gcc/config/alpha/lib1funcs.asm - gcc - Git at Google

 /* DEC Alpha division and remainder support.
    Copyright (C) 1994, 1999 Free Software Foundation, Inc.

 This file is free software; you can redistribute it and/or modify it
 under the terms of the GNU General Public License as published by the
 Free Software Foundation; either version 2, or (at your option) any
 later version.

 In addition to the permissions in the GNU General Public License, the
 Free Software Foundation gives you unlimited permission to link the
 compiled version of this file into combinations with other programs,
 and to distribute those combinations without any restriction coming
 from the use of this file.  (The General Public License restrictions
 do apply in other respects; for example, they cover modification of
 the file, and distribution when not linked into a combine
 executable.)

 This file is distributed in the hope that it will be useful, but
 WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with this program; see the file COPYING.  If not, write to
 the Free Software Foundation, 59 Temple Place - Suite 330,
 Boston, MA 02111-1307, USA.  */

 /* This had to be written in assembler because the division functions
    use a non-standard calling convention.

    This file provides an implementation of __divqu, __divq, __divlu,
    __divl, __remqu, __remq, __remlu and __reml.  CPP macros control
    the exact operation.

    Operation performed: $27 := $24 o $25, clobber $28, return address to
    caller in $23, where o one of the operations.

    The following macros need to be defined:

 	SIZE, the number of bits, 32 or 64.

 	TYPE, either UNSIGNED or SIGNED

 	OPERATION, either DIVISION or REMAINDER

 	SPECIAL_CALLING_CONVENTION, 0 or 1.  It is useful for debugging to
 	define this to 0.  That removes the `__' prefix to make the function
 	name not collide with the existing libc.a names, and uses the
 	standard Alpha procedure calling convention.
 */

 #ifndef SPECIAL_CALLING_CONVENTION
 #define SPECIAL_CALLING_CONVENTION 1
 #endif

 #ifdef L_divl
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __divl
 #else
 #define FUNCTION_NAME divl
 #endif
 #define SIZE 32
 #define TYPE SIGNED
 #define OPERATION DIVISION
 #endif

 #ifdef L_divlu
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __divlu
 #else
 #define FUNCTION_NAME divlu
 #endif
 #define SIZE 32
 #define TYPE UNSIGNED
 #define OPERATION DIVISION
 #endif

 #ifdef L_divq
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __divq
 #else
 #define FUNCTION_NAME divq
 #endif
 #define SIZE 64
 #define TYPE SIGNED
 #define OPERATION DIVISION
 #endif

 #ifdef L_divqu
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __divqu
 #else
 #define FUNCTION_NAME divqu
 #endif
 #define SIZE 64
 #define TYPE UNSIGNED
 #define OPERATION DIVISION
 #endif

 #ifdef L_reml
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __reml
 #else
 #define FUNCTION_NAME reml
 #endif
 #define SIZE 32
 #define TYPE SIGNED
 #define OPERATION REMAINDER
 #endif

 #ifdef L_remlu
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __remlu
 #else
 #define FUNCTION_NAME remlu
 #endif
 #define SIZE 32
 #define TYPE UNSIGNED
 #define OPERATION REMAINDER
 #endif

 #ifdef L_remq
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __remq
 #else
 #define FUNCTION_NAME remq
 #endif
 #define SIZE 64
 #define TYPE SIGNED
 #define OPERATION REMAINDER
 #endif

 #ifdef L_remqu
 #if SPECIAL_CALLING_CONVENTION
 #define FUNCTION_NAME __remqu
 #else
 #define FUNCTION_NAME remqu
 #endif
 #define SIZE 64
 #define TYPE UNSIGNED
 #define OPERATION REMAINDER
 #endif

 #define tmp0 $3
 #define tmp1 $28
 #define cnt $1
 #define result_sign $2

 #if SPECIAL_CALLING_CONVENTION
 #define N $24
 #define D $25
 #define Q RETREG
 #define RETREG $27
 #else
 #define N $16
 #define D $17
 #define Q RETREG
 #define RETREG $0
 #endif

 /* Misc symbols to make alpha assembler easier to read.  */
 #define zero $31
 #define sp $30

 /* Symbols to make interface nicer.  */
 #define UNSIGNED 0
 #define SIGNED 1
 #define DIVISION 0
 #define REMAINDER 1

