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annotate examples/basic_libpd/render.cpp @ 324:9151fe15c194 prerelease

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Added basic MIDI support in libpd_basic. You can now use the regular midiin object family
author Giulio Moro <giuliomoro@yahoo.it>
date Thu, 02 Jun 2016 02:17:08 +0100
parents 1feb9c23ac57
children a9905703219d
rev   line source
giuliomoro@230 1 /*
giuliomoro@230 2 * render.cpp
giuliomoro@230 3 *
giuliomoro@230 4 * Created on: Oct 24, 2014
giuliomoro@230 5 * Author: parallels
giuliomoro@230 6 */
giuliomoro@230 7
giuliomoro@301 8 #include <Bela.h>
giuliomoro@230 9 #include <cmath>
giuliomoro@230 10 #include <Utilities.h>
giuliomoro@230 11 #include <I2c_Codec.h>
giuliomoro@230 12 #include <PRU.h>
giuliomoro@230 13 #include <stdio.h>
giuliomoro@230 14 #include "z_libpd.h"
giuliomoro@230 15 #include <UdpServer.h>
giuliomoro@324 16 #include <Midi.h>
giuliomoro@324 17
giuliomoro@230 18
giuliomoro@230 19 // setup() is called once before the audio rendering starts.
giuliomoro@230 20 // Use it to perform any initialisation and allocation which is dependent
giuliomoro@230 21 // on the period size or sample rate.
giuliomoro@230 22 //
giuliomoro@230 23 // userData holds an opaque pointer to a data structure that was passed
giuliomoro@230 24 // in from the call to initAudio().
giuliomoro@230 25 //
giuliomoro@230 26 // Return true on success; returning false halts the program.
giuliomoro@230 27 #define DEFDACBLKSIZE 8u //make sure this matches the one used to compile libpd
giuliomoro@230 28
giuliomoro@232 29 int gChannelsInUse = 10;
giuliomoro@230 30 int gBufLength;
giuliomoro@230 31
giuliomoro@230 32 float* gInBuf;
giuliomoro@230 33 float* gOutBuf;
giuliomoro@230 34
giuliomoro@230 35 void pdnoteon(int ch, int pitch, int vel) {
giuliomoro@230 36 printf("noteon: %d %d %d\n", ch, pitch, vel);
giuliomoro@230 37 }
giuliomoro@230 38
giuliomoro@301 39 void Bela_printHook(const char *recv){
giuliomoro@230 40 rt_printf("%s", recv);
giuliomoro@230 41 }
giuliomoro@230 42
giuliomoro@230 43 UdpServer udpServer;
giuliomoro@230 44
giuliomoro@230 45 void udpRead(){
giuliomoro@230 46 char dest[100] = {0};
giuliomoro@230 47 while(!gShouldStop){
giuliomoro@230 48 libpd_sys_microsleep(0);
giuliomoro@230 49 usleep(1000);
giuliomoro@230 50 }
giuliomoro@230 51 }
giuliomoro@230 52
giuliomoro@230 53 AuxiliaryTask udpReadTask;
giuliomoro@324 54 Midi midi;
giuliomoro@301 55 bool setup(BelaContext *context, void *userData)
giuliomoro@230 56 {
giuliomoro@324 57 midi.readFrom(0);
giuliomoro@324 58 midi.writeTo(0);
giuliomoro@324 59 midi.enableParser(true);
giuliomoro@232 60 gChannelsInUse = min((int)(context->analogChannels+context->audioChannels), (int)gChannelsInUse);
giuliomoro@230 61 udpServer.bindToPort(1234);
giuliomoro@230 62
giuliomoro@230 63 // check that we are not running with a blocksize smaller than DEFDACBLKSIZE
giuliomoro@230 64 // it would still work, but the load would be executed unevenly between calls to render
giuliomoro@230 65 if(context->audioFrames < DEFDACBLKSIZE){
giuliomoro@230 66 fprintf(stderr, "Error: minimum block size must be %d\n", DEFDACBLKSIZE);
giuliomoro@230 67 return false;
giuliomoro@230 68 }
giuliomoro@230 69
giuliomoro@230 70 // check that the sampling rate of the analogs is the same as audio if running with
giuliomoro@230 71 // more than 2 channels (that is with analog). If we fix the TODO in render, then
giuliomoro@230 72 // this test is not needed.
