llvm-6502/test/Transforms/InstCombine/call.ll
2006-12-02 04:23:10 +00:00

57 lines
1.6 KiB
LLVM

; RUN: llvm-upgrade < %s | llvm-as | opt -instcombine | llvm-dis | grep call | notcast
implementation
; Simple case, argument translatable without changing the value
declare void %test1a(sbyte *%A)
void %test1(int *%A) {
call void(int*)* cast (void(sbyte*)* %test1a to void(int*)*)(int* %A)
ret void
}
; More complex case, translate argument because of resolution. This is safe
; because we have the body of the function
void %test2a(sbyte %A) { ret void }
int %test2(int %A) {
call void(int)* cast (void(sbyte)* %test2a to void(int)*)(int %A)
ret int %A
}
; Resolving this should insert a cast from sbyte to int, following the C
; promotion rules.
declare void %test3a(sbyte %A, ...)
void %test3(sbyte %A, sbyte %B) {
call void(sbyte, sbyte)* cast (void(sbyte,...)* %test3a to void(sbyte,sbyte)*)(sbyte %A, sbyte %B)
ret void
}
; test conversion of return value...
sbyte %test4a() { ret sbyte 0 }
int %test4() {
%X = call int()* cast (sbyte()* %test4a to int()*)()
ret int %X
}
; test conversion of return value... no value conversion occurs so we can do
; this with just a prototype...
declare uint %test5a()
int %test5() {
%X = call int()* cast (uint()* %test5a to int()*)()
ret int %X
}
; test addition of new arguments...
declare int %test6a(int %X)
int %test6() {
%X = call int()* cast (int(int)* %test6a to int()*)()
ret int %X
}
; test removal of arguments, only can happen with a function body
void %test7a() { ret void }
void %test7() {
call void(int)* cast (void()* %test7a to void(int)*)(int 5)
ret void
}