mac-rom/QuickDraw/SeekMask.a

;
;	File:		SeekMask.a
;
;	Contains:	xxx put contents here (or delete the whole line) xxx
;
;	Written by:	xxx put name of writer here (or delete the whole line) xxx
;
;	Copyright:	© 1981-1990 by Apple Computer, Inc., all rights reserved.
;
;   This file is used in these builds:   Mac32 Bigbang Sys606
;
;	Change History (most recent first):
;
;		 <4>	 9/18/90	BG		Removed <2>. 040s are behaving more reliably now.
;		 <3>	 7/20/90	gbm		Change some identifiers to avoid conflicts with interfaces
;		 <2>	 6/28/90	BG		Added EclipseNOPs to deal with flakey 040s.
;	  <¥1.6>	 7/14/89	BAL		For Aurora: Final CQD
;	   <1.5>	 6/30/89	BAL		Now looks at runBuf(a6) to determine whether to use run clipping
;	  <¥1.4>	 5/29/89	BAL		Blasting in 32-Bit QuickDraw version 1.0 Final
;	  <¥1.3>	 4/12/89	BAL		Blasting in 32-Bit QuickDraw 1.0B1
;				 11/5/88	BAL		Added transfer direction (RUNBUMP) to SeekMask interface so
;									appropriate run mask could be generated.
;				 10/1/88	BAL		Added RUNRTN, rtn to form n-bit run mask from 1-bit scan mask.
;				 9/22/88	BAL		Consolidated initialization of region state records. Moved code
;									here from Drawline, drawarc, rgnblt, and stretch. Obviated the
;									need for combinations other than A, AB, and ABC.
;				 9/18/88	BAL		Altered to use common stack frame file 'Drawing Vars.a'
;				 12/1/86	EHB		Redid SeekMask routines to avoid JSR's to SeekRgn (at the
;									expense of a bunch of extra code)
;				 10/9/86	EHB		Added support for masks
;				  7/5/86	EHB		Added routine GETSEEK to set up all seekRgn information
;				 6/15/86	EHB		Removed scanbuf := RGNBUFFER (done externally, not in loop)
;				 6/13/86	EHB		New today Broken out from Drawline, drawarc, rgnblt, stretch
;									Modified to expand result according to depth

		BLANKS	ON 
		STRING	ASIS
		
		MACHINE MC68020

;------------------------------------------------------------------
;
;  -->	SEEKMASK.a
;
;------------------------------------------------------------------

;------------------------------------------------------------------
;
;  REGION CLIPPING
;
;  When region clipping is being done, the drawing routine calls a routine
;  that seeks to the current scanline in all necessary regions, ANDs all the
;  regions together (with a mask too, if necessary), and then expands that
;  one-bit scanline to the current screen depth so that it can be used as a
;  pixel mask.
;
;  The drawing routine first calls GETSEEK which places the routine that will
;  do all this into SEEKMASK(A6).  (All drawing routines which call this routine
;  must have the same stack frame as defined in StretchBits.)
;
;  GETSEEK sets up two routines:  SEEKMASK(A6) which is the routine that combines
;  the appropriate number of regions together, and EXRTN(A6), which expands a
;  scanline to the proper depth and is called by the routine in SEEKMASK(A6).
;
;
;  APPLYING A MASK TO THE REGION
;
;  If a mask is to be combined with the regions, then DSTMASKBUF(A6) is non-zero
;  and points to the mask for the current scanline.  The mask is one bit deep
;  and has been stretched, if necessary to the same size as the destination.
;  Note that although SeekRgn seeks to the proper scanline of the regions within
;  this routine, the proper scanline of the mask must be maintained externally
;  to this routine.
;  


;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
;	RgnBlt and everyone else (stretch,drawline,drawarc) compute bufSize as:		<C954> 08Nov87 BAL
;
;		[ (minRect.right-minRect.left) div 32 + 1 ] * pixelsize - 1
;		
;	This will result in an excess of upto (pixelsize-1) longs to be accessed during the
;	region masked drawing.  Since region masks are created as long aligned 1-bit deep masks
;	which are then expanded to the proper depth the RGNBUFFER on the stack must be the bulky
;	size computed above (until seekMask is changed to be more intelligent) but the stackFrame
;	variable bufSize which determines the width of the scanline actually written to can more
;	accurately be computed as:
;
;		[ (minRect.right-minRect.left)  * pixelsize - 1 ] div 32
;		


xGETSEEK	PROC	EXPORT
			EXPORT	GETSEEK,AllocRunBuf,gsRunTbl,gsExpTbl,gsSeekTbl
			IMPORT	SEEKRGN,SEEKUP,SEEKDOWN
			IMPORT	Table2,Table4
;-----------------------------------------------------------------------
;
&CurFile	SETC	'SEEKMASK'
			
			INCLUDE	'DrawingVars.a'


;	Low stack space error exit routine

GetOutofTown
		clr.l	StackFree(a6)				;guarantee stretch won't come back
GetMoreStk
		jmp		([goShow,a6])				;go show the cursor and return

;-----------------------------------------------------------------------
;
;  ALLOCATE  A RUN BUFFER FOR RUN-MASK CLIPPING.				<BAL 21Sep88>
;  Requires DrawingVars stack frame for inputs
;  Returns ptr to stack buffer in a0
;  Called by GetSeek, ScaleBlt
;
;  trashes: d0,d1,d2,a0
;
AllocRunBuf
		move.l	(sp)+,d2					;get return address
		moveq	#0,d1						;clear out high word
		move.w	BufSize(a6),d1				;get longs in ScanBuf-1
		addq.l	#2,d1						;get longs in ScanBuf+1
		cmp.w	#5,DstShift(a6)				;is dest 32 bits/pixel ?
		beq.s	@1							;yes, size <= N/2 + 1
		move.l	d1,d0						;no, compute size <= 3(N+1)/2
		add.l	d1,d1
		add.l	d0,d1
@1		lsr.l	#1,d1
		addq.l	#3,d1						;got long cnt, 2 for slop
		SUB.L	D1,STACKFREE(A6)			;IS THERE ENOUGH STACK?
		bpl.s	@stkOK
		bsr.s	GetMoreStk					;no, go look for more stack!
@stkOK		
		lsl.l	#2,d1						;convert to a byte count
		sub.l	d1,sp						;allocate the buffer
		move.l	sp,a0			 			;return where RunBuf is
		addq	#4,a0						;leave a long in front for hacking
		
		jmp		(za0,d2.l)					;go back


		
	ALIGN Alignment	
		
;-------------------------------------------------
;
;	GetSeek(RgnHandle1, RgnHandle2, ..., HandleCount.L);
;
;   SET UP ADDRESS OF SEEK ROUTINE IN SEEKMASK(A6)
;	SET UP ADDRESS OF EXPAND ROUTINE IN EXRTN(A6)
;
;	CLOBBERS:	A0-A3,D0-D4
;
;	A6 OFFSETS OF LOCAL VARIABLES AFTER LINK:
;
;	LINK DONE BY CALLER (STRETCHBITS, RGNBLT, ScaleBlt, DRAWLINE, DRAWARC, QuickPolys)
;
;
GETSEEK

		MOVE.L	4(SP),D3					;GET COUNT OF RGN HANDLES
		LEA		12(SP,D3*4),A3				;POINT TO FIRST RGN PARAM
		LEA		STATEA(A6),A1				;POINT AT FIRST STATE RECORD
		CLR 	D4							;INIT ALL RGNS RECT

;-----------------------------------------------------------------------
;
;  ALLOCATE  A RUN BUFFER FOR RUN-MASK CLIPPING.				<BAL 21Sep88>
;
		tst.l	runBuf(a6)					;are we run clipping?			<1.5> BAL
		beq.s	NxtRgn						;no, don't allocate run buffer	<1.5> BAL
		_AllocRunBuf						;go do it
		move.l	a0,RunBuf(A6)	 			;remember where RunBuf is


;----------------------------------------------------------------------
;
;  ALLOCATE BUFFERS AND INIT STATE RECORDS FOR EACH NON-RECT REGION
;
NXTRGN
		MOVEQ	#10,D0
		MOVE.L	-(A3),A0 					;GET RGNHANDLE
		MOVE.L	(A0),A0 					;DE-REFERENCE IT
		CMP 	RGNSIZE(A0),D0				;IS RGN RECTANGULAR ?
		BEQ.S	ARECT						;YES, SKIP IT

