mirror of
https://github.com/deater/dos33fsprogs.git
synced 2024-12-28 09:30:41 +00:00
579 lines
13 KiB
ArmAsm
579 lines
13 KiB
ArmAsm
;========================================================================
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; EVERYTHING IS CYCLE COUNTED
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;========================================================================
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;=====================================
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; Calculate Note
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;=====================================
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; note offset in X
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; FIXME: samples shouldn't cross page boundary
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; 7 -- first check
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; 38 -- note enabled
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; 20 -- sample1
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; 30 -- sample2
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; 21 -- accumulate
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; 15 -- calc tone
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; 12 -- note bounds
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; 50 -- more tone
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; 44 -- done note
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;=====
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;
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; note disabled = 7 + 6 + [????] + 44 = 57
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calculate_note:
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lda note_a+NOTE_ENABLED,X ; 4
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bne note_enabled ; 3
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;-1
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sta note_a+NOTE_AMPLITUDE,X ; 4
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jmp done_note ; 3
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note_enabled:
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lda note_a+NOTE_SAMPLE_POINTER_H,X ; 4
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sta SAMPLE_H ; 3
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lda note_a+NOTE_SAMPLE_POINTER_L,X ; 4
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sta SAMPLE_L ; 3
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lda note_a+NOTE_ORNAMENT_POINTER_H,X ; 4
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sta ORNAMENT_H ; 3
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lda note_a+NOTE_ORNAMENT_POINTER_L,X ; 4
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sta ORNAMENT_L ; 3
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lda note_a+NOTE_SAMPLE_POSITION,X ; 4
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asl ; 2
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asl ; 2
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tay ; 2
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;===========
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; 38
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; b0 = pt3->data[a->sample_pointer + a->sample_position * 4];
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lda (SAMPLE_L),Y ; 5+
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sta sample_b0_smc+1 ; 4
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; b1 = pt3->data[a->sample_pointer + a->sample_position * 4 + 1];
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iny ; 2
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lda (SAMPLE_L),Y ; 5+
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sta sample_b1_smc+1 ; 4
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;=============
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; 20
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; a->tone = pt3->data[a->sample_pointer + a->sample_position*4+2];
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; a->tone+=(pt3->data[a->sample_pointer + a->sample_position*4+3])<<8;
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; a->tone += a->tone_accumulator;
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iny ; 2
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lda (SAMPLE_L),Y ; 5+
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adc note_a+NOTE_TONE_ACCUMULATOR_L,X ; 4
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sta note_a+NOTE_TONE_L,X ; 4
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iny ; 2
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lda (SAMPLE_L),Y ; 5+
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adc note_a+NOTE_TONE_ACCUMULATOR_H,X ; 4
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sta note_a+NOTE_TONE_H,X ; 4
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;============
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; 30
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;=============================
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; Accumulate tone if set
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; (if sample_b1 & $40)
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; set = 7+14 = 21
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; no-set = 7+[14] = 21
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bit sample_b1_smc+1 ; 4
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bvc no_accum_waste ; (so, if b1&0x40 is zero, skip it) ; 3
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; -1
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sta note_a+NOTE_TONE_ACCUMULATOR_H,X ; 4
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lda note_a+NOTE_TONE_L,X ; tone_accumulator=tone ; 4
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sta note_a+NOTE_TONE_ACCUMULATOR_L,X ; 4
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jmp no_accum_real ; 3
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no_accum_waste:
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inc CYCLE_WASTE ; 5
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inc CYCLE_WASTE ; 5
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nop ; 2
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nop ; 2
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no_accum_real:
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;============
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; 21
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;============================
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; Calculate tone
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; j = a->note + (pt3->data[a->ornament_pointer + a->ornament_position]
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clc ;;can be removed if ADC ACCUMULATOR_H cannot overflow ; 2
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ldy note_a+NOTE_ORNAMENT_POSITION,X ; 4
