; NOTE: Assertions have been autogenerated by utils/update_test_checks.py UTC_ARGS: --version 2 ; RUN: opt < %s -passes=instcombine -S | FileCheck %s target datalayout = "E-p:64:64:64-p1:16:16:16-a0:0:8-f32:32:32-f64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:32:64-v64:64:64-v128:128:128" ; Simple case, argument translatable without changing the value declare void @test1a(ptr) define void @test1(ptr %A) { ; CHECK-LABEL: define void @test1 ; CHECK-SAME: (ptr [[A:%.*]]) { ; CHECK-NEXT: call void @test1a(ptr [[A]]) ; CHECK-NEXT: ret void ; call void @test1a( ptr %A ) ret void } ; Should not do because of change in address space of the parameter define void @test1_as1_illegal(ptr addrspace(1) %A) { ; CHECK-LABEL: define void @test1_as1_illegal ; CHECK-SAME: (ptr addrspace(1) [[A:%.*]]) { ; CHECK-NEXT: call void @test1a(ptr addrspace(1) [[A]]) ; CHECK-NEXT: ret void ; call void @test1a(ptr addrspace(1) %A) ret void } ; Test1, but the argument has a different sized address-space declare void @test1a_as1(ptr addrspace(1)) ; This one is OK to perform define void @test1_as1(ptr addrspace(1) %A) { ; CHECK-LABEL: define void @test1_as1 ; CHECK-SAME: (ptr addrspace(1) [[A:%.*]]) { ; CHECK-NEXT: call void @test1a_as1(ptr addrspace(1) [[A]]) ; CHECK-NEXT: ret void ; call void @test1a_as1(ptr addrspace(1) %A ) ret void } ; More complex case, translate argument because of resolution. This is safe ; because we have the body of the function define void @test2a(i8 %A) { ; CHECK-LABEL: define void @test2a ; CHECK-SAME: (i8 [[A:%.*]]) { ; CHECK-NEXT: ret void ; ret void } define i32 @test2(i32 %A) { ; CHECK-LABEL: define i32 @test2 ; CHECK-SAME: (i32 [[A:%.*]]) { ; CHECK-NEXT: call void @test2a(i32 [[A]]) ; CHECK-NEXT: ret i32 [[A]] ; call void @test2a( i32 %A ) ret i32 %A } ; Resolving this should insert a cast from sbyte to int, following the C ; promotion rules. define void @test3a(i8, ...) {unreachable } ; CHECK-LABEL: define void @test3a ; CHECK-SAME: (i8 [[TMP0:%.*]], ...) { ; CHECK-NEXT: unreachable ; define void @test3(i8 %A, i8 %B) { call void @test3a( i8 %A, i8 %B) ret void } ; test conversion of return value... define i8 @test4a() { ; CHECK-LABEL: define i8 @test4a() { ; CHECK-NEXT: ret i8 0 ; ret i8 0 } define i32 @test4() { ; CHECK-LABEL: define i32 @test4() { ; CHECK-NEXT: [[X:%.*]] = call i32 @test4a() ; CHECK-NEXT: ret i32 [[X]] ; %X = call i32 @test4a( ) ; [#uses=1] ret i32 %X } ; test conversion of return value... no value conversion occurs so we can do ; this with just a prototype... declare i32 @test5a() define i32 @test5() { ; CHECK-LABEL: define i32 @test5() { ; CHECK-NEXT: [[X:%.*]] = call i32 @test5a() ; CHECK-NEXT: ret i32 [[X]] ; %X = call i32 @test5a( ) ; [#uses=1] ret i32 %X } ; test addition of new arguments... declare i32 @test6a(i32) define i32 @test6() { ; CHECK-LABEL: define i32 @test6() { ; CHECK-NEXT: [[X:%.