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clang-p2996/clang/test/CodeGen/attr-noundef.cpp
Andrew Savonichev b451ecd86e [Clang][AArch64] Disable rounding of return values for AArch64 
If a return value is explicitly rounded to 64 bits, an additional zext
instruction is emitted, and in some cases it prevents tail call
optimization.

As discussed in D100225, this rounding is not necessary and can be
disabled.

Differential Revision: https://reviews.llvm.org/D100591
2021-05-04 20:29:01 +03:00

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// RUN: %clang -cc1 -triple x86_64-gnu-linux -x c++ -S -emit-llvm -enable-noundef-analysis %s -o - | FileCheck %s --check-prefix=CHECK --check-prefix=CHECK-INTEL
// RUN: %clang -cc1 -triple aarch64-gnu-linux -x c++ -S -emit-llvm -enable-noundef-analysis %s -o - | FileCheck %s --check-prefix=CHECK --check-prefix=CHECK-AARCH
//************ Passing structs by value
// TODO: No structs may currently be marked noundef
namespace check_structs {
struct Trivial {
int a;
};
Trivial ret_trivial() { return {}; }
void pass_trivial(Trivial e) {}
// CHECK-INTEL: [[DEFINE:define( dso_local)?]] i32 @{{.*}}ret_trivial
// CHECK-AARCH: [[DEFINE:define( dso_local)?]] i32 @{{.*}}ret_trivial
// CHECK-INTEL: [[DEFINE]] void @{{.*}}pass_trivial{{.*}}(i32 %
// CHECK-AARCH: [[DEFINE]] void @{{.*}}pass_trivial{{.*}}(i64 %
struct NoCopy {
int a;
NoCopy(NoCopy &) = delete;
};
NoCopy ret_nocopy() { return {}; }
void pass_nocopy(NoCopy e) {}
// CHECK: [[DEFINE]] void @{{.*}}ret_nocopy{{.*}}(%"struct.check_structs::NoCopy"* noalias sret({{[^)]+}}) align 4 %
// CHECK: [[DEFINE]] void @{{.*}}pass_nocopy{{.*}}(%"struct.check_structs::NoCopy"* noundef %
struct Huge {
int a[1024];
};
Huge ret_huge() { return {}; }
void pass_huge(Huge h) {}
// CHECK: [[DEFINE]] void @{{.*}}ret_huge{{.*}}(%"struct.check_structs::Huge"* noalias sret({{[^)]+}}) align 4 %
// CHECK: [[DEFINE]] void @{{.*}}pass_huge{{.*}}(%"struct.check_structs::Huge"* noundef
} // namespace check_structs
//************ Passing unions by value
// No unions may be marked noundef
namespace check_unions {
union Trivial {
int a;
};
Trivial ret_trivial() { return {}; }
void pass_trivial(Trivial e) {}
// CHECK-INTEL: [[DEFINE]] i32 @{{.*}}ret_trivial
// CHECK-AARCH: [[DEFINE]] i32 @{{.*}}ret_trivial
// CHECK-INTEL: [[DEFINE]] void @{{.*}}pass_trivial{{.*}}(i32 %
// CHECK-AARCH: [[DEFINE]] void @{{.*}}pass_trivial{{.*}}(i64 %
union NoCopy {
int a;
NoCopy(NoCopy &) = delete;
};
NoCopy ret_nocopy() { return {}; }
void pass_nocopy(NoCopy e) {}
// CHECK: [[DEFINE]] void @{{.*}}ret_nocopy{{.*}}(%"union.check_unions::NoCopy"* noalias sret({{[^)]+}}) align 4 %
// CHECK: [[DEFINE]] void @{{.*}}pass_nocopy{{.*}}(%"union.check_unions::NoCopy"* noundef %
} // namespace check_unions
//************ Passing `this` pointers