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lda (ORNAMENT_L),Y ; 5+
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adc note_a+NOTE_NOTE,X ; 4
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;============
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; 15
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; <0 -- 3+4+[5] = 12
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; >95 -- 3+5+4 = 12
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; just right --3+5+[4] = 12
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; if (j < 0) j = 0;
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bpl note_not_negative ; 3
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; -1
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lda #0 ; 2
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jmp note_just_right_waste5 ; 3
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; if (j > 95) j = 95;
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note_not_negative:
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cmp #96 ; 2
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bcc note_not_too_high ; blt ; 3
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; -1
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lda #95 ; 2
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jmp note_just_right_waste4 ; 3
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note_not_too_high:
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note_just_right_waste5:
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nop ; 2
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jmp note_just_right ; 3
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note_just_right_waste4:
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nop ; 2
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nop ; 2
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;===========
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; 12
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note_just_right:
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; w = GetNoteFreq(j,pt3->frequency_table);
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tay ; for GetNoteFreq later ; 2
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; a->tone = (a->tone + a->tone_sliding + w) & 0xfff;
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clc ; 2
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lda note_a+NOTE_TONE_SLIDING_L,X ; 4
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adc note_a+NOTE_TONE_L,X ; 4
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sta temp_word_l1_smc+1 ; 4
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lda note_a+NOTE_TONE_H,X ; 4
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adc note_a+NOTE_TONE_SLIDING_H,X ; 4
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sta temp_word_h1_smc+1 ; 4
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clc ;;can be removed if ADC SLIDING_H cannot overflow ; 2
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temp_word_l1_smc:
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lda #$d1 ; 2
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adc NoteTable_low,Y ; GetNoteFreq ; 4
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sta note_a+NOTE_TONE_L,X ; 4
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temp_word_h1_smc:
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lda #$d1 ; 2
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adc NoteTable_high,Y ; GetNoteFreq ; 4
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and #$0f ; 2
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sta note_a+NOTE_TONE_H,X ; 4
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;===========
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; 50
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;=====================
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; handle tone sliding
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; if (a->tone_slide_count > 0) {
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lda note_a+NOTE_TONE_SLIDE_COUNT,X ; 4
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bmi no_tone_sliding ; 3
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; -1
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beq no_tone_sliding ; 3
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; -1
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; a->tone_slide_count--;
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dec note_a+NOTE_TONE_SLIDE_COUNT,X ; 6
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; if (a->tone_slide_count==0) {
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bne no_tone_sliding ; 3
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; -1
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; a->tone_sliding+=a->tone_slide_step
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clc ;;can be removed if ADC freq_h cannot overflow ; 2
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lda note_a+NOTE_TONE_SLIDING_L,X ; 4
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adc note_a+NOTE_TONE_SLIDE_STEP_L,X ; 4
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sta note_a+NOTE_TONE_SLIDING_L,X ; 4
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tay ; save NOTE_TONE_SLIDING_L in y ; 2
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lda note_a+NOTE_TONE_SLIDING_H,X ; 4
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adc note_a+NOTE_TONE_SLIDE_STEP_H,X ; 4
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sta note_a+NOTE_TONE_SLIDING_H,X ; 4
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; a->tone_slide_count = a->tone_slide_delay;
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lda note_a+NOTE_TONE_SLIDE_DELAY,X ; 4
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sta note_a+NOTE_TONE_SLIDE_COUNT,X ; 4
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lda note_a+NOTE_SIMPLE_GLISS,X ; 4
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bne no_tone_sliding ; if (!a->simplegliss) { ; 3
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; -1
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check1:
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lda note_a+NOTE_TONE_SLIDE_STEP_H,X ; 4
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bpl check2 ; 3
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; if ( ((a->tone_slide_step < 0) && ; -1
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; (a->tone_sliding <= a->tone_delta) ||
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; 16 bit signed compare
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tya ; y has NOTE_TONE_SLIDING_L ; 2
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cmp note_a+NOTE_TONE_DELTA_L,X ; NUM1-NUM2 ; 4
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lda note_a+NOTE_TONE_SLIDING_H,X ; 4
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sbc note_a+NOTE_TONE_DELTA_H,X ; 4