*]] = call i32 @test6a(i32 0) ; CHECK-NEXT: ret i32 [[X]] ; %X = call i32 @test6a( ) ret i32 %X } ; test removal of arguments, only can happen with a function body define void @test7a() { ; CHECK-LABEL: define void @test7a() { ; CHECK-NEXT: ret void ; ret void } define void @test7() { ; CHECK-LABEL: define void @test7() { ; CHECK-NEXT: call void @test7a() ; CHECK-NEXT: ret void ; call void @test7a( i32 5 ) ret void } ; rdar://7590304 declare void @test8a() define ptr @test8() personality ptr @__gxx_personality_v0 { ; CHECK-LABEL: define ptr @test8() personality ptr @__gxx_personality_v0 { ; CHECK-NEXT: invoke void @test8a() ; CHECK-NEXT: to label [[INVOKE_CONT:%.*]] unwind label [[TRY_HANDLER:%.*]] ; CHECK: invoke.cont: ; CHECK-NEXT: unreachable ; CHECK: try.handler: ; CHECK-NEXT: [[EXN:%.*]] = landingpad { ptr, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: ret ptr null ; ; Don't turn this into "unreachable": the callee and caller don't agree in ; calling conv, but the implementation of test8a may actually end up using the ; right calling conv. invoke void @test8a() to label %invoke.cont unwind label %try.handler invoke.cont: ; preds = %entry unreachable try.handler: ; preds = %entry %exn = landingpad {ptr, i32} cleanup ret ptr null } declare i32 @__gxx_personality_v0(...) ; Don't turn this into a direct call, because test9x is just a prototype and ; doing so will make it varargs. ; rdar://9038601 declare ptr @test9x(ptr, ptr, ...) noredzone define ptr @test9(ptr %arg, ptr %tmp3) nounwind ssp noredzone { ; CHECK-LABEL: define ptr @test9 ; CHECK-SAME: (ptr [[ARG:%.*]], ptr [[TMP3:%.*]]) #[[ATTR1:[0-9]+]] { ; CHECK-NEXT: entry: ; CHECK-NEXT: [[CALL:%.*]] = call ptr @test9x(ptr [[ARG]], ptr [[TMP3]]) #[[ATTR2:[0-9]+]] ; CHECK-NEXT: ret ptr [[CALL]] ; entry: %call = call ptr @test9x(ptr %arg, ptr %tmp3) noredzone ret ptr %call } ; Parameter that's a vector of pointers declare void @test10a(<2 x ptr>) define void @test10(<2 x ptr> %A) { ; CHECK-LABEL: define void @test10 ; CHECK-SAME: (<2 x ptr> [[A:%.*]]) { ; CHECK-NEXT: call void @test10a(<2 x ptr> [[A]]) ; CHECK-NEXT: ret void ; call void @test10a(<2 x ptr> %A) ret void } ; Don't transform because different address spaces declare void @test10a_mixed_as(<2 x ptr addrspace(1)>) define void @test10_mixed_as(<2 x ptr> %A) { ; CHECK-LABEL: define void @test10_mixed_as ; CHECK-SAME: (<2 x ptr> [[A:%.*]]) { ; CHECK-NEXT: call void @test10a_mixed_as(<2 x ptr> [[A]]) ; CHECK-NEXT: ret void ; call void @test10a_mixed_as(<2 x ptr> %A) ret void } ; Return type that's a pointer define ptr @test11a() { ; CHECK-LABEL: define ptr @test11a() { ; CHECK-NEXT: ret ptr null ; ret ptr zeroinitializer } define ptr @test11() { ; CHECK-LABEL: define ptr @test11() { ; CHECK-NEXT: [[X:%.*]] = call ptr @test11a() ; CHECK-NEXT: ret ptr [[X]] ; %X = call ptr @test11a() ret ptr %X } ; Return type that's a pointer with a different address space define ptr addrspace(1) @test11a_mixed_as() { ; CHECK-LABEL: define ptr addrspace(1) @test11a_mixed_as() { ; CHECK-NEXT: ret ptr addrspace(1) null ; ret ptr addrspace(1) zeroinitializer } define ptr @test11_mixed_as() { ; CHECK-LABEL: define ptr @test11_mixed_as() { ; CHECK-NEXT: [[X:%.