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drumkit/src/sequence.c

sequence.c 6.1KB
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  1. /*

  2.  * sequence.c

  3.  *

  4.  * Copyright (c) 2024 Thomas Buck (thomas@xythobuz.de)

  5.  *

  6.  * This program is free software: you can redistribute it and/or modify

  7.  * it under the terms of the GNU General Public License as published by

  8.  * the Free Software Foundation, either version 3 of the License, or

  9.  * (at your option) any later version.

  10.  *

  11.  * This program is distributed in the hope that it will be useful,

  12.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  13.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  14.  * GNU General Public License for more details.

  15.  *

  16.  * See <http://www.gnu.org/licenses/>.

  17.  */

  18. 

  19. #include <stdio.h>

  20. #include <inttypes.h>

  21. #include "pico/stdlib.h"

  22. 

  23. #include "led.h"

  24. #include "log.h"

  25. #include "mem.h"

  26. #include "pulse.h"

  27. #include "ui.h"

  28. #include "sequence.h"

  29. 

  30. static uint64_t us_per_beat = 0;

  31. static uint64_t last_t = 0;

  32. static uint64_t beattimer_start = 0;

  33. 

  34. static uint32_t beats = MAX_BEATS;

  35. static uint32_t last_i = 0;

  36. static uint32_t bank = 0;

  37. static uint32_t max_banks_currently = 0;

  38. 

  39. static enum channels sequence[MAX_BEATS] = {0};

  40. 

  41. void sequence_init(void) {

  42.     us_per_beat = 0;

  43.     beats = MAX_BEATS;

  44.     last_t = to_us_since_boot(get_absolute_time());

  45.     last_i = 0;

  46.     max_banks_currently = (beats + (NUM_BTNS - 1)) / NUM_BTNS;

  47. 

  48.     for (uint i = 0; i < MAX_BEATS; i++) {

  49.         sequence[i] = 0;

  50.     }

  51. }

  52. 

  53. uint32_t sequence_get_max_banks(void) {

  54.     return max_banks_currently;

  55. }

  56. 

  57. void sequence_set_bpm(uint32_t new_bpm) {

  58.     us_per_beat = (60UL * 1000UL * 1000UL) / new_bpm;

  59.     debug("bpm @ %"PRIu64"us = %"PRIu64"us", us_per_beat, us_per_beat / beats);

  60. }

  61. 

  62. uint32_t sequence_get_bpm(void) {

  63.     if (us_per_beat == 0) {

  64.         return 0;

  65.     }

  66.     return (60UL * 1000UL * 1000UL) / us_per_beat;

  67. }

  68. 

  69. void sequence_set_beats(uint32_t new_beats) {

  70.     beats = (new_beats <= MAX_BEATS) ? new_beats : MAX_BEATS;

  71.     debug("beats @ %"PRIu64"us = %"PRIu64"us", us_per_beat, us_per_beat / beats);

  72. 

  73.     max_banks_currently = (beats + (NUM_BTNS - 1)) / NUM_BTNS;

  74.     bank = (bank < max_banks_currently) ? bank : 0;

  75. }

  76. 

  77. uint32_t sequence_get_beats(void) {

  78.     return beats;

  79. }

  80. 

  81. void sequence_set_bank(uint32_t new_bank) {

  82.     uint32_t b = (new_bank < MAX_BANKS) ? new_bank : MAX_BANKS;

  83.     bank = (b < max_banks_currently) ? b : 0;

  84. }

  85. 

  86. uint32_t sequence_get_bank(void) {

  87.     return bank;

  88. }

  89. 

  90. uint64_t sequence_get_us(void) {

  91.     return us_per_beat;

  92. }

  93. 

  94. static void sequence_set(uint32_t beat, enum channels ch, bool value) {

  95.     if (beat < MAX_BEATS) {

  96.         if (value) {

  97.             sequence[beat] |= ch;

  98.         } else {

  99.             sequence[beat] &= ~ch;

  100.         }

  101.     }

  102. }

  103. 

  104. static bool sequence_get(uint32_t beat, enum channels ch) {

  105.     if (beat < MAX_BEATS) {

  106.         return (sequence[beat] & ch) != 0;

  107.     }

  108.     return false;

  109. }

  110. 

  111. void sequence_handle_button_loopstation(enum buttons btn, bool rec) {

  112.     switch (btn) {

  113.         case BTN_A:

  114.         case BTN_E: {

  115.             pulse_trigger_out(0, mem_data()->ch_timings[0]);

  116.             pulse_trigger_led(0, mem_data()->ch_timings[0]);

  117.             pulse_trigger_led(4, mem_data()->ch_timings[0]);

  118.             break;

  119.         }

  120. 

