| Commit message (Collapse) | Author | Age | Files | Lines |
|---|
| ... | |
| |
|
|
|
|
|
|
| |
#3591 adds type and field names to the Module object, and used that
for the type but not the fields. This uses it for the fields as well, and removes
the "name" field from the Field objects itself, completing the refactoring.
After this, binary format support can be added as a proper replacement for
#3589
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
This adds a TypeNames entry to modules, which can store names for types. So
far this PR uses that to store type names from text format. Future PRs will add
support for field names and for the binary format.
(Field names are added to wasm.h here to see if we agree on this direction.)
Most of the work here is threading a module through the various functions in
Print.cpp. This keeps the module optional, so that we can still print an
expression independently of a module, which has always been the case, and
which I think we should keep (but, if a module was mandatory perhaps this
would be a little simpler, and could be refactored into a form that depends on
that).
99% of this diff are test updates, since almost all our tests use the text
format, and many of them specify a type name but we used to ignore it.
This is a step towards a proper solution for #3589
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
Traverses the module to find type definitions and uses a TypeBuilder to
construct the corresponding HeapTypes rather than constructing them directly.
This allows types to be used in the definitions of other types before they
themselves are defined, which is an important step toward supporting recursive
types. After this PR, no further text parsing changes will be necessary to
support recursive types.
Beyond allowing types to be used before their definitions, this PR also makes a
couple incidental changes to the parser's behavior. First, compound heaptypes
can now only be declared in `(type ...)` elements and cannot be declared inline
at their site of use. This reduces the flexibility of the parser, but is in line
with what the text format spec will probably look like eventually (see
https://github.com/WebAssembly/function-references/issues/42).
The second change is that `(type ...)` elements are now all parsed before `(func
...)` elements rather than in text order with them, so the type indices will be
different and wasts using numeric type indices will be broken. Note however,
that we were already not completely spec compliant in this regard because we
parsed types defined by `(type...)` and `(func...)` elements before types
defined by the type uses of `call_indirect` instructions.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
I was previously mistaken about `rethrow`'s argument rule and thought
it only counted `catch`'s depth. But it turns out it follows the same
rule `delegate`'s label: the immediate argument follows the same rule as
when computing branch labels, but it only can target `try` labels
(semantically it targets that `try`'s corresponding `catch`); otherwise
it will be a validation failure. Unlike `delegate`, `rethrow`'s label
denotes not where to rethrow, but which exception to rethrow. For
example,
```wasm
try $l0
catch ($l0)
try $l1
catch ($l1)
rethrow $l0 ;; rethrow the exception caught by 'catch ($l0)'
end
end
```
Refer to this comment for the more detailed informal semantics:
https://github.com/WebAssembly/exception-handling/issues/146#issuecomment-777714491
---
This also reverts some of `delegateTarget` -> `exceptionTarget` changes
done in #3562 in the validator. Label validation rules apply differently
for `delegate` and `rethrow` for try-catch. For example, this is valid:
```wasm
try $l0
try
delegate $l0
catch ($l0)
end
```
But this is NOT valid:
```wasm
try $l0
catch ($l0)
try
delegate $l0
end
```
So `try`'s label should be used within try-catch range (not catch-end
range) for `delegate`s.
But for the `rethrow` the rule is different. For example, this is valid:
```wasm
try $l0
catch ($l0)
rethrow $l0
end
```
But this is NOT valid:
```wasm
try $l0
rethrow $l0
catch ($l0)
end
```
So the `try`'s label should be used within catch-end range instead.
|
| |
|
|
|
|
|
|
|
|
|
|
|
| |
So far `Try`'s label is only targetted by `delegate`s, but it turns out
`rethrow` also has to follow the same rule as `delegate` so it needs to
target a `Try` label. So this renames variables like
`delegateTargetNames` to `exceptionTargetNames` and methods like
`replaceDelegateTargets` to `replaceExceptionTargets`.
I considered `tryTarget`, but the branch/block counterpart name we use
is not `blockTarget` but `branchTarget`, so I chose `exceptionTarget`.
The patch that fixes `rethrow`'s target will follow; this is the
preparation for that.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
This adds support for reading/writing of the new `delegate` instruction
in the folded wast format, the stack IR format, the poppy IR format, and
the binary format in Binaryen. We don't have a formal spec written down
yet, but please refer to WebAssembly/exception-handling#137 and
WebAssembly/exception-handling#146 for the informal semantics. In the
current version of spec `delegate` is basically a rethrow, but with
branch-like immediate argument so that it can bypass other
catches/delegates in between.