*]] = call ptr @test11a_mixed_as() ; CHECK-NEXT: ret ptr [[X]] ; %X = call ptr ()* @test11a_mixed_as() ret ptr %X } ; Return type that's a vector of pointers define <2 x ptr> @test12a() { ; CHECK-LABEL: define <2 x ptr> @test12a() { ; CHECK-NEXT: ret <2 x ptr> zeroinitializer ; ret <2 x ptr> zeroinitializer } define <2 x ptr> @test12() { ; CHECK-LABEL: define <2 x ptr> @test12() { ; CHECK-NEXT: [[X:%.*]] = call <2 x ptr> @test12a() ; CHECK-NEXT: ret <2 x ptr> [[X]] ; %X = call <2 x ptr> @test12a() ret <2 x ptr> %X } define <2 x ptr addrspace(1)> @test12a_mixed_as() { ; CHECK-LABEL: define <2 x ptr addrspace(1)> @test12a_mixed_as() { ; CHECK-NEXT: ret <2 x ptr addrspace(1)> zeroinitializer ; ret <2 x ptr addrspace(1)> zeroinitializer } define <2 x ptr> @test12_mixed_as() { ; CHECK-LABEL: define <2 x ptr> @test12_mixed_as() { ; CHECK-NEXT: [[X:%.*]] = call <2 x ptr> @test12a_mixed_as() ; CHECK-NEXT: ret <2 x ptr> [[X]] ; %X = call <2 x ptr> @test12a_mixed_as() ret <2 x ptr> %X } ; Mix parameter that's a vector of integers and pointers of the same size declare void @test13a(<2 x i64>) define void @test13(<2 x ptr> %A) { ; CHECK-LABEL: define void @test13 ; CHECK-SAME: (<2 x ptr> [[A:%.*]]) { ; CHECK-NEXT: call void @test13a(<2 x ptr> [[A]]) ; CHECK-NEXT: ret void ; call void @test13a(<2 x ptr> %A) ret void } ; Mix parameter that's a vector of integers and pointers of the same ; size, but the other way around declare void @test14a(<2 x ptr>) define void @test14(<2 x i64> %A) { ; CHECK-LABEL: define void @test14 ; CHECK-SAME: (<2 x i64> [[A:%.*]]) { ; CHECK-NEXT: call void @test14a(<2 x i64> [[A]]) ; CHECK-NEXT: ret void ; call void @test14a(<2 x i64> %A) ret void } ; Return type that's a vector define <2 x i16> @test15a() { ; CHECK-LABEL: define <2 x i16> @test15a() { ; CHECK-NEXT: ret <2 x i16> zeroinitializer ; ret <2 x i16> zeroinitializer } define i32 @test15() { ; CHECK-LABEL: define i32 @test15() { ; CHECK-NEXT: [[X:%.*]] = call <2 x i16> @test15a() ; CHECK-NEXT: [[TMP1:%.*]] = bitcast <2 x i16> [[X]] to i32 ; CHECK-NEXT: ret i32 [[TMP1]] ; %X = call i32 @test15a( ) ret i32 %X } define i32 @test16a() { ; CHECK-LABEL: define i32 @test16a() { ; CHECK-NEXT: ret i32 0 ; ret i32 0 } define <2 x i16> @test16() { ; CHECK-LABEL: define <2 x i16> @test16() { ; CHECK-NEXT: [[X:%.*]] = call i32 @test16a() ; CHECK-NEXT: [[TMP1:%.*]] = bitcast i32 [[X]] to <2 x i16> ; CHECK-NEXT: ret <2 x i16> [[TMP1]] ; %X = call <2 x i16> @test16a( ) ret <2 x i16> %X } declare i32 @pr28655(i32 returned %V) define i32 @test17() { ; CHECK-LABEL: define i32 @test17() { ; CHECK-NEXT: entry: ; CHECK-NEXT: [[C:%.*]] = call i32 @pr28655(i32 0) ; CHECK-NEXT: ret i32 0 ; entry: %C = call i32 @pr28655(i32 0) ret i32 %C } define void @non_vararg(ptr, i32) { ; CHECK-LABEL: define void @non_vararg ; CHECK-SAME: (ptr [[TMP0:%.*]], i32 [[TMP1:%.*]]) { ; CHECK-NEXT: ret void ; ret void } define void @test_cast_to_vararg(ptr %this) { ; CHECK-LABEL: define void @test_cast_to_vararg ; CHECK-SAME: (ptr [[THIS:%.*]]) { ; CHECK-NEXT: call void @non_vararg(ptr [[THIS]], i32 42) ; CHECK-NEXT: ret void ; call void (ptr, ...) @non_vararg(ptr %this, i32 42) ret void }