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/*===-- udivsi3.S - 32-bit unsigned integer divide ------------------------===//
*
* The LLVM Compiler Infrastructure
*
* This file is dual licensed under the MIT and the University of Illinois Open
* Source Licenses. See LICENSE.TXT for details.
*
*===----------------------------------------------------------------------===//
*
* This file implements the __udivsi3 (32-bit unsigned integer divide)
* function for the ARM 32-bit architecture.
*
*===----------------------------------------------------------------------===*/
#include "../assembly.h"
.syntax unified
.text
DEFINE_CODE_STATE
.p2align 2
DEFINE_AEABI_FUNCTION_ALIAS(__aeabi_uidiv, __udivsi3)
@ unsigned int __udivsi3(unsigned int divident, unsigned int divisor)
@ Calculate and return the quotient of the (unsigned) division.
DEFINE_COMPILERRT_FUNCTION(__udivsi3)
#if __ARM_ARCH_EXT_IDIV__
tst r1, r1
beq LOCAL_LABEL(divby0)
udiv r0, r0, r1
bx lr
LOCAL_LABEL(divby0):
mov r0, #0
# ifdef __ARM_EABI__
b __aeabi_idiv0
# else
JMP(lr)
# endif
#else /* ! __ARM_ARCH_EXT_IDIV__ */
cmp r1, #1
bcc LOCAL_LABEL(divby0)
#if defined(USE_THUMB_1)
bne LOCAL_LABEL(num_neq_denom)
JMP(lr)
LOCAL_LABEL(num_neq_denom):
#else
IT(eq)
JMPc(lr, eq)
#endif
cmp r0, r1
#if defined(USE_THUMB_1)
bhs LOCAL_LABEL(num_ge_denom)
movs r0, #0
JMP(lr)
LOCAL_LABEL(num_ge_denom):
#else
ITT(cc)
movcc r0, #0
JMPc(lr, cc)
#endif
/*
* Implement division using binary long division algorithm.
*
* r0 is the numerator, r1 the denominator.
*
* The code before JMP computes the correct shift I, so that
* r0 and (r1 << I) have the highest bit set in the same position.
* At the time of JMP, ip := .Ldiv0block - 12 * I.
* This depends on the fixed instruction size of block.
* For ARM mode, this is 12 Bytes, for THUMB mode 14 Bytes.
*
* block(shift) implements the test-and-update-quotient core.
* It assumes (r0 << shift) can be computed without overflow and
* that (r0 << shift) < 2 * r1. The quotient is stored in r3.
*/
# if defined(__ARM_FEATURE_CLZ)
clz ip, r0
clz r3, r1
/* r0 >= r1 implies clz(r0) <= clz(r1), so ip <= r3. */
sub r3, r3, ip
# if defined(USE_THUMB_2)
adr ip, LOCAL_LABEL(div0block) + 1
sub ip, ip, r3, lsl #1
# else
adr ip, LOCAL_LABEL(div0block)
# endif
sub ip, ip, r3, lsl #2
sub ip, ip, r3, lsl #3
mov r3, #0
bx ip
# else /* No CLZ Feature */
# if defined(USE_THUMB_2)
# error THUMB mode requires CLZ or UDIV
# endif
# if defined(USE_THUMB_1)
# define BLOCK_SIZE 10
# else
# define BLOCK_SIZE 12
# endif
mov r2, r0
# if defined(USE_THUMB_1)
mov ip, r0
adr r0, LOCAL_LABEL(div0block)
adds r0, #1
# else
adr ip, LOCAL_LABEL(div0block)
# endif
lsrs r3, r2, #16
cmp r3, r1
# if defined(USE_THUMB_1)
blo LOCAL_LABEL(skip_16)
movs r2, r3
subs r0, r0, #(16 * BLOCK_SIZE)
LOCAL_LABEL(skip_16):
# else
movhs r2, r3
subhs ip, ip, #(16 * BLOCK_SIZE)
# endif
lsrs r3, r2, #8
cmp r3, r1
# if defined(USE_THUMB_1)
blo LOCAL_LABEL(skip_8)
movs r2, r3
subs r0, r0, #(8 * BLOCK_SIZE)
LOCAL_LABEL(skip_8):
# else
movhs r2, r3
subhs ip, ip, #(8 * BLOCK_SIZE)
# endif
lsrs r3, r2, #4
cmp r3, r1
# if defined(USE_THUMB_1)
blo LOCAL_LABEL(skip_4)
movs r2, r3
subs r0, r0, #(4 * BLOCK_SIZE)
LOCAL_LABEL(skip_4):
# else
movhs r2, r3
subhs ip, #(4 * BLOCK_SIZE)
# endif
lsrs r3, r2, #2
cmp r3, r1
# if defined(USE_THUMB_1)
blo LOCAL_LABEL(skip_2)
movs r2, r3
subs r0, r0, #(2 * BLOCK_SIZE)
LOCAL_LABEL(skip_2):
# else
movhs r2, r3
subhs ip, ip, #(2 * BLOCK_SIZE)
# endif
/* Last block, no need to update r2 or r3. */
# if defined(USE_THUMB_1)
lsrs r3, r2, #1
cmp r3, r1
blo LOCAL_LABEL(skip_1)
subs r0, r0, #(1 * BLOCK_SIZE)
LOCAL_LABEL(skip_1):
movs r2, r0
mov r0, ip
movs r3, #0
JMP (r2)
# else
cmp r1, r2, lsr #1
subls ip, ip, #(1 * BLOCK_SIZE)
movs r3, #0
JMP(ip)
# endif
# endif /* __ARM_FEATURE_CLZ */
#define IMM #
/* due to the range limit of branch in Thumb1, we have to place the
block closer */
LOCAL_LABEL(divby0):
movs r0, #0
# if defined(__ARM_EABI__)
push {r7, lr}
bl __aeabi_idiv0 // due to relocation limit, can't use b.
pop {r7, pc}
# else
JMP(lr)
# endif
#if defined(USE_THUMB_1)
#define block(shift) \
lsls r2, r1, IMM shift; \
cmp r0, r2; \
blo LOCAL_LABEL(block_skip_##shift); \
subs r0, r0, r2; \
LOCAL_LABEL(block_skip_##shift) :; \
adcs r3, r3 /* same as ((r3 << 1) | Carry). Carry is set if r0 >= r2. */
/* TODO: if current location counter is not not word aligned, we don't
need the .p2align and nop */
/* Label div0block must be word-aligned. First align block 31 */
.p2align 2
nop /* Padding to align div0block as 31 blocks = 310 bytes */
#else
#define block(shift) \
cmp r0, r1, lsl IMM shift; \
ITT(hs); \
WIDE(addhs) r3, r3, IMM (1 << shift); \
WIDE(subhs) r0, r0, r1, lsl IMM shift
#endif
block(31)
block(30)
block(29)
block(28)
block(27)
block(26)
block(25)
block(24)
block(23)
block(22)
block(21)
block(20)
block(19)
block(18)
block(17)
block(16)
block(15)
block(14)
block(13)
block(12)
block(11)
block(10)
block(9)
block(8)
block(7)
block(6)
block(5)
block(4)
block(3)
block(2)
block(1)
LOCAL_LABEL(div0block):
block(0)
mov r0, r3
JMP(lr)
#endif /* __ARM_ARCH_EXT_IDIV__ */
END_COMPILERRT_FUNCTION(__udivsi3)
NO_EXEC_STACK_DIRECTIVE
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