linux-pinenote/arch/alpha/lib/divide.S

/*
 * arch/alpha/lib/divide.S
 *
 * (C) 1995 Linus Torvalds
 *
 * Alpha division..
 */

/*
 * The alpha chip doesn't provide hardware division, so we have to do it
 * by hand.  The compiler expects the functions
 *
 *	__divqu: 64-bit unsigned long divide
 *	__remqu: 64-bit unsigned long remainder
 *	__divqs/__remqs: signed 64-bit
 *	__divlu/__remlu: unsigned 32-bit
 *	__divls/__remls: signed 32-bit
 *
 * These are not normal C functions: instead of the normal
 * calling sequence, these expect their arguments in registers
 * $24 and $25, and return the result in $27. Register $28 may
 * be clobbered (assembly temporary), anything else must be saved. 
 *
 * In short: painful.
 *
 * This is a rather simple bit-at-a-time algorithm: it's very good
 * at dividing random 64-bit numbers, but the more usual case where
 * the divisor is small is handled better by the DEC algorithm
 * using lookup tables. This uses much less memory, though, and is
 * nicer on the cache.. Besides, I don't know the copyright status
 * of the DEC code.
 */

/*
 * My temporaries:
 *	$0 - current bit
 *	$1 - shifted divisor
 *	$2 - modulus/quotient
 *
 *	$23 - return address
 *	$24 - dividend
 *	$25 - divisor
 *
 *	$27 - quotient/modulus
 *	$28 - compare status
 */

#define halt .long 0

/*
 * Select function type and registers
 */
#define mask	$0
#define divisor	$1
#define compare $28
#define tmp1	$3
#define tmp2	$4

#ifdef DIV
#define DIV_ONLY(x,y...) x,##y
#define MOD_ONLY(x,y...)
#define func(x) __div##x
#define modulus $2
#define quotient $27
#define GETSIGN(x) xor $24,$25,x
#define STACK 48
#else
#define DIV_ONLY(x,y...)
#define MOD_ONLY(x,y...) x,##y
#define func(x) __rem##x
#define modulus $27
#define quotient $2
#define GETSIGN(x) bis $24,$24,x
#define STACK 32
#endif

/*
 * For 32-bit operations, we need to extend to 64-bit
 */
#ifdef INTSIZE
#define ufunction func(lu)
#define sfunction func(l)
#define LONGIFY(x) zapnot x,15,x
#define SLONGIFY(x) addl x,0,x
#else
#define ufunction func(qu)
#define sfunction func(q)
#define LONGIFY(x)
#define SLONGIFY(x)
#endif

.set noat
.align	3
.globl	ufunction
.ent	ufunction
ufunction:
	subq	$30,STACK,$30
	.frame	$30,STACK,$23
	.prologue 0

7:	stq	$1, 0($30)
	bis	$25,$25,divisor
	stq	$2, 8($30)
	bis	$24,$24,modulus
	stq	$0,16($30)
	bis	$31,$31,quotient
	LONGIFY(divisor)
	stq	tmp1,24($30)
	LONGIFY(modulus)
	bis	$31,1,mask
	DIV_ONLY(stq tmp2,32($30))
	beq	divisor, 9f			/* div by zero */

#ifdef INTSIZE
	/*
	 * shift divisor left, using 3-bit shifts for
	 * 32-bit divides as we can't overflow. Three-bit
	 * shifts will result in looping three times less
	 * here, but can result in two loops more later.
	 * Thus using a large shift isn't worth it (and
	 * s8add pairs better than a sll..)
	 */
1:	cmpult	divisor,modulus,compare
	s8addq	divisor,$31,divisor
	s8addq	mask,$31,mask
	bne	compare,1b
#else
1:	cmpult	divisor,modulus,compare
	blt     divisor, 2f
	addq	divisor,divisor,divisor
	addq	mask,mask,mask
	bne	compare,1b
	unop
#endif

	/* ok, start to go right again.. */
2:	DIV_ONLY(addq quotient,mask,tmp2)
	srl	mask,1,mask
	cmpule	divisor,modulus,compare
	subq	modulus,divisor,tmp1
	DIV_ONLY(cmovne compare,tmp2,quotient)
	srl	divisor,1,divisor
	cmovne	compare,tmp1,modulus
	bne	mask,2b