giuliomoro@232 73 // if(context->analogFrames != context->audioFrames){
giuliomoro@232 74 // fprintf(stderr, "Error: analog and audio sampling rates must be the same\n");
giuliomoro@232 75 // return false;
giuliomoro@232 76 // }
giuliomoro@230 77 //following lines borrowed from libpd/samples/c/pdtest/pdtest.c
giuliomoro@230 78 // init pd
giuliomoro@301 79 libpd_set_printhook(Bela_printHook); // set this before calling libpd_init
giuliomoro@230 80 libpd_set_noteonhook(pdnoteon);
giuliomoro@230 81 libpd_init();
giuliomoro@230 82 //TODO: analyse the ASCII of the patch file and find the in/outs to use
giuliomoro@230 83 libpd_init_audio(gChannelsInUse, gChannelsInUse, context->audioSampleRate);
giuliomoro@230 84
giuliomoro@230 85 libpd_start_message(1); // one entry in list
giuliomoro@230 86 libpd_add_float(1.0f);
giuliomoro@230 87 libpd_finish_message("pd", "dsp");
giuliomoro@230 88
giuliomoro@230 89 gBufLength = max(DEFDACBLKSIZE, context->audioFrames);
giuliomoro@230 90 unsigned int bufferSize = sizeof(float)*gChannelsInUse*gBufLength;
giuliomoro@230 91 gInBuf = (float*)malloc(bufferSize);
giuliomoro@230 92 gOutBuf = (float*)malloc(bufferSize);
giuliomoro@230 93 // no need to memset to zero
giuliomoro@230 94
giuliomoro@230 95 char file[] = "_main.pd";
giuliomoro@230 96 char folder[] = "./";
giuliomoro@230 97 // open patch [; pd open file folder(
giuliomoro@230 98 libpd_openfile(file, folder);
giuliomoro@230 99
giuliomoro@301 100 udpReadTask = Bela_createAuxiliaryTask(udpRead, 60, "udpReadTask");
giuliomoro@301 101 Bela_scheduleAuxiliaryTask(udpReadTask);
giuliomoro@230 102 return true;
giuliomoro@230 103 }
giuliomoro@230 104
giuliomoro@230 105 // render() is called regularly at the highest priority by the audio engine.
giuliomoro@230 106 // Input and output are given from the audio hardware and the other
giuliomoro@230 107 // ADCs and DACs (if available). If only audio is available, numMatrixFrames
giuliomoro@230 108 // will be 0.
giuliomoro@301 109 BelaContext *c;
giuliomoro@301 110 void render(BelaContext *context, void *userData)
giuliomoro@230 111 {
giuliomoro@324 112 int num;
giuliomoro@324 113 while((num = midi.getParser()->numAvailableMessages()) > 0){
giuliomoro@324 114 static MidiChannelMessage message;
giuliomoro@324 115 message = midi.getParser()->getNextChannelMessage();
giuliomoro@324 116 message.prettyPrint();
giuliomoro@324 117 switch(message.getType()){
giuliomoro@324 118 case kmmNoteOn: {
giuliomoro@324 119 int noteNumber = message.getDataByte(0);
giuliomoro@324 120 int velocity = message.getDataByte(1);
giuliomoro@324 121 int channel = message.getChannel();
giuliomoro@324 122 rt_printf("message: noteNumber: %f, velocity: %f, channel: %f\n", noteNumber, velocity, channel);
giuliomoro@324 123 libpd_noteon(channel, noteNumber, velocity);
giuliomoro@324 124 }
giuliomoro@324 125 break;
giuliomoro@324 126 case kmmControlChange: {
giuliomoro@324 127 int channel = message.getChannel();
giuliomoro@324 128 int controller = message.getDataByte(0);
giuliomoro@324 129 int value = message.getDataByte(1);
giuliomoro@324 130 libpd_controlchange(channel, controller, value);
giuliomoro@324 131 }
giuliomoro@324 132 break;
giuliomoro@324 133 case kmmProgramChange:
giuliomoro@324 134 int channel = message.getChannel();
giuliomoro@324 135 int program = message.getDataByte(0);
giuliomoro@324 136 libpd_programchange(channel, program);
giuliomoro@324 137 break;
giuliomoro@324 138 }
giuliomoro@324 139 }
giuliomoro@230 140 static int inW = 0;
giuliomoro@230 141 static int outR = 0;
giuliomoro@230 142 /*
giuliomoro@230 143 * NOTE: if you are only using audio (or only analogs) and you are using interleaved buffers
giuliomoro@230 144 * and the blocksize of Bela is the same as DEFDACBLKSIZE, then you probably
giuliomoro@230 145 * do not need the for loops before and after libpd_process_float, so you can save quite some
giuliomoro@230 146 * memory operations.
