libgcc/config/arm/bpabi.S - gcc - Git at Google

 /* Miscellaneous BPABI functions.

    Copyright (C) 2003-2021 Free Software Foundation, Inc.
    Contributed by CodeSourcery, LLC.

    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 3, or (at your option) any
    later version.

    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.

    Under Section 7 of GPL version 3, you are granted additional
    permissions described in the GCC Runtime Library Exception, version
    3.1, as published by the Free Software Foundation.

    You should have received a copy of the GNU General Public License and
    a copy of the GCC Runtime Library Exception along with this program;
    see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
    <http://www.gnu.org/licenses/>.  */

 	.cfi_sections .debug_frame

 #ifdef __ARM_EABI__
 /* Some attributes that are common to all routines in this file.  */
 	/* Tag_ABI_align_needed: This code does not require 8-byte
 	   alignment from the caller.  */
 	/* .eabi_attribute 24, 0  -- default setting.  */
 	/* Tag_ABI_align_preserved: This code preserves 8-byte
 	   alignment in any callee.  */
 	.eabi_attribute 25, 1
 #endif /* __ARM_EABI__ */

 #ifdef L_aeabi_lcmp

 ARM_FUNC_START aeabi_lcmp
 	cmp	xxh, yyh
 	do_it	lt
 	movlt	r0, #-1
 	do_it	gt
 	movgt	r0, #1
 	do_it	ne
 	RETc(ne)
 	subs	r0, xxl, yyl
 	do_it	lo
 	movlo	r0, #-1
 	do_it	hi
 	movhi	r0, #1
 	RET
 	FUNC_END aeabi_lcmp

 #endif /* L_aeabi_lcmp */

 #ifdef L_aeabi_ulcmp

 ARM_FUNC_START aeabi_ulcmp
 	cmp	xxh, yyh
 	do_it	lo
 	movlo	r0, #-1
 	do_it	hi
 	movhi	r0, #1
 	do_it	ne
 	RETc(ne)
 	cmp	xxl, yyl
 	do_it	lo
 	movlo	r0, #-1
 	do_it	hi
 	movhi	r0, #1
 	do_it	eq
 	moveq	r0, #0
 	RET
 	FUNC_END aeabi_ulcmp

 #endif /* L_aeabi_ulcmp */

 .macro test_div_by_zero signed
 /* Tail-call to divide-by-zero handlers which may be overridden by the user,
    so unwinding works properly.  */
 #if defined(__thumb2__)
 	cbnz	yyh, 2f
 	cbnz	yyl, 2f
 	cmp	xxh, #0
 	.ifc \signed, unsigned
 	do_it	eq
 	cmpeq	xxl, #0
 	do_it	ne, t
 	movne	xxh, #0xffffffff
 	movne	xxl, #0xffffffff
 	.else
 	do_it	lt, tt
 	movlt	xxl, #0
 	movlt	xxh, #0x80000000
 	blt	1f
 	do_it	eq
 	cmpeq	xxl, #0
 	do_it	ne, t
 	movne	xxh, #0x7fffffff
 	movne	xxl, #0xffffffff
 	.endif
 1:
 	b	SYM (__aeabi_ldiv0) __PLT__
 2:
 #else
 	/* Note: Thumb-1 code calls via an ARM shim on processors which
 	   support ARM mode.  */
 	cmp	yyh, #0
 	cmpeq	yyl, #0
 	bne	2f
 	cmp	xxh, #0
 	.ifc \signed, unsigned
 	cmpeq	xxl, #0
 	movne	xxh, #0xffffffff
 	movne	xxl, #0xffffffff
 	.else
 	movlt	xxh, #0x80000000
 	movlt	xxl, #0
 	blt	1f
 	cmpeq	xxl, #0
 	movne	xxh, #0x7fffffff
 	movne	xxl, #0xffffffff
 	.endif
 1:
 	b	SYM (__aeabi_ldiv0) __PLT__
 2:
 #endif
 .endm

