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annotate projects/tank_wars/main.cpp @ 12:a6beeba3a648

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Initial support for higher matrix sample rates by reducing the number of channels. Input not tested yet, and not all examples updated to new format.
author andrewm
date Thu, 22 Jan 2015 19:00:22 +0000
parents 49f22e1246b2
children 901d205d1a3c
rev   line source
andrewm@10 1 /*
andrewm@10 2 * main.cpp
andrewm@10 3 *
andrewm@10 4 * Created on: Oct 24, 2014
andrewm@10 5 * Author: parallels
andrewm@10 6 */
andrewm@10 7
andrewm@10 8 #include <iostream>
andrewm@10 9 #include <cstdlib>
andrewm@10 10 #include <libgen.h>
andrewm@10 11 #include <signal.h>
andrewm@10 12 #include <getopt.h>
andrewm@10 13 #include "../../include/RTAudio.h"
andrewm@10 14
andrewm@10 15 extern int gScreenFramesPerSecond;
andrewm@10 16
andrewm@10 17 using namespace std;
andrewm@10 18
andrewm@10 19 // Handle Ctrl-C by requesting that the audio rendering stop
andrewm@10 20 void interrupt_handler(int var)
andrewm@10 21 {
andrewm@10 22 gShouldStop = true;
andrewm@10 23 }
andrewm@10 24
andrewm@10 25 // Print usage information
andrewm@10 26 void usage(const char * processName)
andrewm@10 27 {
andrewm@10 28 cerr << "Usage: " << processName << " [options]" << endl;
andrewm@10 29
andrewm@10 30 BeagleRT_usage();
andrewm@10 31
andrewm@10 32 cerr << " --fps [-f] value: Set target frames per second\n";
andrewm@10 33 cerr << " --help [-h]: Print this menu\n";
andrewm@10 34 }
andrewm@10 35
andrewm@10 36 int main(int argc, char *argv[])
andrewm@10 37 {
andrewm@10 38 RTAudioSettings settings; // Standard audio settings
andrewm@10 39
andrewm@10 40 struct option customOptions[] =
andrewm@10 41 {
andrewm@10 42 {"help", 0, NULL, 'h'},
andrewm@10 43 {"fps", 1, NULL, 'f'},
andrewm@10 44 {NULL, 0, NULL, 0}
andrewm@10 45 };
andrewm@10 46
andrewm@10 47 // Set default settings
andrewm@10 48 BeagleRT_defaultSettings(&settings);
andrewm@10 49
andrewm@10 50 // Parse command-line arguments
andrewm@10 51 while (1) {
andrewm@10 52 int c;
andrewm@10 53 if ((c = BeagleRT_getopt_long(argc, argv, "hf:", customOptions, &settings)) < 0)
andrewm@10 54 break;
andrewm@10 55 switch (c) {
andrewm@10 56 case 'f':
andrewm@10 57 gScreenFramesPerSecond = atoi(optarg);
andrewm@10 58 if(gScreenFramesPerSecond < 1)
andrewm@10 59 gScreenFramesPerSecond = 1;
andrewm@10 60 if(gScreenFramesPerSecond > 100)
andrewm@10 61 gScreenFramesPerSecond = 100;
andrewm@10 62 break;
andrewm@10 63 case 'h':
andrewm@10 64 usage(basename(argv[0]));
andrewm@10 65 exit(0);
andrewm@10 66 case '?':
andrewm@10 67 default:
andrewm@10 68 usage(basename(argv[0]));
andrewm@10 69 exit(1);
andrewm@10 70 }
andrewm@10 71 }
andrewm@10 72
andrewm@10 73 // Initialise the PRU audio device
andrewm@10 74 if(BeagleRT_initAudio(&settings, 0) != 0) {
andrewm@10 75 cout << "Error: unable to initialise audio" << endl;
andrewm@10 76 return -1;
andrewm@10 77 }
andrewm@10 78
andrewm@10 79 // Start the audio device running
andrewm@10 80 if(BeagleRT_startAudio()) {
andrewm@10 81 cout << "Error: unable to start real-time audio" << endl;
andrewm@10 82 return -1;
andrewm@10 83 }
andrewm@10 84
andrewm@10 85 // Set up interrupt handler to catch Control-C
andrewm@10 86 signal(SIGINT, interrupt_handler);
andrewm@10 87
andrewm@10 88 // Run until told to stop
andrewm@10 89 while(!gShouldStop) {
andrewm@10 90 usleep(100000);
andrewm@10 91 }
andrewm@10 92
andrewm@10 93 // Stop the audio device
andrewm@10 94 BeagleRT_stopAudio();
andrewm@10 95
andrewm@10 96 // Clean up any resources allocated for audio
andrewm@10 97 BeagleRT_cleanupAudio();
andrewm@10 98
andrewm@10 99 // All done!
andrewm@10 100 return 0;
andrewm@10 101 }