boot3/Toolbox/FontMgr/FontMath.a

;
;	File:		FontMath.a
;
;	Contains:	xxx put contents here xxx
;
;	Written by:	xxx put writers here xxx
;
;	Copyright:	<09> 1990 by Apple Computer, Inc., all rights reserved.
;
;	Change History (most recent first):
;
;		 <2>	 11/5/90	MR		Rename FixMulDiv to LongMulDiv [rb]
;		 <1>	10/20/90	MR		68000 versions of some routines in FontMath.c. [rj]
;
;	To Do:
;

			Case		On
			Blanks		Off

	IF 0 THEN
		;	long LongMulDiv(long a, long b, long c)
		LongMulDiv		Func			Export
			move.l		(sp)+,a0
			lea			(sp),a1			; get parameters
			move.l		(a1)+,d0		; get a
			move.l		(a1)+,d1		; get b
			move.l		(a1),d2			; get c
			beq.s		@div0
			bpl.s		@1
			neg.l		d2
		@1:
			asr.l		#1,d2
			muls.l 		d1,d1:d0		; compute a*b
			bpl.s		@2
			neg.l		d2
		@2:
			add.l		d2,d0
			bfexts		d2{0:1},d2
			addx.l		d2,d1
			divs.l		(a1),d1:d0		; compute (a*b+c/2)/c
			bvc.s		@3
			move.l		(a1),d0
		@div0:
			eor.l		d1,d0
			bmi.s		@div1
			move.l		#$7fffffff,d0
			bra.s		@3
		@div1:
			move.l		#$80000000,d0
		@3:
			jmp			(a0)
	ENDIF


;	long ShortMulDiv(long a, short b, short c)
;
;	d3			a
;	d4			b
;	d5			c
;	d6			sign
;
ShortMulDiv		Func			Export
	move.l		(sp)+,a0		; get return address
	move.l		sp,a1			; get parameters
	movem.l		d3-d6,-(sp)
@0:
	move.l		(a1)+,d3		; get a
	smi			d6				; set sign
	bpl.s		@1
	neg.l		d3				; a = -a
@1:
	move.l		(a1)+,d4		; get b
	bpl.s		@2
	not.b		d6				; change sign
	neg.l		d4				; b = -b
@2:
	move.l		(a1)+,d5		; get c
	bpl.s		@3
	not.b		d6				; change sign
	neg.l		d5				; c = -c
@3:
	move.w		d3,d0			; get a.lo
	mulu.w		d4,d0			; compute a.lo * b
	move.l		d5,d1			; get c
	asr.l		#1,d1			; compute c / 2
	add.l		d1,d0			; compute a.lo * b + c / 2
	move.l		d0,d1
	clr.w		d0
	swap		d0				; get (a.lo * b + c / 2).hi
	move.l		d3,d2
	swap		d2				; get a.hi
	mulu.w		d4,d2			; compute a.hi * b
	add.l		d2,d0			; compute a.hi * b + (a.lo * b + c / 2).hi
	divu.w		d5,d0			; compute the hi word of the result
	bvs.s		@div0
	bmi.s		@div0
	swap		d0				; get the remainder of the division
	swap		d1
	move.w		d0,d1
	swap		d1				; put the remainder in hi word
	divu.w		d5,d1			; compute lo word of result
	move.w		d1,d0			;join result
	tst.b		d6				; check sign
	beq.s		@done
	neg.l		d0
	bra.s		@done
@div0:
	moveq		#1,d0
	ror.l		#1,d0			; negative infinity
	tst.b		d6				; check sign
	bne.s		@done
	not.l		d0				; positive infinity
@done:
	movem.l		(sp)+,d3-d6
	jmp			(a0)



;	long ShortFracMul(long a, ShortFrac b)
;
;	d0			hilong
;	d1			midlong
;	d2			lowlong
;	d3			a
;	d4			b
;	d5			sign
;
ShortFracMul	Func			Export
	move.l		(sp)+,a0		; get return address
	move.l		sp,a1			; get parameters
	movem.l		d3-d5,-(sp)
@0:
	move.l		(a1)+,d3		; get a
	smi			d5				; set sign
	bpl.s		@1
	neg.l		d3				; a = -a
@1:
	move.l		(a1)+,d4		; get b
	bpl.s		@2
	not.b		d5				; change sign
	neg.l		d4				; b = -b
@2:
	move.l		d3,d1			; get a
	swap		d1				; a.hi in d1.w
	mulu.w		d4,d1			; compute a.hi * b
	swap		d1				; (a.hi * b).lo in d1.hi and vice-versa
	move.w		d1,d0			; grab (a.hi * b).hi in d0.w
	move.w		#$2000,d1		; d1 + (1 << 13) { like clr.w and add.l }
	move.w		d3,d2			; get a.lo
	mulu.w		d4,d2			; compute a.lo * b
	add.l		d1,d2			; a.lo * b + ((a.hi * b).lo).hi + (1 << 13)
	cmp.l		d2,d1			; check for overflow
	bls.s		@3
	addq		#1,d0			; carry bit
@3:
	swap		d0
	clr.w		d0
	lsl.l		#2,d0			; d0 <<= 18
	andi.w		#$c000,d2		; kill low 14 bits
	rol.l		#2,d2
	swap		d2				; d2 >>= 14
	add.l		d2,d0			; here's the unsigned answer
	tst.b		d5				; check sign
	beq.s		@done
	neg.l		d0
@done:
	movem.l		(sp)+,d3-d5
	jmp			(a0)

	END