 /* we can use STRD/LDRD on v5TE and later, and any Thumb-2 architecture. */
 #if (defined(__ARM_EABI__)                                            \
      && (defined(__thumb2__)                                          \
          || (__ARM_ARCH >= 5 && defined(__TARGET_FEATURE_DSP))))
 #define CAN_USE_LDRD 1
 #else
 #define CAN_USE_LDRD 0
 #endif

 /* set up stack from for call to __udivmoddi4. At the end of the macro the
    stack is arranged as follows:
 		sp+12	/ space for remainder
 		sp+8	\ (written by __udivmoddi4)
 		sp+4	lr
 		sp+0	sp+8 [rp (remainder pointer) argument for __udivmoddi4]

  */
 .macro push_for_divide fname
 #if defined(__thumb2__) && CAN_USE_LDRD
 	sub	ip, sp, #8
 	strd	ip, lr, [sp, #-16]!
 #else
 	sub	sp, sp, #8
 	do_push	{sp, lr}
 #endif
 	.cfi_adjust_cfa_offset 16
 	.cfi_offset 14, -12
 .endm

 /* restore stack */
 .macro pop_for_divide
 	ldr	lr, [sp, #4]
 #if CAN_USE_LDRD
 	ldrd	r2, r3, [sp, #8]
 	add	sp, sp, #16
 #else
 	add	sp, sp, #8
 	do_pop	{r2, r3}
 #endif
 	.cfi_restore 14
 	.cfi_adjust_cfa_offset 0
 .endm

 #ifdef L_aeabi_ldivmod

 /* Perform 64 bit signed division.
    Inputs:
 	r0:r1	numerator
 	r2:r3	denominator
    Outputs:
 	r0:r1	quotient
 	r2:r3	remainder
  */
 ARM_FUNC_START aeabi_ldivmod
 	.cfi_startproc
 	test_div_by_zero	signed

 	push_for_divide	__aeabi_ldivmod
 	cmp	xxh, #0
 	blt	1f
 	cmp	yyh, #0
 	blt	2f
 	/* arguments in (r0:r1), (r2:r3) and *sp */
 	bl	SYM(__udivmoddi4) __PLT__
 	.cfi_remember_state
 	pop_for_divide
 	RET

 1: /* xxh:xxl is negative */
 	.cfi_restore_state
 	negs	xxl, xxl
 	sbc	xxh, xxh, xxh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	cmp	yyh, #0
 	blt	3f
 	/* arguments in (r0:r1), (r2:r3) and *sp */
 	bl	SYM(__udivmoddi4) __PLT__
 	.cfi_remember_state
 	pop_for_divide
 	negs	xxl, xxl
 	sbc	xxh, xxh, xxh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	negs	yyl, yyl
 	sbc	yyh, yyh, yyh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	RET

 2: /* only yyh:yyl is negative */
 	.cfi_restore_state
 	negs	yyl, yyl
 	sbc	yyh, yyh, yyh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	/* arguments in (r0:r1), (r2:r3) and *sp */
 	bl	SYM(__udivmoddi4) __PLT__
 	.cfi_remember_state
 	pop_for_divide
 	negs	xxl, xxl
 	sbc	xxh, xxh, xxh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	RET

 3: /* both xxh:xxl and yyh:yyl are negative */
 	.cfi_restore_state
 	negs	yyl, yyl
 	sbc	yyh, yyh, yyh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	/* arguments in (r0:r1), (r2:r3) and *sp */
 	bl	SYM(__udivmoddi4) __PLT__
 	pop_for_divide
 	negs	yyl, yyl
 	sbc	yyh, yyh, yyh, lsl #1	/* Thumb-2 has no RSC, so use X - 2X */
 	RET

 	.cfi_endproc

 #endif /* L_aeabi_ldivmod */

 #ifdef L_aeabi_uldivmod

 /* Perform 64 bit signed division.
    Inputs:
 	r0:r1	numerator
 	r2:r3	denominator
    Outputs:
 	r0:r1	quotient
 	r2:r3	remainder
  */
 ARM_FUNC_START aeabi_uldivmod
 	.cfi_startproc
 	test_div_by_zero	unsigned

 	push_for_divide	__aeabi_uldivmod
 	/* arguments in (r0:r1), (r2:r3) and *sp */
 	bl	SYM(__udivmoddi4) __PLT__
 	pop_for_divide
 	RET
 	.cfi_endproc

 #endif /* L_aeabi_divmod */
	/* Miscellaneous BPABI functions.

