tests/mir-opt/sroa/structs.rs - third_party/rust - Git at Google

 //@ test-mir-pass: ScalarReplacementOfAggregates
 //@ compile-flags: -Cpanic=abort
 //@ no-prefer-dynamic

 struct Tag(usize);

 #[repr(C)]
 struct S(Tag, Tag, Tag);

 impl Drop for Tag {
     #[inline(never)]
     fn drop(&mut self) {}
 }

 /// Check that SROA excludes structs with a `Drop` implementation.
 pub fn dropping() {
     // CHECK-LABEL: fn dropping(

     // CHECK: [[aggregate:_[0-9]+]]: S;

     // CHECK: bb0: {
     // CHECK: [[aggregate]] = S
     S(Tag(0), Tag(1), Tag(2)).1;
 }

 /// Check that SROA excludes enums.
 pub fn enums(a: usize) -> usize {
     // CHECK-LABEL: fn enums(

     // CHECK: [[enum:_[0-9]+]]: std::option::Option<usize>;

     // CHECK: bb0: {
     // CHECK: [[enum]] = Option::<usize>::Some
     // CHECK: _5 = (([[enum]] as Some).0: usize)
     // CHECK: _0 = _5
     if let Some(a) = Some(a) { a } else { 0 }
 }

 /// Check that SROA destructures `U`.
 pub fn structs(a: f32) -> f32 {
     // CHECK-LABEL: fn structs(
     struct U {
         _foo: usize,
         a: f32,
     }
     // CHECK: [[ret:_0]]: f32;
     // CHECK: [[struct:_[0-9]+]]: structs::U;
     // CHECK: [[a_tmp:_[0-9]+]]: f32;
     // CHECK: [[foo:_[0-9]+]]: usize;
     // CHECK: [[a_ret:_[0-9]+]]: f32;

     // CHECK: bb0: {
     // CHECK-NOT: [[struct]]
     // CHECK: [[a_tmp]] = _1;
     // CHECK-NOT: [[struct]]
     // CHECK: [[foo]] = const 0_usize;
     // CHECK-NOT: [[struct]]
     // CHECK: [[a_ret]] = move [[a_tmp]];
     // CHECK-NOT: [[struct]]
     // CHECK: _0 = [[a_ret]];
     // CHECK-NOT: [[struct]]
     U { _foo: 0, a }.a
 }

 /// Check that SROA excludes unions.
 pub fn unions(a: f32) -> u32 {
     // CHECK-LABEL: fn unions(
     union Repr {
         f: f32,
         u: u32,
     }
     // CHECK: [[union:_[0-9]+]]: unions::Repr;

     // CHECK: bb0: {
     // CHECK: [[union]] = Repr {
     // CHECK: _0 = ([[union]].1: u32)
     unsafe { Repr { f: a }.u }
 }

 #[derive(Copy, Clone)]
 struct Foo {
     a: u8,
     b: (),
     c: &'static str,
     d: Option<isize>,
 }

 /// Check that non-escaping uses of a struct are destructured.
 pub fn flat() {
     // CHECK-LABEL: fn flat(

     // CHECK: [[struct:_[0-9]+]]: Foo;

     // CHECK: bb0: {
     // CHECK: [[init_unit:_[0-9]+]] = ();
     // CHECK: [[init_opt_isize:_[0-9]+]] = Option::<isize>::Some

     // CHECK: [[destr_five:_[0-9]+]] = const 5_u8;
     // CHECK: [[destr_unit:_[0-9]+]] = move [[init_unit]];
     // CHECK: [[destr_a:_[0-9]+]] = const "a";
     // CHECK: [[destr_opt_isize:_[0-9]+]] = move [[init_opt_isize]];

     let Foo { a, b, c, d } = Foo { a: 5, b: (), c: "a", d: Some(-4) };
     let _ = a;
     let _ = b;
     let _ = c;
     let _ = d;
 }

 #[repr(C)]
 struct Escaping {
     a: u32,
     b: u32,
     c: u32,
 }

 fn g() -> u32 {
     3
 }

 fn f(a: *const u32) {
     println!("{}", unsafe { *a.add(2) });
 }

 // `f` uses the `&e.a` to access `e.c`. This is UB according to Miri today; however,
 // T-opsem has not finalized that decision and as such rustc should not rely on
 // it. If SROA were to rely on it, it would be (almost) correct to turn `e` into
 // three distinct locals - one for each field - and pass a reference to only one
 // of them to `f`. However, this would lead to a miscompilation because `b` and `c`
 // might no longer appear right after `a` in memory.
 pub fn escaping() {
     // CHECK-LABEL: fn escaping(

