames * info.channels * sizeof(float) << ") failed" << endl; return false; } sf_readf_float(file, tmpFrames, info.frames); sf_close(file); m_clipData = (float *)malloc(info.frames * sizeof(float)); if (!m_clipData) { cerr << "ClipMixer::loadClipData: malloc(" << info.frames * sizeof(float) << ") failed" << endl; free(tmpFrames); return false; } for (i = 0; i < info.frames; ++i) { int j; m_clipData[i] = 0.0f; for (j = 0; j < info.channels; ++j) { m_clipData[i] += tmpFrames[i * info.channels + j] * level; } } free(tmpFrames); m_clipLength = info.frames; m_clipF0 = f0; m_clipRate = info.samplerate; return true; } void ClipMixer::reset() { m_playing.clear(); } float ClipMixer::getResampleRatioFor(float frequency) { if (!m_clipData) return 1.0; float pitchRatio = m_clipF0 / frequency; float resampleRatio = m_sampleRate / m_clipRate; return pitchRatio * resampleRatio; } int ClipMixer::getResampledClipDuration(float frequency) { return int(ceil(m_clipLength * getResampleRatioFor(frequency))); } void ClipMixer::mix(float **toBuffers, float gain, std::vector<NoteStart> newNotes, std::vector<NoteEnd> endingNotes) { foreach (NoteStart note, newNotes) { if (note.frequency > 20 && note.frequency < 5000) { m_playing.push_back(note); } } std::vector<NoteStart> remaining; float *levels = new float[m_channels]; #ifdef DEBUG_CLIP_MIXER cerr << "ClipMixer::mix: have " << m_playing.size() << " playing note(s)" << " and " << endingNotes.size() << " note(s) ending here" << endl; #endif foreach (NoteStart note, m_playing) { for (int c = 0; c < m_channels; ++c) { levels[c] = note.level * gain; } if (note.pan != 0.0 && m_channels == 2) { levels[0] *= 1.0 - note.pan; levels[1] *= note.pan + 1.0; } int start = note.frameOffset; int durationHere = m_blockSize; if (start > 0) durationHere = m_blockSize - start; bool ending = false; foreach (NoteEnd end, endingNotes) { if (end.frequency == note.frequency && end.frameOffset >= start && end.frameOffset <= m_blockSize) { ending = true; durationHere = end.frameOffset; if (start > 0) durationHere = end.frameOffset - start; break; } } int clipDuration = getResampledClipDuration(note.frequency); if (start + clipDuration > 0) { if (start < 0 && start + clipDuration < durationHere) { durationHere = start + clipDuration; } if (durationHere > 0) { mixNote(toBuffers, levels, note.frequency, start < 0 ? -start : 0, start > 0 ? start : 0, durationHere, ending); } } if (!ending) { NoteStart adjusted = note; adjusted.frameOffset -= m_blockSize; remaining.push_back(adjusted); } } delete[] levels; m_playing = remaining; } void ClipMixer::mixNote(float **toBuffers, float *levels, float frequency, int sourceOffset, int targetOffset, int sampleCount, bool isEnd) { if (!m_clipData) return; float ratio = getResampleRatioFor(frequency); float releaseTime = 0.01; int releaseSampleCount = round(releaseTime * m_sampleRate); if (releaseSampleCount > sampleCount) { releaseSampleCount = sampleCount; } float releaseFraction = 1.f/releaseSampleCount; for (int i = 0; i < sampleCount; ++i) { int s = sourceOffset + i; float os = s / ratio; int osi = int(floor(os)); //!!! just linear interpolation for now (same as SV's sample //!!! player). a small sinc kernel would be better and //!!! probably "good enough" float value = 0.f; if (osi < m_clipLength) { value += m_clipData[osi]; } if (osi + 1 < m_clipLength) { value += (m_clipData[osi + 1] - m_clipData[osi]) * (os - osi); } if (isEnd && i + releaseSampleCount > sampleCount) { value *= releaseFraction * (sampleCount - i); // linear ramp for release } for (int c = 0; c < m_channels; ++c) { toBuffers[c][targetOffset + i] += levels[c] * value; } } }