	Copyright (C) 2003-2021 Free Software Foundation, Inc.
	Contributed by CodeSourcery, LLC.

	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 3, or (at your option) any
	later version.

	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.

	Under Section 7 of GPL version 3, you are granted additional
	permissions described in the GCC Runtime Library Exception, version
	3.1, as published by the Free Software Foundation.

	You should have received a copy of the GNU General Public License and
	a copy of the GCC Runtime Library Exception along with this program;
	see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	<http://www.gnu.org/licenses/>. */

	.cfi_sections .debug_frame

	#ifdef __ARM_EABI__
	/* Some attributes that are common to all routines in this file. */
	/* Tag_ABI_align_needed: This code does not require 8-byte
	alignment from the caller. */
	/* .eabi_attribute 24, 0 -- default setting. */
	/* Tag_ABI_align_preserved: This code preserves 8-byte
	alignment in any callee. */
	.eabi_attribute 25, 1
	#endif /* __ARM_EABI__ */

	#ifdef L_aeabi_lcmp

	ARM_FUNC_START aeabi_lcmp
	cmp xxh, yyh
	do_it lt
	movlt r0, #-1
	do_it gt
	movgt r0, #1
	do_it ne
	RETc(ne)
	subs r0, xxl, yyl
	do_it lo
	movlo r0, #-1
	do_it hi
	movhi r0, #1
	RET
	FUNC_END aeabi_lcmp

	#endif /* L_aeabi_lcmp */

	#ifdef L_aeabi_ulcmp

	ARM_FUNC_START aeabi_ulcmp
	cmp xxh, yyh
	do_it lo
	movlo r0, #-1
	do_it hi
	movhi r0, #1
	do_it ne
	RETc(ne)
	cmp xxl, yyl
	do_it lo
	movlo r0, #-1
	do_it hi
	movhi r0, #1
	do_it eq
	moveq r0, #0
	RET
	FUNC_END aeabi_ulcmp

	#endif /* L_aeabi_ulcmp */

	.macro test_div_by_zero signed
	/* Tail-call to divide-by-zero handlers which may be overridden by the user,
	so unwinding works properly. */
	#if defined(__thumb2__)
	cbnz yyh, 2f
	cbnz yyl, 2f
	cmp xxh, #0
	.ifc \signed, unsigned
	do_it eq
	cmpeq xxl, #0
	do_it ne, t
	movne xxh, #0xffffffff
	movne xxl, #0xffffffff
	.else
	do_it lt, tt
	movlt xxl, #0
	movlt xxh, #0x80000000
	blt 1f
	do_it eq
	cmpeq xxl, #0
	do_it ne, t
	movne xxh, #0x7fffffff
	movne xxl, #0xffffffff
	.endif
	1:
	b SYM (__aeabi_ldiv0) __PLT__
	2:
	#else
	/* Note: Thumb-1 code calls via an ARM shim on processors which
	support ARM mode. */
	cmp yyh, #0
	cmpeq yyl, #0
	bne 2f
	cmp xxh, #0
	.ifc \signed, unsigned
	cmpeq xxl, #0
	movne xxh, #0xffffffff
	movne xxl, #0xffffffff
	.else
	movlt xxh, #0x80000000
	movlt xxl, #0
	blt 1f
	cmpeq xxl, #0
	movne xxh, #0x7fffffff
	movne xxl, #0xffffffff
	.endif
	1:
	b SYM (__aeabi_ldiv0) __PLT__
	2:
	#endif
	.endm