 	.set noreorder
 	.set noat
 .text
 	.align 3
 	.globl FUNCTION_NAME
 	.ent FUNCTION_NAME
 FUNCTION_NAME:

 	.frame	$30,0,$26,0
 	.prologue 0

 /* Under the special calling convention, we have to preserve all register
    values but $23 and $28.  */
 #if SPECIAL_CALLING_CONVENTION
 	lda	sp,-64(sp)
 #if OPERATION == DIVISION
 	stq	N,0(sp)
 #endif
 	stq	D,8(sp)
 	stq	cnt,16(sp)
 	stq	result_sign,24(sp)
 	stq	tmp0,32(sp)
 #endif

 /* If we are computing the remainder, move N to the register that is used
    for the return value, and redefine what register is used for N.  */
 #if OPERATION == REMAINDER
 	bis	N,N,RETREG
 #undef N
 #define N RETREG
 #endif

 /* Perform conversion from 32 bit types to 64 bit types.  */
 #if SIZE == 32
 #if TYPE == SIGNED
 	/* If there are problems with the signed case, add these instructions.
 	   The caller should already have done this.
 	addl	N,0,N		# sign extend N
 	addl	D,0,D		# sign extend D
 	*/
 #else /* UNSIGNED */
 	zap	N,0xf0,N	# zero extend N (caller required to sign extend)
 	zap	D,0xf0,D	# zero extend D
 #endif
 #endif

 /* Check for divide by zero.  */
 	bne	D,$34
 	lda	$16,-2(zero)
 	call_pal 0xaa
 $34:

 #if TYPE == SIGNED
 #if OPERATION == DIVISION
 	xor	N,D,result_sign
 #else
 	bis	N,N,result_sign
 #endif
 /* Get the absolute values of N and D.  */
 	subq	zero,N,tmp0
 	cmovlt	N,tmp0,N
 	subq	zero,D,tmp0
 	cmovlt	D,tmp0,D
 #endif

 /* Compute CNT = ceil(log2(N)) - ceil(log2(D)).  This is the number of
    divide iterations we will have to perform.  Should you wish to optimize
    this, check a few bits at a time, preferably using zap/zapnot.  Be
    careful though, this code runs fast fro the most common cases, when the
    quotient is small.  */
 	bge	N,$35
 	bis	zero,1,cnt
 	blt	D,$40
 	.align	3
 $39:	addq	D,D,D
 	addl	cnt,1,cnt
 	bge	D,$39
 	br	zero,$40
 $35:	cmpult	N,D,tmp0
 	bis	zero,zero,cnt
 	bne	tmp0,$42
 	.align	3
 $44:	addq	D,D,D
 	cmpult	N,D,tmp0
 	addl	cnt,1,cnt
 	beq	tmp0,$44
 $42:	srl	D,1,D
 $40:
 	subl	cnt,1,cnt


 /* Actual divide.  Could be optimized with unrolling.  */
 #if OPERATION == DIVISION
 	bis	zero,zero,Q
 #endif
 	blt	cnt,$46
 	.align	3
 $49:	cmpule	D,N,tmp1
 	subq	N,D,tmp0
 	srl	D,1,D
 	subl	cnt,1,cnt
 	cmovne	tmp1,tmp0,N
 #if OPERATION == DIVISION
 	addq	Q,Q,Q
 	bis	Q,tmp1,Q
 #endif
 	bge	cnt,$49
 $46:


 /* The result is now in RETREG.  NOTE!  It was written to RETREG using
    either N or Q as a synonym!  */


 /* Change the sign of the result as needed.  */
 #if TYPE == SIGNED
 	subq	zero,RETREG,tmp0
 	cmovlt	result_sign,tmp0,RETREG
 #endif


 /* Restore clobbered registers.  */
 #if SPECIAL_CALLING_CONVENTION
 #if OPERATION == DIVISION
 	ldq	N,0(sp)
 #endif
 	ldq	D,8(sp)
 	ldq	cnt,16(sp)
 	ldq	result_sign,24(sp)
 	ldq	tmp0,32(sp)

 	lda	sp,64(sp)
 #endif


 /* Sign extend an *unsigned* 32 bit result, as required by the Alpha
    conventions.  */
 #if TYPE == UNSIGNED && SIZE == 32
 	/* This could be avoided by adding some CPP hair to the divide loop.
 	   It is probably not worth the added complexity.    */
 	addl	RETREG,0,RETREG
 #endif


 #if SPECIAL_CALLING_CONVENTION
 	ret	zero,($23),1
 #else
 	ret	zero,($26),1
 #endif
 	.end	FUNCTION_NAME
	/* DEC Alpha division and remainder support.
	Copyright (C) 1994, 1999 Free Software Foundation, Inc.