		CMP		#2,D3						;IS THIS THE USER RGN?
		BEQ.S	NOTRECT						;YES, DON'T TRIM
		MOVE.L	(A3),-(SP)					;PUSH REGION HANDLE
		PEA 	MINRECT(A6) 				;PUSH ADDR OF MINRECT
		CLR.W	-(SP)						;pass Trim = False
		_TRIMRECT							;CALL TRIMRECT (trashes a0)
		blt.s 	GetOutofTown				;=>INTERSECTION EMPTY, QUIT & SHOW CURSOR
		BEQ.S	ARECT						;YES, SKIP IT
		MOVE.L	(A3),A0 					;GET RGNHANDLE
		MOVE.L	(A0),A0 					;DE-REFERENCE IT FOR INITRGN
		
NOTRECT
		ADDQ.W 	#1,D4						;NO, SET UP FLAG
		ADD.W	D4,D4						;SAVE FLAGS

		MOVE	MINRECT+RIGHT(A6),D1		;GET MAXH
		MOVE	BUFLEFT(A6),D2				;GET BUFLEFT
		
		MOVEQ	#0,D0						;CLEAR HIGH WORD OF D3
		MOVE	D1,D0						;GET RIGHT
		SUB		D2,D0						;GET WIDTH IN DOTS
		LSR		#5,D0						;CONVERT TO LONGS
		SUB.L	D0,STACKFREE(A6)			;IS THERE ENOUGH STACK?
		bpl.s	@stkOK
		bsr.s	GetMoreStk					;no, go look for more stack!
@stkOK		
		
		MOVE	MINRECT+LEFT(A6),D0 		;GET MINH
		_INITRGN 							;INIT STATE, ALLOC BUFFER
		SUB		#RGNREC,A1					;BUMP TO NEXT RGN STATE RECORD
ARECT
		DBRA	D3,NXTRGN					;LOOP FOR ALL ACTIVE REGIONS

;--------------------------------------------------------------------
;
;  IF ALL REGIONS ARE RECTANGULAR, AND THERE IS NO MASK, 
;  THEN DRAW MINRECT INTO MASK BUFFER.  IF THERE IS A MASK, THEN INIT
;  STATE RECORD FOR REGION A, AND DRAW MINRECT THERE INSTEAD.
;
		TST.L	DSTMASKBUF(A6)				;IS THERE A MASK?
		BEQ.S	NOMASK

		ADDQ	#1,D4						;ALTER RECTFLAG TO REFLECT MASK
		MOVE.W	D4,RECTFLAG(A6)				;SAVE FOR GETRTNS
		CMP.W	#1,D4						;ARE ALL RGNS RECT?
		BGT.S	GETRTNS						;NO, ATLEAST ONE ACTIVE STATE REC
		
						;A1 POINTS TO STATE RECORD A
						;A0 POINTS TO A VALID RGN

		MOVE	MINRECT+RIGHT(A6),D1		;GET MAXH
		MOVE	BUFLEFT(A6),D2				;GET BUFLEFT
		
		MOVEQ	#0,D0						;CLEAR HIGH WORD OF D3
		MOVE	D1,D0						;GET RIGHT
		SUB		D2,D0						;GET WIDTH IN DOTS
		LSR		#5,D0						;CONVERT TO LONGS
		SUB.L	D0,STACKFREE(A6)			;IS THERE ENOUGH STACK?
		bpl.s	@stkOK
		bsr.s	GetMoreStk					;no, go look for more stack!
@stkOK		
		
		MOVE	MINRECT+LEFT(A6),D0 		;GET MINH
		_INITRGN 							;INIT STATE, ALLOC BUFFER

		MOVEQ	#0,D0						;PIXEL SHIFT FOR MASK = 0
		MOVE.L	STATEA+SCANBUF(A6),A0		;POINT TO RECT BUFFER
		BRA.S	DORECT

NOMASK
		MOVE	DSTSHIFT(A6),D0				;GET THE DST DEPTH
		tst.l	runBuf(a6)					;are we run clipping?		<1.5> BAL
		beq.s	@shiftOK					;no, use dstShift			<1.5> BAL
		moveq	#0,d0						;yes, RGNBUFFER is 1 bit/pixel	<1.5> BAL
@shiftOK
		MOVE.W	D4,RECTFLAG(A6) 			;ARE ALL RGNS RECT ?
		BNE.S	NOTRRGN 					;NO, CONTINUE
		
		MOVE.L	RGNBUFFER(A6),A0			;POINT TO REGION BUFFER

DORECT	MOVE	MINRECT+LEFT(A6),D3 		;SET UP LEFT
		SUB 	BUFLEFT(A6),D3				;MAKE IT BUFFER RELATIVE
		MOVE	MINRECT+RIGHT(A6),D4		;SET UP RIGHT
		SUB 	BUFLEFT(A6),D4				;MAKE IT BUFFER RELATIVE
		_XorSlab 							;AND XOR BETWEEN THEM
		BRA.S	GETRTNS						;=>SKIP NEXT TEST
		

;---------------------------------------------------------------------
;
;  IF ONLY ONE REGION IS NON-RECTANGULAR, AND THE DEPTH = 1, PLAY THE
;  REGION DIRECTLY INTO THE MASK BUFFER (NO EXPANSION OR COMPOSITION).
;
NOTRRGN	TST		D0							;IS DST PIXELSIZE ONE?		<1.5> BAL
		BNE.S	USEEXP						;=>NO, DON'T PLAY INTO MASK BUFFER
		
		CMP 	#2,D4						;ONLY 1 NON-RECT RGN?
		BNE.S	GETRTNS 					;NO, CONTINUE
		MOVE.L	RGNBUFFER(A6),STATEA+SCANBUF(A6) ;YES, PLAY DIRECTLY INTO MASK
		BRA.S	GETRTNS

;---------------------------------------------------------------------
;
;  ATLEAST ONE NON-RECT REGION AND DEPTH > 1 SO MUST USE EXPAND ROUTINE
;
USEEXP	OR		#1,RECTFLAG(A6)				;FORCE USE OF EXRTN

;--------------------------------------------------------------------
;
;  GET SEEK ROUTINE INTO SEEKMASK(A6)
;  GET EXPAND ROUTINE INTO EXRTN(A6) FOR SEEK ROUTINE
;
GETRTNS			
			MOVE	DSTSHIFT(A6),D0				;GET SHIFT AMOUNT
			move.l	gsRunTblPtr,A0				;GET ADDRESS OF ROUTINE TBL
			add.l  	(a0,d0*4),A0				;CALC ROUTINE BASED ON DEPTH
			MOVE.L	A0,RUNRTN(A6)				;RETURN RUN ROUTINE
			
			tst.l	runBuf(a6)					;are we run clipping?		<1.5> BAL
			beq.s	@shiftOK					;no, use dstShift			<1.5> BAL
			moveq	#0,d0						;yes, RGNBUFFER is 1 bit/pixel	<1.5> BAL
@shiftOK			
			SUB.L	A0,A0						;ASSUME NO EXPAND ROUTINE
			SUB.L	#8,A3						;SKIP OVER LAST RGNHANDLE, COUNT
			MOVE.L	(A3),A1						;GET RETURN ADDRESS
			MOVE	RECTFLAG(A6),D1				;GET OFFSET TO SEEK ROUTINE
			MOVE	D0,D2						;MAKE A COPY OF DSTSHIFT
			OR		D1,D2						;ARE ALL RGNS RECT AND NO MASK AND 1 BIT DEEP?
			BEQ.S	GOTXRTN						;YES, NO EXRTN
			
			move.l	gsExpTblPtr,A0				;GET ADDRESS OF ROUTINE TBL
			add.l  	(a0,d0*4),A0				;PASS BACK OFFSET TO THE ROUTINE
			
GOTXRTN		MOVE.L	A0,EXRTN(A6)				;RETURN ADDRESS OF EXPAND ROUTINE
			move.l	gsSeekTblPtr,A0				;GET TBL FOR SEEK ROUTINES
			cmp.w	#7,d1
			ble.s	@modeOK
			sub.w	#10,d1						;fold the entries for a smaller tbl
@modeOK		add.l	(a0,D1*4),A0				;ADD OFFSET TO ROUTINE
			MOVE.L	A0,SEEKMASK(A6)				;RETURN SEEK ROUTINE
			JMP		(A1)						;AND RETURN

		
	ALIGN 4	
		
;-------------------------------------------------
;
;  ROUTINES TO CONVERT A 1-BIT SCANLINE MASK TO
;  A RUN MASK FOR THE CURRENT DEPTH
;  Runs are computed for either forward or reverse blitting
;
gsRunTbl	DC.L	RUN1-gsRunTbl,RUN2-gsRunTbl,RUN4-gsRunTbl
			DC.L	RUN8-gsRunTbl,RUN16-gsRunTbl,RUN32-gsRunTbl



