vendor/cranelift-codegen/src/data_value.rs - toolchain/rustc - Git at Google

 //! This module gives users to instantiate values that Cranelift understands. These values are used,
 //! for example, during interpretation and for wrapping immediates.
 use crate::ir::immediates::{Ieee32, Ieee64, Imm64, Offset32};
 use crate::ir::{types, ConstantData, Type};
 use core::convert::TryInto;
 use core::fmt::{self, Display, Formatter};
 use thiserror::Error;

 /// Represent a data value. Where [Value] is an SSA reference, [DataValue] is the type + value
 /// that would be referred to by a [Value].
 ///
 /// [Value]: crate::ir::Value
 #[allow(missing_docs)]
 #[derive(Clone, Debug, PartialEq)]
 pub enum DataValue {
     B(bool),
     I8(i8),
     I16(i16),
     I32(i32),
     I64(i64),
     F32(Ieee32),
     F64(Ieee64),
     V128([u8; 16]),
 }

 impl DataValue {
     /// Try to cast an immediate integer ([Imm64]) to the given Cranelift [Type].
     pub fn from_integer(imm: Imm64, ty: Type) -> Result<DataValue, DataValueCastFailure> {
         match ty {
             types::I8 => Ok(DataValue::I8(imm.bits() as i8)),
             types::I16 => Ok(DataValue::I16(imm.bits() as i16)),
             types::I32 => Ok(DataValue::I32(imm.bits() as i32)),
             types::I64 => Ok(DataValue::I64(imm.bits())),
             _ => Err(DataValueCastFailure::FromImm64(imm, ty)),
         }
     }

     /// Return the Cranelift IR [Type] for this [DataValue].
     pub fn ty(&self) -> Type {
         match self {
             DataValue::B(_) => types::B8, // A default type.
             DataValue::I8(_) => types::I8,
             DataValue::I16(_) => types::I16,
             DataValue::I32(_) => types::I32,
             DataValue::I64(_) => types::I64,
             DataValue::F32(_) => types::F32,
             DataValue::F64(_) => types::F64,
             DataValue::V128(_) => types::I8X16, // A default type.
         }
     }

     /// Return true if the value is a vector (i.e. `DataValue::V128`).
     pub fn is_vector(&self) -> bool {
         match self {
             DataValue::V128(_) => true,
             _ => false,
         }
     }
 }

 /// Record failures to cast [DataValue].
 #[derive(Error, Debug, PartialEq)]
 #[allow(missing_docs)]
 pub enum DataValueCastFailure {
     #[error("unable to cast data value of type {0} to type {1}")]
     TryInto(Type, Type),
     #[error("unable to cast Imm64({0}) to a data value of type {1}")]
     FromImm64(Imm64, Type),
 }

 /// Helper for creating conversion implementations for [DataValue].
 macro_rules! build_conversion_impl {
     ( $rust_ty:ty, $data_value_ty:ident, $cranelift_ty:ident ) => {
         impl From<$rust_ty> for DataValue {
             fn from(data: $rust_ty) -> Self {
                 DataValue::$data_value_ty(data)
             }
         }

         impl TryInto<$rust_ty> for DataValue {
             type Error = DataValueCastFailure;
             fn try_into(self) -> Result<$rust_ty, Self::Error> {
                 if let DataValue::$data_value_ty(v) = self {
                     Ok(v)
                 } else {
                     Err(DataValueCastFailure::TryInto(
                         self.ty(),
                         types::$cranelift_ty,
                     ))
                 }
             }
         }
     };
 }
 build_conversion_impl!(bool, B, B8);
 build_conversion_impl!(i8, I8, I8);
 build_conversion_impl!(i16, I16, I16);
 build_conversion_impl!(i32, I32, I32);
 build_conversion_impl!(i64, I64, I64);
 build_conversion_impl!(Ieee32, F32, F32);
 build_conversion_impl!(Ieee64, F64, F64);
 build_conversion_impl!([u8; 16], V128, I8X16);
 impl From<Offset32> for DataValue {
     fn from(o: Offset32) -> Self {
         DataValue::from(Into::<i32>::into(o))
     }
 }

 impl Display for DataValue {
     fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
         match self {
             DataValue::B(dv) => write!(f, "{}", dv),
             DataValue::I8(dv) => write!(f, "{}", dv),
             DataValue::I16(dv) => write!(f, "{}", dv),
             DataValue::I32(dv) => write!(f, "{}", dv),
             DataValue::I64(dv) => write!(f, "{}", dv),
             // The Ieee* wrappers here print the expected syntax.
             DataValue::F32(dv) => write!(f, "{}", dv),
             DataValue::F64(dv) => write!(f, "{}", dv),
             // Again, for syntax consistency, use ConstantData, which in this case displays as hex.
             DataValue::V128(dv) => write!(f, "{}", ConstantData::from(&dv[..])),
         }
     }
 }