	This file is free software; you can redistribute it and/or modify it
	under the terms of the GNU General Public License as published by the
	Free Software Foundation; either version 2, or (at your option) any
	later version.

	In addition to the permissions in the GNU General Public License, the
	Free Software Foundation gives you unlimited permission to link the
	compiled version of this file into combinations with other programs,
	and to distribute those combinations without any restriction coming
	from the use of this file. (The General Public License restrictions
	do apply in other respects; for example, they cover modification of
	the file, and distribution when not linked into a combine
	executable.)

	This file is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; see the file COPYING. If not, write to
	the Free Software Foundation, 59 Temple Place - Suite 330,
	Boston, MA 02111-1307, USA. */

	/* This had to be written in assembler because the division functions
	use a non-standard calling convention.

	This file provides an implementation of __divqu, __divq, __divlu,
	__divl, __remqu, __remq, __remlu and __reml. CPP macros control
	the exact operation.

	Operation performed: $27 := $24 o $25, clobber $28, return address to
	caller in $23, where o one of the operations.

	The following macros need to be defined:

	SIZE, the number of bits, 32 or 64.

	TYPE, either UNSIGNED or SIGNED

	OPERATION, either DIVISION or REMAINDER

	SPECIAL_CALLING_CONVENTION, 0 or 1. It is useful for debugging to
	define this to 0. That removes the `__' prefix to make the function
	name not collide with the existing libc.a names, and uses the
	standard Alpha procedure calling convention.
	*/

	#ifndef SPECIAL_CALLING_CONVENTION
	#define SPECIAL_CALLING_CONVENTION 1
	#endif

	#ifdef L_divl
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __divl
	#else
	#define FUNCTION_NAME divl
	#endif
	#define SIZE 32
	#define TYPE SIGNED
	#define OPERATION DIVISION
	#endif

	#ifdef L_divlu
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __divlu
	#else
	#define FUNCTION_NAME divlu
	#endif
	#define SIZE 32
	#define TYPE UNSIGNED
	#define OPERATION DIVISION
	#endif

	#ifdef L_divq
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __divq
	#else
	#define FUNCTION_NAME divq
	#endif
	#define SIZE 64
	#define TYPE SIGNED
	#define OPERATION DIVISION
	#endif

	#ifdef L_divqu
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __divqu
	#else
	#define FUNCTION_NAME divqu
	#endif
	#define SIZE 64
	#define TYPE UNSIGNED
	#define OPERATION DIVISION
	#endif

	#ifdef L_reml
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __reml
	#else
	#define FUNCTION_NAME reml
	#endif
	#define SIZE 32
	#define TYPE SIGNED
	#define OPERATION REMAINDER
	#endif

	#ifdef L_remlu
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __remlu
	#else
	#define FUNCTION_NAME remlu
	#endif
	#define SIZE 32
	#define TYPE UNSIGNED
	#define OPERATION REMAINDER
	#endif

	#ifdef L_remq
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __remq
	#else
	#define FUNCTION_NAME remq
	#endif
	#define SIZE 64
	#define TYPE SIGNED
	#define OPERATION REMAINDER
	#endif

	#ifdef L_remqu
	#if SPECIAL_CALLING_CONVENTION
	#define FUNCTION_NAME __remqu
	#else
	#define FUNCTION_NAME remqu
	#endif
	#define SIZE 64
	#define TYPE UNSIGNED
	#define OPERATION REMAINDER
	#endif

	#define tmp0 $3
	#define tmp1 $28
	#define cnt $1
	#define result_sign $2

	#if SPECIAL_CALLING_CONVENTION
	#define N $24
	#define D $25
	#define Q RETREG
	#define RETREG $27
	#else
	#define N $16
	#define D $17
	#define Q RETREG
	#define RETREG $0
	#endif

	/* Misc symbols to make alpha assembler easier to read. */
	#define zero $31
	#define sp $30