9:	ldq	$1, 0($30)
	ldq	$2, 8($30)
	ldq	$0,16($30)
	ldq	tmp1,24($30)
	DIV_ONLY(ldq tmp2,32($30))
	addq	$30,STACK,$30
	ret	$31,($23),1
	.end	ufunction

/*
 * Uhh.. Ugly signed division. I'd rather not have it at all, but
 * it's needed in some circumstances. There are different ways to
 * handle this, really. This does:
 * 	-a / b = a / -b = -(a / b)
 *	-a % b = -(a % b)
 *	a % -b = a % b
 * which is probably not the best solution, but at least should
 * have the property that (x/y)*y + (x%y) = x.
 */
.align 3
.globl	sfunction
.ent	sfunction
sfunction:
	subq	$30,STACK,$30
	.frame	$30,STACK,$23
	.prologue 0
	bis	$24,$25,$28
	SLONGIFY($28)
	bge	$28,7b
	stq	$24,0($30)
	subq	$31,$24,$28
	stq	$25,8($30)
	cmovlt	$24,$28,$24	/* abs($24) */
	stq	$23,16($30)
	subq	$31,$25,$28
	stq	tmp1,24($30)
	cmovlt	$25,$28,$25	/* abs($25) */
	unop
	bsr	$23,ufunction
	ldq	$24,0($30)
	ldq	$25,8($30)
	GETSIGN($28)
	subq	$31,$27,tmp1
	SLONGIFY($28)
	ldq	$23,16($30)
	cmovlt	$28,tmp1,$27
	ldq	tmp1,24($30)
	addq	$30,STACK,$30
	ret	$31,($23),1
	.end	sfunction
Linux-2.6.12-rc2 Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip! 2005-04-16 15:20:36 -07:00			`/*`
			`* arch/alpha/lib/divide.S`
			`*`
			`* (C) 1995 Linus Torvalds`
			`*`
			`* Alpha division..`
			`*/`

			`/*`
			`* The alpha chip doesn't provide hardware division, so we have to do it`
			`* by hand. The compiler expects the functions`
			`*`
			`* __divqu: 64-bit unsigned long divide`
			`* __remqu: 64-bit unsigned long remainder`
			`* __divqs/__remqs: signed 64-bit`
			`* __divlu/__remlu: unsigned 32-bit`
			`* __divls/__remls: signed 32-bit`
			`*`
			`* These are not normal C functions: instead of the normal`
			`* calling sequence, these expect their arguments in registers`
			`* $24 and $25, and return the result in $27. Register $28 may`
			`* be clobbered (assembly temporary), anything else must be saved.`
			`*`
			`* In short: painful.`
			`*`
			`* This is a rather simple bit-at-a-time algorithm: it's very good`
			`* at dividing random 64-bit numbers, but the more usual case where`
			`* the divisor is small is handled better by the DEC algorithm`
			`* using lookup tables. This uses much less memory, though, and is`
			`* nicer on the cache.. Besides, I don't know the copyright status`
			`* of the DEC code.`
			`*/`

			`/*`
			`* My temporaries:`
			`* $0 - current bit`
			`* $1 - shifted divisor`
			`* $2 - modulus/quotient`
			`*`
			`* $23 - return address`
			`* $24 - dividend`
			`* $25 - divisor`
			`*`
			`* $27 - quotient/modulus`
			`* $28 - compare status`
			`*/`

			`#define halt .long 0`

			`/*`
			`* Select function type and registers`
			`*/`
			`#define mask $0`
			`#define divisor $1`
			`#define compare $28`
			`#define tmp1 $3`
			`#define tmp2 $4`

			`#ifdef DIV`
			`#define DIV_ONLY(x,y...) x,##y`
			`#define MOD_ONLY(x,y...)`
			`#define func(x) __div##x`
			`#define modulus $2`
			`#define quotient $27`
			`#define GETSIGN(x) xor $24,$25,x`
			`#define STACK 48`
			`#else`
			`#define DIV_ONLY(x,y...)`
			`#define MOD_ONLY(x,y...) x,##y`
			`#define func(x) __rem##x`
			`#define modulus $27`
			`#define quotient $2`
			`#define GETSIGN(x) bis $24,$24,x`
			`#define STACK 32`
			`#endif`

