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Merge pull request #672 from pventuzelo/refactoring_error_handling_lightbeam

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[lightbeam] Refactoring Error handling + remove panicking calls in lightbeam backend
This commit is contained in:
Jef
2019-12-17 17:43:18 +01:00
committed by GitHub
parent dc3f88b297 4651a5fa08
commit 4141daae68
3 changed files with 1398 additions and 893 deletions
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1830
crates/lightbeam/src/backend.rs
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File diff suppressed because it is too large Load Diff

423
crates/lightbeam/src/function_body.rs
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@@ -130,20 +130,20 @@ where
.map(|t| t.to_microwasm_type())
.collect::<Vec<_>>();
ctx.start_function(params.iter().cloned());
ctx.start_function(params.iter().cloned())?;
let mut blocks = HashMap::<BrTarget<L>, Block>::new();
let num_returns = func_type.returns().len();
let loc = ret_locs(func_type.returns().iter().map(|t| t.to_microwasm_type()))?;
blocks.insert(
BrTarget::Return,
Block {
label: BrTarget::Return,
params: num_returns as u32,
calling_convention: Some(Left(BlockCallingConvention::function_start(ret_locs(
func_type.returns().iter().map(|t| t.to_microwasm_type()),
)))),
calling_convention: Some(Left(BlockCallingConvention::function_start(loc))),
is_next: false,
has_backwards_callers: false,
actual_num_callers: 0,
@@ -153,9 +153,14 @@ where
while let Some(op) = body.next() {
if let Some(Operator::Label(label)) = body.peek() {
let block = blocks
.get_mut(&BrTarget::Label(label.clone()))
.expect("Label defined before being declared");
let block = match blocks.get_mut(&BrTarget::Label(label.clone())) {
None => {
return Err(Error::Microwasm(
"Label defined before being declared".to_string(),
))
}
Some(o) => o,
};
block.is_next = true;
}
@@ -170,15 +175,18 @@ where
Right(cc) => cc.stack.len(),
});
if let Some(num_cc_params) = num_cc_params {
// we can use assert here bc we are in debug mode
assert_ge!(num_cc_params, block.params as usize);
}
} else {
let mut actual_regs = Registers::new();
actual_regs.release_scratch_register()?;
for val in &ctx.block_state.stack {
if let ValueLocation::Reg(gpr) = val {
actual_regs.mark_used(*gpr);
}
}
// we can use assert here bc we are in debug mode
assert_eq!(actual_regs, ctx.block_state.regs);
}
};
@@ -271,12 +279,18 @@ where
// TODO: We can `take` this if it's a `Right`
match block.calling_convention.as_ref() {
Some(Left(cc)) => {
ctx.apply_cc(cc);
ctx.apply_cc(cc)?;
}
Some(Right(virt)) => {
ctx.set_state(virt.clone());
ctx.set_state(virt.clone())?;
}
_ => {
if block.params as usize != ctx.block_state.stack.len() {
return Err(Error::Microwasm(
"Not enough block params on the stack".to_string(),
));
}
}
_ => assert_eq!(block.params as usize, ctx.block_state.stack.len()),
}
ctx.define_label(block.label.label().unwrap().clone());
@@ -329,7 +343,8 @@ where
..
} => {
let cc = if should_serialize_args {
*calling_convention = Some(Left(ctx.serialize_args(block.params)));
let block_conv = ctx.serialize_args(block.params)?;
*calling_convention = Some(Left(block_conv));
None
} else {
calling_convention
@@ -339,7 +354,7 @@ where
};
if let Some(cc) = cc {
ctx.pass_block_args(cc);
ctx.pass_block_args(cc)?;
}
if !*is_next {
@@ -351,10 +366,10 @@ where
calling_convention: Some(Left(cc)),
..
