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teensy-audio/examples/MemoryAndCpuUsage/MemoryAndCpuUsage.ino

MemoryAndCpuUsage.ino 4.2KB
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Add MemoryAndCpuUsage example
10 anni fa
Add AudioPlaySerialflashRaw https://forum.pjrc.com/threads/27409-Play-RAW-from-Serial-Flash?p=77666#post77666
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Add MemoryAndCpuUsage example
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  1. // MemoryAndCpuUsage

  2. //

  3. // This example demonstrates how to monitor CPU and memory

  4. // usage by the audio library.  You can see the total memory

  5. // used at any moment, and the maximum (worst case) used.

  6. //

  7. // The total CPU usage, and CPU usage for each object can

  8. // be monitored.  Reset functions clear the maximums.

  9. //

  10. // Use the Arduino Serial Monitor to view the usage info

  11. // and control ('F', 'S', and 'R' keys) this program.

  12. //

  13. // This example code is in the public domain.

  14. 

  15. 

  16. #include <Audio.h>

  17. #include <Wire.h>

  18. #include <SPI.h>

  19. #include <SD.h>

  20. #include <SerialFlash.h>

  21. 

  22. // GUItool: begin automatically generated code

  23. AudioSynthWaveformSine   sine1;          //xy=125,221

  24. AudioSynthNoisePink      pink1;          //xy=133,121

  25. AudioEffectEnvelope      envelope1;      //xy=298,133

  26. AudioEffectEnvelope      envelope2;      //xy=302,197

  27. AudioAnalyzeFFT256       fft256_1;       //xy=304,272

  28. AudioMixer4              mixer1;         //xy=486,163

  29. AudioOutputI2S           i2s1;           //xy=640,161

  30. AudioConnection          patchCord1(sine1, envelope2);

  31. AudioConnection          patchCord2(sine1, fft256_1);

  32. AudioConnection          patchCord3(pink1, envelope1);

  33. AudioConnection          patchCord4(envelope1, 0, mixer1, 0);

  34. AudioConnection          patchCord5(envelope2, 0, mixer1, 1);

  35. AudioConnection          patchCord6(mixer1, 0, i2s1, 0);

  36. AudioConnection          patchCord7(mixer1, 0, i2s1, 1);

  37. AudioControlSGTL5000     sgtl5000_1;     //xy=517,297

  38. // GUItool: end automatically generated code

  39. 

  40. 

  41. void setup() {

  42.   // give the audio library some memory.  We'll be able

  43.   // to see how much it actually uses, which can be used

  44.   // to reduce this to the minimum necessary.

  45.   AudioMemory(20);

  46. 

  47.   // enable the audio shield

  48.   sgtl5000_1.enable();

  49.   sgtl5000_1.volume(0.6);

  50. 

  51.   // create a simple percussive sound using pink noise

  52.   // and an envelope to shape it.

  53.   pink1.amplitude(0.5);

  54.   envelope1.attack(1.5);

  55.   envelope1.hold(5);

  56.   envelope1.decay(20);

  57.   envelope1.sustain(0);

  58. 

  59.   // create a simple bass note using a sine wave

  60.   sine1.frequency(120);

  61.   sine1.amplitude(0.6);

  62.   envelope2.attack(6.5);

  63.   envelope2.hold(25);

  64.   envelope2.decay(70);

  65.   envelope2.sustain(0);

  66. 

  67.   // add both the note together, so we can hear them

  68.   mixer1.gain(0, 0.5);

  69.   mixer1.gain(1, 0.5);

  70. }

  71. 

  72. 

  73. int count = 0;

  74. int speed = 60;

  75. 

  76. 

  77. void loop() {

  78.   // a simple sequencer, count goes from 0 to 15

  79.   count = count + 1;

  80.   if (count >= 16) count = 0;

  81. 

  82.   // play percussive sounds every 4th time

  83.   if (count == 0) envelope1.noteOn();

  84.   if (count == 4) envelope1.noteOn();

  85.   if (count == 8) envelope1.noteOn();

  86.   if (count == 12) envelope1.noteOn();

  87. 

  88.   // play the bass tone every 8th time

  89.   if (count == 4) {

  90. 	sine1.amplitude(0.6);

  91. 	sine1.frequency(100);

  92. 	envelope2.noteOn();

  93.   }

  94.   if (count == 12) {

  95. 	sine1.amplitude(0.3);

  96. 	sine1.frequency(120);

  97. 	envelope2.noteOn();

  98.   }

  99. 

  100.   // turn off the sine wave, which saves

  101.   // CPU power (especially since the sine goes

  102.   // to a CPU-hungry FFT analysis)

  103.   if (count == 6) {

  104. 	sine1.amplitude(0);

  105.   }

  106. 

  107.   // check for incoming characters from the serial monitor

  108.   if (Serial.available()) {

  109.     char c = Serial.read();

  110.     if ((c == 'r' || c == 'R')) {

  111.       pink1.processorUsageMaxReset();

  112.       fft256_1.processorUsageMaxReset();

  113.       AudioProcessorUsageMaxReset();

  114.       AudioMemoryUsageMaxReset();

  115.       Serial.println("Reset all max numbers");

  116.     }

  117.     if ((c == 'f' || c == 'F') && speed > 16) {

  118.       speed = speed - 2;

  119.     }

  120.     if ((c == 's' || c == 'S') && speed < 250) {

  121.       speed = speed + 2;

  122.     }

  123.   }

  124. 

  125.   // print a summary of the current & maximum usage

  126.   Serial.print("CPU: ");

  127.   Serial.print("pink=");

  128.   Serial.print(pink1.processorUsage());

  129.   Serial.print(",");

  130.   Serial.print(pink1.processorUsageMax());

  131.   Serial.print("  ");

  132.   Serial.print("fft=");

  133.   Serial.print(fft256_1.processorUsage());

  134.   Serial.print(",");

  135.   Serial.print(fft256_1.processorUsageMax());

  136.   Serial.print("  ");

  137.   Serial.print("all=");

  138.   Serial.print(AudioProcessorUsage());

  139.   Serial.print(",");

  140.   Serial.print(AudioProcessorUsageMax());

  141.   Serial.print("    ");

  142.   Serial.print("Memory: ");

  143.   Serial.print(AudioMemoryUsage());

  144.   Serial.print(",");

  145.   Serial.print(AudioMemoryUsageMax());

  146.   Serial.print("    ");

  147.   Serial.print("Send: (R)eset, (S)lower, (F)aster");

  148.   Serial.println();

  149. 

  150.   // very simple timing   :-)

  151.   delay(speed);

  152. 

  153. }

  154.