replace tabs with spacese

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~d6 2024-04-22 22:44:35 -04:00
parent 989db7f039
commit 6e3e5f5c81
1 changed files with 87 additions and 87 deletions

174
julia.tal
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@ -25,37 +25,37 @@
|0100 ( -> ) |0100 ( -> )
( set colors ) ( set colors )
#00ff .System/r DEO2 #00ff .System/r DEO2
#0ff0 .System/g DEO2 #0ff0 .System/g DEO2
#0f0f .System/b DEO2 #0f0f .System/b DEO2
( set window size ) ( set window size )
width #10 SFT2 .Screen/width DEO2 width #10 SFT2 .Screen/width DEO2
height #10 SFT2 .Screen/height DEO2 height #10 SFT2 .Screen/height DEO2
( starting c values ) ( starting c values )
#0630 ;evaluate/cx STA2 #f5e0 ;evaluate/cy STA2 #0630 ;evaluate/cx STA2 #f5e0 ;evaluate/cy STA2
;on-screen .Screen/vector DEO2 ;on-screen .Screen/vector DEO2
BRK BRK
@on-screen ( -> BRK ) @on-screen ( -> BRK )
#0000 DUP2 .Screen/x DEO2 .Screen/y DEO2 #0000 DUP2 .Screen/x DEO2 .Screen/y DEO2
draw-julia draw-julia
;evaluate/cx LDA2 ;evaluate/cx LDA2
DUP2 #2000 LTH2 ?&upx DUP2 #2000 LTH2 ?&upx
DUP2 #e000 GTH2 ?&upx DUP2 #e000 GTH2 ?&upx
#0000 ,&dx LDR2 SUB2 ,&dx STR2 #0000 ,&dx LDR2 SUB2 ,&dx STR2
&upx [ LIT2 &dx 0080 ] ADD2 SWP2 STA2 &upx [ LIT2 &dx 0040 ] ADD2 SWP2 STA2
;evaluate/cy LDA2k ;evaluate/cy LDA2k
DUP2 #2000 LTH2 ?&upy DUP2 #2000 LTH2 ?&upy
DUP2 #e000 GTH2 ?&upy DUP2 #e000 GTH2 ?&upy
#0000 ,&dy LDR2 SUB2 ,&dy STR2 #0000 ,&dy LDR2 SUB2 ,&dy STR2
&upy [ LIT2 &dy 0080 ] ADD2 SWP2 STA2 &upy [ LIT2 &dy 0040 ] ADD2 SWP2 STA2
BRK BRK
( logical width ) ( logical width )
@width ( -> w* ) @width ( -> w* )
@ -67,28 +67,28 @@
( draw the julia set using 4.12 fixed point numbers ) ( draw the julia set using 4.12 fixed point numbers )
@draw-julia ( -> ) @draw-julia ( -> )
XMAX XMIN SUB2 width DIV2 ,&dx STR2 ( ; &dx<-{xmax-min}/width ) XMAX XMIN SUB2 width DIV2 ,&dx STR2 ( ; &dx<-{xmax-min}/width )
YMAX YMIN SUB2 height DIV2 ,&dy STR2 ( ; &dy<-{ymax-ymin}/height ) YMAX YMIN SUB2 height DIV2 ,&dy STR2 ( ; &dy<-{ymax-ymin}/height )
[ LIT2 01 -Screen/auto ] DEO ( ; auto<-1 ) [ LIT2 01 -Screen/auto ] DEO ( ; auto<-1 )
LIT2r 8000 ( [8000] ) LIT2r 8000 ( [8000] )
YMAX YMIN ( ymax* ymin* [8000] ) YMAX YMIN ( ymax* ymin* [8000] )