} => {
ctx.pass_block_args(cc);
ctx.pass_block_args(cc)?;
ctx.ret();
}
_ => unimplemented!(),
_ => return Err(Error::Microwasm("Br case unimplemented".to_string())),
}
}
Operator::BrIf { then, else_ } => {
@@ -382,12 +397,13 @@ where
) {
((Some(Left(ref cc)), _), ref mut other @ (None, _))
| (ref mut other @ (None, _), (Some(Left(ref cc)), _)) => {
let mut cc = ctx.serialize_block_args(cc, max_params);
let mut cc = ctx.serialize_block_args(cc, max_params)?;
if let Some(to_drop) = other.1 {
drop_elements(&mut cc.arguments, to_drop.clone());
}
*other.0 = Some(Left(cc));
}
Ok(())
},
(
(ref mut then_cc @ None, then_to_drop),
(ref mut else_cc @ None, else_to_drop),
@@ -399,13 +415,9 @@ where
} else {
None
};
let cc = if then_block_should_serialize_args
|| else_block_should_serialize_args
{
Some(ctx.serialize_args(max_params))
} else {
None
};
|| else_block_should_serialize_args { let a = ctx.serialize_args(max_params)? ; Some(a) } else { None };
**then_cc = if then_block_should_serialize_args {
let mut cc = cc.clone().unwrap();
@@ -433,26 +445,32 @@ where
}
Some(Right(cc))
};
}
_ => unimplemented!(
"Can't pass different params to different sides of `br_if` yet"
),
Ok(())
},
_ => Err(Error::Microwasm(
"unimplemented: Can't pass different params to different sides of `br_if` yet".to_string(),
)),
}
};
match (then_block_parts, else_block_parts) {
((true, _), (false, else_)) => {
ctx.br_if_false(else_, f);
ctx.br_if_false(else_, f)?;
}
((false, then), (true, _)) => {
ctx.br_if_true(then, f);
ctx.br_if_true(then, f)?;
}
((false, then), (false, else_)) => {
ctx.br_if_true(then, f);
ctx.br_if_true(then, f)?;
ctx.br(else_);
}
other => unimplemented!("{:#?}", other),
}
other => {
return Err(Error::Microwasm(format!(
"br_if unimplemented case: {:#?}",
other
)))
}
};
}
Operator::BrTable(BrTable { targets, default }) => {
use itertools::Itertools;
@@ -494,11 +512,12 @@ where
if block.calling_convention.is_some() {
let new_cc = block.calling_convention.clone();
assert!(
cc.is_none() || cc == new_cc,
"Can't pass different params to different elements of `br_table` \
yet"
);
if !(cc.is_none() || cc == new_cc) {
return Err(Error::Microwasm(
"Can't pass different params to different elements of `br_table` yet"
.to_string()));
}
cc = new_cc;
}
@@ -516,18 +535,29 @@ where
);
}
let cc = cc
let temp: Result<
Either<BlockCallingConvention, VirtualCallingConvention>,
Error,
> = cc
.map(|cc| match cc {
Left(cc) => Left(ctx.serialize_block_args(&cc, max_params)),
Right(cc) => Right(cc),
Left(cc) => {
let tmp = ctx.serialize_block_args(&cc, max_params)?;
Ok(Left(tmp))
}
Right(cc) => Ok(Right(cc)),
})
.unwrap_or_else(|| {
if max_num_callers.map(|callers| callers <= 1).unwrap_or(false) {
Right(ctx.virtual_calling_convention())
Ok(Right(ctx.virtual_calling_convention()))
} else {
Left(ctx.serialize_args(max_params))
let tmp = ctx.serialize_args(max_params)?;
Ok(Left(tmp))
}
});
let cc = match temp.unwrap() {
Right(rr) => Right(rr),
Left(l) => Left(l),
};
for target in targets.iter().chain(std::iter::once(&default)).unique() {
let block = blocks.get_mut(&target.target).unwrap();