     // CHECK: [[ptr:_[0-9]+]]: *const u32;
     // CHECK: [[ref:_[0-9]+]]: &u32;
     // CHECK: [[struct:_[0-9]+]]: Escaping;
     // CHECK: [[a:_[0-9]+]]: u32;

     // CHECK: bb0: {
     // CHECK: [[struct]] = Escaping {
     // CHECK: [[ref]] = &([[struct]].0
     // CHECK: [[ptr]] = &raw const (*[[ref]]);
     f(&Escaping { a: 1, b: 2, c: g() }.a);
 }

 /// Check that copies from an internal struct are destructured and reassigned to
 /// the original struct.
 fn copies(x: Foo) {
     // CHECK-LABEL: fn copies(

     // CHECK: [[external:_[0-9]+]]: Foo) ->
     // CHECK: [[internal:_[0-9]+]]: Foo;
     // CHECK: [[byte:_[0-9]+]]: u8;
     // CHECK: [[unit:_[0-9]+]]: ();
     // CHECK: [[str:_[0-9]+]]: &str;
     // CHECK: [[opt_isize:_[0-9]+]]: std::option::Option<isize>;

     // CHECK: bb0: {
     // CHECK: [[byte]] = ([[external]].0
     // CHECK: [[unit]] = ([[external]].1
     // CHECK: [[str]] = ([[external]].2
     // CHECK: [[opt_isize]] = ([[external]].3

     let y = x;
     let t = y.a;
     let u = y.c;
     let z = y;
     let a = z.b;
 }

 /// Check that copies from an internal struct are destructured and reassigned to
 /// the original struct.
 fn ref_copies(x: &Foo) {
     // CHECK-LABEL: fn ref_copies(

     // CHECK: [[external:_[0-9]+]]: &Foo) ->
     // CHECK: [[internal:_[0-9]+]]: Foo;
     // CHECK: [[byte:_[0-9]+]]: u8;
     // CHECK: [[unit:_[0-9]+]]: ();
     // CHECK: [[str:_[0-9]+]]: &str;
     // CHECK: [[opt_isize:_[0-9]+]]: std::option::Option<isize>;

     // CHECK: bb0: {
     // CHECK: [[byte]] = ((*[[external]]).0
     // CHECK: [[unit]] = ((*[[external]]).1
     // CHECK: [[str]] = ((*[[external]]).2
     // CHECK: [[opt_isize]] = ((*[[external]]).3

     let y = *x;
     let t = y.a;
     let u = y.c;
 }

 /// Check that deaggregated assignments from constants are placed after the constant's
 /// assignment. Also check that copying field accesses from the copy of the constant are
 /// reassigned to copy from the constant.
 fn constant() {
     // CHECK-LABEL: constant(

     // CHECK: [[constant:_[0-9]+]]: (usize, u8);
     // CHECK: [[t:_[0-9]+]]: usize;
     // CHECK: [[u:_[0-9]+]]: u8;

     // CHECK: bb0: {
     // CHECK-NOT: [[constant]]
     // CHECK: [[constant]] = const
     // CHECK: [[t]] = move ([[constant]].0: usize)
     // CHECK: [[u]] = move ([[constant]].1: u8)
     const U: (usize, u8) = (5, 9);
     let y = U;
     let t = y.0;
     let u = y.1;
 }

 fn main() {
     // CHECK-LABEL: fn main(
     dropping();
     enums(5);
     structs(5.);
     unions(5.);
     flat();
     escaping();
     copies(Foo { a: 5, b: (), c: "a", d: Some(-4) });
     ref_copies(&Foo { a: 5, b: (), c: "a", d: Some(-4) });
     constant();
 }

 // EMIT_MIR structs.dropping.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.enums.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.structs.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.unions.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.flat.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.escaping.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.copies.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.ref_copies.ScalarReplacementOfAggregates.diff
 // EMIT_MIR structs.constant.ScalarReplacementOfAggregates.diff
	//@ test-mir-pass: ScalarReplacementOfAggregates
	//@ compile-flags: -Cpanic=abort
	//@ no-prefer-dynamic

	struct Tag(usize);

