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1; With reassociation, constant folding can eliminate the 12 and -12 constants.
2;
3; RUN: opt < %s -reassociate  -gvn -instcombine -S | FileCheck %s
4
5define i32 @test1(i32 %arg) {
6	%tmp1 = sub i32 -12, %arg
7	%tmp2 = add i32 %tmp1, 12
8	ret i32 %tmp2
9; CHECK: @test1
10; CHECK-NEXT: sub i32 0, %arg
11; CHECK-NEXT: ret i32
12}
13
14define i32 @test2(i32 %reg109, i32 %reg1111) {
15	%reg115 = add i32 %reg109, -30		; <i32> [#uses=1]
16	%reg116 = add i32 %reg115, %reg1111		; <i32> [#uses=1]
17	%reg117 = add i32 %reg116, 30		; <i32> [#uses=1]
18	ret i32 %reg117
19; CHECK: @test2
20; CHECK-NEXT: add i32 %reg1111, %reg109
21; CHECK-NEXT: ret i32
22}
23
24@e = external global i32		; <i32*> [#uses=3]
25@a = external global i32		; <i32*> [#uses=3]
26@b = external global i32		; <i32*> [#uses=3]
27@c = external global i32		; <i32*> [#uses=3]
28@f = external global i32		; <i32*> [#uses=3]
29
30define void @test3() {
31	%A = load i32* @a		; <i32> [#uses=2]
32	%B = load i32* @b		; <i32> [#uses=2]
33	%C = load i32* @c		; <i32> [#uses=2]
34	%t1 = add i32 %A, %B		; <i32> [#uses=1]
35	%t2 = add i32 %t1, %C		; <i32> [#uses=1]
36	%t3 = add i32 %C, %A		; <i32> [#uses=1]
37	%t4 = add i32 %t3, %B		; <i32> [#uses=1]
38	; e = (a+b)+c;
39        store i32 %t2, i32* @e
40        ; f = (a+c)+b
41	store i32 %t4, i32* @f
42	ret void
43; CHECK: @test3
44; CHECK: add i32
45; CHECK: add i32
46; CHECK-NOT: add i32
47; CHECK: ret void
48}
49
50define void @test4() {
51	%A = load i32* @a		; <i32> [#uses=2]
52	%B = load i32* @b		; <i32> [#uses=2]
53	%C = load i32* @c		; <i32> [#uses=2]
54	%t1 = add i32 %A, %B		; <i32> [#uses=1]
55	%t2 = add i32 %t1, %C		; <i32> [#uses=1]
56	%t3 = add i32 %C, %A		; <i32> [#uses=1]
57	%t4 = add i32 %t3, %B		; <i32> [#uses=1]
58	; e = c+(a+b)
59        store i32 %t2, i32* @e
60        ; f = (c+a)+b
61	store i32 %t4, i32* @f
62	ret void
63; CHECK: @test4
64; CHECK: add i32
65; CHECK: add i32
66; CHECK-NOT: add i32
67; CHECK: ret void
68}
69
70define void @test5() {
71	%A = load i32* @a		; <i32> [#uses=2]
72	%B = load i32* @b		; <i32> [#uses=2]
73	%C = load i32* @c		; <i32> [#uses=2]
74	%t1 = add i32 %B, %A		; <i32> [#uses=1]
75	%t2 = add i32 %t1, %C		; <i32> [#uses=1]
76	%t3 = add i32 %C, %A		; <i32> [#uses=1]
77	%t4 = add i32 %t3, %B		; <i32> [#uses=1]
78	; e = c+(b+a)
79        store i32 %t2, i32* @e
80        ; f = (c+a)+b
81	store i32 %t4, i32* @f
82	ret void
83; CHECK: @test5
84; CHECK: add i32
85; CHECK: add i32
86; CHECK-NOT: add i32
87; CHECK: ret void
88}
89
90define i32 @test6() {
91	%tmp.0 = load i32* @a
92	%tmp.1 = load i32* @b
93        ; (a+b)
94	%tmp.2 = add i32 %tmp.0, %tmp.1
95	%tmp.4 = load i32* @c
96	; (a+b)+c
97        %tmp.5 = add i32 %tmp.2, %tmp.4
98	; (a+c)
99        %tmp.8 = add i32 %tmp.0, %tmp.4
100	; (a+c)+b
101        %tmp.11 = add i32 %tmp.8, %tmp.1
102	; X ^ X = 0
103        %RV = xor i32 %tmp.5, %tmp.11
104	ret i32 %RV
105; CHECK: @test6
106; CHECK: ret i32 0
107}
108
109; This should be one add and two multiplies.