 /// Helper structure for printing bracket-enclosed vectors of [DataValue]s.
 /// - for empty vectors, display `[]`
 /// - for single item vectors, display `42`, e.g.
 /// - for multiple item vectors, display `[42, 43, 44]`, e.g.
 pub struct DisplayDataValues<'a>(pub &'a [DataValue]);

 impl<'a> Display for DisplayDataValues<'a> {
     fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
         if self.0.len() == 1 {
             write!(f, "{}", self.0[0])
         } else {
             write!(f, "[")?;
             write_data_value_list(f, &self.0)?;
             write!(f, "]")
         }
     }
 }

 /// Helper function for displaying `Vec<DataValue>`.
 pub fn write_data_value_list(f: &mut Formatter<'_>, list: &[DataValue]) -> fmt::Result {
     match list.len() {
         0 => Ok(()),
         1 => write!(f, "{}", list[0]),
         _ => {
             write!(f, "{}", list[0])?;
             for dv in list.iter().skip(1) {
                 write!(f, ", {}", dv)?;
             }
             Ok(())
         }
     }
 }

 #[cfg(test)]
 mod test {
     use super::*;

     #[test]
     fn type_conversions() {
         assert_eq!(DataValue::B(true).ty(), types::B8);
         assert_eq!(
             TryInto::<bool>::try_into(DataValue::B(false)).unwrap(),
             false
         );
         assert_eq!(
             TryInto::<i32>::try_into(DataValue::B(false)).unwrap_err(),
             DataValueCastFailure::TryInto(types::B8, types::I32)
         );

         assert_eq!(DataValue::V128([0; 16]).ty(), types::I8X16);
         assert_eq!(
             TryInto::<[u8; 16]>::try_into(DataValue::V128([0; 16])).unwrap(),
             [0; 16]
         );
         assert_eq!(
             TryInto::<i32>::try_into(DataValue::V128([0; 16])).unwrap_err(),
             DataValueCastFailure::TryInto(types::I8X16, types::I32)
         );
     }
 }
	//! This module gives users to instantiate values that Cranelift understands. These values are used,
	//! for example, during interpretation and for wrapping immediates.
	use crate::ir::immediates::{Ieee32, Ieee64, Imm64, Offset32};
	use crate::ir::{types, ConstantData, Type};
	use core::convert::TryInto;
	use core::fmt::{self, Display, Formatter};
	use thiserror::Error;

	/// Represent a data value. Where [Value] is an SSA reference, [DataValue] is the type + value
	/// that would be referred to by a [Value].
	///
	/// [Value]: crate::ir::Value
	#[allow(missing_docs)]
	#[derive(Clone, Debug, PartialEq)]
	pub enum DataValue {
	B(bool),
	I8(i8),
	I16(i16),
	I32(i32),
	I64(i64),
	F32(Ieee32),
	F64(Ieee64),
	V128([u8; 16]),
	}

	impl DataValue {
	/// Try to cast an immediate integer ([Imm64]) to the given Cranelift [Type].
	pub fn from_integer(imm: Imm64, ty: Type) -> Result<DataValue, DataValueCastFailure> {
	match ty {
	types::I8 => Ok(DataValue::I8(imm.bits() as i8)),
	types::I16 => Ok(DataValue::I16(imm.bits() as i16)),
	types::I32 => Ok(DataValue::I32(imm.bits() as i32)),
	types::I64 => Ok(DataValue::I64(imm.bits())),
	_ => Err(DataValueCastFailure::FromImm64(imm, ty)),
	}
	}

	/// Return the Cranelift IR [Type] for this [DataValue].
	pub fn ty(&self) -> Type {
	match self {
	DataValue::B(_) => types::B8, // A default type.
	DataValue::I8(_) => types::I8,
	DataValue::I16(_) => types::I16,
	DataValue::I32(_) => types::I32,
	DataValue::I64(_) => types::I64,
	DataValue::F32(_) => types::F32,
	DataValue::F64(_) => types::F64,
	DataValue::V128(_) => types::I8X16, // A default type.
	}
	}

	/// Return true if the value is a vector (i.e. `DataValue::V128`).
	pub fn is_vector(&self) -> bool {
	match self {
	DataValue::V128(_) => true,
	_ => false,
	}
	}
	}

