You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

PlaySynthMusic.ino 7.0KB

пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
пре 10 година
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256
  1. // Implement a 16 note polyphonic midi player :-)
  2. //
  3. // Music data is read from memory. The "Miditones" program is used to
  4. // convert from a MIDI file to this compact format.
  5. //
  6. // This example code is in the public domain.
  7. #include <Audio.h>
  8. #include <Wire.h>
  9. #include <SD.h>
  10. #include <SPI.h>
  11. #include <SerialFlash.h>
  12. #include "PlaySynthMusic.h"
  13. unsigned char *sp = score;
  14. #define AMPLITUDE (0.2)
  15. // Create 16 waveforms, one for each MIDI channel
  16. AudioSynthWaveform sine0, sine1, sine2, sine3;
  17. AudioSynthWaveform sine4, sine5, sine6, sine7;
  18. AudioSynthWaveform sine8, sine9, sine10, sine11;
  19. AudioSynthWaveform sine12, sine13, sine14, sine15;
  20. AudioSynthWaveform *waves[16] = {
  21. &sine0, &sine1, &sine2, &sine3,
  22. &sine4, &sine5, &sine6, &sine7,
  23. &sine8, &sine9, &sine10, &sine11,
  24. &sine12, &sine13, &sine14, &sine15
  25. };
  26. // allocate a wave type to each channel.
  27. // The types used and their order is purely arbitrary.
  28. short wave_type[16] = {
  29. WAVEFORM_SINE,
  30. WAVEFORM_SQUARE,
  31. WAVEFORM_SAWTOOTH,
  32. WAVEFORM_TRIANGLE,
  33. WAVEFORM_SINE,
  34. WAVEFORM_SQUARE,
  35. WAVEFORM_SAWTOOTH,
  36. WAVEFORM_TRIANGLE,
  37. WAVEFORM_SINE,
  38. WAVEFORM_SQUARE,
  39. WAVEFORM_SAWTOOTH,
  40. WAVEFORM_TRIANGLE,
  41. WAVEFORM_SINE,
  42. WAVEFORM_SQUARE,
  43. WAVEFORM_SAWTOOTH,
  44. WAVEFORM_TRIANGLE
  45. };
  46. // Each waveform will be shaped by an envelope
  47. AudioEffectEnvelope env0, env1, env2, env3;
  48. AudioEffectEnvelope env4, env5, env6, env7;
  49. AudioEffectEnvelope env8, env9, env10, env11;
  50. AudioEffectEnvelope env12, env13, env14, env15;
  51. AudioEffectEnvelope *envs[16] = {
  52. &env0, &env1, &env2, &env3,
  53. &env4, &env5, &env6, &env7,
  54. &env8, &env9, &env10, &env11,
  55. &env12, &env13, &env14, &env15
  56. };
  57. // Route each waveform through its own envelope effect
  58. AudioConnection patchCord01(sine0, env0);
  59. AudioConnection patchCord02(sine1, env1);
  60. AudioConnection patchCord03(sine2, env2);
  61. AudioConnection patchCord04(sine3, env3);
  62. AudioConnection patchCord05(sine4, env4);
  63. AudioConnection patchCord06(sine5, env5);
  64. AudioConnection patchCord07(sine6, env6);
  65. AudioConnection patchCord08(sine7, env7);
  66. AudioConnection patchCord09(sine8, env8);
  67. AudioConnection patchCord10(sine9, env9);
  68. AudioConnection patchCord11(sine10, env10);
  69. AudioConnection patchCord12(sine11, env11);
  70. AudioConnection patchCord13(sine12, env12);
  71. AudioConnection patchCord14(sine13, env13);
  72. AudioConnection patchCord15(sine14, env14);
  73. AudioConnection patchCord16(sine15, env15);
  74. // Four mixers are needed to handle 16 channels of music
  75. AudioMixer4 mixer1;
  76. AudioMixer4 mixer2;
  77. AudioMixer4 mixer3;
  78. AudioMixer4 mixer4;
  79. // Mix the 16 channels down to 4 audio streams
  80. AudioConnection patchCord17(env0, 0, mixer1, 0);
  81. AudioConnection patchCord18(env1, 0, mixer1, 1);
  82. AudioConnection patchCord19(env2, 0, mixer1, 2);
  83. AudioConnection patchCord20(env3, 0, mixer1, 3);
  84. AudioConnection patchCord21(env4, 0, mixer2, 0);
  85. AudioConnection patchCord22(env5, 0, mixer2, 1);
  86. AudioConnection patchCord23(env6, 0, mixer2, 2);
  87. AudioConnection patchCord24(env7, 0, mixer2, 3);
  88. AudioConnection patchCord25(env8, 0, mixer3, 0);
  89. AudioConnection patchCord26(env9, 0, mixer3, 1);
  90. AudioConnection patchCord27(env10, 0, mixer3, 2);
  91. AudioConnection patchCord28(env11, 0, mixer3, 3);
  92. AudioConnection patchCord29(env12, 0, mixer4, 0);
  93. AudioConnection patchCord30(env13, 0, mixer4, 1);
  94. AudioConnection patchCord31(env14, 0, mixer4, 2);
  95. AudioConnection patchCord32(env15, 0, mixer4, 3);
  96. // Now create 2 mixers for the main output
  97. AudioMixer4 mixerLeft;
  98. AudioMixer4 mixerRight;