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bvc sc_loser1 ; N eor V ; 3
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; -1
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eor #$80 ; 2
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sc_loser1:
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; then A (signed) < NUM (signed) and BMI will branch
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bmi slide_to_note ; 3
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; -1
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; equals case
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tya ; y has NOTE_TONE_SLIDING_L ; 2
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cmp note_a+NOTE_TONE_DELTA_L,X ; 4
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bne check2 ; 3
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; -1
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lda note_a+NOTE_TONE_SLIDING_H,X ; 4
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cmp note_a+NOTE_TONE_DELTA_H,X ; 4
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beq slide_to_note ; 3
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; -1
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check2:
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lda note_a+NOTE_TONE_SLIDE_STEP_H,X ; 4
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bmi no_tone_sliding ; 3
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; ((a->tone_slide_step >= 0) &&
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; (a->tone_sliding >= a->tone_delta)
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; -1
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; 16 bit signed compare
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tya ; y has NOTE_TONE_SLIDING_L ; 2
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cmp note_a+NOTE_TONE_DELTA_L,X ; num1-num2 ; 4
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lda note_a+NOTE_TONE_SLIDING_H,X ; 4
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sbc note_a+NOTE_TONE_DELTA_H,X ; 4
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bvc sc_loser2 ; N eor V ; 3
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; -1
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eor #$80 ; 2
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sc_loser2:
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; then A (signed) < NUM (signed) and BMI will branch
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bmi no_tone_sliding ; 3
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; -1
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slide_to_note:
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; a->note = a->slide_to_note;
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lda note_a+NOTE_SLIDE_TO_NOTE,X ; 4
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sta note_a+NOTE_NOTE,X ; 4
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lda #0 ; 2
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sta note_a+NOTE_TONE_SLIDE_COUNT,X ; 4
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sta note_a+NOTE_TONE_SLIDING_L,X ; 4
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sta note_a+NOTE_TONE_SLIDING_H,X ; 4
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no_tone_sliding:
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;=========================
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; Calculate the amplitude
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;=========================
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calc_amplitude:
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; get base value from the sample (bottom 4 bits of sample_b1)
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sample_b1_smc:
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lda #$d1 ; a->amplitude= (b1 & 0xf); ; 2
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and #$f ; 2
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;========================================
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; if b0 top bit is set, it means sliding
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; adjust amplitude sliding
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bit sample_b0_smc+1 ; if ((b0 & 0x80)!=0) { ; 4
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bpl done_amp_sliding ; so if top bit not set, skip ; 3
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; -1
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tay ; 2
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;================================
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; if top bits 0b11 then slide up
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; if top bits 0b10 then slide down
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; if ((b0 & 0x40)!=0) {
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lda note_a+NOTE_AMPLITUDE_SLIDING,X ; 4
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sec ; 2
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bvc amp_slide_down ; 3
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; -1
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amp_slide_up:
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; if (a->amplitude_sliding < 15) {
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; a pain to do signed compares
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sbc #15 ; 2
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bvc asu_signed ; 3
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; -1
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eor #$80 ; 2
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asu_signed:
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bpl done_amp_sliding ; skip if A>=15 ; 2
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; a->amplitude_sliding++;
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inc note_a+NOTE_AMPLITUDE_SLIDING,X ; 5?
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bne done_amp_sliding_y ; 3
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; -1
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amp_slide_down:
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; if (a->amplitude_sliding > -15) {
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; a pain to do signed compares
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sbc #$f1 ; -15 ; 2
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bvc asd_signed ; 3
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; -1
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eor #$80 ; 2
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asd_signed:
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bmi done_amp_sliding ; if A < -15, skip subtract ; 3
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; a->amplitude_sliding--;
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dec note_a+NOTE_AMPLITUDE_SLIDING,X ; 5?