&yloop ( ymax* y* [8000] ) &yloop ( ymax* y* [8000] )
XMAX XMIN ( ymax* y* xmax* xmin* [8000] ) XMAX XMIN ( ymax* y* xmax* xmin* [8000] )
&xloop ( ymax* y* xmax* x* [8000] ) &xloop ( ymax* y* xmax* x* [8000] )
ROT2k evaluate ( ymax* y* xmax* x* xmax* count^ [8000] ) ROT2k evaluate ( ymax* y* xmax* x* xmax* count^ [8000] )
draw-px POP2 ( ymax* y* xmax* x* [8000] ) draw-px POP2 ( ymax* y* xmax* x* [8000] )
[ LIT2 &dx $2 ] ADD2 ( ymax* y* xmax* x+dx* [8000] ) [ LIT2 &dx $2 ] ADD2 ( ymax* y* xmax* x+dx* [8000] )
OVR2 STH2kr ADD2 ( ymax* y* xmax* x+dx* 8000+xmax* [8000] ) OVR2 STH2kr ADD2 ( ymax* y* xmax* x+dx* 8000+xmax* [8000] )
OVR2 STH2kr ADD2 ( ymax* y* xmax* x+dx* 8000+xmax* 8000+x+dx* [8000] ) OVR2 STH2kr ADD2 ( ymax* y* xmax* x+dx* 8000+xmax* 8000+x+dx* [8000] )
GTH2 ?&xloop ( ymax* y* xmax* x+dx* [8000] ) GTH2 ?&xloop ( ymax* y* xmax* x+dx* [8000] )
POP2 POP2 ( ymax* y* [8000] ) POP2 POP2 ( ymax* y* [8000] )
#0000 .Screen/x DEO2 ( ymax* y* [8000] ; sc/x<-0 ) #0000 .Screen/x DEO2 ( ymax* y* [8000] ; sc/x<-0 )
.Screen/y ;inc2 adjust ( ymax* y* [8000] ; sc/y<-sy+1 ) .Screen/y ;inc2 adjust ( ymax* y* [8000] ; sc/y<-sy+1 )
[ LIT2 &dy $2 ] ADD2 ( ymax* y+dy* [8000] ) [ LIT2 &dy $2 ] ADD2 ( ymax* y+dy* [8000] )
OVR2 STH2kr ADD2 ( ymax* y+dy* 8000+ymax* [8000] ) OVR2 STH2kr ADD2 ( ymax* y+dy* 8000+ymax* [8000] )
OVR2 STH2kr ADD2 ( ymax* y+dy* 8000+ymax* 8000+y+dy* [8000] ) OVR2 STH2kr ADD2 ( ymax* y+dy* 8000+ymax* 8000+y+dy* [8000] )
GTH2 ?&yloop ( ymax* y+dy* [8000] ) GTH2 ?&yloop ( ymax* y+dy* [8000] )
POP2 POP2 POP2r JMP2r ( ) POP2 POP2 POP2r JMP2r ( )
( dithering pattern for 2x2 pixels: ) ( dithering pattern for 2x2 pixels: )
( ) ( )
@ -98,44 +98,44 @@
( |[p+3]/4 [px+1]/4| ) ( |[p+3]/4 [px+1]/4| )
( |[p+0]/4 [px+2]/4| ) ( |[p+0]/4 [px+2]/4| )
@draw-px ( px^ -> ) @draw-px ( px^ -> )
INCk INCk INC ( p+0 p+1 p+3 ) INCk INCk INC ( p+0 p+1 p+3 )
draw-quad draw-quad ( p+0 ; draw NW, NE ) draw-quad draw-quad ( p+0 ; draw NW, NE )
.Screen/y ;inc1 adjust ( ; y<-y+1 ) .Screen/y ;inc1 adjust ( ; y<-y+1 )
.Screen/x ;sub2 adjust ( ; x<-x-2 ) .Screen/x ;sub2 adjust ( ; x<-x-2 )
INCk INC SWP ( p+2 p+0 ) INCk INC SWP ( p+2 p+0 )
draw-quad draw-quad ( ; draw SW, SE ) draw-quad draw-quad ( ; draw SW, SE )