;-------------------------------------------------
;
;  ROUTINES TO EXPAND A SCANLINE TO THE CURRENT DEPTH
;
gsExpTbl	DC.L	SINGLE-gsExpTbl,DOUBLE-gsExpTbl,QUAD-gsExpTbl
			DC.L	EIGHT-gsExpTbl,SIXTEEN-gsExpTbl,THRTWO-gsExpTbl


;-------------------------------------------------
;
;  ROUTINES TO SEEK TO THE CURRENT SCANLINE OF ONE, TWO, OR THREE REGIONS,
;  APPLY A MASK TO THAT SCANLINE, IF NECESSARY, AND THEN CALL THE ROUTINE
;  IN EXRTN(A6) TO EXPAND TO THE CURRENT DEPTH.
;

gsSeekTbl 	DC.L	SEEKOK-gsSeekTbl				; IF RECT RGN, NO MASK
			DC.L	RECTMASK-gsSeekTbl			; IF RECT RGN, MASK
			DC.L	A-gsSeekTbl
			DC.L	AX-gsSeekTbl
			DC.L	ABC-gsSeekTbl; B-gsSeekTbl
			DC.L	ABC-gsSeekTbl; BX-gsSeekTbl
			DC.L	AB-gsSeekTbl
			DC.L	AB-gsSeekTbl
		;	DC.L	0; C-gsSeekTbl
		;	DC.L	0; CX-gsSeekTbl
		;	DC.L	0; AC-gsSeekTbl
		;	DC.L	0; AC-gsSeekTbl
		;	DC.L	0; BC-gsSeekTbl
		;	DC.L	0; BC-gsSeekTbl
		;	DC.L	ABC-gsSeekTbl
		;	DC.L	ABC-gsSeekTbl

		
;--------------------------------------------------------------------
;
;  REGION IS RECTANGULAR (ALREADY DRAWN INTO STATEA+SCANBUF)
;  Return a large scancount in d2 so that seekmask is not called again.
;
SEEKOK		move.w	#$7fff,d2					;return scan count = °	<1.5> BAL
			RTS

		
		
	ALIGN Alignment	
		
;--------------------------------------------------------------------
;
;  REGION IS RECTANGULAR (ALREADY DRAWN INTO STATEA+SCANBUF) BUT THERE IS A MASK
;  SO WE MUST COMBINE REGION WITH MASK AND EXPAND INTO RGNBUFFER.
;
RECTMASK	MOVEM.L	D3-D5/A4-A6,-(SP)			;SAVE WORK REGISTERS
			MOVE.L	STATEA+SCANBUF(A6),A1		;POINT AT THE BUFFER
			MOVE.L	DSTMASKBUF(A6),D0			;POINT AT THE MASK
			MOVE	STATEA+SCANSIZE(A6),D1		;GET SIZE OF MASK IN LONGS
			MOVE.L	DSTMASKALIGN(A6),D5			;GET ALIGNMENT
			MOVE.L	RGNBUFFER(A6),A0			;EXPAND INTO RGNBUFFER
			MOVE.L	EXRTN(A6),A4				;GET EXPAND ROUTINE
			LEA		RETRECTM,A5					;GET RETURN ADDRESS FOR LOOP
			MOVE.L	D0,A6						;GET MASK BUFFER
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
RECTMLOOP	BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A1)+,D0					;GET RECTANGULAR REGION
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETRECTM	DBRA	D1,RECTMLOOP				;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D3-D5/A4-A6			;RESTORE WORK REGISTERS
RDONE		moveq	#1,d2						;return scan count = 1
			RTS


		
	ALIGN Alignment	
		
;--------------------------------------------------------------------
;
;  ONLY REGION A IS NON-RECTANGULAR.  UPDATE IT AND USE IT AS THE MASK
;
;  IF DEPTH = 1 THEN PLAY DIRECTLY INTO RGNBUFFER, ELSE PLAY INTO SCANBUF
;  AND EXPAND INTO RGNBUFFER.
;
A			LEA 	STATEA(A6),A1				;POINT TO OUR STATE RECORD
			MOVE	VERT(A6),D0 				;GET VERT COORD
			JMP		SEEKRGN						;=>PLAY DIRECTLY INTO RGNBUFFER
												;AND RETURN
												
AX			MOVE	VERT(A6),D0 				;GET VERT COORD
			CMP 	STATEA+NEXTV(A6),D0			;IS DESIRED VERT >= NEXTV ?
			BGE.S	AXDOWN						;YES, BUMP DOWNWARD
			CMP 	STATEA+THISV(A6),D0			;IS DESIRED VERT < CURRENT VERT ?
			BLT.S	AXUP						;YES, BUMP UPWARD
			TST.L	DSTMASKBUF(A6)				;IS THERE A MASK?
			BEQ.S	RDONE						;=>NO, NO CHANGE IN REGION
AXCHG		MOVE.L	STATEA+SCANBUF(A6),A1		;ELSE GET THE BUFFER
			MOVE	STATEA+SCANSIZE(A6),D1		;GET THE BUFFER SIZE
			BRA.S	CPY1BUF						;AND EXPAND INTO RGNBUFFER

AXDOWN		LEA 	STATEA(A6),A1				;POINT TO PROPER STATE RECORD
			JSR		SEEKDOWN					;SEEK DOWNWARD
			BRA.S	AXCHG						;=>GO EXPAND THE BUFFER

AXUP		LEA 	STATEA(A6),A1				;POINT TO PROPER STATE RECORD
			JSR		SEEKUP						;SEEK UPWARD
			BRA.S	AXCHG						;AND CONTINUE
			
			
			
CPY1BUF 	MOVE.L	DSTMASKBUF(A6),D0			;IS THERE A MASK?
			BNE.S	CPY1MASK					;=>YES, APPLY MASK TO REGIONS
			
; EXPAND 1 REGION INTO REGION BUFFER
			
			MOVEM.L	D2-D4/A4-A5,-(SP)			;SAVE WORK REGISTERS
			MOVE.L	RGNBUFFER(A6),A0			;EXPAND INTO RGNBUFFER
			MOVE.L	EXRTN(A6),A4				;GET EXPAND ROUTINE
			LEA		RETAX,A5					;GET RETURN ADDRESS FOR LOOP
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
AXLOOP		MOVE.L	(A1)+,D0
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETAX		DBRA	D1,AXLOOP					;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D2-D4/A4-A5			;RESTORE WORK REGISTERS
			RTS

; COMBINE 1 REGION AND MASK AND EXPAND INTO REGION BUFFER

CPY1MASK	MOVEM.L	D3-D5/A4-A6,-(SP)			;SAVE WORK REGISTERS
			MOVE.L	RGNBUFFER(A6),A0			;EXPAND INTO RGNBUFFER
			MOVE.L	EXRTN(A6),A4				;GET EXPAND ROUTINE
			LEA		RETAXM,A5					;GET RETURN ADDRESS FOR LOOP
			MOVE.L	DSTMASKALIGN(A6),D5			;ALIGN MASK TO DST
			MOVE.L	D0,A6						;GET MASK BUFFER
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
AXMLOOP		BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A1)+,D0					;GET RECTANGULAR REGION
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETAXM		DBRA	D1,AXMLOOP					;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D3-D5/A4-A6			;RESTORE WORK REGISTERS
			moveq	#1,d2						;mask->force scan count = 1
			RTS


		
	ALIGN Alignment	
		
;-------------------------------------------------------------------
;
;  REGIONS A AND B ARE NON-RECTANGULAR. UPDATE EACH,
;  THEN FORM INTERSECTION IN THE MASK BUFFER.
;
AB			MOVE	VERT(A6),D0 				;GET VERT COORD
			LEA 	STATEA(A6),A1				;POINT TO PROPER STATE RECORD
			bsr.s	SeekAny						;make scanBuf current
			MOVE	D2,-(SP)					;REMEMBER IF RGN CHANGED
			LEA 	STATEB(A6),A1				;POINT TO PROPER STATE RECORD
			bsr.s	SeekAny						;make scanBuf current
			
			move	(sp)+,d1					;get previous result
			cmp		d2,d1						;get d2=min(d1,d2)
			bgt.s	@min1
			move	d1,d2
@min1			
ABCHG		MOVE.L	STATEA+SCANBUF(A6),A2
			MOVE.L	STATEB+SCANBUF(A6),A1
			MOVE	STATEA+SCANSIZE(A6),D1		;GET THE BUFFER SIZE

