dos33fsprogs/graphics/hgr/bubble/bubble.s
2024-01-02 16:20:43 -05:00

485 lines
9.3 KiB
ArmAsm

; bubble universe -- Apple II Hires
; original = 612 bytes
; clear screen:
; bkgnd0 = $44198 = 278936 cycles = max ~4fps
; new: $A616 = 42518 = max ~22fps
; hplot
; hplot0 = ($14E-$15C) $14E = 334 * 1024 = 342016 = max ~3fps
; lookup = 46 * 1024 = 47104 = max ~21fps
; after fast graphics
; D7E77(??) = 884343 = 1.1fps
; DD06E = (made J countdown, why longer?)
; DB584 = destructive U when plotting
; D57A2 = rotate right instead of left for HPLOT *32 (U)
; D1D53 = same byt for V
; C2679 = optimize sine, don't care about bottom byte in addition
; AB2FC = optimize sine, keep H value in accumulator = 1.4fps
; A9A38 = optimize cosine slightly
; A50BF = use lookup table for sine sign (takes 256 more bytes)
; 9F673 = clear screen, only clear X region we use
; 9DD73 = clear screen, only clear Y region we use
; 906FE = inline/unroll the sines
; TODO: inline/unroll sine/cosine calls
; soft-switches
KEYPRESS = $C000
KEYRESET = $C010
PAGE1 = $C054
PAGE2 = $C055
; ROM routines
BKGND0 = $F3F4 ; clear current page to A
HGR2 = $F3D8 ; set hires page2 and clear $4000-$5fff
HGR = $F3E2 ; set hires page1 and clear $2000-$3fff
HPLOT0 = $F457 ; plot at (Y,X), (A)
HLINRL = $F530 ; line to (X,A), (Y)
HCOLOR1 = $F6F0 ; set HGR_COLOR to value in X
COLORTBL = $F6F6
WAIT = $FCA8 ; delay 1/2(26+27A+5A^2) us
; zero page
GBASL = $26
GBASH = $27
HPLOTXL = $90
HPLOTXH = $91
HPLOTYL = $92
HPLOTYH = $93
IVL = $94
IVH = $95
RXL = $96
RXH = $97
OUT1L = $98
OUT1H = $99
OUT2L = $9A
OUT2H = $9B
STEMP1L = $9C
STEMP1H = $9D
STEMP2L = $9E
STEMP2H = $9F
I = $D0
J = $D1
XL = $D4
XH = $D5
VL = $D6
VH = $D7
TL = $DA
TH = $DB
UL = $DC
UH = $DD
HGR_PAGE = $E6
; const
NUM = 32
bubble:
;========================
; setup lookup tables
jsr hgr_make_tables
;=======================
; init graphics
jsr HGR
jsr HGR2
;=======================
; init variables
lda #0
sta XL
sta XH
sta VL
sta VH
sta TL
sta TH
;=========================
;=========================
; main loop
;=========================
;=========================
next_frame:
;===========================
; "fast" clear screen
; FIXME: inline to save 12 cycles
jsr hgr_clear_part
; FIXME: see value of X after clear
ldx #0 ; 2
stx I ; 3
outer_loop:
;===========================================================
; setup R*I to inner loop
; save NUM*4 (128) cycles at expense of 11 cycles
ldx I ; 3
lda rl,X ; 4
sta rl_smc+1 ; 4
; countdown NUM times
ldx #NUM ; 2
stx J ; 3
inner_loop:
; fixed_add(rh[i],rl[i],xh,xl,&rxh,&rxl);
; note: rh is always 0
; pre-calc (R*I)+X for later use
clc ; 2
rl_smc:
lda #0 ; R*I ; 2
adc XL ; 3
sta RXL ; 3
; 8 cycles to always add 0 for high byte
; since we're also copying can't save time by branching if no carry