@@ -540,265 +570,266 @@ where
}
block.calling_convention = Some(cc);
}
});
Ok(())
})?;
}
Operator::Swap(depth) => ctx.swap(depth),
Operator::Pick(depth) => ctx.pick(depth),
Operator::Eq(I32) => ctx.i32_eq(),
Operator::Eqz(Size::_32) => ctx.i32_eqz(),
Operator::Ne(I32) => ctx.i32_neq(),
Operator::Lt(SI32) => ctx.i32_lt_s(),
Operator::Le(SI32) => ctx.i32_le_s(),
Operator::Gt(SI32) => ctx.i32_gt_s(),
Operator::Ge(SI32) => ctx.i32_ge_s(),
Operator::Lt(SU32) => ctx.i32_lt_u(),
Operator::Le(SU32) => ctx.i32_le_u(),
Operator::Gt(SU32) => ctx.i32_gt_u(),
Operator::Ge(SU32) => ctx.i32_ge_u(),
Operator::Add(I32) => ctx.i32_add(),
Operator::Sub(I32) => ctx.i32_sub(),
Operator::And(Size::_32) => ctx.i32_and(),
Operator::Or(Size::_32) => ctx.i32_or(),
Operator::Xor(Size::_32) => ctx.i32_xor(),
Operator::Mul(I32) => ctx.i32_mul(),
Operator::Div(SU32) => ctx.i32_div_u(),
Operator::Div(SI32) => ctx.i32_div_s(),
Operator::Rem(sint::I32) => ctx.i32_rem_s(),
Operator::Rem(sint::U32) => ctx.i32_rem_u(),
Operator::Shl(Size::_32) => ctx.i32_shl(),
Operator::Shr(sint::I32) => ctx.i32_shr_s(),
Operator::Shr(sint::U32) => ctx.i32_shr_u(),
Operator::Rotl(Size::_32) => ctx.i32_rotl(),
Operator::Rotr(Size::_32) => ctx.i32_rotr(),
Operator::Clz(Size::_32) => ctx.i32_clz(),
Operator::Ctz(Size::_32) => ctx.i32_ctz(),
Operator::Popcnt(Size::_32) => ctx.i32_popcnt(),
Operator::Eq(I64) => ctx.i64_eq(),
Operator::Eqz(Size::_64) => ctx.i64_eqz(),
Operator::Ne(I64) => ctx.i64_neq(),
Operator::Lt(SI64) => ctx.i64_lt_s(),
Operator::Le(SI64) => ctx.i64_le_s(),
Operator::Gt(SI64) => ctx.i64_gt_s(),
Operator::Ge(SI64) => ctx.i64_ge_s(),
Operator::Lt(SU64) => ctx.i64_lt_u(),
Operator::Le(SU64) => ctx.i64_le_u(),
Operator::Gt(SU64) => ctx.i64_gt_u(),
Operator::Ge(SU64) => ctx.i64_ge_u(),
Operator::Add(I64) => ctx.i64_add(),
Operator::Sub(I64) => ctx.i64_sub(),
Operator::And(Size::_64) => ctx.i64_and(),
Operator::Or(Size::_64) => ctx.i64_or(),
Operator::Xor(Size::_64) => ctx.i64_xor(),
Operator::Mul(I64) => ctx.i64_mul(),
Operator::Div(SU64) => ctx.i64_div_u(),
Operator::Div(SI64) => ctx.i64_div_s(),
Operator::Rem(sint::I64) => ctx.i64_rem_s(),
Operator::Rem(sint::U64) => ctx.i64_rem_u(),
Operator::Shl(Size::_64) => ctx.i64_shl(),
Operator::Shr(sint::I64) => ctx.i64_shr_s(),
Operator::Shr(sint::U64) => ctx.i64_shr_u(),
Operator::Rotl(Size::_64) => ctx.i64_rotl(),
Operator::Rotr(Size::_64) => ctx.i64_rotr(),
Operator::Clz(Size::_64) => ctx.i64_clz(),
Operator::Ctz(Size::_64) => ctx.i64_ctz(),
Operator::Popcnt(Size::_64) => ctx.i64_popcnt(),
Operator::Add(F32) => ctx.f32_add(),
Operator::Mul(F32) => ctx.f32_mul(),
Operator::Sub(F32) => ctx.f32_sub(),
Operator::Div(SF32) => ctx.f32_div(),
Operator::Min(Size::_32) => ctx.f32_min(),
Operator::Max(Size::_32) => ctx.f32_max(),
Operator::Copysign(Size::_32) => ctx.f32_copysign(),
Operator::Sqrt(Size::_32) => ctx.f32_sqrt(),
Operator::Neg(Size::_32) => ctx.f32_neg(),
Operator::Abs(Size::_32) => ctx.f32_abs(),
Operator::Floor(Size::_32) => ctx.f32_floor(),
Operator::Ceil(Size::_32) => ctx.f32_ceil(),
Operator::Nearest(Size::_32) => ctx.f32_nearest(),
Operator::Trunc(Size::_32) => ctx.f32_trunc(),