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done_amp_sliding_y:
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tya ; 2
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done_amp_sliding:
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; a->amplitude+=a->amplitude_sliding;
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clc ; 2
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adc note_a+NOTE_AMPLITUDE_SLIDING,X ; 4
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; clamp amplitude to 0 - 15
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check_amp_lo:
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bmi write_clamp_amplitude ; 3
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; -1
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check_amp_hi:
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cmp #16 ; 2
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bcc write_amplitude ; blt ; 3
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; -1
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lda #15 ; 2
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.byte $2C ;????
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write_clamp_amplitude:
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lda #0 ;????
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write_amplitude:
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sta note_amp_smc+1 ; 4
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done_clamp_amplitude:
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; We generate the proper table at runtime now
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; so always in Volume Table
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; a->amplitude = PT3VolumeTable_33_34[a->volume][a->amplitude];
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; a->amplitude = PT3VolumeTable_35[a->volume][a->amplitude];
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lda note_a+NOTE_VOLUME,X ; 4
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asl ; 2
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asl ; 2
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asl ; 2
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asl ; 2
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note_amp_smc:
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ora #$d1 ; 2
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tay ; 2
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lda VolumeTable,Y ; 4
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sta note_a+NOTE_AMPLITUDE,X ; 4
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done_table:
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check_envelope_enable:
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; Bottom bit of b0 indicates our sample has envelope
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; Also make sure envelopes are enabled
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; if (((b0 & 0x1) == 0) && ( a->envelope_enabled)) {
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sample_b0_smc:
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lda #$d1 ; 2
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lsr ; 2
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tay ; 2
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bcs envelope_slide ; 3
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; -1
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lda note_a+NOTE_ENVELOPE_ENABLED,X ; 4
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beq envelope_slide ; 3
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; -1
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; Bit 4 of the per-channel AY-3-8910 amplitude specifies
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; envelope enabled
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lda note_a+NOTE_AMPLITUDE,X ; a->amplitude |= 16; ; 4
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ora #$10 ; 2
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sta note_a+NOTE_AMPLITUDE,X ; 4
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envelope_slide:
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; Envelope slide
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; If b1 top bits are 10 or 11
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lda sample_b0_smc+1 ; 4
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asl ; 2
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asl ; 2
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asl ; b0 bit 5 to carry flag ; 2
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lda #$20 ; 2
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; b1 bit 7 to sign flag, bit 5 to zero flag
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bit sample_b1_smc+1 ; 4?
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php ; 4?
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bpl else_noise_slide ; if ((b1 & 0x80) != 0) { ; 3
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; -1
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tya ; 2
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ora #$f0 ; 2
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bcs envelope_slide_down ; if ((b0 & 0x20) == 0) { ; 3
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; -1
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envelope_slide_up:
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; j = ((b0>>1)&0xF) + a->envelope_sliding;
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and #$0f ; 2
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clc ; 2
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envelope_slide_down:
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; j = ((b0>>1)|0xF0) + a->envelope_sliding
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adc note_a+NOTE_ENVELOPE_SLIDING,X ; 4
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sta e_slide_amount_smc+1 ; j ; 4
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envelope_slide_done:
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plp ; 4?
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beq last_envelope ; if (( b1 & 0x20) != 0) { ; 3
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; -1
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; a->envelope_sliding = j;
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sta note_a+NOTE_ENVELOPE_SLIDING,X ; 4
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last_envelope:
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; pt3->envelope_add+=j;
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clc ; 2
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e_slide_amount_smc:
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lda #$d1 ; 2
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adc pt3_envelope_add_smc+1 ; 4
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sta pt3_envelope_add_smc+1 ; 4
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jmp noise_slide_done ; skip else ; 3
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else_noise_slide:
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; Noise slide
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; else {
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; pt3->noise_add = (b0>>1) + a->noise_sliding;
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tya ; 2
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clc ; 2
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adc note_a+NOTE_NOISE_SLIDING,X ; 4
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sta pt3_noise_add_smc+1 ; 4
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plp ; 4?
