use crate::ir::immediates::{Ieee128, Ieee16, Ieee32, Ieee64, Offset32};
use crate::ir::{types, ConstantData, Type};
use core::cmp::Ordering;
use core::fmt::{self, Display, Formatter};
#[allow(missing_docs)]
#[derive(Clone, Debug, PartialOrd)]
pub enum DataValue {
I8(i8),
I16(i16),
I32(i32),
I64(i64),
I128(i128),
F16(Ieee16),
F32(Ieee32),
F64(Ieee64),
F128(Ieee128),
V128([u8; 16]),
V64([u8; 8]),
}
impl PartialEq for DataValue {
fn eq(&self, other: &Self) -> bool {
use DataValue::*;
match (self, other) {
(I8(l), I8(r)) => l == r,
(I8(_), _) => false,
(I16(l), I16(r)) => l == r,
(I16(_), _) => false,
(I32(l), I32(r)) => l == r,
(I32(_), _) => false,
(I64(l), I64(r)) => l == r,
(I64(_), _) => false,
(I128(l), I128(r)) => l == r,
(I128(_), _) => false,
(F16(l), F16(r)) => l.partial_cmp(&r) == Some(Ordering::Equal),
(F16(_), _) => false,
(F32(l), F32(r)) => l.as_f32() == r.as_f32(),
(F32(_), _) => false,
(F64(l), F64(r)) => l.as_f64() == r.as_f64(),
(F64(_), _) => false,
(F128(l), F128(r)) => l.partial_cmp(&r) == Some(Ordering::Equal),
(F128(_), _) => false,
(V128(l), V128(r)) => l == r,
(V128(_), _) => false,
(V64(l), V64(r)) => l == r,
(V64(_), _) => false,
}
}
}
impl DataValue {
pub fn from_integer(imm: i128, ty: Type) -> Result<DataValue, DataValueCastFailure> {
match ty {
types::I8 => Ok(DataValue::I8(imm as i8)),
types::I16 => Ok(DataValue::I16(imm as i16)),
types::I32 => Ok(DataValue::I32(imm as i32)),
types::I64 => Ok(DataValue::I64(imm as i64)),
types::I128 => Ok(DataValue::I128(imm)),
_ => Err(DataValueCastFailure::FromInteger(imm, ty)),
}
}
pub fn ty(&self) -> Type {
match self {
DataValue::I8(_) => types::I8,
DataValue::I16(_) => types::I16,
DataValue::I32(_) => types::I32,
DataValue::I64(_) => types::I64,
DataValue::I128(_) => types::I128,
DataValue::F16(_) => types::F16,
DataValue::F32(_) => types::F32,
DataValue::F64(_) => types::F64,
DataValue::F128(_) => types::F128,
DataValue::V128(_) => types::I8X16, DataValue::V64(_) => types::I8X8, }
}
pub fn is_vector(&self) -> bool {
match self {
DataValue::V128(_) | DataValue::V64(_) => true,
_ => false,
}
}
fn swap_bytes(self) -> Self {
match self {
DataValue::I8(i) => DataValue::I8(i.swap_bytes()),
DataValue::I16(i) => DataValue::I16(i.swap_bytes()),
DataValue::I32(i) => DataValue::I32(i.swap_bytes()),
DataValue::I64(i) => DataValue::I64(i.swap_bytes()),
DataValue::I128(i) => DataValue::I128(i.swap_bytes()),
DataValue::F16(f) => DataValue::F16(Ieee16::with_bits(f.bits().swap_bytes())),
DataValue::F32(f) => DataValue::F32(Ieee32::with_bits(f.bits().swap_bytes())),
DataValue::F64(f) => DataValue::F64(Ieee64::with_bits(f.bits().swap_bytes())),
DataValue::F128(f) => DataValue::F128(Ieee128::with_bits(f.bits().swap_bytes())),
DataValue::V128(mut v) => {
v.reverse();
DataValue::V128(v)
}
DataValue::V64(mut v) => {
v.reverse();
DataValue::V64(v)
}
}
}
pub fn to_be(self) -> Self {
if cfg!(target_endian = "big") {
self
} else {
self.swap_bytes()
}
}
pub fn to_le(self) -> Self {
if cfg!(target_endian = "little") {
self
} else {
self.swap_bytes()
}
}
pub fn write_to_slice_ne(&self, dst: &mut [u8]) {
match self {
DataValue::I8(i) => dst[..1].copy_from_slice(&i.to_ne_bytes()[..]),
DataValue::I16(i) => dst[..2].copy_from_slice(&i.to_ne_bytes()[..]),
DataValue::I32(i) => dst[..4].copy_from_slice(&i.to_ne_bytes()[..]),
DataValue::I64(i) => dst[..8].copy_from_slice(&i.to_ne_bytes()[..]),
DataValue::I128(i) => dst[..16].copy_from_slice(&i.to_ne_bytes()[..]),
DataValue::F16(f) => dst[..2].copy_from_slice(&f.bits().to_ne_bytes()[..]),
DataValue::F32(f) => dst[..4].copy_from_slice(&f.bits().to_ne_bytes()[..]),
DataValue::F64(f) => dst[..8].copy_from_slice(&f.bits().to_ne_bytes()[..]),
DataValue::F128(f) => dst[..16].copy_from_slice(&f.bits().to_ne_bytes()[..]),
DataValue::V128(v) => dst[..16].copy_from_slice(&v[..]),
DataValue::V64(v) => dst[..8].copy_from_slice(&v[..]),
};
}
pub fn write_to_slice_be(&self, dst: &mut [u8]) {