`delegate` is not represented as a new `Expression`, but it is rather
an option within a `Try` class, like `catch`/`catch_all`.
One special thing about `delegate` is, even though it is written
_within_ a `try` in the folded wat format, like
```wasm
(try
(do
...
)
(delegate $l)
)
```
In the unfolded wat format or in the binary format, `delegate` serves as
a scope end instruction so there is no separate `end`:
```wasm
try
...
delegate $l
```
`delegate` semantically targets an outer `catch` or `delegate`, but we
write `delegate` target as a `try` label because we only give labels to
block-like scoping expressions. So far we have not given `Try` a label
and used inner blocks or a wrapping block in case a branch targets the
`try`. But in case of `delegate`, it can syntactically only target `try`
and if it targets blocks or loops it is a validation failure.
So after discussions in #3497, we give `Try` a label but this label can
only be targeted by `delegate`s. Unfortunately this makes parsing and
writing of `Try` expression somewhat complicated. Also there is one
special case; if the immediate argument of `try` is the same as the
depth of control flow stack, this means the 'delegate' delegates to the
caller. To handle this case this adds a fake label
`DELEGATE_CALLER_TARGET`, and when writing it back to the wast format
writes it as an immediate value, unlike other cases in which we write
labels.
This uses `DELEGATE_FIELD_SCOPE_NAME_DEF/USE` to represent `try`'s label
and `delegate`'s target. There are many cases that `try` and
`delegate`'s labels need to be treated in the same way as block and
branch labels, such as for hashing or comparing. But there are routines
in which we automatically assume all label uses are branches. I thought
about adding a new kind of defines such as
`DELEGATE_FIELD_TRY_NAME_DEF/USE`, but I think it will also involve some
duplication of existing routines or classes. So at the moment this PR
chooses to use the existing `DELEGATE_FIELD_SCOPE_NAME_DEF/USE` for
`try` and `delegate` labels and makes only necessary amount of changes
in branch-utils. We can revisit this decision later if necessary.
Many of changes to the existing test cases are because now all `try`s
are automatically assigned a label. They will be removed in
`RemoveUnusedNames` pass in the same way as block labels if not targeted
by any delegates.
This only supports reading and writing and has not been tested against
any optimization passes yet.
---
Original unfolded wat file to generate test/try-delegate.wasm:
```wasm
(module
(event $e)
(func
try
try
delegate 0
catch $e
end)
(func
try
try
catch $e
i32.const 0
drop
try
delegate 1
end
catch $e
end
)
)
```
|
| |
|
| |
Adds support for modules with multiple tables. Adds a field for the table name to `CallIndirect` and updates the C/JS APIs accordingly.
|
| |
|
|
|
|
|
|
| |
As proposed in https://github.com/WebAssembly/simd/pull/395. Note that the other
instructions in the proposal have not been implemented in LLVM or in V8, so
there is no need to implement them in Binaryen right now either. This PR
introduces a new expression class for the new instructions because they uniquely
take an immediate argument identifying which portion of the input vector to
widen.
|
| |
|
|
|
|
|
|
| |
This expands the existing BrOnCast into BrOn that can also handle the
func/data/i31 variants. This is not as elegant as RefIs / RefAs in that BrOnCast
has an extra rtt field, but I think it is still the best option. We already have optional
fields on Break (the value and condition), so making rtt optional is not odd. And
it allows us to share all the behavior of br_on_* which aside from the cast or the
check itself, is identical - returning the value if the branch is not taken, etc.
|
| |
|
|
|
|
|
| |
As a result, we cannot handle a br_on_cast with an unreachable RTT. The
binary format solves the problem by ignoring unreachable code, and this makes
the text format do the same.
A nice benefit of this is that we can remove the castType extra field.
|
| |
|
|
|
|
|
|
| |
These are similar to is, but instead of returning an i32 answer, they trap on
an invalid value, and return it otherwise.
These could in theory be in a single RefDoThing, with opcodes for both As
and Is, but as the return values are different, that would be a little odd, and
the name would be less clear.
|
| | |
|
| |
|
|
|
|
|
|
| |
This internal refactoring prepares us for ref.is_func/data/i31, by renaming
the node and adding an "op" field. For now that field must always be "Null"
which means it is a ref.is_null.