; 3 if no carry / 2+5=7 if carry for branch/check
lda #0 ; 2
adc XH ; 3
sta RXH ; 3
no_rl_carry:
; fixed_add(i,0,vh,vl,&ivh,&ivl);
; precalc I+V for later use
; this is 8.8 fixed point so bottom byte of I is 0
; clc ; C should be 0 from prev ;
lda VL ; 3
sta IVL ; 3
lda I ; 3
adc VH ; 3
sta IVH ; 3
; U=SIN(I+V)+SIN(RR+X)
; ldy #0
lda IVL ; 3
sta STEMP1L ; 3
lda IVH ; 3
; jsr sin
.include "sin_unrolled.s"
lda sin_table_low,X ; 4
sta OUT1L ; 3
lda sin_table_high,X ; 4
sta OUT1H ; 3
; ldy #2
lda RXL ; 3
sta STEMP1L ; 3
lda RXH ; 3
; jsr sin
.include "sin_unrolled.s"
; lda sin_table_low,X ; 4
; sta OUT1L ; 3
; lda sin_table_high,X ; 4
; sta OUT1H ; 3
clc
lda OUT1L
adc sin_table_low,X
sta UL
lda OUT1H
adc sin_table_high,X
sta UH
; V=COS(I+V)+COS(RR+X)
ldy #0
jsr cos
ldy #2
jsr cos
clc
lda OUT1L
adc OUT2L
sta VL
lda OUT1H
adc OUT2H
sta VH
; X=U+T
clc ; 2
lda UL ; 3
adc TL ; 3
sta XL ; 3
lda UH ; 3
adc TH ; 3
sta XH ; 3
; HPLOT 32*U+140,32*V+96
; U can be destroyed as we don't use it again?
; 01234567 89ABCDEF
; 56789ABC DEF00000
; we want 56789ABC, rotate right by 3 is two iterations faster?
lda UL ; 3
lsr UH ; 5
ror ; 2
lsr UH ; 5
ror ; 2
lsr UH ; 5
ror ; 2
clc ; 2
adc #140 ; 2
tax ; 2
; calculate Ypos
lda VH
sta HPLOTYL
lda VL
lsr HPLOTYL
ror
lsr HPLOTYL
ror
lsr HPLOTYL
ror
clc
adc #96
; "fast" hplot, Xpos in X, Ypos in A
tay ; 2
lda hposn_low,Y ; 4
sta GBASL ; 3
clc ; 2
lda hposn_high,Y ; 4
adc HGR_PAGE ; 3
sta GBASH ; 3
; 21
ldy div7_table,X ; 4
lda mod7_table,X ; 4
tax ; 2
; 31
lda (GBASL),Y ; 5
ora log_lookup,X ; 4
sta (GBASL),Y ; 6
; 46
dec J ; 5
bmi done_j ; 2/3
jmp inner_loop ; 3
; bpl inner_loop
done_j:
inc I ; 5
lda I ; 3
cmp #NUM ; 2
beq done_i ; 2/3
jmp outer_loop ; 3
done_i:
; t=t+(1.0/32.0);
; 1/2 1/4 1/8 1/16 | 1/32 1/64 1/128 1/256
; $0x08
; carry always set here as we got here from a BEQ
; (bcs=bge, bcc=blt)
; clc ; 2
lda TL ; 3
; adc #$8 ; 2
adc #$7 ; really 8, carry always set ; 2
sta TL ; 3
lda #0 ; 2
adc TH ; 3
sta TH ; 3
end:
; flip pages
; if $20 (draw PAGE1) draw PAGE2, SHOW page1
; if $40 (draw PAGE2) draw PAGE1, SHOW page2
lda HGR_PAGE
eor #$60
sta HGR_PAGE
cmp #$40
bne flip2
flip1:
bit PAGE1
jmp next_frame
flip2:
bit PAGE2
jmp next_frame
;=======================
sin:
; / 6.28 is roughly the same as *0.16
; = .5 .25 .125 .0625 .03125
; 1/6.28 = 0.16 = 0 0 1 0 1 0 0 0 = 0x28
; i=(i*0x28)>>8;
lda IVL,Y ; note, uses absolute as no ZP equiv ; 4
sta STEMP1L ; 3
lda IVH,Y ; 4
already_loaded:
; A has STEMP1H
; i2=i<<3;
asl STEMP1L ; 5
rol ; 2
asl STEMP1L ; 5
rol ; 2
asl STEMP1L ; 5
rol ; 2
; i1=i<<5;
ldx STEMP1L ; 3
stx STEMP2L ; 3
sta STEMP1H ; 3
asl STEMP2L ; 5
rol ; 2
asl STEMP2L ; 5
rol ; 2
; i=(i1+i2)>>8;
; We ignore the low byte as we don't need it
; possibly inaccurate as we don't clear carry?