giuliomoro@230 147 */
giuliomoro@232 148 static int analogChannelsInUse = min(context->analogChannels, gChannelsInUse - context->audioChannels);
giuliomoro@232 149 // rt_printf("channelsInUse: %d, analogChannels in Use: %d\n", gChannelsInUse, analogChannelsInUse);
giuliomoro@232 150 for(unsigned int n = 0; n < context->audioFrames; ++n){ //pd buffers are interleaved
giuliomoro@232 151 for(unsigned int ch = 0; ch < context->audioChannels; ++ch){ //first two channels are audio
andrewm@308 152 gInBuf[inW++] = audioRead(context, n, ch);
giuliomoro@230 153 }
giuliomoro@232 154 // then analogs
giuliomoro@232 155 // this loop resamples by ZOH, as needed, using m
giuliomoro@232 156 if(context->analogChannels == 8 ){ //hold the value for two frames
giuliomoro@232 157 for(int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
andrewm@308 158 gInBuf[inW++] = analogRead(context, n/2, analogCh); // n/2 wil be the same for n and n+1 when n is even
giuliomoro@232 159 }
giuliomoro@232 160 } else if(context->analogChannels == 4){ //write every frame
giuliomoro@232 161 for(int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
andrewm@308 162 gInBuf[inW++] = analogRead(context, n, analogCh);
giuliomoro@232 163 }
giuliomoro@232 164 } else if(context->analogChannels == 2){ //drop every other frame
giuliomoro@232 165 for(int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
andrewm@308 166 gInBuf[inW++] = analogRead(context, n*2, analogCh);
giuliomoro@232 167 }
giuliomoro@230 168 }
giuliomoro@230 169 if(inW == gBufLength * gChannelsInUse){
giuliomoro@230 170 inW = 0;
giuliomoro@230 171 }
giuliomoro@230 172 }
giuliomoro@232 173 // rt_printf("inW %d\n", inW);
giuliomoro@230 174 if(inW == 0){ //if the buffer is full, process it
giuliomoro@232 175 static int numberOfPdBlocksToProcess = gBufLength/DEFDACBLKSIZE;
giuliomoro@230 176 libpd_process_float(numberOfPdBlocksToProcess, gInBuf, gOutBuf);
giuliomoro@232 177 outR = 0; // reset the read pointer. NOTE: hopefully this is needed only the first time
giuliomoro@230 178 }
giuliomoro@230 179
giuliomoro@230 180 for(unsigned int n = 0; n < context->audioFrames; n++){ //pd buffers are interleaved
giuliomoro@232 181 for(unsigned int ch = 0; ch < context->audioChannels; ++ch){
andrewm@308 182 audioWrite(context, n, ch, gOutBuf[outR++]);
giuliomoro@230 183 }
giuliomoro@232 184 //and analogs
giuliomoro@232 185 if(context->analogChannels == 8){
giuliomoro@232 186 for(unsigned int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
giuliomoro@232 187 float analogOut = gOutBuf[outR++];
giuliomoro@232 188 if((n&1) == 0){//write every two frames
andrewm@308 189 analogWrite(context, n/2, analogCh, analogOut);
giuliomoro@232 190 } else {
giuliomoro@232 191 // discard this sample
giuliomoro@232 192 }
giuliomoro@232 193 }
giuliomoro@232 194 } else if(context->analogChannels == 4){ //write every frame
giuliomoro@232 195 for(int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
giuliomoro@232 196 float analogOut = gOutBuf[outR++];
andrewm@308 197 analogWrite(context, n, analogCh, analogOut);
giuliomoro@232 198 }
giuliomoro@232 199 } else if(context->analogChannels == 2){ //write twice every frame
giuliomoro@232 200 for(unsigned int analogCh = 0; analogCh < analogChannelsInUse; ++analogCh){
giuliomoro@232 201 float analogOut = gOutBuf[outR++];
andrewm@308 202 analogWrite(context, 2*n, analogCh, analogOut);
andrewm@308 203 analogWrite(context, 2*n + 1, analogCh, analogOut);
giuliomoro@232 204 }
giuliomoro@230 205 }
giuliomoro@230 206 if(outR == gBufLength * gChannelsInUse){
giuliomoro@230 207 outR = 0;
giuliomoro@230 208 }
giuliomoro@230 209 }
giuliomoro@232 210 // rt_printf("outR %d, analogChannelsInUse %d, channelsInUse %d\n",
giuliomoro@232 211 // outR , analogChannelsInUse, gChannelsInUse);
giuliomoro@230 212 }
giuliomoro@232 213
giuliomoro@230 214 // cleanup() is called once at the end, after the audio has stopped.
giuliomoro@230 215 // Release any resources that were allocated in setup().
giuliomoro@230 216
giuliomoro@301 217 void cleanup(BelaContext *context, void *userData)
giuliomoro@230 218 {
giuliomoro@230 219 free(gInBuf);
giuliomoro@230 220 free(gOutBuf);
giuliomoro@230 221 }