Operator::Eq(F32) => ctx.f32_eq(),
Operator::Ne(F32) => ctx.f32_ne(),
Operator::Gt(SF32) => ctx.f32_gt(),
Operator::Ge(SF32) => ctx.f32_ge(),
Operator::Lt(SF32) => ctx.f32_lt(),
Operator::Le(SF32) => ctx.f32_le(),
Operator::Add(F64) => ctx.f64_add(),
Operator::Mul(F64) => ctx.f64_mul(),
Operator::Sub(F64) => ctx.f64_sub(),
Operator::Div(SF64) => ctx.f64_div(),
Operator::Min(Size::_64) => ctx.f64_min(),
Operator::Max(Size::_64) => ctx.f64_max(),
Operator::Copysign(Size::_64) => ctx.f64_copysign(),
Operator::Sqrt(Size::_64) => ctx.f64_sqrt(),
Operator::Neg(Size::_64) => ctx.f64_neg(),
Operator::Abs(Size::_64) => ctx.f64_abs(),
Operator::Floor(Size::_64) => ctx.f64_floor(),
Operator::Ceil(Size::_64) => ctx.f64_ceil(),
Operator::Nearest(Size::_64) => ctx.f64_nearest(),
Operator::Trunc(Size::_64) => ctx.f64_trunc(),
Operator::Eq(F64) => ctx.f64_eq(),
Operator::Ne(F64) => ctx.f64_ne(),
Operator::Gt(SF64) => ctx.f64_gt(),
Operator::Ge(SF64) => ctx.f64_ge(),
Operator::Lt(SF64) => ctx.f64_lt(),
Operator::Le(SF64) => ctx.f64_le(),
Operator::Drop(range) => ctx.drop(range),
Operator::Const(val) => ctx.const_(val),
Operator::I32WrapFromI64 => ctx.i32_wrap_from_i64(),
Operator::I32ReinterpretFromF32 => ctx.i32_reinterpret_from_f32(),
Operator::I64ReinterpretFromF64 => ctx.i64_reinterpret_from_f64(),
Operator::F32ReinterpretFromI32 => ctx.f32_reinterpret_from_i32(),
Operator::F64ReinterpretFromI64 => ctx.f64_reinterpret_from_i64(),
Operator::Eq(I32) => ctx.i32_eq()?,
Operator::Eqz(Size::_32) => ctx.i32_eqz()?,
Operator::Ne(I32) => ctx.i32_neq()?,
Operator::Lt(SI32) => ctx.i32_lt_s()?,
Operator::Le(SI32) => ctx.i32_le_s()?,
Operator::Gt(SI32) => ctx.i32_gt_s()?,
Operator::Ge(SI32) => ctx.i32_ge_s()?,
Operator::Lt(SU32) => ctx.i32_lt_u()?,
Operator::Le(SU32) => ctx.i32_le_u()?,
Operator::Gt(SU32) => ctx.i32_gt_u()?,
Operator::Ge(SU32) => ctx.i32_ge_u()?,
Operator::Add(I32) => ctx.i32_add()?,
Operator::Sub(I32) => ctx.i32_sub()?,
Operator::And(Size::_32) => ctx.i32_and()?,
Operator::Or(Size::_32) => ctx.i32_or()?,
Operator::Xor(Size::_32) => ctx.i32_xor()?,
Operator::Mul(I32) => ctx.i32_mul()?,
Operator::Div(SU32) => ctx.i32_div_u()?,
Operator::Div(SI32) => ctx.i32_div_s()?,
Operator::Rem(sint::I32) => ctx.i32_rem_s()?,
Operator::Rem(sint::U32) => ctx.i32_rem_u()?,
Operator::Shl(Size::_32) => ctx.i32_shl()?,
Operator::Shr(sint::I32) => ctx.i32_shr_s()?,
Operator::Shr(sint::U32) => ctx.i32_shr_u()?,
Operator::Rotl(Size::_32) => ctx.i32_rotl()?,
Operator::Rotr(Size::_32) => ctx.i32_rotr()?,
Operator::Clz(Size::_32) => ctx.i32_clz()?,
Operator::Ctz(Size::_32) => ctx.i32_ctz()?,
Operator::Popcnt(Size::_32) => ctx.i32_popcnt()?,
Operator::Eq(I64) => ctx.i64_eq()?,
Operator::Eqz(Size::_64) => ctx.i64_eqz()?,
Operator::Ne(I64) => ctx.i64_neq()?,
Operator::Lt(SI64) => ctx.i64_lt_s()?,
Operator::Le(SI64) => ctx.i64_le_s()?,
Operator::Gt(SI64) => ctx.i64_gt_s()?,
Operator::Ge(SI64) => ctx.i64_ge_s()?,
Operator::Lt(SU64) => ctx.i64_lt_u()?,
Operator::Le(SU64) => ctx.i64_le_u()?,
Operator::Gt(SU64) => ctx.i64_gt_u()?,
Operator::Ge(SU64) => ctx.i64_ge_u()?,