// `this` pointer must always be defined
namespace check_this {
struct Object {
int data[];
Object() {
this->data[0] = 0;
}
int getData() {
return this->data[0];
}
Object *getThis() {
return this;
}
};
void use_object() {
Object obj;
obj.getData();
obj.getThis();
}
// CHECK: define linkonce_odr void @{{.*}}Object{{.*}}(%"struct.check_this::Object"* noundef %
// CHECK: define linkonce_odr noundef i32 @{{.*}}Object{{.*}}getData{{.*}}(%"struct.check_this::Object"* noundef %
// CHECK: define linkonce_odr noundef %"struct.check_this::Object"* @{{.*}}Object{{.*}}getThis{{.*}}(%"struct.check_this::Object"* noundef %
} // namespace check_this
//************ Passing vector types
namespace check_vecs {
typedef int __attribute__((vector_size(12))) i32x3;
i32x3 ret_vec() {
return {};
}
void pass_vec(i32x3 v) {
}
// CHECK: [[DEFINE]] noundef <3 x i32> @{{.*}}ret_vec{{.*}}()
// CHECK-INTEL: [[DEFINE]] void @{{.*}}pass_vec{{.*}}(<3 x i32> noundef %
// CHECK-AARCH: [[DEFINE]] void @{{.*}}pass_vec{{.*}}(<4 x i32> %
} // namespace check_vecs
//************ Passing exotic types
// Function/Array pointers, Function member / Data member pointers, nullptr_t, ExtInt types
namespace check_exotic {
struct Object {
int mfunc();
int mdata;
};
typedef int Object::*mdptr;
typedef int (Object::*mfptr)();
typedef decltype(nullptr) nullptr_t;
typedef int (*arrptr)[32];
typedef int (*fnptr)(int);
arrptr ret_arrptr() {
return nullptr;
}
fnptr ret_fnptr() {
return nullptr;
}
mdptr ret_mdptr() {
return nullptr;
}
mfptr ret_mfptr() {
return nullptr;
}
nullptr_t ret_npt() {
return nullptr;
}
void pass_npt(nullptr_t t) {
}
_ExtInt(3) ret_extint() {
return 0;
}
void pass_extint(_ExtInt(3) e) {
}
void pass_large_extint(_ExtInt(127) e) {
}
// Pointers to arrays/functions are always noundef
// CHECK: [[DEFINE]] noundef [32 x i32]* @{{.*}}ret_arrptr{{.*}}()
// CHECK: [[DEFINE]] noundef i32 (i32)* @{{.*}}ret_fnptr{{.*}}()
// Pointers to members are never noundef
// CHECK: [[DEFINE]] i64 @{{.*}}ret_mdptr{{.*}}()
// CHECK-INTEL: [[DEFINE]] { i64, i64 } @{{.*}}ret_mfptr{{.*}}()
// CHECK-AARCH: [[DEFINE]] [2 x i64] @{{.*}}ret_mfptr{{.*}}()
// nullptr_t is never noundef
// CHECK: [[DEFINE]] i8* @{{.*}}ret_npt{{.*}}()
// CHECK: [[DEFINE]] void @{{.*}}pass_npt{{.*}}(i8* %
// TODO: for now, ExtInt is only noundef if it is sign/zero-extended
// CHECK-INTEL: [[DEFINE]] noundef signext i3 @{{.*}}ret_extint{{.*}}()
// CHECK-AARCH: [[DEFINE]] i3 @{{.*}}ret_extint{{.*}}()
// CHECK-INTEL: [[DEFINE]] void @{{.*}}pass_extint{{.*}}(i3 noundef signext %
// CHECK-AARCH: [[DEFINE]] void @{{.*}}pass_extint{{.*}}(i3 %
// CHECK-INTEL: [[DEFINE]] void @{{.*}}pass_large_extint{{.*}}(i64 %{{.*}}, i64 %
// CHECK-AARCH: [[DEFINE]] void @{{.*}}pass_large_extint{{.*}}(i127 %
} // namespace check_exotic
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