Mercurial > hg > beaglert
view examples/03-Analog/scope-analog/render.cpp @ 464:8fcfbfb32aa0 prerelease
Examples reorder with subdirectories. Added header to each project. Moved Doxygen to bottom of render.cpp.
| author | Robert Jack <robert.h.jack@gmail.com> |
|---|---|
| date | Mon, 20 Jun 2016 16:20:38 +0100 |
| parents | |
| children | b935f890e512 |
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/* ____ _____ _ _ | __ )| ____| | / \ | _ \| _| | | / _ \ | |_) | |___| |___ / ___ \ |____/|_____|_____/_/ \_\ The platform for ultra-low latency audio and sensor processing http://bela.io A project of the Augmented Instruments Laboratory within the Centre for Digital Music at Queen Mary University of London. http://www.eecs.qmul.ac.uk/~andrewm (c) 2016 Augmented Instruments Laboratory: Andrew McPherson, Astrid Bin, Liam Donovan, Christian Heinrichs, Robert Jack, Giulio Moro, Laurel Pardue, Victor Zappi. All rights reserved. The Bela software is distributed under the GNU Lesser General Public License (LGPL 3.0), available here: https://www.gnu.org/licenses/lgpl-3.0.txt */ #include <Bela.h> #include <cmath> #include <Scope.h> Scope scope; float gInverseSampleRate; float gPhase; bool setup(BelaContext *context, void *userData) { // setup the scope with 3 channels at the audio sample rate scope.setup(3, context->audioSampleRate); gInverseSampleRate = 1.0 / context->audioSampleRate; gPhase = 0.0; return true; } void render(BelaContext *context, void *userData) { for(unsigned int n = 0; n < context->audioFrames; n++) { // read analogIn channels 0 and 1 float in1 = analogRead(context, n, 0); float in2 = analogRead(context, n, 1); // map in1 to amplitude and in2 to frequency float amplitude = in1 * 0.8f; float frequency = map(in2, 0, 1, 100, 1000); // generate a sine wave with the amplitude and frequency float out = amplitude * sinf(gPhase); gPhase += 2.0 * M_PI * frequency * gInverseSampleRate; if(gPhase > 2.0 * M_PI) gPhase -= 2.0 * M_PI; // log the sine wave and sensor values on the scope scope.log(out, in1, in2); // pass the sine wave to the audio outputs for(unsigned int channel = 0; channel < context->audioChannels; channel++) context->audioOut[n * context->audioChannels + channel] = out; } } void cleanup(BelaContext *context, void *userData) { } /* ------------ Project Explantation ------------ */ /** \example 03-scope-analog Connecting potentiometers ------------------------- This example reads from analogue inputs 0 and 1 via `analogReadFrame()` and generates a sine wave with amplitude and frequency determined by their values. It's best to connect a 10K potentiometer to each of these analog inputs. Far left and far right pins of the pot go to 3.3V and GND, the middle should be connected to the analog in pins. The sine wave is then plotted on the oscilloscope. Click the Open Scope button to view the results. As you turn the potentiometers you will see the amplitude and frequency of the sine wave change. This project also shows as example of `map()` which allows you to re-scale a number from one range to another. Note that `map()` does not constrain your variable within the upper and lower limits. If you want to do this use the `constrain()` function. */