This adjusts the C API to match the new IR shape. The high-level JS API
is unchanged.
|
| |
|
|
|
|
|
|
|
|
| |
The binary spec
(https://docs.google.com/document/d/1yAWU3dbs8kUa_wcnnirDxUu9nEBsNfq0Xo90OWx6yuo/edit#)
lists `dataref` after `i31ref`, and `dataref` also comes after `i31ref`
in its binary code in the value-increasing order. This reorders these
two in wasm-type.h and other places, although in most of those places
the order is irrelevant.
This also adds C and JS API for `dataref`.
|
| |
|
| |
This removes `exnref` type and `br_on_exn` instruction.
|
| |
|
|
|
| |
This is not 100% of everything, but is enough to get tests passing, which
includes full binary and text format support, getting all switches to compile
without error, and some additions to InstrumentLocals.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
This updates `try`-`catch`-`catch_all` and `rethrow` instructions to
match the new spec. `delegate` is not included. Now `Try` contains not a
single `catchBody` expression but a vector of catch
bodies and events.
This updates most existing routines, optimizations, and tests modulo the
interpreter and the CFG traversal. Because the interpreter has not been
updated yet, the EH spec test is temporarily disabled in check.py. Also,
because the CFG traversal for EH is not yet updated, several EH tests in
`rse_all-features.wast`, which uses CFG traversal, are temporarily
commented out.
Also added a few more tests in existing EH test functions in
test/passes. In the previous spec, `catch` was catching all exceptions
so it was assumed that anything `try` body throws is caught by its
`catch`, but now we can assume the same only if there is a `catch_all`.
Newly added tests test cases when there is a `catch_all` and cases there
are only `catch`es separately.
|
| |
|
|
|
|
|
|
|
|
|
|
| |
This lets us parse (ref null i31) and (ref i31) and not just i31ref.
It also fixes the parsing of i31ref, making it nullable for now, which we
need to do until we support non-nullability.
Fix some internal handling of i31 where we had just i31ref (which meant we
just handled the non-nullable type).
After fixing a bug in printing (where we didn't print out (ref null i31)
properly), I found some a simplification, to remove TypeName.
|
| |
|
|
| |
As proposed in https://github.com/WebAssembly/simd/pull/352, using the opcodes
used in the LLVM and V8 implementations.
|
| |
|
|
|
| |
Also, avoid packing builtin llvm segments names so that
segments such as `__llvm_covfun` (use by llvm-cov) are
preserved in the final output.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
The tricky part here, as pointed out by aheejin in my previous attempt, is that
we need to know the type of the value we send if the branch is taken. We can
normally calculate that from the rtt parameter's type - we are casting to that
RTT, so we know what type that is - but if the rtt is unreachable, that's a problem.
To fix that, store the cast type on BrOnCast instructions.
This includes a test with a br_on_cast that succeeds and sends the cast value,
one that fails and passes through the uncast value, and also of one with an
unreachable RTT.
This includes a fix for Precompute, as noticed by that new test. If a break is
taken, with a ref as a value, we can't precompute it - for the same reasons
we can't precompute a ref in general, that it is a pointer to possibly shared
data.
|
| |
|
|
|
| |
Previously we were using bools for both of these concepts, but using enums makes
the code clearer. In particular, the PR removes many instances of
`/*nullability=*/ true`.
|
| |
|
|
| |
This adds enough to read and write them and test that, but leaves
interpreter support for later.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
| |
array.new/get/set/len - pretty straightforward after structs and all the
infrastructure for them.
Also fixes validation of the unnecessary heapType param in the
text and binary formats in structs as well as arrays.
Fixes printing of packed types in type names, which emitted i32
for them. That broke when we emitted the same name for an array
of i8 and i32 as in the new testing here.
Also fix a bug in Field::operator< which was wrong for packed
types; again, this was easy to notice with the new testing.
|
| | |
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
| |
With struct.new read/write support, we can start to do interesting
things! This adds a test of creating a struct and seeing that references
behave like references, that is, if we write to the value X refers to, and
if Y refers to the same thing, when reading from Y's value we see the
change as well.
The test is run through all of -O1, which uncovered a minor issue in
Precompute: We can't try to precompute a reference type, as we can't
replace a reference with a value.
Note btw that the test shows the optimizer properly running
CoalesceLocals on reference types, merging two locals.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
This adds rtt.canon and rtt.sub together with RTT type support
that is necessary for them. Together this lets us test roundtripping the
instructions and types.
Also fixes a missing traversal over globals in collectHeapTypes,
which the example from the GC docs requires, as the RTTs are in
globals there.
This does not yet add full interpreter support and other things. It
disables initial contents on GC in the fuzzer, to avoid the fuzzer
breaking.