  99. AudioOutputI2S audioOut;
  100. // Mix all channels to both the outputs
  101. AudioConnection patchCord33(mixer1, 0, mixerLeft, 0);
  102. AudioConnection patchCord34(mixer2, 0, mixerLeft, 1);
  103. AudioConnection patchCord35(mixer3, 0, mixerLeft, 2);
  104. AudioConnection patchCord36(mixer4, 0, mixerLeft, 3);
  105. AudioConnection patchCord37(mixer1, 0, mixerRight, 0);
  106. AudioConnection patchCord38(mixer2, 0, mixerRight, 1);
  107. AudioConnection patchCord39(mixer3, 0, mixerRight, 2);
  108. AudioConnection patchCord40(mixer4, 0, mixerRight, 3);
  109. AudioConnection patchCord41(mixerLeft, 0, audioOut, 0);
  110. AudioConnection patchCord42(mixerRight, 0, audioOut, 1);
  111. AudioControlSGTL5000 codec;
  112. // Initial value of the volume control
  113. int volume = 50;
  114. void setup()
  115. {
  116. Serial.begin(115200);
  117. //while (!Serial) ; // wait for Arduino Serial Monitor
  118. delay(200);
  119. // http://gcc.gnu.org/onlinedocs/cpp/Standard-Predefined-Macros.html
  120. Serial.print("Begin ");
  121. Serial.println(__FILE__);
  122. // Proc = 12 (13), Mem = 2 (8)
  123. // Audio connections require memory to work.
  124. // The memory usage code indicates that 10 is the maximum
  125. // so give it 12 just to be sure.
  126. AudioMemory(18);
  127. codec.enable();
  128. codec.volume(0.45);
  129. // reduce the gain on some channels, so half of the channels
  130. // are "positioned" to the left, half to the right, but all
  131. // are heard at least partially on both ears
  132. mixerLeft.gain(1, 0.36);
  133. mixerLeft.gain(3, 0.36);
  134. mixerRight.gain(0, 0.36);
  135. mixerRight.gain(2, 0.36);
  136. // set envelope parameters, for pleasing sound :-)
  137. for (int i=0; i<16; i++) {
  138. envs[i]->attack(9.2);
  139. envs[i]->hold(2.1);
  140. envs[i]->decay(31.4);
  141. envs[i]->sustain(0.6);
  142. envs[i]->release(84.5);
  143. // uncomment these to hear without envelope effects
  144. //envs[i]->attack(0.0);
  145. //envs[i]->hold(0.0);
  146. //envs[i]->decay(0.0);
  147. //envs[i]->release(0.0);
  148. }
  149. Serial.println("setup done");
  150. // Initialize processor and memory measurements
  151. AudioProcessorUsageMaxReset();
  152. AudioMemoryUsageMaxReset();
  153. }
  154. unsigned long last_time = millis();
  155. void loop()
  156. {
  157. unsigned char c,opcode,chan;
  158. unsigned long d_time;
  159. // Change this to if(1) for measurement output every 5 seconds
  160. if(1) {
  161. if(millis() - last_time >= 5000) {
  162. Serial.print("Proc = ");
  163. Serial.print(AudioProcessorUsage());
  164. Serial.print(" (");
  165. Serial.print(AudioProcessorUsageMax());
  166. Serial.print("), Mem = ");
  167. Serial.print(AudioMemoryUsage());
  168. Serial.print(" (");
  169. Serial.print(AudioMemoryUsageMax());
  170. Serial.println(")");
  171. last_time = millis();
  172. }
  173. }
  174. // Volume control
  175. // uncomment if you have a volume pot soldered to your audio shield
  176. /*
  177. int n = analogRead(15);
  178. if (n != volume) {
  179. volume = n;
  180. codec.volume((float)n / 1023);
  181. }
  182. */
  183. // read the next note from the table
  184. c = *sp++;
  185. opcode = c & 0xF0;
  186. chan = c & 0x0F;
  187. if(c < 0x80) {
  188. // Delay
  189. d_time = (c << 8) | *sp++;
  190. delay(d_time);
  191. return;
  192. }
  193. if(*sp == CMD_STOP) {
  194. for (chan=0; chan<10; chan++) {
  195. envs[chan]->noteOff();
  196. waves[chan]->amplitude(0);
  197. }
  198. Serial.println("DONE");
  199. while(1);
  200. }
  201. // It is a command
  202. // Stop the note on 'chan'
  203. if(opcode == CMD_STOPNOTE) {
  204. envs[chan]->noteOff();
  205. return;
  206. }
  207. // Play the note on 'chan'
  208. if(opcode == CMD_PLAYNOTE) {
  209. unsigned char note = *sp++;
  210. unsigned char velocity = *sp++;
  211. AudioNoInterrupts();
  212. waves[chan]->begin(AMPLITUDE * velocity2amplitude[velocity-1],
  213. tune_frequencies2_PGM[note],
  214. wave_type[chan]);
  215. envs[chan]->noteOn();
  216. AudioInterrupts();
  217. return;
  218. }
  219. // replay the tune
  220. if(opcode == CMD_RESTART) {
  221. sp = score;
  222. return;
  223. }
  224. }