  121.         case BTN_B:

  122.         case BTN_F: {

  123.             pulse_trigger_out(1, mem_data()->ch_timings[1]);

  124.             pulse_trigger_led(1, mem_data()->ch_timings[1]);

  125.             pulse_trigger_led(5, mem_data()->ch_timings[1]);

  126.             break;

  127.         }

  128. 

  129.         case BTN_C:

  130.         case BTN_G: {

  131.             pulse_trigger_out(2, mem_data()->ch_timings[2]);

  132.             pulse_trigger_led(2, mem_data()->ch_timings[2]);

  133.             pulse_trigger_led(6, mem_data()->ch_timings[2]);

  134.             break;

  135.         }

  136. 

  137.         default: {

  138.             break;

  139.         }

  140.     }

  141. 

  142.     if (rec) {

  143.         switch (btn) {

  144.             case BTN_A:

  145.             case BTN_E: {

  146.                 sequence_set(last_i, CH_KICK, true);

  147.                 break;

  148.             }

  149. 

  150.             case BTN_B:

  151.             case BTN_F: {

  152.                 sequence_set(last_i, CH_SNARE, true);

  153.                 break;

  154.             }

  155. 

  156.             case BTN_C:

  157.             case BTN_G: {

  158.                 sequence_set(last_i, CH_HIHAT, true);

  159.                 break;

  160.             }

  161. 

  162.             default: {

  163.                 break;

  164.             }

  165.         }

  166.     }

  167. }

  168. 

  169. void sequence_handle_button_drummachine(enum buttons btn) {

  170.     uint32_t beat = 42; // TODO!!

  171. 

  172.     switch (btn) {

  173.         case BTN_A: {

  174.             // TODO kick is wrong here

  175.             bool val = !sequence_get(beat, CH_KICK);

  176.             sequence_set(beat, CH_KICK, val);

  177.             break;

  178.         }

  179. 

  180.         case BTN_B: {

  181.             // TODO snare is wrong here

  182.             bool val = !sequence_get(beat, CH_SNARE);

  183.             sequence_set(beat, CH_SNARE, val);

  184.             break;

  185.         }

  186. 

  187.         case BTN_C: {

  188.             // TODO hihat is wrong here

  189.             bool val = !sequence_get(beat, CH_HIHAT);

  190.             sequence_set(beat, CH_HIHAT, val);

  191.             break;

  192.         }

  193. 

  194.         default: {

  195.             break;

  196.         }

  197.     }

  198. }

  199. 

  200. void sequence_looptime(bool fin) {

  201.     if (!fin) {

  202.         beattimer_start = to_us_since_boot(get_absolute_time());

  203.     } else {

  204.         if (us_per_beat == 0) {

  205.             uint64_t now = to_us_since_boot(get_absolute_time());

  206.             uint64_t diff = now - beattimer_start;

  207.             us_per_beat = diff;

  208.             debug("looptime @ %"PRIu64"us = %"PRIu64"us", us_per_beat, us_per_beat / beats);

  209.         }

  210.     }

  211. }

  212. 

  213. void sequence_run(void) {

  214.     uint64_t now = to_us_since_boot(get_absolute_time());

  215.     uint64_t us = us_per_beat / beats;

  216. 

  217.     if ((us > 0) && (now >= (last_t + us))) {

  218.         //debug("trigger");

  219. 

  220.         uint32_t i = last_i + 1;

  221.         if (i >= beats) i = 0;

  222. 

  223.         if (ui_get_machinemode() == MODE_DRUMMACHINE) {

  224.             led_set(last_i, false);

  225.             led_set(i, true);

  226.         }

  227. 

  228.         for (uint ch = 0; ch < NUM_CHANNELS; ch++) {

  229.             if (sequence[i] & (1 << ch)) {

  230.                 pulse_trigger_out(ch, mem_data()->ch_timings[ch]);

  231.                 if (ui_get_machinemode() == MODE_LOOPSTATION) {

  232.                     pulse_trigger_led(ch, mem_data()->ch_timings[ch]);

  233.                     pulse_trigger_led(ch + 4, mem_data()->ch_timings[ch]);

  234.                 }

  235.             }

  236.         }

  237. 

  238.         last_t += us;

  239.         last_i = i;

  240.     }

  241. }