ref: 6a1e077d2d20904c19b80a6baa455c8c9d7ce1f1
dir: /macros/audio_macros.asm/
StopAllMusic: MACRO ld a, $ff call PlaySound ENDM Ch1 EQU 0 Ch2 EQU 1 Ch3 EQU 2 Ch4 EQU 3 Ch5 EQU 4 Ch6 EQU 5 Ch7 EQU 6 Ch8 EQU 7 audio_header: MACRO db (_NARG - 2) << 6 | \2 dw \1_\2 IF _NARG > 2 db \3 dw \1_\3 ENDC IF _NARG > 3 db \4 dw \1_\4 ENDC IF _NARG > 4 db \5 dw \1_\5 ENDC ENDM ; arguments: length [0, 7], pitch change [-7, 7] ; length: length of time between pitch shifts ; sometimes used with a value >7 in which case the MSB is ignored ; pitch change: positive value means increase in pitch, negative value means decrease in pitch ; small magnitude means quick change, large magnitude means slow change ; in signed magnitude representation, so a value of 8 is the same as (negative) 0 pitch_sweep: MACRO db $10 IF \2 < 0 db (\1 << 4) | (%1000 | (\2 * -1)) ELSE db (\1 << 4) | \2 ENDC ENDM ; arguments: length [0, 15], volume [0, 15], fade [-7, 7], frequency ; fade: positive value means decrease in volume, negative value means increase in volume ; small magnitude means quick change, large magnitude means slow change ; in signed magnitude representation, so a value of 8 is the same as (negative) 0 square_note: MACRO db $20 | \1 IF \3 < 0 db (\2 << 4) | (%1000 | (\3 * -1)) ELSE db (\2 << 4) | \3 ENDC dw \4 ENDM ; arguments: length [0, 15], volume [0, 15], fade [-7, 7], frequency ; fade: positive value means decrease in volume, negative value means increase in volume ; small magnitude means quick change, large magnitude means slow change ; in signed magnitude representation, so a value of 8 is the same as (negative) 0 noise_note: MACRO db $20 | \1 IF \3 < 0 db (\2 << 4) | (%1000 | (\3 * -1)) ELSE db (\2 << 4) | \3 ENDC db \4 ENDM C_ EQU $0 C# EQU $1 D_ EQU $2 D# EQU $3 E_ EQU $4 F_ EQU $5 F# EQU $6 G_ EQU $7 G# EQU $8 A_ EQU $9 A# EQU $A B_ EQU $B ; arguments: pitch, length [1, 16] note: MACRO db (\1 << 4) | (\2 - 1) ENDM ; arguments: instrument [1, 19], length [1, 16] drum_note: MACRO db $B0 | (\2 - 1) db \1 ENDM ; arguments: instrument, length [1, 16] ; like drum_note but one 1 byte instead of 2 ; can only be used with instruments 1-10, excluding 2 ; unused drum_note_short: MACRO db (\1 << 4) | (\2 - 1) ENDM ; arguments: length [1, 16] rest: MACRO db $C0 | (\1 - 1) ENDM ; arguments: speed [0, 15], volume [0, 15], fade [-7, 7] ; fade: positive value means decrease in volume, negative value means increase in volume ; small magnitude means quick change, large magnitude means slow change ; in signed magnitude representation, so a value of 8 is the same as (negative) 0 note_type: MACRO db $D0 | \1 IF \3 < 0 db (\2 << 4) | (%1000 | (\3 * -1)) ELSE db (\2 << 4) | \3 ENDC ENDM ; arguments: speed [0, 15] drum_speed: MACRO db $D0 | \1 ENDM ; arguments: octave [1, 8] octave: MACRO db $E8 - \1 ENDM ; when enabled, effective frequency used is incremented by 1 toggle_perfect_pitch: MACRO db $E8 ENDM ; arguments: delay [0, 255], depth [0, 15], rate [0, 15] ; delay: time delay until vibrato effect begins ; depth: amplitude of vibrato wave ; rate: frequency of vibrato wave vibrato: MACRO db $EA db \1 db (\2 << 4) | \3 ENDM ; arguments: length [1, 256], octave [1, 8], pitch pitch_slide: MACRO db $EB db \1 - 1 db ((8 - \2) << 4) | \3 ENDM ; arguments: duty cycle [0, 3] (12.5%, 25%, 50%, 75%) duty_cycle: MACRO db $EC db \1 ENDM ; arguments: tempo [0, $ffff] ; used to calculate note delay counters ; so a smaller value means music plays faster ; ideally should be set to $100 or less to guarantee no overflow ; if larger than $100, large note speed or note length values might cause overflow ; stored in big endian tempo: MACRO db $ED db \1 / $100 db \1 % $100 ENDM ; arguments: left output enable mask, right output enable mask stereo_panning: MACRO db $EE db (\1 << 4) | \2 ENDM ; arguments: left master volume [0, 7], right master volume [0, 7] volume: MACRO db $F0 db (\1 << 4) | \2 ENDM ; when enabled, the sfx data is interpreted as music data execute_music: MACRO db $F8 ENDM ; arguments: duty cycle 1, duty cycle 2, duty cycle 3, duty cycle 4 duty_cycle_pattern: MACRO db $FC db \1 << 6 | \2 << 4 | \3 << 2 | \4 ENDM ; arguments: address sound_call: MACRO db $FD dw \1 ENDM ; arguments: count, address sound_loop: MACRO db $FE db \1 dw \2 ENDM sound_ret: MACRO db $FF ENDM