Operator::Add(I64) => ctx.i64_add()?,
Operator::Sub(I64) => ctx.i64_sub()?,
Operator::And(Size::_64) => ctx.i64_and()?,
Operator::Or(Size::_64) => ctx.i64_or()?,
Operator::Xor(Size::_64) => ctx.i64_xor()?,
Operator::Mul(I64) => ctx.i64_mul()?,
Operator::Div(SU64) => ctx.i64_div_u()?,
Operator::Div(SI64) => ctx.i64_div_s()?,
Operator::Rem(sint::I64) => ctx.i64_rem_s()?,
Operator::Rem(sint::U64) => ctx.i64_rem_u()?,
Operator::Shl(Size::_64) => ctx.i64_shl()?,
Operator::Shr(sint::I64) => ctx.i64_shr_s()?,
Operator::Shr(sint::U64) => ctx.i64_shr_u()?,
Operator::Rotl(Size::_64) => ctx.i64_rotl()?,
Operator::Rotr(Size::_64) => ctx.i64_rotr()?,
Operator::Clz(Size::_64) => ctx.i64_clz()?,
Operator::Ctz(Size::_64) => ctx.i64_ctz()?,
Operator::Popcnt(Size::_64) => ctx.i64_popcnt()?,
Operator::Add(F32) => ctx.f32_add()?,
Operator::Mul(F32) => ctx.f32_mul()?,
Operator::Sub(F32) => ctx.f32_sub()?,
Operator::Div(SF32) => ctx.f32_div()?,
Operator::Min(Size::_32) => ctx.f32_min()?,
Operator::Max(Size::_32) => ctx.f32_max()?,
Operator::Copysign(Size::_32) => ctx.f32_copysign()?,
Operator::Sqrt(Size::_32) => ctx.f32_sqrt()?,
Operator::Neg(Size::_32) => ctx.f32_neg()?,
Operator::Abs(Size::_32) => ctx.f32_abs()?,
Operator::Floor(Size::_32) => ctx.f32_floor()?,
Operator::Ceil(Size::_32) => ctx.f32_ceil()?,
Operator::Nearest(Size::_32) => ctx.f32_nearest()?,
Operator::Trunc(Size::_32) => ctx.f32_trunc()?,
Operator::Eq(F32) => ctx.f32_eq()?,
Operator::Ne(F32) => ctx.f32_ne()?,
Operator::Gt(SF32) => ctx.f32_gt()?,
Operator::Ge(SF32) => ctx.f32_ge()?,
Operator::Lt(SF32) => ctx.f32_lt()?,
Operator::Le(SF32) => ctx.f32_le()?,
Operator::Add(F64) => ctx.f64_add()?,
Operator::Mul(F64) => ctx.f64_mul()?,
Operator::Sub(F64) => ctx.f64_sub()?,
Operator::Div(SF64) => ctx.f64_div()?,
Operator::Min(Size::_64) => ctx.f64_min()?,
Operator::Max(Size::_64) => ctx.f64_max()?,
Operator::Copysign(Size::_64) => ctx.f64_copysign()?,
Operator::Sqrt(Size::_64) => ctx.f64_sqrt()?,
Operator::Neg(Size::_64) => ctx.f64_neg()?,
Operator::Abs(Size::_64) => ctx.f64_abs()?,
Operator::Floor(Size::_64) => ctx.f64_floor()?,
Operator::Ceil(Size::_64) => ctx.f64_ceil()?,
Operator::Nearest(Size::_64) => ctx.f64_nearest()?,
Operator::Trunc(Size::_64) => ctx.f64_trunc()?,
Operator::Eq(F64) => ctx.f64_eq()?,
Operator::Ne(F64) => ctx.f64_ne()?,
Operator::Gt(SF64) => ctx.f64_gt()?,
Operator::Ge(SF64) => ctx.f64_ge()?,
Operator::Lt(SF64) => ctx.f64_lt()?,
Operator::Le(SF64) => ctx.f64_le()?,
Operator::Drop(range) => ctx.drop(range)?,
Operator::Const(val) => ctx.const_(val)?,
Operator::I32WrapFromI64 => ctx.i32_wrap_from_i64()?,
Operator::I32ReinterpretFromF32 => ctx.i32_reinterpret_from_f32()?,
Operator::I64ReinterpretFromF64 => ctx.i64_reinterpret_from_f64()?,
Operator::F32ReinterpretFromI32 => ctx.f32_reinterpret_from_i32()?,
Operator::F64ReinterpretFromI64 => ctx.f64_reinterpret_from_i64()?,
Operator::ITruncFromF {
input_ty: Size::_32,
output_ty: sint::I32,
} => {
ctx.i32_truncate_f32_s();
ctx.i32_truncate_f32_s()?;
}
Operator::ITruncFromF {
input_ty: Size::_32,
output_ty: sint::U32,
} => {
ctx.i32_truncate_f32_u();
