mirror of
https://github.com/a2-4am/4cade.git
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add vertical blinds effect
This commit is contained in:
parent
33b5b65cd3
commit
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@ -1 +1 @@
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RIPPLE
STAR.IN
SOFT.DIAGONAL
STAGGERWHITE.UD
RADIAL
STAGGER.LR
SOFT.UD
HEART.IN
CRYSTAL
STAR.RIPPLE
BIT.FIZZLE
APPLE.IN
MEETINTHEMIDDLE
FLOWER.RAD.RIP
SOFT.IRIS
W.RIPPLE.BLOOM
DIAGONAL
MANDELBROT.IN
CORNER.SUPERRIP
STAR
FLOWER.IN
R.BY.PIXEL
WAVY.IRIS
APPLE
SUNRISE
MANDELBROT.RIP
SOFT.L
HEART.RIPPLE
SUNSET
FLOWER.RAD
SLOW.STAR.IN
IRIS.IN
BUTTERFLYRIPPLE
W.IRIS.BLOOM.IN
CORNER.CIRCLE
CENTER.BY.PIXEL
SNOWFLAKE.IN
FLOWER
APPLE.RIPPLE
DIAGONAL2
RIPPLE2
STAR.BLOOM
PALETTE.FIZZLE
RADIAL2
BUTTERFLY
FLOWER.RIPPLE
SPLIT.UD.INTRO
WAVY.IRIS.IN
R.BY.2
HALF.FIZZLE
SNOWFLAKE.RIP
RADIAL3
HEART
FLOWER.RAD.IN
DIAGONAL3
MANDELBROT
WAVY.RIPPLE
CORNER4.OUT
LATTICE
BAR.DISSOLVE
R.BY.PALETTE
FOURSPIRAL
SOFT.R
MAPLE.IN
IRIS
CASCADE
SNOWFLAKE
AND
BUTTERFLY.IN
CHECKERBOARD
LR.BY.PIXEL
RADIAL4
CHECKER.FIZZLE
STAGGERWHITE.LR
SOFT.UD.OUT
ONESQUARE
W.IRIS.BLOOM
MAPLE
FIZZLE
SLOW.STAR
ARROW.WHITE
TRI.FIZZLE
SOFT.IRIS.IN
DIAMOND
TWOPASS.LR
HALF.MOSAIC
RADIAL5
ARROW
FOURSQUARE
BLOCK.FIZZLE
DIAGONAL4
STAGGER.UD
INTERLOCK.LR
SOFT.UD.IN
BLOCK.MOSAIC
CORNER4.IN
MAPLE.RIPPLE
INTERLOCK.UD
LITTLE.BOXES
SPIRAL
WAVY.CORNER
[eof]