	/* we can use STRD/LDRD on v5TE and later, and any Thumb-2 architecture. */
	#if (defined(__ARM_EABI__) \
	&& (defined(__thumb2__) \
	\|\| (__ARM_ARCH >= 5 && defined(__TARGET_FEATURE_DSP))))
	#define CAN_USE_LDRD 1
	#else
	#define CAN_USE_LDRD 0
	#endif

	/* set up stack from for call to __udivmoddi4. At the end of the macro the
	stack is arranged as follows:
	sp+12 / space for remainder
	sp+8 \ (written by __udivmoddi4)
	sp+4 lr
	sp+0 sp+8 [rp (remainder pointer) argument for __udivmoddi4]

	*/
	.macro push_for_divide fname
	#if defined(__thumb2__) && CAN_USE_LDRD
	sub ip, sp, #8
	strd ip, lr, [sp, #-16]!
	#else
	sub sp, sp, #8
	do_push {sp, lr}
	#endif
	.cfi_adjust_cfa_offset 16
	.cfi_offset 14, -12
	.endm

	/* restore stack */
	.macro pop_for_divide
	ldr lr, [sp, #4]
	#if CAN_USE_LDRD
	ldrd r2, r3, [sp, #8]
	add sp, sp, #16
	#else
	add sp, sp, #8
	do_pop {r2, r3}
	#endif
	.cfi_restore 14
	.cfi_adjust_cfa_offset 0
	.endm

	#ifdef L_aeabi_ldivmod

	/* Perform 64 bit signed division.
	Inputs:
	r0:r1 numerator
	r2:r3 denominator
	Outputs:
	r0:r1 quotient
	r2:r3 remainder
	*/
	ARM_FUNC_START aeabi_ldivmod
	.cfi_startproc
	test_div_by_zero signed

	push_for_divide __aeabi_ldivmod
	cmp xxh, #0
	blt 1f
	cmp yyh, #0
	blt 2f
	/* arguments in (r0:r1), (r2:r3) and sp /
	bl SYM(__udivmoddi4) __PLT__
	.cfi_remember_state
	pop_for_divide
	RET

	1: /* xxh:xxl is negative */
	.cfi_restore_state
	negs xxl, xxl
	sbc xxh, xxh, xxh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	cmp yyh, #0
	blt 3f
	/* arguments in (r0:r1), (r2:r3) and sp /
	bl SYM(__udivmoddi4) __PLT__
	.cfi_remember_state
	pop_for_divide
	negs xxl, xxl
	sbc xxh, xxh, xxh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	negs yyl, yyl
	sbc yyh, yyh, yyh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	RET

	2: /* only yyh:yyl is negative */
	.cfi_restore_state
	negs yyl, yyl
	sbc yyh, yyh, yyh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	/* arguments in (r0:r1), (r2:r3) and sp /
	bl SYM(__udivmoddi4) __PLT__
	.cfi_remember_state
	pop_for_divide
	negs xxl, xxl
	sbc xxh, xxh, xxh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	RET

	3: /* both xxh:xxl and yyh:yyl are negative */
	.cfi_restore_state
	negs yyl, yyl
	sbc yyh, yyh, yyh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	/* arguments in (r0:r1), (r2:r3) and sp /
	bl SYM(__udivmoddi4) __PLT__
	pop_for_divide
	negs yyl, yyl
	sbc yyh, yyh, yyh, lsl #1 /* Thumb-2 has no RSC, so use X - 2X */
	RET

	.cfi_endproc

	#endif /* L_aeabi_ldivmod */

	#ifdef L_aeabi_uldivmod

	/* Perform 64 bit signed division.
	Inputs:
	r0:r1 numerator
	r2:r3 denominator
	Outputs:
	r0:r1 quotient
	r2:r3 remainder
	*/
	ARM_FUNC_START aeabi_uldivmod
	.cfi_startproc
	test_div_by_zero unsigned

	push_for_divide __aeabi_uldivmod
	/* arguments in (r0:r1), (r2:r3) and sp /
	bl SYM(__udivmoddi4) __PLT__
	pop_for_divide
	RET
	.cfi_endproc

	#endif /* L_aeabi_divmod */