Renames the binary ID for exnref, which is being removed from
the spec, and which overlaps with the binary ID for rtt.
|
| |
|
|
|
|
|
|
|
| |
Interns HeapTypes using the same patterns and utilities already used to intern
Types. This allows HeapTypes to efficiently be compared for equality and hashed,
which may be important for very large struct types in the future. This change
also has the benefit of increasing symmetry between the APIs of Type and
HeapType, which will make the developer experience more consistent. Finally,
this change will make TypeBuilder (#3418) much simpler because it will no longer
have to introduce TypeInfo variants to refer to HeapTypes indirectly.
|
| |
|
|
|
|
|
|
|
|
| |
Mostly straightforward after struct.get.
This renames the value field in struct.get to ref. I think this makes
more sense because struct.set has both a reference to a thing, and a
value to set onto that thing. So calling the former ref seems more
consistent, giving us ref, value. This mirrors load/store for example
where we use ptr, value, and ref is playing the role of ptr here
basically.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
This is the first instruction that uses a GC Struct or Array, so it's where
we start to actually need support in the interpreter for those values, which
is added here.
GC data is modeled as a gcData field on a Literal, which is just a
Literals. That is, both a struct and an array are represented as an
array of values. The type which is alongside would indicate if it's a
struct or an array. Note that the data is referred to using a shared_ptr
so it should "just work", but we'll only be able to really test that once we
add struct.new and so can verify that references are by reference and
not value, etc.
As the first instruction to care about i8/16 types (which are only possible
in a Struct or Array) this adds support for parsing and emitting them.
This PR includes fuzz fixes for some minor things the fuzzer found, including
some bad printing of not having ResultTypeName in necessary places
(found by the text format roundtripping fuzzer).
|
| |
|
|
|
|
| |
This adds support in the text and binary format handling, which allows us
to have a full test of reading and writing the types.
This also adds a "name" field to struct fields, which the text format supports.
|
| |
|
|
|
|
|
|
|
|
| |
Defined types in wasm are really one of the "heap types": a signature type, or
(with GC) a struct or an array type. This refactors the binary and text parsers
to load the defined types into an array of heap types, so that we can start to
parse GC types. This replaces the existing array of signature types (which
could not support a struct or an array).
Locally this PR can parse and print as text simple GC types. For that it was
necessary to also fix Type::getFeatures for GC.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
bugs (#3401)
* Count signatures in tuple locals.
* Count nested signature types (confirming @aheejin was right, that was missing).
* Inlining was using the wrong type.
* OptimizeInstructions should return -1 for unhandled types, not error.
* The fuzzer should check for ref types as well, not just typed function references,
similar to what GC does.
* The fuzzer now creates a function if it has no other option for creating a constant
expression of a function type, then does a ref.func of that.
* Handle unreachability in call_ref binary reading.
* S-expression parsing fixes in more places, and add a tiny fuzzer for it.
* Switch fuzzer test to just have the metrics, and not print all the fuzz output which
changes a lot. Also fix noprint handling which only worked on binaries before.
* Fix Properties::getLiteral() to use the specific function type properly, and make
Literal's function constructor require that, to prevent future bugs.
* Turn all input types into nullable types, for now.
|
| |
|
|
|
|
|
|
| |
Includes minimal support in various passes. Also includes actual optimization
work in Directize, which was easy to add.
Almost has fuzzer support, but the actual makeCallRef is just a stub so far.
Includes s-parser support for parsing typed function references types.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
types (#3388)
This adds the new feature and starts to use the new types where relevant. We
use them even without the feature being enabled, as we don't know the features
during wasm loading - but the hope is that given the type is a subtype, it should
all work out. In practice, if you print out the internal type you may see a typed
function reference-specific type for a ref.func for example, instead of a generic
funcref, but it should not affect anything else.
This PR does not support non-nullable types, that is, everything is nullable
for now. As suggested by @tlively this is simpler for now and leaves nullability
for later work (which will apparently require let or something else, and many
passes may need to be changed).
To allow this PR to work, we need to provide a type on creating a RefFunc. The
wasm-builder.h internal API is updated for this, as are the C and JS APIs,
which are breaking changes. cc @dcodeIO
We must also write and read function types properly. This PR improves
collectSignatures to find all the types, and also to sort them by the
dependencies between them (as we can't emit X in the binary if it depends
on Y, and Y has not been emitted - we need to give Y's index). This sorting
ends up changing a few test outputs.
InstrumentLocals support for printing function types that are not funcref
is disabled for now, until we figure out how to make that work and/or
decide if it's important enough to work on.