#
# transition effects for HGR slideshows
#
# Each Mega-Attract Module that is an HGR slideshow (see attract.conf)
# will use a single transition effect for the length of the module.
# Transition effects are loaded in the order listed in this file. Each line
# of this file is a filename (not including comments, like this one). The
# name of the next transition effect is stored in the global prefs, so this
# file should not contain duplicates.
#
# Transition effects are binary files loaded at $6000 and called with
# hi-res page 1 showing and the next HGR graphic already loaded at $4000.
# A transition effect can use $6000-$BFFF in main memory, zero page, and
# text page if needed (but preserve the screen holes). $800-$1FFF is reserved
# for the slideshow data. LC RAM banks 1 and 2 are reserved for the launcher.
#
# Important: LC RAM bank 1 will be read/write on entry and must be read/write
# on exit. If you need ROM routines, you are responsible for switching to ROM
# then switching back to RAM bank 1 (read/write) before returning.
#
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VERTICAL.BLINDS
#
RIPPLE
STAR.IN
SOFT.DIAGONAL
STAGGERWHITE.UD
RADIAL
STAGGER.LR
SOFT.UD
HEART.IN
CRYSTAL
STAR.RIPPLE
BIT.FIZZLE
APPLE.IN
MEETINTHEMIDDLE
FLOWER.RAD.RIP
SOFT.IRIS
W.RIPPLE.BLOOM
DIAGONAL
MANDELBROT.IN
CORNER.SUPERRIP
STAR
FLOWER.IN
R.BY.PIXEL
WAVY.IRIS
APPLE
SUNRISE
MANDELBROT.RIP
SOFT.L
HEART.RIPPLE
SUNSET
FLOWER.RAD
SLOW.STAR.IN
IRIS.IN
BUTTERFLYRIPPLE
W.IRIS.BLOOM.IN
CORNER.CIRCLE
CENTER.BY.PIXEL
SNOWFLAKE.IN
FLOWER
APPLE.RIPPLE
DIAGONAL2
RIPPLE2
STAR.BLOOM
PALETTE.FIZZLE
RADIAL2
BUTTERFLY
FLOWER.RIPPLE
SPLIT.UD.INTRO
WAVY.IRIS.IN
R.BY.2
HALF.FIZZLE
SNOWFLAKE.RIP
RADIAL3
HEART
FLOWER.RAD.IN
DIAGONAL3
MANDELBROT
WAVY.RIPPLE
CORNER4.OUT
LATTICE
BAR.DISSOLVE
R.BY.PALETTE
FOURSPIRAL
SOFT.R
MAPLE.IN
IRIS
CASCADE
SNOWFLAKE
VERTICAL.BLINDS
BUTTERFLY.IN
CHECKERBOARD
LR.BY.PIXEL
RADIAL4
CHECKER.FIZZLE
STAGGERWHITE.LR
SOFT.UD.OUT
ONESQUARE
W.IRIS.BLOOM
MAPLE
FIZZLE
SLOW.STAR
ARROW.WHITE
TRI.FIZZLE
SOFT.IRIS.IN
DIAMOND
TWOPASS.LR
HALF.MOSAIC
RADIAL5
ARROW
FOURSQUARE
BLOCK.FIZZLE
DIAGONAL4
STAGGER.UD
INTERLOCK.LR
SOFT.UD.IN
BLOCK.MOSAIC
CORNER4.IN
MAPLE.RIPPLE
INTERLOCK.UD
LITTLE.BOXES
SPIRAL
WAVY.CORNER
[eof]
#
# transition effects for HGR slideshows
#
# Each Mega-Attract Module that is an HGR slideshow (see attract.conf)
# will use a single transition effect for the length of the module.
# Transition effects are loaded in the order listed in this file. Each line
# of this file is a filename (not including comments, like this one). The
# name of the next transition effect is stored in the global prefs, so this
# file should not contain duplicates.
#
# Transition effects are binary files loaded at $6000 and called with
# hi-res page 1 showing and the next HGR graphic already loaded at $4000.
# A transition effect can use $6000-$BFFF in main memory, zero page, and
# text page if needed (but preserve the screen holes). $800-$1FFF is reserved
# for the slideshow data. LC RAM banks 1 and 2 are reserved for the launcher.
#
# Important: LC RAM bank 1 will be read/write on entry and must be read/write
# on exit. If you need ROM routines, you are responsible for switching to ROM
# then switching back to RAM bank 1 (read/write) before returning.
#
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@ -1,44 +0,0 @@
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;license:MIT
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;(c) 2018 by 4am
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;
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!cpu 6502
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!to "build/FX/AND",plain
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*=$6000
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i = $ff
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lda #$06
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sta i
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@outerloop
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dec i
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bpl +
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@exit rts
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+ ldx i
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lda masks,x
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sta @mask
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ldx #$40
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stx @src
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ldx #$20
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stx @dest
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ldy #0
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@innerloop
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@src=*+2
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lda $FD00,y ; SMC
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@mask=*+1
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and #$FD ; SMC
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@dest=*+2
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sta $FD00,y ; SMC
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iny
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bne @innerloop
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inc @src
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inc @dest
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dex
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bne @innerloop
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lda #$30
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jsr WaitForKeyWithTimeout
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bmi @exit
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bpl @outerloop ; always branches
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masks
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!byte $FF,$BF,$9F,$8F,$87,$83,$81
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!source "src/wait.a"
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!source "src/fx/fx.hgr.common.a"
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259
src/fx/fx.hgr.vertical.blinds.a
Executable file
259
src/fx/fx.hgr.vertical.blinds.a
Executable file
@ -0,0 +1,259 @@
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;license:MIT
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;(c) 2019 by qkumba
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;
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!cpu 6502
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!to "build/FX/VERTICAL.BLINDS",plain
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*=$6000
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ldx #0
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clc
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;build pre-shift tables
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- txa
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and #%11111100
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sta tbl00000000a,x
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adc #1
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sta tbl00000001,x
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adc #1
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sta tbl00000010,x
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adc #1
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sta tbl00000011,x
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txa
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and #%11110011
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sta tbl00000000b,x
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ora #%00000100
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sta tbl00000100,x
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adc #4
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sta tbl00001000,x
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adc #4
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sta tbl00001100,x
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txa
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and #%11001111
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sta tbl00000000c,x
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ora #%00010000
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sta tbl00010000,x
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adc #16
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sta tbl00100000,x
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adc #16
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sta tbl00110000,x
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txa
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and #%00111111
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sta tbl00000000d,x
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ora #%01000000
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sta tbl01000000,x
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adc #64
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sta tbl10000000,x
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adc #64
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sta tbl11000000,x
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;build index table
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txa
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and #3
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adc #>tbl00000000a
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sta tblx00,x
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txa
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lsr
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lsr
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pha
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and #3
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clc
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adc #>tbl00000000b
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sta tblx01,x
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pla
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lsr
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lsr
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pha
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and #3
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clc
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adc #>tbl00000000c
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sta tblx02,x
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pla
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lsr
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lsr
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clc
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adc #>tbl00000000d
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sta tblx03,x
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inx
