beaglert: projects/filter_FIR/render.cpp annotate

annotate projects/filter_FIR/render.cpp @ 269:ac8eb07afcf5

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	3c3a1357657d
children	5433c83ce04e

rev	line source
victor@2	1 /*
victor@2	2 * render.cpp
victor@2	3 *
victor@2	4 * Created on: Oct 24, 2014
victor@2	5 * Author: Andrew McPherson and Victor Zappi
victor@2	6 */
victor@2	7
victor@2	8
andrewm@56	9 #include <BeagleRT.h>
victor@2	10 #include <cmath>
victor@2	11 #include <NE10.h> // neon library
victor@2	12 #include "SampleData.h"
victor@2	13 #include "FIRfilter.h"
victor@2	14
victor@2	15 SampleData gSampleData; // User defined structure to get complex data from main
victor@2	16 int gReadPtr; // Position of last read sample from file
victor@2	17
victor@2	18 // filter vars
victor@2	19 ne10_fir_instance_f32_t gFIRfilter;
victor@2	20 ne10_float32_t *gFIRfilterIn;
victor@2	21 ne10_float32_t *gFIRfilterOut;
victor@2	22 ne10_uint32_t blockSize;
victor@2	23 ne10_float32_t *gFIRfilterState;
victor@2	24
andrewm@52	25 void initialise_filter(BeagleRTContext *context);
victor@2	26
victor@2	27 // Task for handling the update of the frequencies using the matrix
victor@2	28 AuxiliaryTask gTriggerSamplesTask;
victor@2	29
victor@2	30 bool initialise_trigger();
victor@2	31 void trigger_samples();
victor@2	32
andrewm@56	33 // setup() is called once before the audio rendering starts.
victor@2	34 // Use it to perform any initialisation and allocation which is dependent
victor@2	35 // on the period size or sample rate.
victor@2	36 //
victor@2	37 // userData holds an opaque pointer to a data structure that was passed
victor@2	38 // in from the call to initAudio().
victor@2	39 //
victor@2	40 // Return true on success; returning false halts the program.
victor@2	41
andrewm@56	42 bool setup(BeagleRTContext context, void userData)
victor@2	43 {
victor@2	44
victor@2	45 // Retrieve a parameter passed in from the initAudio() call
victor@2	46 gSampleData = (SampleData )userData;
victor@2	47
victor@2	48 gReadPtr = -1;
victor@2	49
andrewm@52	50 initialise_filter(context);
victor@2	51
victor@2	52 // Initialise auxiliary tasks
victor@2	53 if(!initialise_trigger())
victor@2	54 return false;
victor@2	55
victor@2	56 return true;
victor@2	57 }
victor@2	58
victor@2	59 // render() is called regularly at the highest priority by the audio engine.
victor@2	60 // Input and output are given from the audio hardware and the other
victor@2	61 // ADCs and DACs (if available). If only audio is available, numMatrixFrames
victor@2	62 // will be 0.
victor@2	63
andrewm@52	64 void render(BeagleRTContext context, void userData)
victor@2	65 {
andrewm@52	66 for(unsigned int n = 0; n < context->audioFrames; n++) {
victor@2	67 float in = 0;
victor@2	68
victor@2	69 // If triggered...
victor@2	70 if(gReadPtr != -1)
victor@2	71 in += gSampleData.samples[gReadPtr++]; // ...read each sample...
victor@2	72
victor@2	73 if(gReadPtr >= gSampleData.sampleLen)
victor@2	74 gReadPtr = -1;
victor@2	75
victor@2	76 gFIRfilterIn[n] = in;
victor@2	77 }
victor@2	78
victor@2	79 ne10_fir_float_neon(&gFIRfilter, gFIRfilterIn, gFIRfilterOut, blockSize);
victor@2	80
andrewm@52	81 for(unsigned int n = 0; n < context->audioFrames; n++) {
