uxn/projects/examples/demos/mandelbrot.tal

( mandelbrot.tal )
( )
( by alderwick and d_m )

%WIDTH { #02a0 }
%HEIGHT { #0200 }
%XMIN { #de69 } ( -8601 )
%XMAX { #0b33 } ( 2867 )
%YMIN { #ecc7 } ( -4915 )
%YMAX { #1333 } ( 4915 )

|00 @System &vector $2 &wst $1 &rst $1 &eaddr $2 &ecode $1 &pad $1 &r $2 &g $2 &b $2 &debug $1 &halt $1
|20 @Screen &vector $2 &width $2 &height $2 &auto $1 &pad $1 &x $2 &y $2 &addr $2 &pixel $1 &sprite $1

|0100 ( -> )

	( theme )
	#0f0f .System/r DEO2
	#0ff0 .System/g DEO2
	#00ff .System/b DEO2

	( size )
	WIDTH  .Screen/width  DEO2
	HEIGHT .Screen/height DEO2

	( run )
	draw-mandel
	BRK

( draw the mandelbrot set using 4.12 fixed point numbers )
@draw-mandel ( -> )
	XMAX XMIN SUB2 WIDTH DIV2 ,&dx STR2  ( ; &dx<-{xmax-min}/width )
	YMAX YMIN SUB2 HEIGHT DIV2 ,&dy STR2 ( ; &dy<-{ymax-ymin}/height )
	[ LIT2 01 -Screen/auto ] DEO         ( ; auto<-1 )
	LIT2r 8000                           ( [8000] )
	YMAX YMIN                            ( ymax* ymin* [8000] )
	&yloop                               ( ymax* y* [8000] )
		XMAX XMIN                        ( ymax* y* xmax* xmin* [8000] )
		&xloop                           ( ymax* y* xmax* x* [8000] )
			ROT2k evaluate               ( ymax* y* xmax* x* xmax* count^ [8000] )
			.Screen/pixel DEO POP2       ( ymax* y* xmax* x* [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+x+dx* [8000] )
			GTH2 ?&xloop                 ( ymax* y* xmax* x+dx* [8000] )
		POP2 POP2                        ( ymax* y* [8000] )
		#0000 .Screen/x DEO2             ( ymax* y* [8000] ; sc/x<-0 )
		.Screen/y DEI2k                  ( ymax* y* d^ sy* [8000] )
		INC2 ROT DEO2                    ( ymax* y* [8000] ; sc/y<-sy+1 )
		[ 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+y+dy* [8000] )
		GTH2 ?&yloop                     ( ymax* y+dy* [8000] )
	POP2 POP2 POP2r JMP2r                ( )

@evaluate ( x* y* -> count^ )
	#0000 DUP2 ,&x1 STR2         ( x* y* ; x1<-0 )
		  DUP2 ,&y1 STR2         ( x* y* ; y1<-0 )
		  DUP2 ,&x2 STR2         ( x* y* ; x2<-0 )
			   ,&y2 STR2         ( x* y* ; y2<-0 )
	LIT2r 2000                   ( x* y* [20 00] )
	&loop                        ( x* y* [20 n^] )
		[ LIT2 &x1 $2 ]          ( x* y* x1* [20 n^] )
		[ LIT2 &y1 $2 ]          ( x* y* x1* y1* [20 n^] )
		smul2 DUP2 ADD2          ( x* y* 2x1y1* [20 n^] )
		OVR2 ADD2 ,&y1 STR2      ( x* y* [20 n^] ; y1<-2x1y1+y* )
		SWP2 [ LIT2 &x2 $2 ]     ( y* x* x2* [20 n^] )
		[ LIT2 &y2 $2 ] SUB2     ( y* x* x2-y2* [20 n^] )
		OVR2 ADD2 ,&x1 STR2 SWP2 ( x* y* [20 n^] ; x1<-x2-y2+x* )
		,&x1 LDR2 square         ( x* y* x1^2* [20 n^] )
		DUP2 ,&x2 STR2           ( x* y* x1^2* [20 n^] ; x2<-x1^2* )
		,&y1 LDR2 square         ( x* y* x1^2* y1^2* [20 n^] )
		DUP2 ,&y2 STR2           ( x* y* x1^2* y1^2* [20 n^] ; y2<-y1^2* )
		ADD2 #4000 GTH2 ?&end    ( x* y* [20 n^] )
		INCr GTHkr STHr ?&loop   ( x* y* [20 n+1*] )
	&end                         ( x* y* [20 count^] )
	POP2 POP2 NIPr STHr JMP2r    ( count^ )

( multiply two signed 4.12 fixed point numbers )
@smul2 ( a* b* -> ab* )
	LIT2r 0001 DUP2 #8000 LTH2 ?&bpos negate SWPr ( a* |b|* [sign*] )
	&bpos SWP2 DUP2 #8000 LTH2 ?&apos negate SWPr ( |b|* |a|* [sign*] )
	&apos smul2-pos STHr ?&abpos negate           ( ab* [scrap^] )
	&abpos POPr JMP2r                             ( ab* )

( multiply two non-negative fixed point numbers )
( )
( a * b = {a0/16 + a1/4096} * {b0/16 + b1/4096} )
(       = a0b0/256 + a1b0/65536 + a0b1/65536 + a1b1/16777216 )
(       = x + y + z + 0 ; the last term is too small to represent, i.e. zero )
( )
( x = a0b0 << 4 )
( y = a1b0 >> 4 )
( z = a0b1 >> 4 )
@smul2-pos ( a* b* -> ab* )
	aerate ROT2 aerate           ( b0* b1* a0* a1* )
	STH2 ROT2k                   ( b0* b1* a0* b1* a0* b0* [a1*] )
	STH2 MUL2r                   ( b0* b1* a0* b1* a0* [a1b0*] )
	MUL2 STH2 ADD2r              ( b0* b1* a0* [a1b0+a0b1*] )
	NIP2 MUL2 #07ff min #40 SFT2 ( a0b0* [y+z*] )
	STH2r #04 SFT2 ADD2          ( x* [y+z*] )
	#7fff !min                   ( ab* )

( equivalent to DUP2 smul2 but faster )
@square ( a* -> aa* )
	DUP2 #8000 LTH2 ?&pos negate &pos

( >> )

( equivalent to DUP2 smul2-pos but faster )
@square-pos ( a* -> aa* )
	aerate                       ( 00 ahi^ 00 alo^ )
	OVR2 MUL2 #03 SFT2 SWP2      ( yz* ahi* )
	DUP2 MUL2 #07ff min #40 SFT2 ( x* yz* )
	ADD2 #7fff !min              ( aa* )

( convert each byte of a a short into a short )
@aerate ( x* -> 00 xhi^ 00 xlo^ ) SWP #0000 ROT SWP2 SWP JMP2r

( negate a fixed point number. doesn't work for #8000 )
@negate ( x* -> -x* ) DUP2k EOR2 SWP2 SUB2 JMP2r

( return the minimum of two non-negative numbers. )
@min ( x* y* ) GTH2k [ JMP SWP2 ] NIP2 JMP2r