.Screen/y ;sub1 !adjust ( ; y<-y-1 ) .Screen/y ;sub1 !adjust ( ; y<-y-1 )
( draw one quadrant of a 2x2 area ) ( draw one quadrant of a 2x2 area )
@draw-quad ( p^ -> ) @draw-quad ( p^ -> )
#02 SFT .Screen/pixel DEO JMP2r ( ; pixel<-p/4 ) #02 SFT .Screen/pixel DEO JMP2r ( ; pixel<-p/4 )
( evaluate the julia function at one point ) ( evaluate the julia function at one point )
@evaluate ( x* y* -> count^ ) @evaluate ( x* y* -> count^ )
LIT2r 20 00 ( x* y* [20 00] ) LIT2r 20 00 ( x* y* [20 00] )
&loop ( x1* y1* [20 n^] ) &loop ( x1* y1* [20 n^] )
OVR2 square STH2 ( x1* y1* [20 n^ xx1*] ) OVR2 square STH2 ( x1* y1* [20 n^ xx1*] )
DUP2 square STH2 ( x1* y1* [20 n^ xx1* yy1*] ) DUP2 square STH2 ( x1* y1* [20 n^ xx1* yy1*] )
ADD2kr STH2r ( x1* y1* xx1+yy1* [20 n^ xx1* yy1*] ) ADD2kr STH2r ( x1* y1* xx1+yy1* [20 n^ xx1* yy1*] )
#4000 GTH2 ?&end2 ( x1* y1* [20 n^ xx1* yy1*] ) #4000 GTH2 ?&end2 ( x1* y1* [20 n^ xx1* yy1*] )
smul2 DUP2 ADD2 ( 2x1y1* [20 n^ xx1* yy1*] ) smul2 DUP2 ADD2 ( 2x1y1* [20 n^ xx1* yy1*] )
LIT2 [ &cy $2 ] ADD2 ( y2=2x1y1+cy* [20 n^ xx1* yy1*] ) LIT2 [ &cy $2 ] ADD2 ( y2=2x1y1+cy* [20 n^ xx1* yy1*] )
SUB2r STH2r ( y2* xx1-yy1* [20 n^] ) SUB2r STH2r ( y2* xx1-yy1* [20 n^] )
LIT2 [ &cx $2 ] ADD2 ( y2* x2=xx1-yy1+cx* [20 n^] ) LIT2 [ &cx $2 ] ADD2 ( y2* x2=xx1-yy1+cx* [20 n^] )
SWP2 INCr GTHkr STHr ?&loop ( x2* y2* [20 n+1^] ) SWP2 INCr GTHkr STHr ?&loop ( x2* y2* [20 n+1^] )
!&end1 ( x2* y2* [20 n+1^] ) !&end1 ( x2* y2* [20 n+1^] )
&end2 POP2r POP2r ( x* y* [20 count^] ) &end2 POP2r POP2r ( x* y* [20 count^] )
&end1 POP2 POP2 NIPr STHr JMP2r ( count^ ) &end1 POP2 POP2 NIPr STHr JMP2r ( count^ )
( is x a non-negative signed value? ) ( is x a non-negative signed value? )
@non-negative ( x* -> x* x>=0^ ) @non-negative ( x* -> x* x>=0^ )
DUP2 #8000 LTH2 JMP2r DUP2 #8000 LTH2 JMP2r
( multiply two signed 4.12 fixed point numbers ) ( multiply two signed 4.12 fixed point numbers )
@smul2 ( a* b* -> ab* ) @smul2 ( a* b* -> ab* )
LIT2r 0001 non-negative ?{ negate SWPr } ( a* |b|* [sign*] ) LIT2r 0001 non-negative ?{ negate SWPr } ( a* |b|* [sign*] )
SWP2 non-negative ?{ negate SWPr } ( |b|* |a|* [sign*] ) SWP2 non-negative ?{ negate SWPr } ( |b|* |a|* [sign*] )
