tests/codegen/range-attribute.rs - rust - Git at Google

 // Checks that range metadata gets emitted on functions result and arguments
 // with scalar value.

 // 32-bit systems will return 128bit values using a return area pointer.
 //@ revisions: bit32 bit64
 //@[bit32] only-32bit
 //@[bit64] only-64bit
 //@ compile-flags: -Copt-level=3 -C no-prepopulate-passes

 #![crate_type = "lib"]

 use std::num::NonZero;

 // Hack to get the correct size for usize
 // CHECK: @helper([[USIZE:i[0-9]+]] noundef %_1)
 #[no_mangle]
 pub fn helper(_: usize) {}

 // bit32: void @nonzero_int({{.*}} sret([16 x i8]) {{.*}}, i128 noundef range(i128 1, 0) %x)
 // bit64: noundef range(i128 1, 0) i128 @nonzero_int(i128 noundef range(i128 1, 0) %x)
 #[no_mangle]
 pub fn nonzero_int(x: NonZero<u128>) -> NonZero<u128> {
     x
 }

 // CHECK: noundef range(i8 0, 3) i8 @optional_bool(i8{{.*}} range(i8 0, 3) %x)
 #[no_mangle]
 pub fn optional_bool(x: Option<bool>) -> Option<bool> {
     x
 }

 pub enum Enum0 {
     A(bool),
     B,
     C,
 }

 // CHECK: noundef range(i8 0, 4) i8 @enum0_value(i8{{.*}} range(i8 0, 4) %x)
 #[no_mangle]
 pub fn enum0_value(x: Enum0) -> Enum0 {
     x
 }

 pub enum Enum1 {
     A(u64),
     B(u64),
     C(u64),
 }

 // bit32: void @enum1_value({{.*}} sret({{[^,]*}}) {{[^,]*}}, [[ENUM1_TYP:i[0-9]+]]
 // bit64: { [[ENUM1_TYP:i[0-9]+]], i64 } @enum1_value([[ENUM1_TYP]]
 // CHECK-SAME: noundef range([[ENUM1_TYP]] 0, 3) %x.0, i64 noundef %x.1)
 #[no_mangle]
 pub fn enum1_value(x: Enum1) -> Enum1 {
     x
 }

 pub enum Enum2 {
     A(Enum0),
     B(Enum0),
     C(Enum0),
 }

 // CHECK: { i8, i8 } @enum2_value(i8 noundef range(i8 0, 3) %x.0, i8 noundef %x.1)
 #[no_mangle]
 pub fn enum2_value(x: Enum2) -> Enum2 {
     x
 }

 // CHECK: noundef [[USIZE]] @takes_slice(ptr noalias noundef nonnull readonly align 4 %x.0, [[USIZE]] noundef %x.1)
 #[no_mangle]
 pub fn takes_slice(x: &[i32]) -> usize {
     x.len()
 }
	// Checks that range metadata gets emitted on functions result and arguments
	// with scalar value.

	// 32-bit systems will return 128bit values using a return area pointer.
	//@ revisions: bit32 bit64
	//@[bit32] only-32bit
	//@[bit64] only-64bit
	//@ compile-flags: -Copt-level=3 -C no-prepopulate-passes

	#![crate_type = "lib"]

	use std::num::NonZero;

	// Hack to get the correct size for usize
	// CHECK: @helper([[USIZE:i[0-9]+]] noundef %_1)
	#[no_mangle]
	pub fn helper(_: usize) {}

	// bit32: void @nonzero_int({{.}} sret([16 x i8]) {{.}}, i128 noundef range(i128 1, 0) %x)
	// bit64: noundef range(i128 1, 0) i128 @nonzero_int(i128 noundef range(i128 1, 0) %x)
	#[no_mangle]
	pub fn nonzero_int(x: NonZero<u128>) -> NonZero<u128> {
	x
	}

	// CHECK: noundef range(i8 0, 3) i8 @optional_bool(i8{{.*}} range(i8 0, 3) %x)
	#[no_mangle]
	pub fn optional_bool(x: Option<bool>) -> Option<bool> {
	x
	}

	pub enum Enum0 {
	A(bool),
	B,
	C,
	}

	// CHECK: noundef range(i8 0, 4) i8 @enum0_value(i8{{.*}} range(i8 0, 4) %x)
	#[no_mangle]
	pub fn enum0_value(x: Enum0) -> Enum0 {
	x
	}

	pub enum Enum1 {
	A(u64),
	B(u64),
	C(u64),
	}

	// bit32: void @enum1_value({{.}} sret({{[^,]}}) {{[^,]*}}, [[ENUM1_TYP:i[0-9]+]]
	// bit64: { [[ENUM1_TYP:i[0-9]+]], i64 } @enum1_value([[ENUM1_TYP]]
	// CHECK-SAME: noundef range([[ENUM1_TYP]] 0, 3) %x.0, i64 noundef %x.1)
	#[no_mangle]
	pub fn enum1_value(x: Enum1) -> Enum1 {
	x
	}

	pub enum Enum2 {
	A(Enum0),
	B(Enum0),
	C(Enum0),
	}

	// CHECK: { i8, i8 } @enum2_value(i8 noundef range(i8 0, 3) %x.0, i8 noundef %x.1)
	#[no_mangle]
	pub fn enum2_value(x: Enum2) -> Enum2 {
	x
	}

	// CHECK: noundef [[USIZE]] @takes_slice(ptr noalias noundef nonnull readonly align 4 %x.0, [[USIZE]] noundef %x.1)
	#[no_mangle]
	pub fn takes_slice(x: &[i32]) -> usize {
	x.len()
	}