110define i32 @test7(i32 %A, i32 %B, i32 %C) {
111 ; A*A*B + A*C*A
112	%aa = mul i32 %A, %A
113	%aab = mul i32 %aa, %B
114	%ac = mul i32 %A, %C
115	%aac = mul i32 %ac, %A
116	%r = add i32 %aab, %aac
117	ret i32 %r
118; CHECK: @test7
119; CHECK-NEXT: add i32 %C, %B
120; CHECK-NEXT: mul i32
121; CHECK-NEXT: mul i32
122; CHECK-NEXT: ret i32
123}
124
125
126define i32 @test8(i32 %X, i32 %Y, i32 %Z) {
127	%A = sub i32 0, %X
128	%B = mul i32 %A, %Y
129        ; (-X)*Y + Z -> Z-X*Y
130	%C = add i32 %B, %Z
131	ret i32 %C
132; CHECK: @test8
133; CHECK-NEXT: %A = mul i32 %Y, %X
134; CHECK-NEXT: %C = sub i32 %Z, %A
135; CHECK-NEXT: ret i32 %C
136}
137
138
139; PR5458
140define i32 @test9(i32 %X) {
141  %Y = mul i32 %X, 47
142  %Z = add i32 %Y, %Y
143  ret i32 %Z
144; CHECK: @test9
145; CHECK-NEXT: mul i32 %X, 94
146; CHECK-NEXT: ret i32
147}
148
149define i32 @test10(i32 %X) {
150  %Y = add i32 %X ,%X
151  %Z = add i32 %Y, %X
152  ret i32 %Z
153; CHECK: @test10
154; CHECK-NEXT: mul i32 %X, 3
155; CHECK-NEXT: ret i32
156}
157
158define i32 @test11(i32 %W) {
159  %X = mul i32 %W, 127
160  %Y = add i32 %X ,%X
161  %Z = add i32 %Y, %X
162  ret i32 %Z
163; CHECK: @test11
164; CHECK-NEXT: mul i32 %W, 381
165; CHECK-NEXT: ret i32
166}
167
168define i32 @test12(i32 %X) {
169  %A = sub i32 1, %X
170  %B = sub i32 2, %X
171  %C = sub i32 3, %X
172
173  %Y = add i32 %A ,%B
174  %Z = add i32 %Y, %C
175  ret i32 %Z
176; CHECK: @test12
177; CHECK-NEXT: mul i32 %X, -3
178; CHECK-NEXT: add i32{{.*}}, 6
179; CHECK-NEXT: ret i32
180}
181
182define i32 @test13(i32 %X1, i32 %X2, i32 %X3) {
183  %A = sub i32 0, %X1
184  %B = mul i32 %A, %X2   ; -X1*X2
185  %C = mul i32 %X1, %X3  ; X1*X3
186  %D = add i32 %B, %C    ; -X1*X2 + X1*X3 -> X1*(X3-X2)
187  ret i32 %D
188; CHECK: @test13
189; CHECK-NEXT: sub i32 %X3, %X2
190; CHECK-NEXT: mul i32 {{.*}}, %X1
191; CHECK-NEXT: ret i32
192}
193
194; PR5359
195define i32 @test14(i32 %X1, i32 %X2) {
196  %B = mul i32 %X1, 47   ; X1*47
197  %C = mul i32 %X2, -47  ; X2*-47
198  %D = add i32 %B, %C    ; X1*47 + X2*-47 -> 47*(X1-X2)
199  ret i32 %D
200; CHECK: @test14
201; CHECK-NEXT: sub i32 %X1, %X2
202; CHECK-NEXT: mul i32 {{.*}}, 47
203; CHECK-NEXT: ret i32
204}
205
206; Do not reassociate expressions of type i1
207define i32 @test15(i32 %X1, i32 %X2, i32 %X3) {
208  %A = icmp ne i32 %X1, 0
209  %B = icmp slt i32 %X2, %X3
210  %C = and i1 %A, %B
211  %D = select i1 %C, i32 %X1, i32 0
212  ret i32 %D
213; CHECK: @test15
214; CHECK: and i1 %A, %B
215}
216
217