			`/*`
			`* For 32-bit operations, we need to extend to 64-bit`
			`*/`
			`#ifdef INTSIZE`
			`#define ufunction func(lu)`
			`#define sfunction func(l)`
			`#define LONGIFY(x) zapnot x,15,x`
			`#define SLONGIFY(x) addl x,0,x`
			`#else`
			`#define ufunction func(qu)`
			`#define sfunction func(q)`
			`#define LONGIFY(x)`
			`#define SLONGIFY(x)`
			`#endif`

			`.set noat`
			`.align 3`
			`.globl ufunction`
			`.ent ufunction`
			`ufunction:`
			`subq $30,STACK,$30`
			`.frame $30,STACK,$23`
			`.prologue 0`

			`7: stq $1, 0($30)`
			`bis $25,$25,divisor`
			`stq $2, 8($30)`
			`bis $24,$24,modulus`
			`stq $0,16($30)`
			`bis $31,$31,quotient`
			`LONGIFY(divisor)`
			`stq tmp1,24($30)`
			`LONGIFY(modulus)`
			`bis $31,1,mask`
			`DIV_ONLY(stq tmp2,32($30))`
			`beq divisor, 9f /* div by zero */`

			`#ifdef INTSIZE`
			`/*`
			`* shift divisor left, using 3-bit shifts for`
			`* 32-bit divides as we can't overflow. Three-bit`
			`* shifts will result in looping three times less`
			`* here, but can result in two loops more later.`
			`* Thus using a large shift isn't worth it (and`
			`* s8add pairs better than a sll..)`
			`*/`
			`1: cmpult divisor,modulus,compare`
			`s8addq divisor,$31,divisor`
			`s8addq mask,$31,mask`
			`bne compare,1b`
			`#else`
			`1: cmpult divisor,modulus,compare`
			`blt divisor, 2f`
			`addq divisor,divisor,divisor`
			`addq mask,mask,mask`
			`bne compare,1b`
			`unop`
			`#endif`

			`/* ok, start to go right again.. */`
			`2: DIV_ONLY(addq quotient,mask,tmp2)`
			`srl mask,1,mask`
			`cmpule divisor,modulus,compare`
			`subq modulus,divisor,tmp1`
			`DIV_ONLY(cmovne compare,tmp2,quotient)`
			`srl divisor,1,divisor`
			`cmovne compare,tmp1,modulus`
			`bne mask,2b`

			`9: ldq $1, 0($30)`
			`ldq $2, 8($30)`
			`ldq $0,16($30)`
			`ldq tmp1,24($30)`
			`DIV_ONLY(ldq tmp2,32($30))`
			`addq $30,STACK,$30`
			`ret $31,($23),1`
			`.end ufunction`

			`/*`
			`* Uhh.. Ugly signed division. I'd rather not have it at all, but`
			`* it's needed in some circumstances. There are different ways to`
			`* handle this, really. This does:`
			`* -a / b = a / -b = -(a / b)`
			`* -a % b = -(a % b)`
			`* a % -b = a % b`
			`* which is probably not the best solution, but at least should`
			`* have the property that (x/y)*y + (x%y) = x.`
			`*/`
			`.align 3`
			`.globl sfunction`
			`.ent sfunction`
			`sfunction:`
			`subq $30,STACK,$30`
			`.frame $30,STACK,$23`
			`.prologue 0`
			`bis $24,$25,$28`
			`SLONGIFY($28)`
			`bge $28,7b`
			`stq $24,0($30)`
			`subq $31,$24,$28`
			`stq $25,8($30)`
			`cmovlt $24,$28,$24 /* abs($24) */`
			`stq $23,16($30)`
			`subq $31,$25,$28`
			`stq tmp1,24($30)`
			`cmovlt $25,$28,$25 /* abs($25) */`
			`unop`
			`bsr $23,ufunction`
			`ldq $24,0($30)`
			`ldq $25,8($30)`
			`GETSIGN($28)`
			`subq $31,$27,tmp1`
			`SLONGIFY($28)`
			`ldq $23,16($30)`
			`cmovlt $28,tmp1,$27`
			`ldq tmp1,24($30)`
			`addq $30,STACK,$30`
			`ret $31,($23),1`
			`.end sfunction`