ctx.i32_truncate_f32_u()?;
}
Operator::ITruncFromF {
input_ty: Size::_64,
output_ty: sint::I32,
} => {
ctx.i32_truncate_f64_s();
ctx.i32_truncate_f64_s()?;
}
Operator::ITruncFromF {
input_ty: Size::_64,
output_ty: sint::U32,
} => {
ctx.i32_truncate_f64_u();
ctx.i32_truncate_f64_u()?;
}
Operator::ITruncFromF {
input_ty: Size::_32,
output_ty: sint::I64,
} => {
ctx.i64_truncate_f32_s();
ctx.i64_truncate_f32_s()?;
}
Operator::ITruncFromF {
input_ty: Size::_32,
output_ty: sint::U64,
} => {
ctx.i64_truncate_f32_u();
ctx.i64_truncate_f32_u()?;
}
Operator::ITruncFromF {
input_ty: Size::_64,
output_ty: sint::I64,
} => {
ctx.i64_truncate_f64_s();
ctx.i64_truncate_f64_s()?;
}
Operator::ITruncFromF {
input_ty: Size::_64,
output_ty: sint::U64,
} => {
ctx.i64_truncate_f64_u();
ctx.i64_truncate_f64_u()?;
}
Operator::Extend {
sign: Signedness::Unsigned,
} => ctx.i32_extend_u(),
} => ctx.i32_extend_u()?,
Operator::Extend {
sign: Signedness::Signed,
} => ctx.i32_extend_s(),
} => ctx.i32_extend_s()?,
Operator::FConvertFromI {
input_ty: sint::I32,
output_ty: Size::_32,
} => ctx.f32_convert_from_i32_s(),
} => ctx.f32_convert_from_i32_s()?,
Operator::FConvertFromI {
input_ty: sint::I32,
output_ty: Size::_64,
} => ctx.f64_convert_from_i32_s(),
} => ctx.f64_convert_from_i32_s()?,
Operator::FConvertFromI {
input_ty: sint::I64,
output_ty: Size::_32,
} => ctx.f32_convert_from_i64_s(),
} => ctx.f32_convert_from_i64_s()?,
Operator::FConvertFromI {
input_ty: sint::I64,
output_ty: Size::_64,
} => ctx.f64_convert_from_i64_s(),
} => ctx.f64_convert_from_i64_s()?,
Operator::FConvertFromI {
input_ty: sint::U32,
output_ty: Size::_32,
} => ctx.f32_convert_from_i32_u(),
} => ctx.f32_convert_from_i32_u()?,
Operator::FConvertFromI {
input_ty: sint::U32,
output_ty: Size::_64,
} => ctx.f64_convert_from_i32_u(),
} => ctx.f64_convert_from_i32_u()?,
Operator::FConvertFromI {
input_ty: sint::U64,
output_ty: Size::_32,
} => ctx.f32_convert_from_i64_u(),
} => ctx.f32_convert_from_i64_u()?,
Operator::FConvertFromI {
input_ty: sint::U64,
output_ty: Size::_64,
} => ctx.f64_convert_from_i64_u(),
Operator::F64PromoteFromF32 => ctx.f64_from_f32(),
Operator::F32DemoteFromF64 => ctx.f32_from_f64(),
} => ctx.f64_convert_from_i64_u()?,
Operator::F64PromoteFromF32 => ctx.f64_from_f32()?,
Operator::F32DemoteFromF64 => ctx.f32_from_f64()?,
Operator::Load8 {
ty: sint::U32,
memarg,
} => ctx.i32_load8_u(memarg.offset),
} => ctx.i32_load8_u(memarg.offset)?,
Operator::Load16 {
ty: sint::U32,
memarg,
} => ctx.i32_load16_u(memarg.offset),
} => ctx.i32_load16_u(memarg.offset)?,
Operator::Load8 {
ty: sint::I32,
memarg,
} => ctx.i32_load8_s(memarg.offset),
} => ctx.i32_load8_s(memarg.offset)?,
Operator::Load16 {
ty: sint::I32,
memarg,
} => ctx.i32_load16_s(memarg.offset),
} => ctx.i32_load16_s(memarg.offset)?,
Operator::Load8 {
ty: sint::U64,
memarg,
} => ctx.i64_load8_u(memarg.offset),
} => ctx.i64_load8_u(memarg.offset)?,
Operator::Load16 {
ty: sint::U64,
memarg,
} => ctx.i64_load16_u(memarg.offset),
} => ctx.i64_load16_u(memarg.offset)?,
Operator::Load8 {
ty: sint::I64,
memarg,
} => ctx.i64_load8_s(memarg.offset),
} => ctx.i64_load8_s(memarg.offset)?,