andrewm@52	82 for(unsigned int channel = 0; channel < context->audioChannels; channel++)
andrewm@52	83 context->audioOut[n * context->audioChannels + channel] = gFIRfilterOut[n]; // ...and put it in both left and right channel
victor@2	84 }
victor@2	85
victor@2	86
victor@2	87 // Request that the lower-priority task run at next opportunity
andrewm@52	88 BeagleRT_scheduleAuxiliaryTask(gTriggerSamplesTask);
victor@2	89 }
victor@2	90
victor@2	91 // Initialise NE10 data structures to define FIR filter
victor@2	92
andrewm@52	93 void initialise_filter(BeagleRTContext *context)
victor@2	94 {
andrewm@52	95 blockSize = context->audioFrames;
victor@2	96 gFIRfilterState = (ne10_float32_t ) NE10_MALLOC ((FILTER_TAP_NUM+blockSize-1) sizeof (ne10_float32_t));
victor@2	97 gFIRfilterIn = (ne10_float32_t ) NE10_MALLOC (blockSize sizeof (ne10_float32_t));
victor@2	98 gFIRfilterOut = (ne10_float32_t ) NE10_MALLOC (blockSize sizeof (ne10_float32_t));
victor@2	99 ne10_fir_init_float(&gFIRfilter, FILTER_TAP_NUM, filterTaps, gFIRfilterState, blockSize);
victor@2	100 }
victor@2	101
victor@2	102
victor@2	103 // Initialise the auxiliary task
victor@2	104 // and print info
victor@2	105
victor@2	106 bool initialise_trigger()
victor@2	107 {
andrewm@52	108 if((gTriggerSamplesTask = BeagleRT_createAuxiliaryTask(&trigger_samples, 50, "beaglert-trigger-samples")) == 0)
victor@2	109 return false;
victor@2	110
victor@2	111 rt_printf("Press 'a' to trigger sample, 's' to stop\n");
victor@2	112 rt_printf("Press 'q' to quit\n");
victor@2	113
victor@2	114 return true;
victor@2	115 }
victor@2	116
victor@2	117 // This is a lower-priority call to periodically read keyboard input
victor@2	118 // and trigger samples. By placing it at a lower priority,
victor@2	119 // it has minimal effect on the audio performance but it will take longer to
victor@2	120 // complete if the system is under heavy audio load.
victor@2	121
victor@2	122 void trigger_samples()
victor@2	123 {
victor@2	124 // This is not a real-time task!
victor@2	125 // Cos getchar is a system call, not handled by Xenomai.
victor@2	126 // This task will be automatically down graded.
victor@2	127
victor@2	128 char keyStroke = '.';
victor@2	129
victor@2	130 keyStroke = getchar();
victor@2	131 while(getchar()!='\n'); // to read the first stroke
victor@2	132
victor@2	133 switch (keyStroke)
victor@2	134 {
victor@2	135 case 'a':
victor@2	136 gReadPtr = 0;
victor@2	137 break;
victor@2	138 case 's':
victor@2	139 gReadPtr = -1;
victor@2	140 break;
victor@2	141 case 'q':
victor@2	142 gShouldStop = true;
victor@2	143 break;
victor@2	144 default:
victor@2	145 break;
victor@2	146 }
victor@2	147 }
victor@2	148
victor@2	149
victor@2	150
andrewm@56	151 // cleanup() is called once at the end, after the audio has stopped.
andrewm@56	152 // Release any resources that were allocated in setup().
victor@2	153
andrewm@56	154 void cleanup(BeagleRTContext context, void userData)
victor@2	155 {
victor@2	156 delete[] gSampleData.samples;
victor@2	157
victor@2	158 NE10_FREE(gFIRfilterState);
victor@2	159 NE10_FREE(gFIRfilterIn);
victor@2	160 NE10_FREE(gFIRfilterOut);
victor@2	161 }

Mercurial > hg > beaglert

annotate projects/filter_FIR/render.cpp @ 269:ac8eb07afcf5