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1/*===-- udivsi3.S - 32-bit unsigned integer divide ------------------------===//
2 *
3 *                     The LLVM Compiler Infrastructure
4 *
5 * This file is dual licensed under the MIT and the University of Illinois Open
6 * Source Licenses. See LICENSE.TXT for details.
7 *
8 *===----------------------------------------------------------------------===//
9 *
10 * This file implements the __udivsi3 (32-bit unsigned integer divide)
11 * function for the ARM 32-bit architecture.
12 *
13 *===----------------------------------------------------------------------===*/
14
15#include "../assembly.h"
16
17	.syntax unified
18	.text
19
20#if __ARM_ARCH_ISA_THUMB == 2
21	.thumb
22#endif
23
24	.p2align 2
25DEFINE_AEABI_FUNCTION_ALIAS(__aeabi_uidiv, __udivsi3)
26
27@ unsigned int __udivsi3(unsigned int divident, unsigned int divisor)
28@   Calculate and return the quotient of the (unsigned) division.
29
30#if __ARM_ARCH_ISA_THUMB == 2
31DEFINE_COMPILERRT_THUMB_FUNCTION(__udivsi3)
32#else
33DEFINE_COMPILERRT_FUNCTION(__udivsi3)
34#endif
35#if __ARM_ARCH_EXT_IDIV__
36	tst     r1, r1
37	beq     LOCAL_LABEL(divby0)
38	udiv	r0, r0, r1
39	bx  	lr
40#else
41	cmp	r1, #1
42	bcc	LOCAL_LABEL(divby0)
43	IT(eq)
44	JMPc(lr, eq)
45	cmp	r0, r1
46	ITT(cc)
47	movcc	r0, #0
48	JMPc(lr, cc)
49	/*
50	 * Implement division using binary long division algorithm.
51	 *
52	 * r0 is the numerator, r1 the denominator.
53	 *
54	 * The code before JMP computes the correct shift I, so that
55	 * r0 and (r1 << I) have the highest bit set in the same position.
56	 * At the time of JMP, ip := .Ldiv0block - 12 * I.
57	 * This depends on the fixed instruction size of block.
58	 * For ARM mode, this is 12 Bytes, for THUMB mode 14 Bytes.
59	 *
60	 * block(shift) implements the test-and-update-quotient core.
61	 * It assumes (r0 << shift) can be computed without overflow and
62	 * that (r0 << shift) < 2 * r1. The quotient is stored in r3.
63	 */
64
65#  ifdef __ARM_FEATURE_CLZ
66	clz	ip, r0
67	clz	r3, r1
68	/* r0 >= r1 implies clz(r0) <= clz(r1), so ip <= r3. */
69	sub	r3, r3, ip
70#    if __ARM_ARCH_ISA_THUMB == 2
71	adr	ip, LOCAL_LABEL(div0block) + 1
72	sub	ip, ip, r3, lsl #1
73#    else
74	adr	ip, LOCAL_LABEL(div0block)
75#    endif
76	sub	ip, ip, r3, lsl #2
77	sub	ip, ip, r3, lsl #3
78	mov	r3, #0
79	bx	ip
80#  else
81#    if __ARM_ARCH_ISA_THUMB == 2
82#    error THUMB mode requires CLZ or UDIV
83#    endif
84	mov	r2, r0
85	adr	ip, LOCAL_LABEL(div0block)
86
87	lsr	r3, r2, #16
88	cmp	r3, r1
89	movhs	r2, r3
90	subhs	ip, ip, #(16 * 12)
91
92	lsr	r3, r2, #8
93	cmp	r3, r1
94	movhs	r2, r3
95	subhs	ip, ip, #(8 * 12)
96
97	lsr	r3, r2, #4
98	cmp	r3, r1
99	movhs	r2, r3
100	subhs	ip, #(4 * 12)
101
102	lsr	r3, r2, #2
103	cmp	r3, r1
104	movhs	r2, r3
105	subhs	ip, ip, #(2 * 12)
106
107	/* Last block, no need to update r2 or r3. */
108	cmp	r1, r2, lsr #1
109	subls	ip, ip, #(1 * 12)
110
111	mov	r3, #0
112
113	JMP(ip)
114#  endif
115
116#define	IMM	#
117
118#define block(shift)                                                           \
119	cmp	r0, r1, lsl IMM shift;                                         \
120	ITT(hs);                                                               \
121	WIDE(addhs)	r3, r3, IMM (1 << shift);                              \
122	WIDE(subhs)	r0, r0, r1, lsl IMM shift
123
124	block(31)
125	block(30)
126	block(29)
127	block(28)
128	block(27)
129	block(26)
130	block(25)
131	block(24)
132	block(23)
133	block(22)
134	block(21)
135	block(20)
136	block(19)
137	block(18)
138	block(17)
139	block(16)
140	block(15)
141	block(14)
142	block(13)
143	block(12)
144	block(11)
145	block(10)
146	block(9)
147	block(8)
148	block(7)
149	block(6)
150	block(5)
151	block(4)
152	block(3)
153	block(2)
154	block(1)
155LOCAL_LABEL(div0block):
156	block(0)
157
158	mov	r0, r3
159	JMP(lr)
160#endif /* __ARM_ARCH_EXT_IDIV__ */
161
162LOCAL_LABEL(divby0):
163	mov	r0, #0
164#ifdef __ARM_EABI__
165	b	__aeabi_idiv0
166#else
167	JMP(lr)
168#endif
169
170END_COMPILERRT_FUNCTION(__udivsi3)
171