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https://github.com/UberGuidoZ/Flipper.git
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109 lines
3.7 KiB
C
109 lines
3.7 KiB
C
#pragma once
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#include <stdint.h>
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/**
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* @brief Row
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*
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* AH AL
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* FEDCBA98 76543210
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* nnnnnnee eedddddd
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* -------- --------
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* nnnnnn = [0] do nothing, [1..60] note number, [61] note off, [62..63] not used
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* ee ee = [0..F] effect
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* 111222 = [0..63] or [0..7, 0..7] effect data
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*/
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typedef uint16_t Row;
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#define ROW_NOTE_MASK 0x3F
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#define ROW_EFFECT_MASK 0x0F
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#define ROW_EFFECT_DATA_MASK 0x3F
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typedef enum {
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// 0xy, x - first semitones offset, y - second semitones offset. 0 - no offset .. 7 - +7 semitones...
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// Play the arpeggio chord with three notes. The first note is the base note, the second and third are offset by x and y.
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// Each note plays one tick.
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EffectArpeggio = 0x00,
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// 1xx, xx - effect speed, 0 - no effect, 1 - slowest, 0x3F - fastest.
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// Slide the note pitch up by xx Hz every tick.
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EffectSlideUp = 0x01,
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// 2xx, xx - effect speed, 0 - no effect, 1 - slowest, 0x3F - fastest.
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// Slide the note pitch down by xx Hz every tick.
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EffectSlideDown = 0x02,
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// 3xx, xx - effect speed, 0 - no effect, 1 - slowest, 0x3F - fastest.
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// Slide the already playing note pitch towards another one by xx Hz every tick.
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// The note value is saved until the note is playing, so you don't have to repeat the note value to continue sliding.
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EffectSlideToNote = 0x03,
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// 4xy, x - vibrato speed (0..7), y - vibrato depth (0..7).
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// Vibrato effect. The pitch of the note increases by x Hz each tick to a positive vibrato depth, then decreases to a negative depth.
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// Value 1 of depth means 1/7 of a semitone (about 14.28 ct), so value 7 means full semitone.
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// Note will play without vibrato on the first tick at the beginning of the effect.
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// Vibrato speed and depth are saved until the note is playing, and will be updated only if they are not zero, so you doesn't have to repeat them every tick.
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EffectVibrato = 0x04,
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// Effect05 = 0x05,
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// Effect06 = 0x06,
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// Effect07 = 0x07,
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// Effect08 = 0x08,
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// Effect09 = 0x09,
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// Effect0A = 0x0A,
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// Bxx, xx - pattern number
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// Jump to the order xx in the pattern order table at first tick of current row.
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// So if you want to jump to the pattern after note 4, you should put this effect on the 5th note.
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EffectJumpToOrder = 0x0B,
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// Cxx, xx - pwm value
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// Set the PWM value to xx for current row.
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EffectPWM = 0x0C,
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// Bxx, xx - row number
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// Jump to the row xx in next pattern at first tick of current row.
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// So if you want to jump to the pattern after note 4, you should put this effect on the 5th note.
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EffectBreakPattern = 0x0D,
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// Effect0E = 0x0E,
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// Fxx, xx - song speed, 0 - 1 tick per note, 1 - 2 ticks per note, 0x3F - 64 ticks per note.
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// Set the speed of the song in terms of ticks per note.
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// Will be applied at the first tick of current row.
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EffectSetSpeed = 0x0F,
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} Effect;
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#define EFFECT_DATA_2(x, y) ((x) | ((y) << 3))
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#define EFFECT_DATA_GET_X(data) ((data)&0x07)
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#define EFFECT_DATA_GET_Y(data) (((data) >> 3) & 0x07)
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#define EFFECT_DATA_NONE 0
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#define EFFECT_DATA_1_MAX 0x3F
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#define EFFECT_DATA_2_MAX 0x07
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#define FREQUENCY_UNSET -1.0f
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#define PWM_MIN 0.01f
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#define PWM_MAX 0.5f
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#define PWM_DEFAULT PWM_MAX
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#define PATTERN_SIZE 64
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#define ROW_MAKE(note, effect, data) \
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((Row)(((note)&0x3F) | (((effect)&0xF) << 6) | (((data)&0x3F) << 10)))
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typedef struct {
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Row rows[PATTERN_SIZE];
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} Channel;
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typedef struct {
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Channel* channels;
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} Pattern;
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typedef struct {
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uint8_t channels_count;
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uint8_t patterns_count;
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Pattern* patterns;
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uint8_t order_list_size;
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uint8_t* order_list;
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uint16_t ticks_per_second;
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} Song; |