llvm/test/Transforms/InstCombine/and.ll
2006-12-02 04:23:10 +00:00

229 lines
4.3 KiB
LLVM

; This test makes sure that these instructions are properly eliminated.
;
; RUN: llvm-upgrade < %s | llvm-as | opt -instcombine | llvm-dis | not grep and
implementation
int %test1(int %A) {
%B = and int %A, 0 ; zero result
ret int %B
}
int %test2(int %A) {
%B = and int %A, -1 ; noop
ret int %B
}
bool %test3(bool %A) {
%B = and bool %A, false ; always = false
ret bool %B
}
bool %test4(bool %A) {
%B = and bool %A, true ; noop
ret bool %B
}
int %test5(int %A) {
%B = and int %A, %A
ret int %B
}
bool %test6(bool %A) {
%B = and bool %A, %A
ret bool %B
}
int %test7(int %A) { ; A & ~A == 0
%NotA = xor int %A, -1
%B = and int %A, %NotA
ret int %B
}
ubyte %test8(ubyte %A) { ; AND associates
%B = and ubyte %A, 3
%C = and ubyte %B, 4
ret ubyte %C
}
bool %test9(int %A) {
%B = and int %A, -2147483648 ; Test of sign bit, convert to setle %A, 0
%C = setne int %B, 0
ret bool %C
}
bool %test9(uint %A) {
%B = and uint %A, 2147483648 ; Test of sign bit, convert to setle %A, 0
%C = setne uint %B, 0
ret bool %C
}
uint %test10(uint %A) {
%B = and uint %A, 12
%C = xor uint %B, 15
%D = and uint %C, 1 ; (X ^ C1) & C2 --> (X & C2) ^ (C1&C2)
ret uint %D
}
uint %test11(uint %A, uint* %P) {
%B = or uint %A, 3
%C = xor uint %B, 12
store uint %C, uint* %P ; additional use of C
%D = and uint %C, 3 ; %C = and uint %B, 3 --> 3
ret uint %D
}
bool %test12(uint %A, uint %B) {
%C1 = setlt uint %A, %B
%C2 = setle uint %A, %B
%D = and bool %C1, %C2 ; (A < B) & (A <= B) === (A < B)
ret bool %D
}
bool %test13(uint %A, uint %B) {
%C1 = setlt uint %A, %B
%C2 = setgt uint %A, %B
%D = and bool %C1, %C2 ; (A < B) & (A > B) === false
ret bool %D
}
bool %test14(ubyte %A) {
%B = and ubyte %A, 128
%C = setne ubyte %B, 0
ret bool %C
}
ubyte %test15(ubyte %A) {
%B = shr ubyte %A, ubyte 7
%C = and ubyte %B, 2 ; Always equals zero
ret ubyte %C
}
ubyte %test16(ubyte %A) {
%B = shl ubyte %A, ubyte 2
%C = and ubyte %B, 3
ret ubyte %C
}
sbyte %test17(sbyte %X, sbyte %Y) { ;; ~(~X & Y) --> (X | ~Y)
%B = xor sbyte %X, -1
%C = and sbyte %B, %Y
%D = xor sbyte %C, -1
ret sbyte %D
}
bool %test18(int %A) {
%B = and int %A, -128
%C = setne int %B, 0 ;; C >= 128
ret bool %C
}
bool %test18a(ubyte %A) {
%B = and ubyte %A, 254
%C = seteq ubyte %B, 0
ret bool %C
}
int %test19(int %A) {
%B = shl int %A, ubyte 3
%C = and int %B, -2 ;; Clearing a zero bit
ret int %C
}
ubyte %test20(ubyte %A) {
%C = shr ubyte %A, ubyte 7
%D = and ubyte %C, 1 ;; Unneeded
ret ubyte %D
}
bool %test22(int %A) {
%B = seteq int %A, 1
%C = setge int %A, 3
%D = and bool %B, %C ;; False
ret bool %D
}
bool %test23(int %A) {
%B = setgt int %A, 1
%C = setle int %A, 2
%D = and bool %B, %C ;; A == 2
ret bool %D
}
bool %test24(int %A) {
%B = setgt int %A, 1
%C = setne int %A, 2
%D = and bool %B, %C ;; A > 2
ret bool %D
}
bool %test25(int %A) {
%B = setge int %A, 50
%C = setlt int %A, 100
%D = and bool %B, %C ;; (A-50) <u 50
ret bool %D
}
bool %test26(int %A) {
%B = setne int %A, 50
%C = setne int %A, 51
%D = and bool %B, %C ;; (A-50) > 1
ret bool %D
}
ubyte %test27(ubyte %A) {
%B = and ubyte %A, 4
%C = sub ubyte %B, 16
%D = and ubyte %C, 240 ;; 0xF0
%E = add ubyte %D, 16
ret ubyte %E
}
int %test28(int %X) { ;; This is juse a zero extending shr.
%Y = shr int %X, ubyte 24 ;; Sign extend
%Z = and int %Y, 255 ;; Mask out sign bits
ret int %Z
}
int %test29(ubyte %X) {
%Y = cast ubyte %X to int
%Z = and int %Y, 255 ;; Zero extend makes this unneeded.
ret int %Z
}
int %test30(bool %X) {
%Y = cast bool %X to int
%Z = and int %Y, 1
ret int %Z
}
uint %test31(bool %X) {
%Y = cast bool %X to uint
%Z = shl uint %Y, ubyte 4
%A = and uint %Z, 16
ret uint %A
}
uint %test32(uint %In) {
%Y = and uint %In, 16
%Z = shr uint %Y, ubyte 2
%A = and uint %Z, 1
ret uint %A
}
uint %test33(uint %b) { ;; Code corresponding to one-bit bitfield ^1.
%tmp.4.mask = and uint %b, 1
%tmp.10 = xor uint %tmp.4.mask, 1
%tmp.12 = and uint %b, 4294967294
%tmp.13 = or uint %tmp.12, %tmp.10
ret uint %tmp.13
}
int %test34(int %A, int %B) {
%tmp.2 = or int %B, %A
%tmp.4 = and int %tmp.2, %B
ret int %tmp.4
}