Operator::Load16 {
ty: sint::I64,
memarg,
} => ctx.i64_load16_s(memarg.offset),
} => ctx.i64_load16_s(memarg.offset)?,
Operator::Load32 {
sign: Signedness::Unsigned,
memarg,
} => ctx.i64_load32_u(memarg.offset),
} => ctx.i64_load32_u(memarg.offset)?,
Operator::Load32 {
sign: Signedness::Signed,
memarg,
} => ctx.i64_load32_s(memarg.offset),
Operator::Load { ty: I32, memarg } => ctx.i32_load(memarg.offset),
Operator::Load { ty: F32, memarg } => ctx.f32_load(memarg.offset),
Operator::Load { ty: I64, memarg } => ctx.i64_load(memarg.offset),
Operator::Load { ty: F64, memarg } => ctx.f64_load(memarg.offset),
Operator::Store8 { memarg, .. } => ctx.store8(memarg.offset),
Operator::Store16 { memarg, .. } => ctx.store16(memarg.offset),
} => ctx.i64_load32_s(memarg.offset)?,
Operator::Load { ty: I32, memarg } => ctx.i32_load(memarg.offset)?,
Operator::Load { ty: F32, memarg } => ctx.f32_load(memarg.offset)?,
Operator::Load { ty: I64, memarg } => ctx.i64_load(memarg.offset)?,
Operator::Load { ty: F64, memarg } => ctx.f64_load(memarg.offset)?,
Operator::Store8 { memarg, .. } => ctx.store8(memarg.offset)?,
Operator::Store16 { memarg, .. } => ctx.store16(memarg.offset)?,
Operator::Store32 { memarg }
| Operator::Store { ty: I32, memarg }
| Operator::Store { ty: F32, memarg } => ctx.store32(memarg.offset),
| Operator::Store { ty: F32, memarg } => ctx.store32(memarg.offset)?,
Operator::Store { ty: I64, memarg } | Operator::Store { ty: F64, memarg } => {
ctx.store64(memarg.offset)
ctx.store64(memarg.offset)?
}
Operator::GetGlobal(idx) => ctx.get_global(idx),
Operator::SetGlobal(idx) => ctx.set_global(idx),
Operator::GlobalGet(idx) => ctx.get_global(idx)?,
Operator::GlobalSet(idx) => ctx.set_global(idx)?,
Operator::Select => {
ctx.select();
ctx.select()?;
}
Operator::MemorySize { .. } => {
ctx.memory_size();
ctx.memory_size()?;
}
Operator::MemoryGrow { .. } => {
ctx.memory_grow();
ctx.memory_grow()?;
}
Operator::Call { function_index } => {
let callee_ty = module_context.func_type(function_index);
@@ -809,27 +840,29 @@ where
defined_index,
callee_ty.params().iter().map(|t| t.to_microwasm_type()),
callee_ty.returns().iter().map(|t| t.to_microwasm_type()),
);
)?;
} else {
ctx.call_direct(
function_index,
callee_ty.params().iter().map(|t| t.to_microwasm_type()),
callee_ty.returns().iter().map(|t| t.to_microwasm_type()),
);
)?;
}
} else {
ctx.call_direct_imported(
function_index,
callee_ty.params().iter().map(|t| t.to_microwasm_type()),
callee_ty.returns().iter().map(|t| t.to_microwasm_type()),
);
)?;
}
}
Operator::CallIndirect {
type_index,
table_index,
} => {
assert_eq!(table_index, 0);
if table_index != 0 {
return Err(Error::Microwasm("table_index not equal to 0".to_string()));
}
let callee_ty = module_context.signature(type_index);
@@ -839,7 +872,7 @@ where
type_index,
callee_ty.params().iter().map(|t| t.to_microwasm_type()),
callee_ty.returns().iter().map(|t| t.to_microwasm_type()),
);
)?;
}
}
}

38
crates/lightbeam/src/microwasm.rs
View File

@@ -505,15 +505,15 @@ pub enum Operator<Label> {
/// the stack, otherwise discard `A` and push `B` back onto the stack.