	#[repr(C)]
	struct S(Tag, Tag, Tag);

	impl Drop for Tag {
	#[inline(never)]
	fn drop(&mut self) {}
	}

	/// Check that SROA excludes structs with a `Drop` implementation.
	pub fn dropping() {
	// CHECK-LABEL: fn dropping(

	// CHECK: [[aggregate:_[0-9]+]]: S;

	// CHECK: bb0: {
	// CHECK: [[aggregate]] = S
	S(Tag(0), Tag(1), Tag(2)).1;
	}

	/// Check that SROA excludes enums.
	pub fn enums(a: usize) -> usize {
	// CHECK-LABEL: fn enums(

	// CHECK: [[enum:_[0-9]+]]: std::option::Option<usize>;

	// CHECK: bb0: {
	// CHECK: [[enum]] = Option::<usize>::Some
	// CHECK: _5 = (([[enum]] as Some).0: usize)
	// CHECK: _0 = _5
	if let Some(a) = Some(a) { a } else { 0 }
	}

	/// Check that SROA destructures `U`.
	pub fn structs(a: f32) -> f32 {
	// CHECK-LABEL: fn structs(
	struct U {
	_foo: usize,
	a: f32,
	}
	// CHECK: [[ret:_0]]: f32;
	// CHECK: [[struct:_[0-9]+]]: structs::U;
	// CHECK: [[a_tmp:_[0-9]+]]: f32;
	// CHECK: [[foo:_[0-9]+]]: usize;
	// CHECK: [[a_ret:_[0-9]+]]: f32;

	// CHECK: bb0: {
	// CHECK-NOT: [[struct]]
	// CHECK: [[a_tmp]] = _1;
	// CHECK-NOT: [[struct]]
	// CHECK: [[foo]] = const 0_usize;
	// CHECK-NOT: [[struct]]
	// CHECK: [[a_ret]] = move [[a_tmp]];
	// CHECK-NOT: [[struct]]
	// CHECK: _0 = [[a_ret]];
	// CHECK-NOT: [[struct]]
	U { _foo: 0, a }.a
	}

	/// Check that SROA excludes unions.
	pub fn unions(a: f32) -> u32 {
	// CHECK-LABEL: fn unions(
	union Repr {
	f: f32,
	u: u32,
	}
	// CHECK: [[union:_[0-9]+]]: unions::Repr;

	// CHECK: bb0: {
	// CHECK: [[union]] = Repr {
	// CHECK: _0 = ([[union]].1: u32)
	unsafe { Repr { f: a }.u }
	}

	#[derive(Copy, Clone)]
	struct Foo {
	a: u8,
	b: (),
	c: &'static str,
	d: Option<isize>,
	}

	/// Check that non-escaping uses of a struct are destructured.
	pub fn flat() {
	// CHECK-LABEL: fn flat(

	// CHECK: [[struct:_[0-9]+]]: Foo;

	// CHECK: bb0: {
	// CHECK: [[init_unit:_[0-9]+]] = ();
	// CHECK: [[init_opt_isize:_[0-9]+]] = Option::<isize>::Some

	// CHECK: [[destr_five:_[0-9]+]] = const 5_u8;
	// CHECK: [[destr_unit:_[0-9]+]] = move [[init_unit]];
	// CHECK: [[destr_a:_[0-9]+]] = const "a";
	// CHECK: [[destr_opt_isize:_[0-9]+]] = move [[init_opt_isize]];

	let Foo { a, b, c, d } = Foo { a: 5, b: (), c: "a", d: Some(-4) };
	let _ = a;
	let _ = b;
	let _ = c;
	let _ = d;
	}

	#[repr(C)]
	struct Escaping {
	a: u32,
	b: u32,
	c: u32,
	}

	fn g() -> u32 {
	3
	}

	fn f(a: *const u32) {
	println!("{}", unsafe { *a.add(2) });
	}

	// `f` uses the `&e.a` to access `e.c`. This is UB according to Miri today; however,
	// T-opsem has not finalized that decision and as such rustc should not rely on
	// it. If SROA were to rely on it, it would be (almost) correct to turn `e` into
	// three distinct locals - one for each field - and pass a reference to only one
	// of them to `f`. However, this would lead to a miscompilation because `b` and `c`
	// might no longer appear right after `a` in memory.
	pub fn escaping() {
	// CHECK-LABEL: fn escaping(