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bne -
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stx $26
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lda #$20
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sta $27
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stx $fe
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lda #>shift
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sta $ff
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lda #>tblx03
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sta patchtbl + 1
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lda #<(shift + 2)
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sta loop1 + 6
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lda #>(shift + 2)
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sta loop1 + 7
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;generate unrolled rotate-left code
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lda #4
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sta $fd
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-- ldx #0
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ldy #0
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lda #$a2
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sta ($fe),y
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iny
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lda #0
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sta ($fe),y
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clc
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- ldy #2
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lda #$bc
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sta ($fe),y
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iny
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lda $26
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sta ($fe),y
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iny
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lda $27
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eor #$60
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sta ($fe),y
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iny
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lda #$b9
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sta ($fe),y
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iny
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lda #0
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sta ($fe),y
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iny
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patchtbl
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lda #>tblx00
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sta ($fe),y
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iny
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lda #$8d
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sta ($fe),y
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iny
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lda $fe
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adc #16
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sta ($fe),y
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iny
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lda $ff
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adc #0
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sta ($fe),y
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iny
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lda #$bc
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sta ($fe),y
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iny
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lda $26
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sta ($fe),y
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iny
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lda $27
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sta ($fe),y
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iny
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lda #$b9
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sta ($fe),y
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iny
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lda #0
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sta ($fe),y
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iny
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iny
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lda #$9d
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sta ($fe),y
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iny
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lda $26
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sta ($fe),y
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iny
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lda $27
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sta ($fe),y
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lda #18
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adc $fe
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sta $fe
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bcc +
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inc $ff
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+ jsr nextline
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inx
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cpx #<$c0
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bne -
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;copy loop1 code
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ldy #2
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- lda loop1 - $c0,x
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sta ($fe),y
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inx
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iny
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cpx #<($c0 + (loop1_e - loop1))
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bne -
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lda $fe
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clc
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adc #(loop1_e - loop1) + 2
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sta $fe
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bcc +
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inc $ff
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+ adc #2
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sta loop1 + 6
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lda $ff
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adc #0
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sta loop1 + 7
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dec patchtbl + 1
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dec $fd
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beq +
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jmp --
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+ ldy #0
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lda #$60
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sta ($fe),y
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jmp shift
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loop1 inx
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cpx #$28
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beq +
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jmp shift + 2
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+
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loop1_e
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nextline
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clc
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lda $27
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adc #4
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bit x1c
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bne +
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asl $26
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bcc ++
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adc #$e0
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clc
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bit x04
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beq +++
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lda $26
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adc #$50
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eor #$f0
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beq ++++
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eor #$f0
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++++ sta $26
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lda #$20
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bcc +++
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++ adc #$e0
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+++ ror $26
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+ sta $27
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rts
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x1c !byte $1c
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x04 !byte $04
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tblx00 = (loop1_e + 255) and -256
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tblx01 = tblx00 + 256
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tblx02 = tblx01 + 256
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tblx03 = tblx02 + 256
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tbl00000000a = tblx03 + 256
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tbl00000001 = tbl00000000a + 256
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tbl00000010 = tbl00000001 + 256
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tbl00000011 = tbl00000010 + 256
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tbl00000000b = tbl00000011 + 256
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tbl00000100 = tbl00000000b + 256
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tbl00001000 = tbl00000100 + 256
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tbl00001100 = tbl00001000 + 256
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tbl00000000c = tbl00001100 + 256
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tbl00010000 = tbl00000000c + 256
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tbl00100000 = tbl00010000 + 256
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tbl00110000 = tbl00100000 + 256
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tbl00000000d = tbl00110000 + 256
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tbl01000000 = tbl00000000d + 256
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tbl10000000 = tbl01000000 + 256
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tbl11000000 = tbl10000000 + 256
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shift = tbl11000000 + 256
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