Select,
/// Duplicate the element at depth `depth` to the top of the stack. This can be used to implement
/// `GetLocal`.
/// `LocalGet`.
Pick(u32),
/// Swap the top element of the stack with the element at depth `depth`. This can be used to implement
/// `SetLocal`.
/// `LocalSet`.
// TODO: Is it better to have `Swap`, to have `Pull` (which moves the `nth` element instead of swapping)
// or to have both?
Swap(u32),
GetGlobal(u32),
SetGlobal(u32),
GlobalGet(u32),
GlobalSet(u32),
Load {
ty: SignlessType,
memarg: MemoryImmediate,
@@ -815,8 +815,8 @@ where
Type::Float::<Int>(*output_ty),
input_ty,
),
Operator::GetGlobal(index) => write!(f, "global.get {}", index),
Operator::SetGlobal(index) => write!(f, "global.set {}", index),
Operator::GlobalGet(index) => write!(f, "global.get {}", index),
Operator::GlobalSet(index) => write!(f, "global.set {}", index),
Operator::ITruncFromF {
input_ty,
output_ty,
@@ -1894,7 +1894,7 @@ where
Ok(o) => o,
Err(_) => {
return Some(Err(BinaryReaderError {
message: "GetLocal - Local out of range",
message: "LocalGet - Local out of range",
offset: -1isize as usize,
}))
}
@@ -1908,7 +1908,7 @@ where
Ok(o) => o,
Err(_) => {
return Some(Err(BinaryReaderError {
message: "SetLocal - Local out of range",
message: "LocalSet - Local out of range",
offset: -1isize as usize,
}))
}
@@ -1922,7 +1922,7 @@ where
Ok(o) => o,
Err(_) => {
return Some(Err(BinaryReaderError {
message: "SetLocal - Local out of range",
message: "LocalTee - Local out of range",
offset: -1isize as usize,
}))
}
@@ -1934,10 +1934,10 @@ where
]
}
WasmOperator::GlobalGet { global_index } => {
smallvec![Operator::GetGlobal(global_index)]
smallvec![Operator::GlobalGet(global_index)]
}
WasmOperator::GlobalSet { global_index } => {
smallvec![Operator::SetGlobal(global_index)]
smallvec![Operator::GlobalSet(global_index)]
}
WasmOperator::I32Load { memarg } => smallvec![Operator::Load {
@@ -2270,49 +2270,49 @@ where
// Non-trapping Float-to-int Conversions
WasmOperator::I32TruncSatF32S => {
return Some(Err(BinaryReaderError {
message: "I32TruncSSatF32 unimplemented",
message: "I32TruncSatF32S unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I32TruncSatF32U => {
return Some(Err(BinaryReaderError {
message: "I32TruncUSatF32 unimplemented",
message: "I32TruncSatF32U unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I32TruncSatF64S => {
return Some(Err(BinaryReaderError {
message: "I32TruncSSatF64 unimplemented",
message: "I32TruncSatF64S unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I32TruncSatF64U => {
return Some(Err(BinaryReaderError {
message: "I32TruncUSatF64 unimplemented",
message: "I32TruncSatF64U unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I64TruncSatF32S => {
return Some(Err(BinaryReaderError {
message: "I64TruncSSatF32 unimplemented",
message: "I64TruncSatF32S unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I64TruncSatF32U => {
return Some(Err(BinaryReaderError {
message: "I64TruncUSatF32 unimplemented",
message: "I64TruncSatF32U unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I64TruncSatF64S => {
return Some(Err(BinaryReaderError {
message: "I64TruncSSatF64 unimplemented",
message: "I64TruncSatF64S unimplemented",
offset: -1isize as usize,
}))
}
WasmOperator::I64TruncSatF64U => {
return Some(Err(BinaryReaderError {
message: "I64TruncUSatF64 unimplemented",
message: "I64TruncSatF64U unimplemented",
offset: -1isize as usize,
}))
}