llvm-6502/test/Transforms/InstCombine/cast.ll
2006-10-01 19:39:45 +00:00

210 lines
4.4 KiB
LLVM

; Tests to make sure elimination of casts is working correctly
; RUN: llvm-as < %s | opt -instcombine -disable-output &&
; RUN: llvm-as < %s | opt -instcombine | llvm-dis | grep '%c' | not grep cast
%inbuf = external global [32832 x ubyte]
implementation
int %test1(int %A) {
%c1 = cast int %A to uint
%c2 = cast uint %c1 to int
ret int %c2
}
ulong %test2(ubyte %A) {
%c1 = cast ubyte %A to ushort
%c2 = cast ushort %c1 to uint
%Ret = cast uint %c2 to ulong
ret ulong %Ret
}
ulong %test3(ulong %A) { ; This function should just use bitwise AND
%c1 = cast ulong %A to ubyte
%c2 = cast ubyte %c1 to ulong
ret ulong %c2
}
uint %test4(int %A, int %B) {
%COND = setlt int %A, %B
%c = cast bool %COND to ubyte ; Booleans are unsigned integrals
%result = cast ubyte %c to uint ; for the cast elim purpose
ret uint %result
}
int %test5(bool %B) {
%c = cast bool %B to ubyte ; This cast should get folded into
%result = cast ubyte %c to int ; this cast
ret int %result
}
int %test6(ulong %A) {
%c1 = cast ulong %A to uint
%res = cast uint %c1 to int
ret int %res
}
long %test7(bool %A) {
%c1 = cast bool %A to int
%res = cast int %c1 to long
ret long %res
}
long %test8(sbyte %A) {
%c1 = cast sbyte %A to ulong
%res = cast ulong %c1 to long
ret long %res
}
short %test9(short %A) {
%c1 = cast short %A to int
%c2 = cast int %c1 to short
ret short %c2
}
short %test10(short %A) {
%c1 = cast short %A to uint
%c2 = cast uint %c1 to short
ret short %c2
}
declare void %varargs(int, ...)
void %test11(int* %P) {
%c = cast int* %P to short*
call void(int, ...)* %varargs(int 5, short* %c)
ret void
}
int* %test12() {
%p = malloc [4 x sbyte]
%c = cast [4 x sbyte]* %p to int*
ret int* %c
}
ubyte *%test13(long %A) {
%c = getelementptr [0 x ubyte]* cast ([32832 x ubyte]* %inbuf to [0 x ubyte]*), long 0, long %A
ret ubyte* %c
}
bool %test14(sbyte %A) {
%c = cast sbyte %A to ubyte
%X = setlt ubyte %c, 128 ; setge %A, 0
ret bool %X
}
bool %test15(ubyte %A) {
%c = cast ubyte %A to sbyte
%X = setlt sbyte %c, 0 ; setgt %A, 127
ret bool %X
}
bool %test16(int* %P) {
%c = cast int* %P to bool ;; setne P, null
ret bool %c
}
short %test17(bool %tmp3) {
%c = cast bool %tmp3 to int
%t86 = cast int %c to short
ret short %t86
}
short %test18(sbyte %tmp3) {
%c = cast sbyte %tmp3 to int
%t86 = cast int %c to short
ret short %t86
}
bool %test19(int %X) {
%c = cast int %X to long
%Z = setlt long %c, 12345
ret bool %Z
}
bool %test20(bool %B) {
%c = cast bool %B to int
%D = setlt int %c, -1
ret bool %D ;; false
}
uint %test21(uint %X) {
%c1 = cast uint %X to sbyte
%c2 = cast sbyte %c1 to uint ;; sext -> zext -> and -> nop
%RV = and uint %c2, 255
ret uint %RV
}
uint %test22(uint %X) {
%c1 = cast uint %X to sbyte
%c2 = cast sbyte %c1 to uint ;; sext -> zext -> and -> nop
%RV = shl uint %c2, ubyte 24
ret uint %RV
}
int %test23(int %X) {
%c1 = cast int %X to ushort ;; Turn into an AND even though X
%c2 = cast ushort %c1 to int ;; and Z are signed.
ret int %c2
}
bool %test24(bool %C) {
%X = select bool %C, uint 14, uint 1234
%c = cast uint %X to bool ;; Fold cast into select
ret bool %c
}
void %test25(int** %P) {
%c = cast int** %P to float**
store float* null, float** %c ;; Fold cast into null
ret void
}
int %test26(float %F) {
%c = cast float %F to double ;; no need to cast from float->double.
%D = cast double %c to int
ret int %D
}
[4 x float]* %test27([9 x [4 x float]]* %A) {
%c = cast [9 x [4 x float]]* %A to [4 x float]*
ret [4 x float]* %c
}
float* %test28([4 x float]* %A) {
%c = cast [4 x float]* %A to float*
ret float* %c
}
uint %test29(uint %c1, uint %c2) {
%tmp1 = cast uint %c1 to ubyte
%tmp4.mask = cast uint %c2 to ubyte
%tmp = or ubyte %tmp4.mask, %tmp1
%tmp10 = cast ubyte %tmp to uint
ret uint %tmp10
}
uint %test30(uint %c1) {
%c2 = cast uint %c1 to ubyte
%c3 = xor ubyte %c2, 1
%c4 = cast ubyte %c3 to uint
ret uint %c4
}
bool %test31(ulong %A) {
%B = cast ulong %A to int
%C = and int %B, 42
%D = seteq int %C, 10
ret bool %D
}
void %test32(double** %tmp) {
%tmp8 = malloc [16 x sbyte]
%tmp8 = cast [16 x sbyte]* %tmp8 to double*
store double* %tmp8, double** %tmp
ret void
}