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Forums > CSDb Entries > Release id #106466 : PulseSounds
2012-03-13 09:23
andym00

Registered: Jun 2009
Posts: 45
Release id #106466 : PulseSounds

Thought I'd share the code behind the guts of this technique since I've had a few questions since it would appear I wasn't clear enough on my explanation..

Equally, if anyone has any optimisations to this stuff then please share, anything to make this stuff faster is good for the whole world :)

Anyway..

The main bit generation part for each voice looks like this.. You can see the idea, we just step through eor_buffer using a 8.8 fixed point fraction, marking a bit for each waveform transition.. The seperate high/low parts are for the differing steps on each side of the pulse waveform itself..

For simplicity, I negate all the values on entry, hence all the lax/sbx stuff since I didn't want to be debugging these backwards..

!macro Pulse_Train_Generator ~.entry, ~.ppl, ~.pph, ~.psl0, ~.psh0, ~.psl1, ~.psh1, .store, .bit {
.entry:
			;	Negate all the step values for the voice..
			lax #$00
.psl0		= * + 1
			sbx #$40
			stx .ipsl0
.psh0		= * + 1
			sbc #$00
			sta .ipsh0
			lax #$00
.psl1		= * + 1
			sbx #$40
			stx .ipsl1
.psh1		= * + 1
			sbc #$00
			sta .ipsh1
.pph	= * + 1
			ldy #0
.ppl	= * + 1
			ldx #0

			; Use clear carry here to branch to correct entry point..
.generate:	
			clc
.branch_mod	= * + 1
			bcc .continue
.continue:
			!if .store {
				lda #.bit
				sta eor_buffer,y
			} else {
				lda eor_buffer,y 
				eor #.bit
				sta eor_buffer,y
			}
			txa
.ipsl0 = * + 1
			sbx #0
			tya
.ipsh0 = * + 1
			sbc #0
			tay
			bcs .underflow_lo
.enter_hi:
			!if .store {
				lda #.bit
				sta eor_buffer,y
			} else {
				lda eor_buffer,y 
				eor #.bit
				sta eor_buffer,y
			}
			txa
.ipsl1 = * + 1
			sbx #0
			tya
.ipsh1 = * + 1
			sbc #0
			tay
			bcc .continue
.underflow_hi:
			stx .ppl
			sty .pph
			lda #.continue - (.branch_mod + 1)
			sta .branch_mod
			rts
.underflow_lo
			stx .ppl
			sty .pph
			lda #.enter_hi - (.branch_mod + 1)
			sta .branch_mod
			rts
}


This then gets instantiated like so:
+Pulse_Train_Generator ~PGEN0, ~PPL_0, ~PPH_0, ~PSL0_0, ~PSH0_0, ~PSL1_0, ~PSH1_0, 1, 1
+Pulse_Train_Generator ~PGEN1, ~PPL_1, ~PPH_1, ~PSL0_1, ~PSH0_1, ~PSL1_1, ~PSH1_1, 0, 2
+Pulse_Train_Generator ~PGEN2, ~PPL_2, ~PPH_2, ~PSL0_2, ~PSH0_2, ~PSL1_2, ~PSH1_2, 0, 4


So we have 3 unique voice generators, each controlling one seperate bit of the eor_buffer..

Next up, the volume table generation.. This is fairly simple.. Given current volumes of all 3 voices with each voice having one unique bit, we generate all possible outcomes of the bit combinations, storing this in a table..

First a little helper macro for it all..
			!macro fold4 .identity, .offset, .a0, .a1, .a2 {
				.vt = VolumeTable
				lda .identity
				!if .a0 != NULL {
					adc .a0
				}
				sta .vt+.offset+0
				adc .a1
				sta .vt+.offset+1
				adc .a2
				sta .vt+.offset+3
				lda .vt+.offset+0
				adc .a2
				sta .vt+.offset+2
			}


And then the main part:
			ldx #0	;	Set this to allow a constant to be propagated throughout all volume results..

			txa
			ora v0
			sta v0bit
			txa
			ora v1
			sta v1bit
			txa
			ora v2
			sta v2bit

			clc
;  543210
;0	00000
;1	00001
;2	00010
;3	00011
			.vt = VolumeTable
			txa
			sta .vt+0
			lda v0bit
			sta .vt+1
			lda v1bit
			sta .vt+2
			adc v0
			sta .vt+3
			;************************************************
;  543210
;4	00100
			+fold4 v2bit, 4,  NULL, v0, v1


The idea behind generating the extra v0bit v1bit v2bit with a constant in is that the 'folding' is done in such a way that if we wanted to have extra data stored in the output samples for the upper 4 bits, that it'll only ever be added in once, hence we can roll through this whole thing using additions with no clearing of carries, or worrying about the special bits getting cleared by adding them to themselves..
It isn't actually used, but is where you'd load up filter settings for the top bits of D418..