self.clone().to_be().write_to_slice_ne(dst);
}
pub fn write_to_slice_le(&self, dst: &mut [u8]) {
self.clone().to_le().write_to_slice_ne(dst);
}
pub fn read_from_slice_ne(src: &[u8], ty: Type) -> Self {
match ty {
types::I8 => DataValue::I8(i8::from_ne_bytes(src[..1].try_into().unwrap())),
types::I16 => DataValue::I16(i16::from_ne_bytes(src[..2].try_into().unwrap())),
types::I32 => DataValue::I32(i32::from_ne_bytes(src[..4].try_into().unwrap())),
types::I64 => DataValue::I64(i64::from_ne_bytes(src[..8].try_into().unwrap())),
types::I128 => DataValue::I128(i128::from_ne_bytes(src[..16].try_into().unwrap())),
types::F16 => DataValue::F16(Ieee16::with_bits(u16::from_ne_bytes(
src[..2].try_into().unwrap(),
))),
types::F32 => DataValue::F32(Ieee32::with_bits(u32::from_ne_bytes(
src[..4].try_into().unwrap(),
))),
types::F64 => DataValue::F64(Ieee64::with_bits(u64::from_ne_bytes(
src[..8].try_into().unwrap(),
))),
types::F128 => DataValue::F128(Ieee128::with_bits(u128::from_ne_bytes(
src[..16].try_into().unwrap(),
))),
_ if ty.is_vector() => {
if ty.bytes() == 16 {
DataValue::V128(src[..16].try_into().unwrap())
} else if ty.bytes() == 8 {
DataValue::V64(src[..8].try_into().unwrap())
} else {
unimplemented!()
}
}
_ => unimplemented!(),
}
}
pub fn read_from_slice_be(src: &[u8], ty: Type) -> Self {
DataValue::read_from_slice_ne(src, ty).to_be()
}
pub fn read_from_slice_le(src: &[u8], ty: Type) -> Self {
DataValue::read_from_slice_ne(src, ty).to_le()
}
pub unsafe fn write_value_to(&self, p: *mut u128) {
let size = self.ty().bytes() as usize;
self.write_to_slice_ne(std::slice::from_raw_parts_mut(p as *mut u8, size));
}
pub unsafe fn read_value_from(p: *const u128, ty: Type) -> Self {
DataValue::read_from_slice_ne(
std::slice::from_raw_parts(p as *const u8, ty.bytes() as usize),
ty,
)
}
pub fn bitwise_eq(&self, other: &DataValue) -> bool {
match (self, other) {
(DataValue::F16(a), DataValue::F16(b)) => a.bits() == b.bits(),
(DataValue::F32(a), DataValue::F32(b)) => a.bits() == b.bits(),
(DataValue::F64(a), DataValue::F64(b)) => a.bits() == b.bits(),
(DataValue::F128(a), DataValue::F128(b)) => a.bits() == b.bits(),
(a, b) => a == b,
}
}
}
#[derive(Debug, PartialEq)]
#[allow(missing_docs)]
pub enum DataValueCastFailure {
TryInto(Type, Type),
FromInteger(i128, Type),
}
impl std::error::Error for DataValueCastFailure {}
impl Display for DataValueCastFailure {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
DataValueCastFailure::TryInto(from, to) => {
write!(
f,
"unable to cast data value of type {} to type {}",
from, to
)
}
DataValueCastFailure::FromInteger(val, to) => {
write!(
f,
"unable to cast i64({}) to a data value of type {}",
val, to
)
}
}
}
}
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!(i8, I8, I8);
build_conversion_impl!(i16, I16, I16);
build_conversion_impl!(i32, I32, I32);
build_conversion_impl!(i64, I64, I64);
build_conversion_impl!(i128, I128, I128);
build_conversion_impl!(Ieee16, F16, F16);
build_conversion_impl!(Ieee32, F32, F32);
build_conversion_impl!(Ieee64, F64, F64);
build_conversion_impl!(Ieee128, F128, F128);
build_conversion_impl!([u8; 16], V128, I8X16);
build_conversion_impl!([u8; 8], V64, I8X8);
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::I8(dv) => write!(f, "{}", dv),
DataValue::I16(dv) => write!(f, "{}", dv),
DataValue::I32(dv) => write!(f, "{}", dv),
DataValue::I64(dv) => write!(f, "{}", dv),
DataValue::I128(dv) => write!(f, "{}", dv),
DataValue::F16(dv) => write!(f, "{}", dv),
DataValue::F32(dv) => write!(f, "{}", dv),
DataValue::F64(dv) => write!(f, "{}", dv),
DataValue::F128(dv) => write!(f, "{}", dv),
DataValue::V128(dv) => write!(f, "{}", ConstantData::from(&dv[..])),
DataValue::V64(dv) => write!(f, "{}", ConstantData::from(&dv[..])),
}
}
}
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, "]")
}
}
}
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::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)
);
}
}