	/* Symbols to make interface nicer. */
	#define UNSIGNED 0
	#define SIGNED 1
	#define DIVISION 0
	#define REMAINDER 1

	.set noreorder
	.set noat
	.text
	.align 3
	.globl FUNCTION_NAME
	.ent FUNCTION_NAME
	FUNCTION_NAME:

	.frame $30,0,$26,0
	.prologue 0

	/* Under the special calling convention, we have to preserve all register
	values but $23 and $28. */
	#if SPECIAL_CALLING_CONVENTION
	lda sp,-64(sp)
	#if OPERATION == DIVISION
	stq N,0(sp)
	#endif
	stq D,8(sp)
	stq cnt,16(sp)
	stq result_sign,24(sp)
	stq tmp0,32(sp)
	#endif

	/* If we are computing the remainder, move N to the register that is used
	for the return value, and redefine what register is used for N. */
	#if OPERATION == REMAINDER
	bis N,N,RETREG
	#undef N
	#define N RETREG
	#endif

	/* Perform conversion from 32 bit types to 64 bit types. */
	#if SIZE == 32
	#if TYPE == SIGNED
	/* If there are problems with the signed case, add these instructions.
	The caller should already have done this.
	addl N,0,N # sign extend N
	addl D,0,D # sign extend D
	*/
	#else /* UNSIGNED */
	zap N,0xf0,N # zero extend N (caller required to sign extend)
	zap D,0xf0,D # zero extend D
	#endif
	#endif

	/* Check for divide by zero. */
	bne D,$34
	lda $16,-2(zero)
	call_pal 0xaa
	$34:

	#if TYPE == SIGNED
	#if OPERATION == DIVISION
	xor N,D,result_sign
	#else
	bis N,N,result_sign
	#endif
	/* Get the absolute values of N and D. */
	subq zero,N,tmp0
	cmovlt N,tmp0,N
	subq zero,D,tmp0
	cmovlt D,tmp0,D
	#endif

	/* Compute CNT = ceil(log2(N)) - ceil(log2(D)). This is the number of
	divide iterations we will have to perform. Should you wish to optimize
	this, check a few bits at a time, preferably using zap/zapnot. Be
	careful though, this code runs fast fro the most common cases, when the
	quotient is small. */
	bge N,$35
	bis zero,1,cnt
	blt D,$40
	.align 3
	$39: addq D,D,D
	addl cnt,1,cnt
	bge D,$39
	br zero,$40
	$35: cmpult N,D,tmp0
	bis zero,zero,cnt
	bne tmp0,$42
	.align 3
	$44: addq D,D,D
	cmpult N,D,tmp0
	addl cnt,1,cnt
	beq tmp0,$44
	$42: srl D,1,D
	$40:
	subl cnt,1,cnt


	/* Actual divide. Could be optimized with unrolling. */
	#if OPERATION == DIVISION
	bis zero,zero,Q
	#endif
	blt cnt,$46
	.align 3
	$49: cmpule D,N,tmp1
	subq N,D,tmp0
	srl D,1,D
	subl cnt,1,cnt
	cmovne tmp1,tmp0,N
	#if OPERATION == DIVISION
	addq Q,Q,Q
	bis Q,tmp1,Q
	#endif
	bge cnt,$49
	$46:


	/* The result is now in RETREG. NOTE! It was written to RETREG using
	either N or Q as a synonym! */


	/* Change the sign of the result as needed. */
	#if TYPE == SIGNED
	subq zero,RETREG,tmp0
	cmovlt result_sign,tmp0,RETREG
	#endif


	/* Restore clobbered registers. */
	#if SPECIAL_CALLING_CONVENTION
	#if OPERATION == DIVISION
	ldq N,0(sp)
	#endif
	ldq D,8(sp)
	ldq cnt,16(sp)
	ldq result_sign,24(sp)
	ldq tmp0,32(sp)

	lda sp,64(sp)
	#endif


	/* Sign extend an unsigned 32 bit result, as required by the Alpha
	conventions. */
	#if TYPE == UNSIGNED && SIZE == 32
	/* This could be avoided by adding some CPP hair to the divide loop.
	It is probably not worth the added complexity. */
	addl RETREG,0,RETREG
	#endif


	#if SPECIAL_CALLING_CONVENTION
	ret zero,($23),1
	#else
	ret zero,($26),1
	#endif
	.end FUNCTION_NAME