smul2-pos STHr ?{ negate } POPr JMP2r ( ab* ) smul2-pos STHr ?{ negate } POPr JMP2r ( ab* )
( multiply two non-negative fixed point numbers ) ( multiply two non-negative fixed point numbers )
( ) ( )
@ -147,36 +147,36 @@
( y = a1b0 >> 4 ) ( y = a1b0 >> 4 )
( z = a0b1 >> 4 ) ( z = a0b1 >> 4 )
@smul2-pos ( a* b* -> ab* ) @smul2-pos ( a* b* -> ab* )
aerate ROT2 aerate ( b0* b1* a0* a1* ) aerate ROT2 aerate ( b0* b1* a0* a1* )
STH2 ROT2k STH2 MUL2r ( b0* b1* a0* b1* a0* [a1b0*] ) STH2 ROT2k STH2 MUL2r ( b0* b1* a0* b1* a0* [a1b0*] )
MUL2 STH2 ADD2r ( b0* b1* a0* [a1b0+a0b1*] ) MUL2 STH2 ADD2r ( b0* b1* a0* [a1b0+a0b1*] )
NIP2 MUL2 #07ff min #40 SFT2 ( a0b0* [y+z*] ) NIP2 MUL2 #07ff min #40 SFT2 ( a0b0* [y+z*] )
STH2r #04 SFT2 ADD2 ( x* [y+z*] ) STH2r #04 SFT2 ADD2 ( x* [y+z*] )
#7fff !min ( ab* ) #7fff !min ( ab* )
( equivalent to DUP2 smul2 but faster ) ( equivalent to DUP2 smul2 but faster )
@square ( a* -> aa* ) @square ( a* -> aa* )
non-negative ?{ negate } ( |a|* ) non-negative ?{ negate } ( |a|* )
aerate ( 00 ahi^ 00 alo^ ) aerate ( 00 ahi^ 00 alo^ )
OVR2 MUL2 #03 SFT2 SWP2 ( yz* ahi* ) OVR2 MUL2 #03 SFT2 SWP2 ( yz* ahi* )
DUP2 MUL2 #07ff min #40 SFT2 ( x* yz* ) DUP2 MUL2 #07ff min #40 SFT2 ( x* yz* )
ADD2 #7fff !min ( aa* ) ADD2 #7fff !min ( aa* )
( update a device d^ given a function f: x* -> f[x]* ) ( update a device d^ given a function f: x* -> f[x]* )
@adjust ( d^ f* -> ) @adjust ( d^ f* -> )
STH2 DEI2k STH2r JSR2 ROT DEO2 JMP2r STH2 DEI2k STH2r JSR2 ROT DEO2 JMP2r
( return the minimum of two non-negative numbers. ) ( return the minimum of two non-negative numbers. )
@min ( x* y* ) @min ( x* y* )
GTH2k [ JMP SWP2 ] NIP2 JMP2r GTH2k [ JMP SWP2 ] NIP2 JMP2r
( convert each byte of a a short into a short ) ( convert each byte of a a short into a short )
@aerate ( x* -> 00 xhi^ 00 xlo^ ) @aerate ( x* -> 00 xhi^ 00 xlo^ )
SWP #0000 ROT SWP2 SWP JMP2r SWP #0000 ROT SWP2 SWP JMP2r
( negate a fixed point number. doesn't work for #8000 ) ( negate a fixed point number. doesn't work for #8000 )
@negate ( x* -> -x* ) @negate ( x* -> -x* )
DUP2k EOR2 SWP2 SUB2 JMP2r DUP2k EOR2 SWP2 SUB2 JMP2r
( useful arithmetic operations ) ( useful arithmetic operations )
@inc2 ( n* -> n+2* ) INC2 @inc2 ( n* -> n+2* ) INC2