	// CHECK: [[ptr:_[0-9]+]]: *const u32;
	// CHECK: [[ref:_[0-9]+]]: &u32;
	// CHECK: [[struct:_[0-9]+]]: Escaping;
	// CHECK: [[a:_[0-9]+]]: u32;

	// CHECK: bb0: {
	// CHECK: [[struct]] = Escaping {
	// CHECK: [[ref]] = &([[struct]].0
	// CHECK: [[ptr]] = &raw const (*[[ref]]);
	f(&Escaping { a: 1, b: 2, c: g() }.a);
	}

	/// Check that copies from an internal struct are destructured and reassigned to
	/// the original struct.
	fn copies(x: Foo) {
	// CHECK-LABEL: fn copies(

	// CHECK: [[external:_[0-9]+]]: Foo) ->
	// CHECK: [[internal:_[0-9]+]]: Foo;
	// CHECK: [[byte:_[0-9]+]]: u8;
	// CHECK: [[unit:_[0-9]+]]: ();
	// CHECK: [[str:_[0-9]+]]: &str;
	// CHECK: [[opt_isize:_[0-9]+]]: std::option::Option<isize>;

	// CHECK: bb0: {
	// CHECK: [[byte]] = ([[external]].0
	// CHECK: [[unit]] = ([[external]].1
	// CHECK: [[str]] = ([[external]].2
	// CHECK: [[opt_isize]] = ([[external]].3

	let y = x;
	let t = y.a;
	let u = y.c;
	let z = y;
	let a = z.b;
	}

	/// Check that copies from an internal struct are destructured and reassigned to
	/// the original struct.
	fn ref_copies(x: &Foo) {
	// CHECK-LABEL: fn ref_copies(

	// CHECK: [[external:_[0-9]+]]: &Foo) ->
	// CHECK: [[internal:_[0-9]+]]: Foo;
	// CHECK: [[byte:_[0-9]+]]: u8;
	// CHECK: [[unit:_[0-9]+]]: ();
	// CHECK: [[str:_[0-9]+]]: &str;
	// CHECK: [[opt_isize:_[0-9]+]]: std::option::Option<isize>;

	// CHECK: bb0: {
	// CHECK: [[byte]] = ((*[[external]]).0
	// CHECK: [[unit]] = ((*[[external]]).1
	// CHECK: [[str]] = ((*[[external]]).2
	// CHECK: [[opt_isize]] = ((*[[external]]).3

	let y = *x;
	let t = y.a;
	let u = y.c;
	}

	/// Check that deaggregated assignments from constants are placed after the constant's
	/// assignment. Also check that copying field accesses from the copy of the constant are
	/// reassigned to copy from the constant.
	fn constant() {
	// CHECK-LABEL: constant(

	// CHECK: [[constant:_[0-9]+]]: (usize, u8);
	// CHECK: [[t:_[0-9]+]]: usize;
	// CHECK: [[u:_[0-9]+]]: u8;

	// CHECK: bb0: {
	// CHECK-NOT: [[constant]]
	// CHECK: [[constant]] = const
	// CHECK: [[t]] = move ([[constant]].0: usize)
	// CHECK: [[u]] = move ([[constant]].1: u8)
	const U: (usize, u8) = (5, 9);
	let y = U;
	let t = y.0;
	let u = y.1;
	}

	fn main() {
	// CHECK-LABEL: fn main(
	dropping();
	enums(5);
	structs(5.);
	unions(5.);
	flat();
	escaping();
	copies(Foo { a: 5, b: (), c: "a", d: Some(-4) });
	ref_copies(&Foo { a: 5, b: (), c: "a", d: Some(-4) });
	constant();
	}

	// EMIT_MIR structs.dropping.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.enums.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.structs.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.unions.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.flat.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.escaping.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.copies.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.ref_copies.ScalarReplacementOfAggregates.diff
	// EMIT_MIR structs.constant.ScalarReplacementOfAggregates.diff