adc STEMP1H ; 2
tax ; 2
; sl=fsinh[i];
; tradeoff size for speed by having lookup
; table for sign bits
; the sign lookup only saves like 2 cycles
lda sin_table_low,X ; 4+
sta OUT1L,Y ; 5
lda sin_table_high,X ; 4+
sta OUT1H,Y ; 5
rts ; 6
;=============================
cos:
; 1.57 is roughly 0x0192 in 8.8
clc ; 2
lda IVL,Y ; 4
adc #$92 ; 2
sta STEMP1L ; 3
lda IVH,Y ; 4
adc #1 ; 2
; sta STEMP1H ; 3
jmp already_loaded ; 3
.include "hgr_clear_part.s"
.include "hgr_table.s"
.align $100
sin_table_low:
.byte $00,$06,$0C,$12,$19,$1F,$25,$2B,$31,$38,$3E,$44,$4A,$50,$56,$5C
.byte $61,$67,$6D,$73,$78,$7E,$83,$88,$8E,$93,$98,$9D,$A2,$A7,$AB,$B0
.byte $B4,$B9,$BD,$C1,$C5,$C9,$CD,$D1,$D4,$D8,$DB,$DE,$E1,$E4,$E7,$E9
.byte $EC,$EE,$F0,$F3,$F4,$F6,$F8,$F9,$FB,$FC,$FD,$FE,$FE,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FE,$FE,$FD,$FC,$FB,$F9,$F8,$F6,$F5,$F3,$F1,$EE
.byte $EC,$EA,$E7,$E4,$E1,$DE,$DB,$D8,$D5,$D1,$CD,$C9,$C6,$C2,$BD,$B9
.byte $B5,$B0,$AC,$A7,$A2,$9D,$98,$93,$8E,$89,$83,$7E,$78,$73,$6D,$68
.byte $62,$5C,$56,$50,$4A,$44,$3E,$38,$32,$2C,$25,$1F,$19,$13,$0C,$06
.byte $00,$FB,$F4,$EE,$E8,$E2,$DB,$D5,$CF,$C9,$C3,$BD,$B7,$B1,$AB,$A5
.byte $9F,$99,$93,$8E,$88,$83,$7D,$78,$73,$6D,$68,$63,$5E,$5A,$55,$50
.byte $4C,$47,$43,$3F,$3B,$37,$33,$30,$2C,$29,$25,$22,$1F,$1C,$19,$17
.byte $14,$12,$10,$0E,$0C,$0A,$08,$07,$06,$04,$03,$02,$02,$01,$01,$01
.byte $01,$01,$01,$01,$02,$02,$03,$04,$05,$07,$08,$0A,$0B,$0D,$0F,$11
.byte $14,$16,$19,$1C,$1E,$21,$25,$28,$2B,$2F,$32,$36,$3A,$3E,$42,$47
.byte $4B,$4F,$54,$59,$5E,$62,$67,$6C,$72,$77,$7C,$82,$87,$8D,$92,$98
.byte $9E,$A4,$AA,$AF,$B5,$BB,$C2,$C8,$CE,$D4,$DA,$E0,$E7,$ED,$F3,$F9
sin_table_high:
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00
.byte $00,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
.byte $FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF,$FF
rl:
.byte $00,$06,$0C,$12,$19,$1F,$25,$2B
.byte $32,$38,$3E,$45,$4B,$51,$57,$5E
.byte $64,$6A,$71,$77,$7D,$83,$8A,$90
.byte $96,$9D,$A3,$A9,$AF,$B6,$BC,$C2
log_lookup:
.byte $81,$82,$84,$88,$90,$A0,$C0,$80