The fuzzer has various fixes to emit valid types for things (mostly
whitespace there). Also two drive-by fixes to call makeTrivial where it
should be (when we fail to create a specific node, we can't just try to make
another node, in theory it could infinitely recurse).
Binary writing changes here to replace calls to a standalone function to
write out a type with one that is called on the binary writer object itself,
which maintains a mapping of type indexes (getFunctionSignatureByIndex).
|
| |
|
|
|
| |
We will need this for typed function references support, as then we need
to know full function signatures for all functions when we reach a ref.func,
whose type is then that signature and not the generic funcref.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
| |
- atomic.notify -> memory.atomic.notify
- i32.atomic.wait -> memory.atomic.wait32
- i64.atomic.wait -> memory.atomic.wait64
See WebAssembly/threads#149.
This renames instruction name printing but not the internal data
structure names, such as `AtomicNotify`, which are not always the same
as printed instruction names anyway. This also does not modify C API.
But this fixes interface functions in binaryen.js because it seems
binaryen.js's interface functions all follow the corresponding
instruction names.
|
| |
|
| |
Specifically try to cleanup use of asm_v_wasm.h and asmjs constants.
|
| |
|
|
|
|
|
|
|
| |
This change makes matchers in OptimizeInstructions more compact and readable by
removing the explicit `Abstract::` namespace from individual operations. In some
cases, this makes multi-line matcher expressions fit on a single line.
This change is only possible because it also adds an explicit "RMW" prefix to
each element of the `AtomicRMWOp` enumeration. Without that, their names
conflicted with the names of Abstract ops.
|
| |
|
|
|
|
|
| |
These instructions are proposed in https://github.com/WebAssembly/simd/pull/350.
This PR implements them throughout Binaryen except in the C/JS APIs and in the
fuzzer, where it leaves TODOs instead. Right now these instructions are just
being implemented for prototyping so adding them to the APIs isn't critical and
they aren't generally available to be fuzzed in Wasm engines.
|
| |
|
|
| |
Fixes: #3226
|
| |
|
|
|
|
|
|
|
| |
The s-parser was assigning numbers names per-type where as
the binaryn reader was using the global import count as the
number to append.
This change switches to use per-element count which I think
it preferable as it increases the stability of the auto-generated
names. e.g. memory is now always named `$mimport0`.
|
| |
|
| |
SExpressionWasmBuilder was not applying default memory and table import names on the memory and table, unlike on functions, globals and events, where it applies them. Also aligns default import names to use the same shorter forms as in binary parsing.
|
| |
|
| |
NFC, except adding most of the boilerplate for the remaining GC instructions. Each implementation site is marked with a respective `TODO (gc): theInstruction` in between the typical boilerplate code.
|
| |
|
| |
Adds the `i31.new` and `i31.get_s/u` instructions for creating and working with `i31ref` typed values. Does not include fuzzer integration just yet because the fuzzer expects that trivial values it creates are suitable in global initializers, which is not the case for trivial `i31ref` expressions.
|
| |
|
| |
With `eqref` now integrated, the `ref.eq` instruction can be implemented. The only valid LHS and RHS value is `(ref.null eq)` for now, but implementation and fuzzer integration is otherwise complete.
|
| |
|
| |
Adds the `eqref` and `i31ref` types to their respective code locations. Implements what can be implemented trivially and otherwise traps with a TODO for now. Integration of `eqref` is mostly complete due to it being nullable, just like `anyref`, but `i31ref` needs to remain disabled in the fuzzer because we are lacking the functionality to create trivial `i31ref` values, i.e. `(i31.new (i32.const 0))`, which is left for follow-ups to implement.
|
| |
|
| |
Also includes a lot of new spec tests that eventually need to go into the spec repo
|
| |
|
| |
Aligns the internal representations of `memory.size` and `memory.grow` with other more recent memory instructions by removing the legacy `Host` expression class and adding separate expression classes for `MemorySize` and `MemoryGrow`. Simplifies related APIs, but is also a breaking API change.
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
Adds support for the module and local subsections of the name section plus the respective C and JS APIs to populate and obtain local names.
C API:
* BinaryenFunctionGetNumLocals(func)
* BinaryenFunctionHasLocalName(func, index)
* BinaryenFunctionGetLocalName(func, index)
* BinaryenFunctionSetLocalName(func, index, name)
JS API:
* Function.getNumLocals(func)
* Function.hasLocalName(func, index)
* Function.getLocalName(func, index)
* Function.setLocalName(func, index, name)
|