CPY2BUF 	MOVE.L	RGNBUFFER(A6),A0			;FORM INTERSECTION IN RGNBUFFER
			MOVE.L	EXRTN(A6),D0				;GET EXPAND ROUTINE
			BNE.S	ABX							;=>NEED TO EXPAND
			
ABLOOP		MOVE.L	DSTMASKBUF(A6),D0			;IS THERE A MASK?
			BNE.S	ABM							;=>YES, APPLY MASK TO REGIONS
			
; COMBINE TWO REGIONS WITHOUT EXPANDING

			MOVE.L	(A2)+,D0
			AND.L	(A1)+,D0
			MOVE.L	D0,(A0)+
			DBRA	D1,ABLOOP
ABDONE		RTS 

; COMBINE TWO REGIONS AND A MASK WITHOUT EXPANDING

ABM			MOVEM.L	D5/A6,-(SP)					;SAVE WORK REGISTERS
			MOVE.L	DSTMASKALIGN(A6),D5			;ALIGN MASK TO DST
			MOVE.L	D0,A6						;GET MASK POINTER
ABMLOOP		BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A2)+,D0					;GET FIRST REGION
			AND.L	(A1)+,D0					;COMBINE WITH SECOND REGION
			MOVE.L	D0,(A0)+					;AND PUT TO DST BUFFER
			DBRA	D1,ABMLOOP					;REPEAT FOR ALL LONGS
			MOVEM.L	(SP)+,D5/A6					;RESTORE WORK REGISTERS
			moveq	#1,d2						;mask->force scan count = 1
			RTS 



;-------------------------------------------------------------------
;
;  Make scanBuf current for given vert (d0) and region state record (a1)
;  May seek either up or down and returns count of valid scans for
;  current direction in D2.
;
SeekAny		CMP 	NEXTV(A1),D0				;IS DESIRED VERT >= NEXTV ?
			BGE		SEEKDOWN					;YES, BUMP DOWNWARD
			CMP 	THISV(A1),D0				;IS DESIRED VERT < CURRENT VERT ?
			BLT		SEEKUP						;YES, BUMP UPWARD
			move.w	NEXTV(A1),D2				;assume top to bottom
			sub.w	d0,d2						;compute scan down count
			tst.l	DstRow(a6)					;seeking up or down?
			bpl.s	@ok							;d2 is OK
			move.w	d0,d2						;
			sub.w	THISV(A1),D2				;compute scan up count
			addq.w	#1,d2						;
@ok			rts


;-------------------------------------------------------------------



ABX			MOVEM.L	D2-D5/A4-A6,-(SP)			;SAVE WORK REGISTERS
			MOVE.L	DSTMASKBUF(A6),D2			;IS THERE A MASK?
			BNE.S	ABXM						;=>YES, APPLY MASK TO REGIONS
			
; COMBINE TWO REGIONS AND EXPAND TO PROPER DEPTH

			MOVE.L	D0,A4						;GET EXPAND ROUTINE
			LEA		RETABX,A5					;GET RETURN ADDRESS FOR LOOP
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
ABXLOOP		MOVE.L	(A2)+,D0
			AND.L	(A1)+,D0
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETABX		DBRA	D1,ABXLOOP					;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D2-D5/A4-A6			;RESTORE WORK REGISTERS
			RTS

; COMBINE TWO REGIONS AND A MASK AND EXPAND TO PROPER DEPTH

ABXM		MOVE.L	D0,A4						;GET EXPAND ROUTINE
			LEA		RETABXM,A5					;GET RETURN ADDRESS FOR LOOP
			MOVE.L	DSTMASKALIGN(A6),D5			;ALIGN MASK TO DST
			MOVE.L	D2,A6						;GET ADDRESS OF MASK
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
ABXMLOOP	BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A2)+,D0
			AND.L	(A1)+,D0
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETABXM		DBRA	D1,ABXMLOOP					;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D2-D5/A4-A6			;RESTORE WORK REGISTERS
			moveq	#1,d2						;mask->force scan count = 1
			RTS



		
	ALIGN Alignment	
		
;-------------------------------------------------------------------
;
;  REGIONS A, B AND C ARE ALL NON-RECTANGULAR. UPDATE EACH,
;  THEN FORM INTERSECTION IN THE MASK BUFFER.
;
ABC			MOVE	VERT(A6),D0 				;GET VERT COORD
			LEA 	STATEA(A6),A1				;POINT TO PROPER STATE RECORD
			bsr.s	SeekAny						;make scanBuf current
			MOVE	D2,-(SP)					;REMEMBER IF RGN CHANGED
			LEA 	STATEB(A6),A1				;POINT TO PROPER STATE RECORD
			bsr.s	SeekAny						;make scanBuf current
			MOVE	D2,-(SP)					;REMEMBER IF RGN CHANGED
			LEA 	STATEC(A6),A1				;POINT TO PROPER STATE RECORD
			bsr.s	SeekAny						;make scanBuf current
			
			move	(sp)+,d1					;get previous result
			cmp		d2,d1						;get d2=min(d1,d2)
			bgt.s	@min1
			move	d1,d2
@min1		move	(sp)+,d1					;get previous result
			cmp		d2,d1						;get d2=min(d1,d2)
			bgt.s	@min2
			move	d1,d2
@min2			
ABCCHG		MOVE.L	STATEA+SCANBUF(A6),A3
			MOVE.L	STATEB+SCANBUF(A6),A2
			MOVE.L	STATEC+SCANBUF(A6),A1
			MOVE.L	RGNBUFFER(A6),A0
			MOVE	STATEC+SCANSIZE(A6),D1		;GET THE BUFFER SIZE (ALL SAME SIZE)
			MOVE.L	EXRTN(A6),D0				;GET EXPAND ROUTINE
			BNE		ABCX						;=>NEED TO EXPAND
			
			MOVE.L	DSTMASKBUF(A6),D0			;IS THERE A MASK?
			BNE.S	ABCM						;=>YES, APPLY MASK
			
; COMBINE 3 REGIONS INTO REGION BUFFER WITHOUT EXPANDING

ABCLOOP 	MOVE.L	(A3)+,D0
			AND.L	(A2)+,D0
			AND.L	(A1)+,D0
			MOVE.L	D0,(A0)+
			DBRA	D1,ABCLOOP
			RTS

; COMBINE 3 REGIONS AND MASK INTO REGION BUFFER WITHOUT EXPANDING

ABCM		MOVEM.L	D5/A6,-(SP)					;SAVE WORK REGISTERS
			MOVE.L	DSTMASKALIGN(A6),D5			;ALIGN MASK TO DST
			MOVE.L	D0,A6						;GET ADDRESS OF MASK
ABCMLOOP 	BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A3)+,D0					
			AND.L	(A2)+,D0
			AND.L	(A1)+,D0
			MOVE.L	D0,(A0)+					;AND PUT TO REGION BUFFER
			DBRA	D1,ABCMLOOP
			MOVEM.L	(SP)+,D5/A6					;RESTORE WORK REGISTERS
			moveq	#1,d2						;mask->force scan count = 1
		 	RTS									;AND RETURN


ABCX		MOVEM.L	D2-D5/A4-A6,-(SP)			;SAVE WORK REGISTERS
			MOVE.L	DSTMASKBUF(A6),D2			;IS THERE A MASK?
			BNE.S	ABCXM						;=>YES, APPLY MASK
			
; COMBINE 3 REGIONS AND EXPAND
			
			MOVE.L	D0,A4						;GET EXPAND ROUTINE
			LEA		RETABCX,A5					;GET RETURN ADDRESS FOR LOOP
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
ABCXLOOP	MOVE.L	(A3)+,D0
			AND.L	(A2)+,D0
			AND.L	(A1)+,D0
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETABCX		DBRA	D1,ABCXLOOP					;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D2-D5/A4-A6			;RESTORE WORK REGISTERS
			RTS
				
; COMBINE 3 REGIONS AND MASK AND EXPAND
				
ABCXM		MOVE.L	D0,A4						;GET EXPAND ROUTINE
			LEA		RETABCXM,A5					;GET RETURN ADDRESS FOR LOOP
			MOVE.L	DSTMASKALIGN(A6),D5			;ALIGN MASK TO DST
			MOVE.L	D2,A6						;GET ADDRESS OF MASK
			MOVEQ	#0,D2						;SCANLOOPS WANT D2=0
ABCXMLOOP	BFEXTU	(A6){D5:0},D0				;EXTRACT A LONG OF MASK
			ADDQ	#4,A6						;BUMP TO NEXT MASK LONG
			AND.L	(A3)+,D0
			AND.L	(A2)+,D0
			AND.L	(A1)+,D0
			JMP		(A4)						;EXPAND DO INTO RGNBUFFER
RETABCXM	DBRA	D1,ABCXMLOOP				;LOOP FOR ALL LONGS IN SRC
			MOVEM.L (SP)+,D2-D5/A4-A6			;RESTORE WORK REGISTERS
			moveq	#1,d2						;mask->force scan count = 1
			RTS