	/// Record failures to cast [DataValue].
	#[derive(Error, Debug, PartialEq)]
	#[allow(missing_docs)]
	pub enum DataValueCastFailure {
	#[error("unable to cast data value of type {0} to type {1}")]
	TryInto(Type, Type),
	#[error("unable to cast Imm64({0}) to a data value of type {1}")]
	FromImm64(Imm64, Type),
	}

	/// Helper for creating conversion implementations for [DataValue].
	macro_rules! build_conversion_impl {
	( $rust_ty:ty, $data_value_ty:ident, $cranelift_ty:ident ) => {
	impl From<$rust_ty> for DataValue {
	fn from(data: $rust_ty) -> Self {
	DataValue::$data_value_ty(data)
	}
	}

	impl TryInto<$rust_ty> for DataValue {
	type Error = DataValueCastFailure;
	fn try_into(self) -> Result<$rust_ty, Self::Error> {
	if let DataValue::$data_value_ty(v) = self {
	Ok(v)
	} else {
	Err(DataValueCastFailure::TryInto(
	self.ty(),
	types::$cranelift_ty,
	))
	}
	}
	}
	};
	}
	build_conversion_impl!(bool, B, B8);
	build_conversion_impl!(i8, I8, I8);
	build_conversion_impl!(i16, I16, I16);
	build_conversion_impl!(i32, I32, I32);
	build_conversion_impl!(i64, I64, I64);
	build_conversion_impl!(Ieee32, F32, F32);
	build_conversion_impl!(Ieee64, F64, F64);
	build_conversion_impl!([u8; 16], V128, I8X16);
	impl From<Offset32> for DataValue {
	fn from(o: Offset32) -> Self {
	DataValue::from(Into::<i32>::into(o))
	}
	}

	impl Display for DataValue {
	fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
	match self {
	DataValue::B(dv) => write!(f, "{}", dv),
	DataValue::I8(dv) => write!(f, "{}", dv),
	DataValue::I16(dv) => write!(f, "{}", dv),
	DataValue::I32(dv) => write!(f, "{}", dv),
	DataValue::I64(dv) => write!(f, "{}", dv),
	// The Ieee* wrappers here print the expected syntax.
	DataValue::F32(dv) => write!(f, "{}", dv),
	DataValue::F64(dv) => write!(f, "{}", dv),
	// Again, for syntax consistency, use ConstantData, which in this case displays as hex.
	DataValue::V128(dv) => write!(f, "{}", ConstantData::from(&dv[..])),
	}
	}
	}

	/// Helper structure for printing bracket-enclosed vectors of [DataValue]s.
	/// - for empty vectors, display `[]`
	/// - for single item vectors, display `42`, e.g.
	/// - for multiple item vectors, display `[42, 43, 44]`, e.g.
	pub struct DisplayDataValues<'a>(pub &'a [DataValue]);

	impl<'a> Display for DisplayDataValues<'a> {
	fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
	if self.0.len() == 1 {
	write!(f, "{}", self.0[0])
	} else {
	write!(f, "[")?;
	write_data_value_list(f, &self.0)?;
	write!(f, "]")
	}
	}
	}

	/// Helper function for displaying `Vec<DataValue>`.
	pub fn write_data_value_list(f: &mut Formatter<'_>, list: &[DataValue]) -> fmt::Result {
	match list.len() {
	0 => Ok(()),
	1 => write!(f, "{}", list[0]),
	_ => {
	write!(f, "{}", list[0])?;
	for dv in list.iter().skip(1) {
	write!(f, ", {}", dv)?;
	}
	Ok(())
	}
	}
	}

	#[cfg(test)]
	mod test {
	use super::*;

	#[test]
	fn type_conversions() {
	assert_eq!(DataValue::B(true).ty(), types::B8);
	assert_eq!(
	TryInto::<bool>::try_into(DataValue::B(false)).unwrap(),
	false
	);
	assert_eq!(
	TryInto::<i32>::try_into(DataValue::B(false)).unwrap_err(),
	DataValueCastFailure::TryInto(types::B8, types::I32)
	);

	assert_eq!(DataValue::V128([0; 16]).ty(), types::I8X16);
	assert_eq!(
	TryInto::<[u8; 16]>::try_into(DataValue::V128([0; 16])).unwrap(),
	[0; 16]
	);
	assert_eq!(
	TryInto::<i32>::try_into(DataValue::V128([0; 16])).unwrap_err(),
	DataValueCastFailure::TryInto(types::I8X16, types::I32)
	);
	}
	}