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beq noise_slide_done ; if ((b1 & 0x20) != 0) { ; 3
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; -1
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; noise_sliding = pt3_noise_add
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sta note_a+NOTE_NOISE_SLIDING,X ; 4
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noise_slide_done:
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;======================
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; set mixer
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; pt3->mixer_value = ((b1 >>1) & 0x48) | pt3->mixer_value;
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lda sample_b1_smc+1 ; 4
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lsr ; 2
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and #$48 ; 2
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ora PT3_MIXER_VAL ; 3
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sta PT3_MIXER_VAL ; 3
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;========================
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; increment sample position
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; a->sample_position++;
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inc note_a+NOTE_SAMPLE_POSITION,X ; 5?
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lda note_a+NOTE_SAMPLE_POSITION,X ; 4
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cmp note_a+NOTE_SAMPLE_LENGTH,X ; 4
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bcc sample_pos_ok ; blt ; 3
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; -1
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lda note_a+NOTE_SAMPLE_LOOP,X ; 4
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sta note_a+NOTE_SAMPLE_POSITION,X ; 4
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sample_pos_ok:
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;============================
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; increment ornament position
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; a->ornament_position++;
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inc note_a+NOTE_ORNAMENT_POSITION,X ; 5?
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lda note_a+NOTE_ORNAMENT_POSITION,X ; 4
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cmp note_a+NOTE_ORNAMENT_LENGTH,X ; 4
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bcc ornament_pos_ok ; blt ; 3
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; -1
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lda note_a+NOTE_ORNAMENT_LOOP,X ; 4
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sta note_a+NOTE_ORNAMENT_POSITION,X ; 4
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ornament_pos_ok:
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done_note:
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; set mixer value
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; this is a bit complex (from original code)
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; after 3 calls it is set up properly
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lsr PT3_MIXER_VAL ; 5
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;=============================
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; 7+ [26] + 6 = 39 // onoff==0
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; 7+ 4 + 12 + 6 + 4 + 6 = 39 // onoff counted down to 0, do_onoff
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; 7+ 4 + 12 + 6 + 4 + 6 = 39 // onoff counted down to 0, do_offon
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; 7+ 4 + [18] + 4 + 6 = 39 // otherwise
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handle_onoff:
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ldy note_a+NOTE_ONOFF,X ;if (a->onoff>0) { ; 4
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beq done_onoff_kill_26 ; 3
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;============
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; 7
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; -1
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dey ; a->onoff--; ; 2
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bne put_offon_kill_18 ; if (a->onoff==0) { ; 3
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;============
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; 4
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; -1
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lda note_a+NOTE_ENABLED,X ; 4
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eor #$1 ; toggle note_enabled ; 2
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sta note_a+NOTE_ENABLED,X ; 4
|
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beq do_offon ; 3
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|
;============
|
|
; 12
|
|
do_onoff:
|
|
; -1
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|
; if (a->enabled) a->onoff=a->onoff_delay;
|
|
ldy note_a+NOTE_ONOFF_DELAY,X ; 4
|
|
jmp put_offon ; 3
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|
;============
|
|
; 6
|
|
do_offon:
|
|
; else a->onoff=a->offon_delay;
|
|
ldy note_a+NOTE_OFFON_DELAY,X ; 4
|
|
nop ; make things match ; 2
|
|
;============
|
|
; 6
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|
|
|
put_offon:
|
|
sty note_a+NOTE_ONOFF,X ; 4
|
|
;============
|
|
; 4
|
|
done_onoff:
|
|
|
|
rts ; 6
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done_onoff_kill_26:
|
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inc CYCLE_WASTE ; 5
|
|
lda CYCLE_WASTE ; 3
|
|
inc CYCLE_WASTE ; 5
|
|
inc CYCLE_WASTE ; 5
|
|
inc CYCLE_WASTE ; 5
|
|
jmp done_onoff ; 3
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|
|
|
put_offon_kill_18:
|
|
inc CYCLE_WASTE ; 5
|
|
inc CYCLE_WASTE ; 5
|
|
inc CYCLE_WASTE ; 5
|
|
jmp put_offon ; 3
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