;-----------------------------------------------
;	
;	SCALING ROUTINES CALLED TO EXPAND A MASK BUFFER 
;	FROM ONE BIT TO N-BITS DEEP.  THESE ROUTINES
;	EXPAND A SINGLE LONG AT A TIME.
;
;	D0:	SRC DATA			A0: DSTPTR
;	D1: LONGCOUNT			A1: SRC1
;	D2: SCRATCH				A2: SRC2
;	D3: BYTECNT/BITCNT		A3: SRC3
;	D4: SCRATCH				A4:	RTN ADDRESS
;	D5:						A5: RETURN ADDRESS
;
;-----------------------------------------------

		
	ALIGN Alignment	
		
;-----------------------------------------------
;
;  SCALE UP BY ONE USING INSCRUTABLE LOGIC
;
SINGLE		MOVE.L	D0,(A0)+					;WRITE OUT WORD
			JMP		(A5)						;AND RETURN

		
	ALIGN Alignment	
		
DOUBLE	
;-----------------------------------------------
;
;  SCALE UP BY TWO USING TABLE LOOKUP
;
;  D2 SHOULD BE 0 ON ENTRY
;

			MOVE.L	A5,-(SP)					; Save A5
			LEA		Table2,A5					; A5->byte to word double table
			CLR		D2							; clear upper bits of D2

			MOVE.B	D0,D2						; D2 = 4th byte src
			MOVE	(A5,D2*2),D4				; D4.lo = 4th word result
			SWAP	D0							; 3412
			MOVE.B	D0,D2						; D2 = 2nd byte src
			MOVE	(A5,D2*2),D3				; D3.lo = 2nd word result
			LSR.L	#8,D0						; x341
			MOVE.B	D0,D2						; D2 = 1st byte src
			SWAP	D3
			MOVE	(A5,D2*2),D3
			SWAP	D3							; D3 = 1st,2nd word results
			SWAP	D0							; 41x3
			MOVE.B	D0,D2						; D2 = 3rd byte of src
			SWAP	D4
			MOVE	(A5,D2*2),D4
			SWAP	D4							; D4 = 3rd,4th word results
			MOVE.L	D3,(A0)+
			MOVE.L	D4,(A0)+
			MOVE.L	(SP)+,A5
			JMP		(A5)

		
	ALIGN Alignment	
		
QUAD
;-----------------------------------------------
;
;  SCALE UP BY FOUR USING TABLE LOOKUP
;
;  D2 SHOULD BE 0 ON ENTRY
;
			MOVEQ	#3,D3						;DO 4 BYTES OF SRC
@DOQUAD		ROL.L	#8,D0						;GET NEXT BYTE OF SRC
			MOVE.B	D0,D2						;MAKE AN EXTRA COPY
			MOVE.L	(TABLE4,PC,D2*4),(A0)+
			DBRA	D3,@DOQUAD					;=>QUAD NEXT BYTE
			JMP		(A5)						;AND RETURN

				
		
	ALIGN Alignment	
		
EIGHT
;-----------------------------------------------
;
;  SCALE UP BY EIGHT USING TABLE LOOKUP
;
;  D2 SHOULD BE 0 ON ENTRY
;
			MOVEQ	#3,D3						;DO 4 BYTES OF SRC
@DOEIGHT	ROL.L	#8,D0						;GET A BYTE OF SRC
			MOVE.B	D0,D2						;MAKE AN EXTRA COPY
			LSR		#4,D2						;CLEAR HI NIBBLE 
			MOVE.L	(TABLE8,PC,D2*4),(A0)+		;PUT FIRST LONG TO DST
			MOVEQ	#$F,D2						;MASK FOR LO NIBBLE
			AND		D0,D2 						;CLEAR HI NIBBLE
			MOVE.L	(TABLE8,PC,D2*4),(A0)+		;PUT SECOND LONG TO DST
			DBRA	D3,@DOEIGHT					;=>EIGHT NEXT BYTE
			JMP		(A5)						;AND RETURN

		
	ALIGN Alignment	
		
SIXTEEN
;-------------------------------------------------
;
;  SCALE UP BY 16
;
			
			MOVEQ	#15,D3						;16 OUTPUT LONGS
@SIXTENA 	ADD.L	D0,D0						;GET ONE BIT OF SRC
			SUBX.L	D2,D2	 					;EXTEND THRU HI WORD
		 	ADD.L	D0,D0						;GET ONE BIT OF SRC
			SUBX.W	D2,D2	 					;EXTEND THRU SET LO WORD
		 	MOVE.L	D2,(A0)+					;OUTPUT 1 RESULT
			DBRA	D3,@SIXTENA					;
			JMP		(A5)						;AND RETURN


		
	ALIGN Alignment	
		
THRTWO
;-----------------------------------------------
;
;  SCALE UP BY 32
;
			MOVEQ	#31,D3						;32 OUTPUT LONGS
@THRTY2 	ADD.L	D0,D0						;GET ONE BIT OF SRC
			SUBX.L	D2,D2	 					;EXTEND THRU LONG
		 	MOVE.L	D2,(A0)+					;OUTPUT 1 RESULT
			DBRA	D3,@THRTY2					;
			JMP		(A5)						;AND RETURN


;-----------------------------------------------
;	
;	RUN MASK ROUTINES CALLED TO ENCODE A 1-BIT SCANLINE MASK 
;	INTO A RUN MASK APPROPRIATE FOR THE DESTINATION DEPTH.
;	THESE ROUTINES ARE CALLED ON A SCANLINE BASIS.
;
;	D0:	scratch				A0: scratch
;	D1: scratch				A1: scratch
;	D2: preserved			A2: scratch
;	D3: preserved			A3: preserved
;	D4: preserved			A4:	preserved
;	D5:						A5: preserved
;
;	Clobbers:  D0-D1/A0-A2
;
;-----------------------------------------------

		
	ALIGN Alignment	
		
;-----------------------------------------------
;
;
RUN1
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D1/D3-D6,-(SP)				;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			moveq	#-1,d1						;get blit mask
			moveq	#1,d4						;get bump size for blit
			swap	d4
		 	MOVE.L	(a0)+,d0					;prefetch first region data long
			
			move.w	RUNBUMP(a6),d6				;are we blitting forwards?
			bpl.s	@nxtRun						;yes, go ahead
			
			moveq	#0,d0
			move.w	d5,d0						;copy bufSize
			asl.l	#2,d0						;get mask byte width
			add.l	d0,a0						;point at last long in RGNBUFFER
			move.l	d0,d3						;force skip to right edge
		 	MOVE.L	-(a0),d0					;re-fetch first region data long
			add.w	d6,a0						;predecrement
			bra.s	@first1
			
@nxtRun		moveq	#0,d3						;init blit/mask, skip cnt
@first1		tst.l	d0
			beq.s	@cntSkip					;mask is all zeros
@chkBlt		cmp.l	d1,d0						;is the mask all ones?
			beq.s	@cntBlit					;yes, go cnt repeats
			move.l	a2,a1						;save ptr to blit/skip long
			addq.w	#4,a2						;bump past instruction long
			bra.s	@cntMask

@mask1		MOVE.L	(a0),d0						;all 0's?
			add.w	d6,a0						;bump forward/backward in region
			beq.s	@dumpMask					;yes, done with mask run
			cmp.l	d1,d0						;all 1's?
			beq.s	@dumpMask					;yes, done with mask run
			add.l	d4,d3
@cntMask	move.l	d0,(a2)+					;write out mask
			dbra	d5,@mask1
			
			bset	#runMaskBit,d3
			move.l	d3,(a1)
			bra.s	@endRun

@dumpMask	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out blit/skip
			bra.s	@nxtRun						

@dumpBlit	move.l	d3,(a2)+					;write out blit/skip
			bra.s	@nxtRun						

@skip1		MOVE.L	(a0),d0						;get region data
			add.w	d6,a0						;bump forward/backward in region
			bne.s	@chkBlt
@cntSkip	add.w	d6,d3						;accumulate skip (±4)
			dbra	d5,@skip1
			bra.s	@endRun