For completeness, here's the rest of the table up to 6 voices..
;8	01000
			+fold4 v3bit, 8,  NULL, v0, v1
;12	01100
			+fold4 .vt+8, 12, v2,   v0, v1
			;************************************************
;  543210
;16	10000
			+fold4 v4bit,  16, NULL, v0, v1
;20	10100
			+fold4 .vt+16, 20, v2, v0, v1
;24	11000
			+fold4 .vt+16, 24, v3, v0, v1
;28	11100
			+fold4 .vt+24, 28, v2, v0, v1
			;************************************************
;   543210
;32	100000
			+fold4 v5bit,  32, NULL, v0, v1
;36	100100
			+fold4 .vt+32, 36, v2, v0, v1
;40	101000
			+fold4 .vt+32, 40, v3, v0, v1
;44	101100
			+fold4 .vt+40, 44, v2, v0, v1
;48	110000
			+fold4 .vt+32, 48, v4, v0, v1
;52	110100
			+fold4 .vt+48, 52, v2, v0, v1
;56	111000
			+fold4 .vt+48, 56, v3, v0, v1
;60	111100
			+fold4 .vt+56, 60, v2, v0, v1


It's not as optimal as it could be.. There's a few points where LAX could be used to save reloading, but I had enough trouble getting my head around a magic order to do this automatically anyway, which as you can see from the above, I failed, hence this solution :)

Next the actual output buffer generation.. This is the bit that takes the sparse eor_buffer and generate output samples and length, and also does the volume table lookup..

First the unrolled version:
				!zone
!macro Generate_Pulse_Buffer .source, .size {
			ldy SampleWriteIndex

			!for .i, 0, .size {
				lda .source + .i
				!if .i != 0 {
					beq +
				}
				eor zp_pgen_previous
				sta zp_pgen_previous
				tax
				lda VolumeTable,x
				sta sample_buffer,y
				lda #.i
				clc
				sbc zp_len_previous
				sta length_buffer,y
				lda #.i
				sta zp_len_previous
				iny
				lda #0
				sta .source + .i
+
			}
			sty SampleWriteIndex
}

And the rolled version..
			ldy SampleWriteIndex
			ldx #0
			lda eor_buffer,x
			jmp .nz
.loop:
			lda eor_buffer,x
			bne .nz
			inx
			bne .loop
			sty SampleWriteIndex
			rts

.nz:
			eor .vol+1
			sta .vol+1
.vol:
			lda VolumeTable
			sta sample_buffer,y
			txa
			clc
.prev		sbc #0
			sta length_buffer,y
			stx .prev+1
			iny
			lda #0
			sta eor_buffer,x
			inx
			bne .loop
			sty SampleWriteIndex
			rts


The idea is that each 256 samples it automatically puts out one sample, then encodes the remainder as lengths from the previous, and stores the lengths and samples out.. Also clearing the eor-buffer as it goes..
I'm sure there's some big speedups in this bit.. I was starting to go blinding with this function though..

And finally the NMI code itself, although this is kind of obvious..
			!pseudopc $80 {
			sta+1 IRQ0_a
irq_sample_index	= * + 1
			lda sample_buffer
			sta $d418
			inc+1 irq_sample_index

irq_length_index	= * + 1
			lda length_buffer
			sta $dd06
			inc+1 irq_length_index

IRQ0_a		= * + 1
			lda #$00
			jmp $dd0c


The NMIs are setup so that they trigger at a fixed point, intialised just after the beginning of a scanline, which gives a nice spacing for badlines, and also for back to back samples (1 scanline) with badlines.. There's no science to the timing setup, just ears, and this works best to me..

Anyway, that's it really.. All the code to do this stuff :)
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