/* Copyright (C) 2006-2011 Nasca Octavian Paul Author: Nasca Octavian Paul Author/Copyright (C) 2017 Xenakios This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License (version 2) for more details. You should have received a copy of the GNU General Public License (version 2) along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #pragma once #include "globals.h" #include "fftw3.h" #include "../JuceLibraryCode/JuceHeader.h" #include template class FFTWBuffer { public: FFTWBuffer() { static_assert(std::is_floating_point::value,"FFTWBuffer only works with floating point types"); } ~FFTWBuffer() { freeimpl(m_buf); } void resize(int size, bool clear) { // come on, zero size doesn't make sense! jassert(size>0); if (size==m_size && clear==false) return; if (m_buf) freeimpl(m_buf); mallocimpl(m_buf,size); if (clear) for (int i=0;i= 0 && index < m_size); return m_buf[index]; } const T& operator[](int index) const { jassert(index >= 0 && index < m_size); return m_buf[index]; } T* data() { // callers to this will likely just blow themselves up if they get a nullptr back jassert(m_buf!=nullptr); return m_buf; } int getSize() { return m_size; } FFTWBuffer(FFTWBuffer&& other) : m_buf(other.m_buf), m_size(other.m_size) { other.m_buf = nullptr; other.m_size = 0; } FFTWBuffer& operator = (FFTWBuffer&& other) { std::swap(other.m_buf, m_buf); std::swap(other.m_size, m_size); return *this; } // These buffers probably shouldn't be copied anywhere, so just disallow that for now FFTWBuffer(const FFTWBuffer&) = delete; FFTWBuffer& operator = (const FFTWBuffer&) = delete; private: T* m_buf = nullptr; int m_size = 0; void mallocimpl(float*& buf,int size) { buf = (float*)fftwf_malloc(size*sizeof(float)); } void mallocimpl(double*& buf,int size) { buf = (double*)fftw_malloc(size*sizeof(double)); } void freeimpl(float*& buf) { if (buf!=nullptr) { fftwf_free(buf); buf = nullptr; } } void freeimpl(double*& buf) { if (buf!=nullptr) { fftw_free(buf); buf = nullptr; } } }; enum FFTWindow{W_RECTANGULAR,W_HAMMING,W_HANN,W_BLACKMAN,W_BLACKMAN_HARRIS}; class FFT {//FFT class that considers phases as random public: FFT(int nsamples_, bool no_inverse=false);//samples must be even ~FFT(); void smp2freq();//input is smp, output is freq (phases are discarded) void freq2smp();//input is freq,output is smp (phases are random) void applywindow(FFTWindow type); std::vector smp;//size of samples/2 std::vector freq;//size of samples int nsamples; private: fftwf_plan planfftw,planifftw; FFTWBuffer data; struct{ std::vector data; FFTWindow type; }window; std::mt19937 m_randgen; std::uniform_int_distribution m_randdist{0,32767}; }; class Stretch { public: Stretch(REALTYPE rap_,int in_bufsize_,FFTWindow w=W_HAMMING,bool bypass_=false,REALTYPE samplerate_=44100,int stereo_mode_=0); //in_bufsize is also a half of a FFT buffer (in samples) virtual ~Stretch(); int get_max_bufsize(){ return bufsize*3; }; int get_bufsize(){ return bufsize; }; virtual void setBufferSize(int sz); REALTYPE get_onset_detection_sensitivity(){ return onset_detection_sensitivity; }; REALTYPE process(REALTYPE *smps,int nsmps);//returns the onset value void set_freezing(bool new_freezing){ freezing=new_freezing; }; bool isFreezing() { return freezing; } std::vector out_buf;//pot sa pun o variabila "max_out_bufsize" si asta sa fie marimea lui out_buf si pe out_bufsize sa il folosesc ca marime adaptiva int get_nsamples(REALTYPE current_pos_percents);//how many samples are required int get_nsamples_for_fill();//how many samples are required to be added for a complete buffer refill (at start of the song or after seek) int get_skip_nsamples();//used for shorten void set_rap(REALTYPE newrap);//set the current stretch value void set_onset_detection_sensitivity(REALTYPE detection_sensitivity){ onset_detection_sensitivity=detection_sensitivity; if (detection_sensitivity<1e-3) extra_onset_time_credit=0.0; }; void here_is_onset(REALTYPE onset); virtual void setSampleRate(REALTYPE sr) { samplerate = jlimit(1000.0f, 38400.0f, sr); } REALTYPE getSampleRate() { return samplerate; } FFTWindow window_type; protected: int bufsize=0; virtual void process_spectrum(REALTYPE *){}; virtual REALTYPE get_stretch_multiplier(REALTYPE pos_percents); REALTYPE samplerate; private: void do_analyse_inbuf(REALTYPE *smps); void do_next_inbuf_smps(REALTYPE *smps); REALTYPE do_detect_onset(); // REALTYPE *in_pool;//de marimea in_bufsize REALTYPE rap,onset_detection_sensitivity; std::vector old_out_smps; std::vector old_freq; std::vector new_smps,old_smps,very_old_smps; std::unique_ptr infft,outfft; std::unique_ptr fft; long double remained_samples;//0..1 long double extra_onset_time_credit; REALTYPE c_pos_percents; int skip_samples; bool require_new_buffer; bool bypass,freezing; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(Stretch) };