@blit1		MOVE.L	(a0),d0						;get region data
			add.w	d6,a0						;bump forward/backward in region
			cmp.l	d1,d0
			bne.s	@dumpBlit
			add.l	d4,d3
@cntBlit	dbra	d5,@blit1

			move.l	d3,(a2)+					;write out blit/skip
@endRun		move.l	d1,(a2)						;flag end of run data (-1L)
			
			MOVEM.L	(SP)+,D1/D3-D6				;RESTORE WORK REGISTERS
			RTS
	
			

		
	ALIGN Alignment	
		
;-----------------------------------------------
;
;  Build a 2 bit run mask from a 1 bit scan mask
;  for use when blitting Left to Right or Right to Left
;
;
RUN2
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D1-D7/A3-A5,-(SP)			;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			lea		TABLE2,a4					;point at doubling table
			moveq	#-1,d1						;get blit mask
			moveq	#1,d4						;get bump size for blit
			swap	d4
			move.l	d4,a5						;put blit bump size in a5
			moveq	#$F,d4						;put nibble mask in d4
			moveq	#0,d6						;clear out high end
		 	MOVE.w	(a0)+,d0					;prefetch first region data word
			
			move.w	RUNBUMP(a6),d2				;are we blitting forwards?
			move.w	d2,a3						;make a copy for skip bump
			asr.w	#1,d2						;make into word bump
			bpl.s	@nxtRun						;yes, go ahead

@backwards			
			addq.w	#2,d5						;make BufSize 1 based
			and.w	#~1,d5						;round up to mult of pixelsize
			moveq	#0,d0
			move.w	d5,d0						;copy bufSize
			add.l	d0,d0						;get mask byte width
			add.l	d0,a0						;point at last long in RGNBUFFER
			
			add.l	d0,d0						;scale for dst bump
			move.l	d0,d3						;force bump to far right
		 	MOVE.w	-(a0),d0					;fetch last region data word
			subq.w	#2,a0						;predecrement
			bra.s	@first

@nxtRun		moveq	#0,d3						;init blit/mask, skip cnt
			tst.w	d0
@first		beq.s	@cntSkip					;mask is all zeros
@chkBlt		cmp.w	d1,d0						;is the mask all ones?
			beq.s	@cntBlit					;yes, go cnt repeats
			
			move.l	a2,a1						;save ptr to blit/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@cntMask

@mask1		MOVE.w	(a0),d0						;all 0's?
			add.w	d2,a0						;bump for/backward in region
			beq.s	@dumpMask					;yes, done with mask run
			cmp.w	d1,d0						;all 1's?
			beq.s	@dumpMask					;yes, done with mask run
			add.l	a5,d3
@cntMask	
			MOVE.B	D0,D6
			MOVE	(A4,D6*2),D7
			SWAP	D7
			ROL.W	#8,D0
			MOVE.B	D0,D6
			MOVE	(A4,D6*2),D7
			SWAP	D7
			MOVE.L	D7,(A2)+					;WRITE OUT MASK
			dbra	d5,@mask1
			
			bset	#runMaskBit,d3
			move.l	d3,(a1)
			bra.s	@endRun

@dumpMask	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out blit/skip
			bra.s	@nxtRun						

@dumpBlit	move.l	d3,(a2)+					;write out blit/skip
			bra.s	@nxtRun						

@skip1		MOVE.w	(a0),d0						;get region data
			add.w	d2,a0						;bump for/backward in region
			bne.s	@chkBlt
@cntSkip	add.w	a3,d3						;accumulate skip ±4
			dbra	d5,@skip1
			bra.s	@endRun

@blit1		MOVE.w	(a0),d0						;get region data
			add.w	d2,a0						;bump for/backward in region
			cmp.w	d1,d0
			bne.s	@dumpBlit
			add.l	a5,d3
@cntBlit	dbra	d5,@blit1

			move.l	d3,(a2)+					;write out blit/skip
@endRun		move.l	d1,(a2)						;flag end of run data (-1L)
			
			MOVEM.L	(SP)+,D1-D7/A3-A5			;RESTORE WORK REGISTERS
			RTS
			

;-----------------------------------------------
		

	ALIGN Alignment	
		
		
RUN4
;-----------------------------------------------
;
;  SCALE UP BY FOUR USING TABLE LOOKUP
;
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D1-D7/A3/A4,-(SP)			;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			LEA		TABLE4,A4					;point to quad table
			moveq	#-1,d1						;get blit mask
			moveq	#1,d4						;get bump size for blit
			swap	d4
			moveq	#0,d6						;clear out high end
		 	MOVE.b	(a0)+,d0					;get region data
			
			move.w	RUNBUMP(a6),d2				;are we blitting forwards?
			move.w	d2,a3						;save for skip bump
			asr.w	#2,d2						;make into byte bump
			bpl.s	@nxtRun						;yes, go ahead
			
@backwards			
			addq.w	#4,d5						;make BufSize 1 based
			and.w	#~3,d5						;round up to mult of pixelsize
			moveq	#0,d0
			move.w	d5,d0						;copy bufSize
			add.l	d0,a0						;point at last long in RGNBUFFER
			
			lsl.l	#2,d0						;scale for dst bump
			move.l	d0,d3						;force bump to far right
		 	MOVE.b	-(a0),d0					;fetch last region data word
			subq.w	#1,a0						;predecrement
			bra.s	@first

@nxtRun		moveq	#0,d3						;init blit/mask, skip cnt
			tst.b	d0
@first		beq.s	@cntSkip					;mask is all zeros
@chkBlt		cmp.b	d1,d0						;is the mask all ones?
			beq.s	@cntBlit					;yes, go cnt repeats
			
			move.l	a2,a1						;save ptr to blit/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@cntMask

@mask1		MOVE.b	(a0),d0						;all 0's?
			add.w	d2,a0						;bump for/back-wards 1 byte
			beq.s	@dumpMask					;yes, done with mask run
			cmp.b	d1,d0						;all 1's?
			beq.s	@dumpMask					;yes, done with mask run
			add.l	d4,d3
@cntMask	
			MOVE.B	D0,D6						;MAKE AN EXTRA COPY
			MOVE.L	(A4,D6*4),(A2)+
			dbra	d5,@mask1
			
			bset	#runMaskBit,d3
			move.l	d3,(a1)
			bra.s	@endRun

@dumpMask	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out blit/skip
			bra.s	@nxtRun						

@dumpBlit	move.l	d3,(a2)+					;write out blit/skip
			bra.s	@nxtRun						

@skip1		MOVE.b	(a0),d0						;get region data
			add.w	d2,a0						;bump for/back-wards 1 byte
			bne.s	@chkBlt
@cntSkip	add.w	a3,d3						;accumulate skip bump (±4)
			dbra	d5,@skip1
			bra.s	@endRun

@blit1		MOVE.b	(a0),d0						;get region data
			add.w	d2,a0						;bump for/back-wards 1 byte
			cmp.b	d1,d0
			bne.s	@dumpBlit
			add.l	d4,d3
@cntBlit	dbra	d5,@blit1

			move.l	d3,(a2)+					;write out blit/skip
@endRun		move.l	d1,(a2)						;flag end of run data (-1L)
			
			MOVEM.L	(SP)+,D1-D7/A3/A4			;RESTORE WORK REGISTERS
			RTS

;
;-----------------------------------------------
				
		
	ALIGN Alignment	
		
		
RUN8
			tst.w	RunBump(a6)					;forward?
			bmi		BackWards8					;yes, go there
												;fall thru
Forwards8
;-----------------------------------------------
;
;  Build a 8 bit run mask from a 1 bit scan mask
;  for use when blitting Left to Right
;  -Consumes bytes and produces double longs 
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D1-D6/A4,-(SP)				;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			LEA		TABLE8,A4					;point to scale table
			lsr.w	#1,d5						;get cnt of double longs-1
			moveq	#-1,d1						;get blit mask
			moveq	#1*2,d4						;get bump size for blit
			swap	d4
			moveq	#0,d6						;clear out high end
			move.l	#$10000,d2					;init blit/mask to 2-1
			
		 	MOVE.b	(a0)+,d0					;get region data
						
@nxtRun		move.l	d2,d3						;init blit/mask, skip cnt
			tst.b	d0
			beq.s	@cntSkip					;mask is all zeros
@chkBlt		cmp.b	d1,d0						;is the mask all ones?
			beq.s	@cntBlit					;yes, go cnt repeats
			
			move.l	a2,a1						;save ptr to blit/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@cntMask

