corelib: restore new PUTPIXEL implementation

2026-02-01 22:46:18 +01:00 · 2026-02-01 22:46:18 +01:00 · 885e50c1c0
commit 885e50c1c0
parent f90d52926f
1 changed files with 34 additions and 156 deletions
--- a/lib/corelib.s
+++ b/lib/corelib.s
@ -706,108 +706,32 @@ CMPWORDS_XT2:
 	.EQU FB_PS	$90C
 	.EQU FB_PD	$910
 	.EQU FB_CTL	$914
-; set a pixel in fb memory
+	.EQU FB_SHIFTER $918
-; parameters: x,y - coordinates
+	.EQU FB_SHIFTCOUNT $91C
-PUTPIXEL_1BPP:
+	.EQU FB_SHIFTERM $920
-	; calculate vmem address:
+	.EQU FB_SHIFTERSP $924
-	OVER ; duplicate x
+	.EQU FB_MASKGEN $928
 	; divide x by 32
 	SHR
 	SHR
 	SHR
 	SHR
 	SHR
 	SWAP
 	; multiply y by words per line
 	SHL 2
 	SHL 2
 	SHL
-	ADD ; add results together for vmem addr
+; draw a single pixel
 ; args: x, y, color
 	DUP
 	LOADCP FB_WA
 	SWAP
 	STOREI	; store to framebuffer write addr register
 	DROP
 	LOADCP FB_RA ; and to framebuffer read addr register
 	SWAP
 	STOREI
 	DROP
 	; x is now at top of stack
 	; get bit value from x modulo 32
 	LOADC 31
 	AND
 	SHL 2 ; (x & 31) * 4 = offset into table
 	LOADCP INT_TO_PIX_TABLE
 	ADD
 	LOADI
 	LOADCP FB_IO
 	; read old vmem value
 	LOADCP FB_IO
 	LOADI
 	; or in new bit
 	OR
 	; write new value
 	STOREI
 	DROP
 	RET
 INT_TO_PIX_TABLE:
 	.WORD %10000000_00000000_00000000_00000000
 	.WORD %01000000_00000000_00000000_00000000
 	.WORD %00100000_00000000_00000000_00000000
 	.WORD %00010000_00000000_00000000_00000000
 	.WORD %00001000_00000000_00000000_00000000
 	.WORD %00000100_00000000_00000000_00000000
 	.WORD %00000010_00000000_00000000_00000000
 	.WORD %00000001_00000000_00000000_00000000
 	.WORD %00000000_10000000_00000000_00000000
 	.WORD %00000000_01000000_00000000_00000000
 	.WORD %00000000_00100000_00000000_00000000
 	.WORD %00000000_00010000_00000000_00000000
 	.WORD %00000000_00001000_00000000_00000000
 	.WORD %00000000_00000100_00000000_00000000
 	.WORD %00000000_00000010_00000000_00000000
 	.WORD %00000000_00000001_00000000_00000000
 	.WORD %00000000_00000000_10000000_00000000
 	.WORD %00000000_00000000_01000000_00000000
 	.WORD %00000000_00000000_00100000_00000000
 	.WORD %00000000_00000000_00010000_00000000
 	.WORD %00000000_00000000_00001000_00000000
 	.WORD %00000000_00000000_00000100_00000000
 	.WORD %00000000_00000000_00000010_00000000
 	.WORD %00000000_00000000_00000001_00000000
 	.WORD %00000000_00000000_00000000_10000000
 	.WORD %00000000_00000000_00000000_01000000
 	.WORD %00000000_00000000_00000000_00100000
 	.WORD %00000000_00000000_00000000_00010000
 	.WORD %00000000_00000000_00000000_00001000
 	.WORD %00000000_00000000_00000000_00000100
 	.WORD %00000000_00000000_00000000_00000010
 	.WORD %00000000_00000000_00000000_00000001
 PUTMPIXEL:
 	LOADC 1
 ; set a pixel in fb memory
 ; parameters: x,y,color - coordinates, color value (0-15)
 PUTPIXEL:
 PUTPIXEL_4BPP:
 	.EQU PUTPIXEL_X 0
 	.EQU PUTPIXEL_Y 4
 	.EQU PUTPIXEL_COLOR 8
-	.EQU PUTPIXEL_PIXPOS 12
+	.EQU PUTPIXEL_BPSAV 12
 	.EQU PUTPIXEL_FS 16
 	FPADJ -PUTPIXEL_FS
 	STORE PUTPIXEL_COLOR
 	STORE PUTPIXEL_Y
 	STORE PUTPIXEL_X
 	LOADREG BP
 	STORE PUTPIXEL_BPSAV
 	LOADC 0
 	STOREREG BP
 	; calculate vmem address: (x / 8) + (y * 80)
 	LOAD PUTPIXEL_X
@ -826,83 +750,37 @@ PUTPIXEL_4BPP:
 	ADD ; add results together for vmem addr
-	LOADCP FB_WA
+	DUP
-	OVER
+	STORE.B FB_WA	; set as write and read addresses
-	STOREI	; store to framebuffer write addr register
+	STORE.B FB_RA
 	DROP
 	LOADCP FB_RA ; and to framebuffer read addr register
 	SWAP	; swap addr and value for STOREI
 	STOREI
 	DROP
 	LOAD PUTPIXEL_X
 	;		|0000.0000|0000.0000|0000.0000|0000.1111|
 	LOADC 7
 	AND		; calculate pixel position in word
 	LOADC 7
 	SWAP
 	SUB		; pixpos = 7 - (x & 7)
 	STORE PUTPIXEL_PIXPOS
 	; create pixel data from color value in
 	; leftmost pixel data bits (31-28)
 	LOADC 0
 	LOAD PUTPIXEL_COLOR
-	LOAD PUTPIXEL_PIXPOS
+	BPLC
 	SHR		; rcount = pixpos / 2
 ROTLOOP_:
 	DUP		; exit loop if rcount is 0
 	CBRANCH.Z ROTLOOP_END
 	SWAP		; pixel value is now on top of stack
 	BROT		; value = value << 8
 	SWAP		; rcount is now on top of stack
 	DEC 1		; rcount = rcount - 1
 	BRANCH ROTLOOP_
 ROTLOOP_END:
 	DROP		; drop rcount
 	; shifted pixel value is now at top of stack
 	LOAD PUTPIXEL_PIXPOS
 	LOADC 1
 	AND
 	CBRANCH.Z EVEN_PIXPOS
 	SHL 2	; if pixpos is odd, shift by 4 bits
 	SHL 2
-EVEN_PIXPOS:
+	SHL 2
-	LOAD PUTPIXEL_X
+	STORE.B FB_SHIFTER	; store pixel into shifter
 	; get bit value from x modulo 8
 	LOADC 7
 	AND
 	SHL 2 ; (x & 7) * 4 = offset into table
 	LOADCP INT_TO_MASK_TABLE
 	ADD
 	LOADI
-	; read old vmem value
+	LOAD PUTPIXEL_X 	; use x coord as shift count
-	LOADCP FB_IO
+	STORE.B FB_SHIFTCOUNT	; writing triggers shifting
 	LOADI
 	; mask bits
 	AND
 	; or in shifted pixel value
 	OR
-	; write new value
+	LOAD.B FB_SHIFTERM	; get shift result as mask
-	LOADCP FB_IO
+	NOT			; invert to get background mask
-	SWAP
+	LOAD.B FB_IO		; get background pixel data
-	STOREI
+	AND			; remove bits for new pixel from bg
-	DROP
+
 	LOAD.B FB_SHIFTER	; load shifted pixel
 	OR			; OR in new pixel bits
 	STORE.B FB_IO		; write new pixel data word to vmem
 	LOAD PUTPIXEL_BPSAV
 	STOREREG BP
 	FPADJ PUTPIXEL_FS
 	RET
 	.CPOOL
 INT_TO_MASK_TABLE:
 	.WORD %00001111_11111111_11111111_11111111
 	.WORD %11110000_11111111_11111111_11111111
 	.WORD %11111111_00001111_11111111_11111111
 	.WORD %11111111_11110000_11111111_11111111
 	.WORD %11111111_11111111_00001111_11111111
 	.WORD %11111111_11111111_11110000_11111111
 	.WORD %11111111_11111111_11111111_00001111
 	.WORD %11111111_11111111_11111111_11110000
 ; draw a line between two points
 ; parameters: x0, y0, x1, y1, color
 	.EQU DL_X0 0