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Oxygen text added to each render.cpp file for the default projects. Text includes project explanation from Wiki, edited in places. Empty project added as a default project. Doxyfile updated. Each of the project locations added to INPUT configuration option. Consider just watching the whole project file so all new projects are automatically pulled through.
author Robert Jack <robert.h.jack@gmail.com>
date Tue, 17 May 2016 15:40:16 +0100
parents 6a23c07d0fbb
children
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/*
 ____  _____ _        _    
| __ )| ____| |      / \   
|  _ \|  _| | |     / _ \  
| |_) | |___| |___ / ___ \ 
|____/|_____|_____/_/   \_\.io

*/

/*
 * render.cpp
 *
 *  Created on: Oct 24, 2014
 *      Author: parallels
 */

/**
\example 5_basic_network

Networking 
----------

This sketch allows you to send audio and sensor data over UDP to a 
DAW on the host. The host needs to run Udpioplugin which you can f
ind [here](https://code.soundsoftware.ac.uk/projects/udpioplugin). 

Note that this sketch and the accompanying plugin are still in testing.

*/

#include <BeagleRT.h>
//#include <rtdk.h>
#include <cmath>
#include <NetworkSend.h>
#include <ReceiveAudioThread.h>
#include <Utilities.h>

// setup() is called once before the audio rendering starts.
// Use it to perform any initialisation and allocation which is dependent
// on the period size or sample rate.
//
// userData holds an opaque pointer to a data structure that was passed
// in from the call to initAudio().
//
// Return true on success; returning false halts the program.

NetworkSend networkSend;
ReceiveAudioThread receive;
float gFrequency;
float gInverseSampleRate;
float gPhase;
bool setup(BeagleRTContext *context, void *userData)
{
	// Retrieve a parameter passed in from the initAudio() call
	gFrequency = *(float *)userData;

	networkSend.setup(context->audioSampleRate, context->audioFrames, 0, 9999, "192.168.7.1");
	receive.init(10000, context->audioFrames, 0);
	receive.startThread();
	gInverseSampleRate = 1.0 / context->audioSampleRate;
	gPhase = 0;
	return true;
}

// render() is called regularly at the highest priority by the audio engine.
// Input and output are given from the audio hardware and the other
// ADCs and DACs (if available). If only audio is available, numMatrixFrames
// will be 0.

void render(BeagleRTContext *context, void *userData)
{
	for(unsigned int n = 0; n < context->audioFrames; n++) {
		float out = 0.7f * sinf(gPhase);
		gPhase += 2.0 * M_PI * gFrequency * gInverseSampleRate;
		if(gPhase > 2.0 * M_PI)
			gPhase -= 2.0 * M_PI;

		networkSend.log(out);
		float in;
		int ret = receive.getSamplesSrc(&in, 1, 1);
		for(unsigned int channel = 0; channel < context->audioChannels; channel++){
			audioWriteFrame(context, n, channel, in);
		}
	}
}

// cleanup() is called once at the end, after the audio has stopped.
// Release any resources that were allocated in setup().

void cleanup(BeagleRTContext *context, void *userData)
{
}