@mask1		MOVE.b	(a0)+,d0					;all 0's?
			beq.s	@dumpMask					;yes, done with mask run
			cmp.b	d1,d0						;all 1's?
			beq.s	@dumpMask					;yes, done with mask run
			add.l	d4,d3
@cntMask	
			MOVE.B	D0,D6						;MAKE AN EXTRA COPY
			LSR		#4,D6						;SHIFT FOR TABLE INDEX
		;	MOVE.L	(TABLE8,PC,D6*4),(A2)+		;bigger and slower than below
			MOVE.L	(A4,D6*4),(A2)+				;PUT FIRST LONG TO DST
			MOVEQ	#$0F,D6 					;MASK FOR LO NIBBLE
			AND		D0,D6						;MAKE AN EXTRA COPY
			MOVE.L	(A4,D6*4),(A2)+				;PUT SECOND LONG TO DST
			dbra	d5,@mask1
			
			bset	#runMaskBit,d3
			move.l	d3,(a1)
			bra.s	@endRun

@dumpMask	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			bra.s	@nxtRun						

@dumpBlit	move.l	d3,(a2)+					;write out blit/skip
			bra.s	@nxtRun						

@skip1		MOVE.b	(a0)+,d0					;get region data
			bne.s	@chkBlt
@cntSkip	addq.w	#8,d3						;skip bump size is +8
			dbra	d5,@skip1
			bra.s	@endRun

@blit1		MOVE.b	(a0)+,d0					;get region data
			cmp.b	d1,d0
			bne.s	@dumpBlit
			add.l	d4,d3
@cntBlit	dbra	d5,@blit1

			move.l	d3,(a2)+					;write out blit/skip
@endRun		move.l	d1,(a2)						;flag end of run data (-1L)
			
			MOVEM.L	(SP)+,D1-D6/A4				;RESTORE WORK REGISTERS
			RTS


;-----------------------------------------------

		
	ALIGN Alignment	
		

BackWards8
;-----------------------------------------------
;
;  Build a 8 bit run mask from a 1 bit scan mask
;  for use when blitting RIGHT to LEFT
;  -Consumes bytes and produces double longs 
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D1-D6/A4,-(SP)				;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			LEA		TABLE8,A4					;point to scale table
			moveq	#-1,d1						;get blit mask
			moveq	#1*2,d4						;get bump size for blit
			swap	d4
			moveq	#0,d6						;clear out high end
			move.l	#$10000,d2					;init blit/mask to 2-1
			move.l	d2,d3						;init high word of instruction
			
			add.w	#8,d5
			and.w	#~7,d5						;round up to mult of pixelsize

			move.w	d5,d3						;copy bufSize
			asr.w	#1,d3						;get mask byte width /8*4
			add.w	d3,a0						;point at last long in RGNBUFFER
			lsl.w	#3,d3						;force skip to right edge
			subq.w	#1,d5						;make zero based
			subq.w	#4,d3						;make zero based
			lsr.w	#1,d5						;get cnt of double longs-1
			
		 	MOVE.b	-(a0),d0					;get region data
			bra.s	@first
						
@nxtRun		move.l	d2,d3						;init blit/mask, skip cnt
@first		tst.b	d0
			beq.s	@cntSkip					;mask is all zeros
@chkBlt		cmp.b	d1,d0						;is the mask all ones?
			beq.s	@cntBlit					;yes, go cnt repeats
			
			move.l	a2,a1						;save ptr to blit/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@cntMask

@mask1		MOVE.b	-(a0),d0					;all 0's?
			beq.s	@dumpMask					;yes, done with mask run
			cmp.b	d1,d0						;all 1's?
			beq.s	@dumpMask					;yes, done with mask run
			add.l	d4,d3
@cntMask	
			MOVEQ	#$0F,D6						;MASK FOR LO NIBBLE
			AND		D0,D6 						;GET LO NIBBLE
			MOVE.L	(A4,D6*4),(A2)+				;PUT SECOND LONG TO DST
			MOVE.B	D0,D6						;MAKE AN EXTRA COPY
			LSR		#4,D6						;SHIFT FOR TABLE INDEX
		;	MOVE.L	(TABLE8,PC,D6*4),(A2)+		;bigger and slower than below
			MOVE.L	(A4,D6*4),(A2)+				;PUT FIRST LONG TO DST
			dbra	d5,@mask1
			
			bset	#runMaskBit,d3
			move.l	d3,(a1)
			bra.s	@endRun

@dumpMask	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			bra.s	@nxtRun						

@dumpBlit	move.l	d3,(a2)+					;write out blit/skip
			bra.s	@nxtRun						

@skip1		MOVE.b	-(a0),d0					;get region data
			bne.s	@chkBlt
@cntSkip	subq.w	#8,d3						;skip bump size is -8
			dbra	d5,@skip1
			bra.s	@endRun

@blit1		MOVE.b	-(a0),d0					;get region data
			cmp.b	d1,d0
			bne.s	@dumpBlit
			add.l	d4,d3
@cntBlit	dbra	d5,@blit1

			move.l	d3,(a2)+					;write out blit/skip
@endRun		move.l	d1,(a2)						;flag end of run data (-1L)
			
			MOVEM.L	(SP)+,D1-D6/A4				;RESTORE WORK REGISTERS
			RTS



		ALIGN	4

TABLE8	DC.L	$00000000,$000000FF,$0000FF00,$0000FFFF
		DC.L	$00FF0000,$00FF00FF,$00FFFF00,$00FFFFFF
		DC.L	$FF000000,$FF0000FF,$FF00FF00,$FF00FFFF
		DC.L	$FFFF0000,$FFFF00FF,$FFFFFF00,$FFFFFFFF

		
	ALIGN Alignment	
		

Forwards16
;-----------------------------------------------
;
;  Build a 16 bit run mask from a 1 bit scan mask
;  for use when blitting Left to Right
;
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D3-D5,-(SP)					;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			moveq	#1,d4						;get bump size for blit
			swap	d4
			
			moveq	#1,d0						;get 1 into high bit
			ror.l	#1,d0						;to init data stream
			moveq	#0,d3						;init blit/mask, skip cnt

@skip1	 	add.l	d0,d0						;get one bit of src
			bcc.s	@chkSkip 					;br if 0
			bne.s	@BlitOrMask 				;br if 1
			move.l	(a0)+,d0					;else get next long of region data
			addx.l	d0,d0						;shift src bit out, 1 bit in
			bcs.s	@BlitOrMask 				;br if 1

@chkSkip	add.l	d0,d0						;another 0?
			bcc.s	@cntSkip					;yes, its a skip
@first01	move.l	a2,a1						;save ptr to mask/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@dump01
			
@cntSkip	addq.w	#4,d3						;bump skip by +4
			dbra	d5,@skip1
			bra.s	endRun16

@BlitOrMask	add.l	d0,d0						;another 1?
			bcs.s	@goBlit						;yes, begin a blit run
@first10	move.l	a2,a1						;save ptr to mask/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@dump10

@dumpMaskS	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@cntSkip						

@dumpMaskB	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@goBlit						

@chkMask0	add.l	d0,d0						;another 0?
			bcc.s	@dumpMaskS					;yes, its a skip
			add.l	d4,d3
@dump01		move.l	#$ffff,(a2)+				;write out 01 mask
			bra.s	@nextMask


@mask1		add.l	d0,d0						;get one bit of src
			bcc.s	@chkMask0 					;br if 0
			bne.s	@chkMask1					;br if 1
			move.l	(a0)+,d0					;else get next long of region data
			addx.l	d0,d0						;shift src bit out, 1 bit in
			bcc.s	@chkMask0 					;br if 0
@chkMask1	add.l	d0,d0						;another 1?
			bcs.s	@dumpMaskB					;yes, its a blit
			add.l	d4,d3
@dump10		move.l	#$ffff0000,(a2)+			;write out 10 mask
@nextMask	dbra	d5,@mask1
			bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			bra.s	endRun16

@dumpBlitS	move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@chkSkip						

@dumpBlitM	move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@first10						

@blit1		add.l	d0,d0						;get one bit of src
			bcc.s	@dumpBlitS 					;br if 0
			bne.s	@chkBlit 					;br if 1
			move.l	(a0)+,d0					;else get next long of region data
			addx.l	d0,d0						;shift src bit out, 1 bit in
			bcc.s	@dumpBlitS 					;br if 0
@chkBlit	add.l	d0,d0						;another 1?
			bcc.s	@dumpBlitM					;no, its a mask
			add.l	d4,d3
@goBlit		dbra	d5,@blit1
			move.l	d3,(a2)+					;write out blit/skip
			
endRun16	moveq	#-1,d3						;get a long -1
			move.l	d3,(a2)						;flag end of run data (-1L)
			MOVEM.L	(SP)+,D3-D5					;RESTORE WORK REGISTERS
			RTS


;-----------------------------------------------

		
	ALIGN Alignment	
		
RUN16
			lea		Forwards16,a0				;assume blitting left to right
			move.l	a0,RunRtn(a6)				;go there from now on
			tst.w	RunBump(a6)					;forward?
			bpl.s	Forwards16					;yes, go there
			lea		BackWards16,a0				;blitting right to left
			move.l	a0,RunRtn(a6)				;go there from now on
												;fall thru
		
BackWards16
;-----------------------------------------------
;
;  Build a 16 bit run mask from a 1 bit scan mask
;  for use when blitting RIGHT to LEFT
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D3-D5,-(SP)					;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			add.w	#16,d5
			and.w	#~15,d5						;round up to mult of pixelsize

			moveq	#1,d4						;get bump size for blit
			swap	d4
			
			move.w	d5,d3						;copy bufSize
			ext.l	d3							;clear out high end
			asr.w	#2,d3						;get mask byte width /16*4
			add.w	d3,a0						;point at last long in RGNBUFFER
			lsl.w	#4,d3						;force skip to right edge
			subq.w	#1,d5						;make zero based
			subq.w	#4,d3						;make zero based
			
			moveq	#1,d0						;get 1 to init data stream
@skip1		lsr.l	#1,d0						;get one bit of src
			bcc.s	@chkSkip 					;br if 0
			bne.s	@BlitOrMask 				;br if 1
			move.l	-(a0),d0					;else get next long of region data
			roxr.l	#1,d0						;shift src bit out, 1 bit in
			bcs.s	@BlitOrMask 				;br if 1

@chkSkip	lsr.l	#1,d0						;another 0?
			bcc.s	@cntSkip					;yes, its a skip
@first01	move.l	a2,a1						;save ptr to mask/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@dump01
			
@cntSkip	subq.w	#4,d3						;bump skip by -4
			dbra	d5,@skip1
			bra.s	endRun16					;use common exit

@BlitOrMask	lsr.l	#1,d0						;another 1?
			bcs.s	@goBlit						;yes, begin a blit run
@first10	move.l	a2,a1						;save ptr to mask/skip long
			addq.l	#4,a2						;bump past instruction long
			bra.s	@dump10

@dumpMaskS	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@cntSkip						

@dumpMaskB	bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@goBlit						

@chkMask0	lsr.l	#1,d0						;another 0?
			bcc.s	@dumpMaskS					;yes, its a skip
			add.l	d4,d3
@dump01		move.l	#$ffff0000,(a2)+			;write out 01 mask
			bra.s	@nextMask


@mask1		lsr.l	#1,d0						;get one bit of src
			bcc.s	@chkMask0 					;br if 0
			bne.s	@chkMask1					;br if 1
			move.l	-(a0),d0					;else get next long of region data
			roxr.l	#1,d0						;shift src bit out, 1 bit in
			bcc.s	@chkMask0 					;br if 0
@chkMask1	lsr.l	#1,d0						;another 1?
			bcs.s	@dumpMaskB					;yes, its a blit
			add.l	d4,d3
@dump10		move.l	#$0000ffff,(a2)+			;write out 10 mask
@nextMask	dbra	d5,@mask1
			bset	#runMaskBit,d3
			move.l	d3,(a1)						;write out mask/skip
			bra.s	endRun16					;use common exit

@dumpBlitS	move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@chkSkip						

@dumpBlitM	move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@first10						

@blit1		lsr.l	#1,d0						;get one bit of src
			bcc.s	@dumpBlitS 					;br if 0
			bne.s	@chkBlit 					;br if 1
			move.l	-(a0),d0					;else get next long of region data
			roxr.l	#1,d0						;shift src bit out, 1 bit in
			bcc.s	@dumpBlitS 					;br if 0
@chkBlit	lsr.l	#1,d0						;another 1?
			bcc.s	@dumpBlitM					;no, its a mask
			add.l	d4,d3
@goBlit		dbra	d5,@blit1
			move.l	d3,(a2)+					;write out blit/skip
			bra.s	endRun16					;use common exit

		
	ALIGN Alignment	
		


Forwards32
;-----------------------------------------------
;
;  Build a 32 bit run mask from a 1 bit scan mask
;  for use when blitting Left to Right
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D3-D5,-(SP)					;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			moveq	#1,d4						;get bump size for blit
			swap	d4
			
			moveq	#1,d0						;get 1 into high bit
			ror.l	#1,d0						;to init data stream
			moveq	#0,d3						;init blit/mask, skip cnt

@skip1	 	add.l	d0,d0						;get one bit of src
			bcc.s	@cntSkip 					;br if 0
			bne.s	@cntBlit 					;br if 1
			move.l	(a0)+,d0					;else get next long of region data
			addx.l	d0,d0						;shift src bit out, 1 bit in
			bcs.s	@cntBlit 					;br if 1

@cntSkip	addq.w	#4,d3						;bump skip by +4
			dbra	d5,@skip1
			bra.s	endRun32

			
@goSkip		move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@cntSkip						

@blit1		add.l	d0,d0						;get one bit of src
			bcc.s	@goSkip 					;br if 0
			bne.s	@goBlit 					;br if 1
			move.l	(a0)+,d0					;else get next long of region data
			addx.l	d0,d0						;shift src bit out, 1 bit in
			bcc.s	@goSkip 					;br if 1
@goBlit		add.l	d4,d3						;bump blit count
@cntBlit	dbra	d5,@blit1
			move.l	d3,(a2)+					;write out blit/skip
			
endRun32	moveq	#-1,d3						;get a long -1
			move.l	d3,(a2)						;flag end of run data (-1L)
			MOVEM.L	(SP)+,D3-D5					;RESTORE WORK REGISTERS
			RTS

;-----------------------------------------------

		
	ALIGN Alignment	
		
RUN32
			lea		Forwards32,a0				;assume blitting left to right
			move.l	a0,RunRtn(a6)				;go there from now on
			tst.w	RunBump(a6)					;forward?
			bpl.s	Forwards32					;yes, go there
			lea		BackWards32,a0				;blitting right to left
			move.l	a0,RunRtn(a6)				;go there from now on
												;fall thru

BackWards32
;-----------------------------------------------
;
;  Build a 32 bit run mask from a 1 bit scan mask
;  for use when blitting RIGHT to LEFT
;
;	This should be optimized to look at longs as fast case
;
			move.l	RGNBUFFER(a6),a0
			MOVEM.L	D3-D5,-(SP)					;SAVE WORK REGISTERS

			MOVE.L	RUNBUF(A6),A2				;point to run encoded mask buffer
			MOVE.W	BUFSIZE(A6),D5				;get dest longs-1
			add.w	#32,d5
			and.w	#~31,d5						;round up to mult of pixelsize

			moveq	#1,d4						;get bump size for blit
			swap	d4
			
			move.w	d5,d3						;copy bufSize
			ext.l	d3							;clear out high end
			asr.w	#3,d3						;get mask byte width /32*4
			add.w	d3,a0						;point at last long in RGNBUFFER
			lsl.w	#5,d3						;force skip to right edge
			subq.w	#1,d5						;make zero based
			subq.w	#4,d3						;make zero based
			
			moveq	#1,d0						;get 1 to init data stream
@skip1	 	lsr.l	#1,d0						;get one bit of src
			bcc.s	@cntSkip 					;br if 0
			bne.s	@cntBlit 					;br if 1
			move.l	-(a0),d0					;else get next long of region data
			roxr.l	#1,d0						;shift src bit out, 1 bit in
			bcs.s	@cntBlit 					;br if 1

@cntSkip	subq.w	#4,d3						;bump skip by -4
			dbra	d5,@skip1
			bra.s	endRun32

			
@goSkip		move.l	d3,(a2)+					;write out blit/skip
			moveq	#0,d3						;init blit/mask, skip cnt
			bra.s	@cntSkip						

@blit1		lsr.l	#1,d0						;get one bit of src
			bcc.s	@goSkip 					;br if 0
			bne.s	@goBlit 					;br if 1
			move.l	-(a0),d0					;else get next long of region data
			roxr.l	#1,d0						;shift src bit out, 1 bit in
			bcc.s	@goSkip 					;br if 1
@goBlit		add.l	d4,d3						;bump blit cnt
@cntBlit	dbra	d5,@blit1
			move.l	d3,(a2)+					;write out blit/skip
			bra.s	endRun32					;use common exit
			
			
			ENDPROC