| Commit message (Collapse) | Author | Age | Files | Lines |
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Fixes: #3226
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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`.
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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.
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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.
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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.
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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.
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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.
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Also includes a lot of new spec tests that eventually need to go into the spec repo
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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.
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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)
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Previously Pops were printed as ({type}.pop), and if the popped type was a
tuple, something like ((i32, i64).pop) would get printed. However, the parser
didn't support pops of anything besides single basic types.
This PR changes the text format to be (pop <type>*) and adds support for parsing
pops of tuples of basic types. The text format change is designed to make
parsing simpler. This change is necessary for writing Poppy IR tests (see #3059)
that contain break or return instructions that consume multiple values, since in
Poppy IR that requires tuple-typed pops.
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Adds `anyref` type, which is enabled by a new feature `--enable-anyref`. This type is primarily used for testing that passes correctly handle subtype relationships so that the codebase will continue to be prepared for future subtyping. Since `--enable-anyref` is meaningless without also using `--enable-reference-types`, this PR also makes it a validation error to pass only the former (and similarly makes it a validation error to enable exception handling without enabling reference types).
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Adds an IR profile to each function so the validator can determine
which validation rules to apply and adds a flag to have the wast
parser set the profile to Poppy for testing purposes.
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Align with the current state of the reference types proposal:
* Remove `nullref`
* Remove `externref` and `funcref` subtyping
* A `Literal` of a nullable reference type can now represent `null` (previously was type `nullref`)
* Update the tests and temporarily comment out those tests relying on subtyping
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Since they make the code clearer and more self-documenting.
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This leads to simpler code and is a prerequisite for #3012, which makes it so that not all `Type`s are backed by vectors that `expand` could return.
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Specified in https://github.com/WebAssembly/simd/pull/237. Since these
are just prototypes necessary for benchmarking, this PR does not add
support for these instructions to the fuzzer or the C or JS APIs. This
PR also renumbers the QFMA instructions that previously used the
opcodes for these new instructions. The renumbering matches the
renumbering in V8 and LLVM.
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anyref future semantics were changed to only represent opaque host values, and thus renamed to externref.
[Chromium](https://bugs.chromium.org/p/v8/issues/detail?id=7748#c360) was just updated to today (not yet released). I couldn't find a Mozilla bugzilla ticket mentioning externref so I don't immediately know if they've updated yet.
https://github.com/WebAssembly/reference-types/pull/87
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Push and Pop have been superseded by tuples for their original
intended purpose of supporting multivalue. Pop is still used to
represent block arguments for exception handling, but there are no
plans to use Push for anything now or in the future.
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Previously we were able to omit the new syntax `do` when `try` body is
empty. This makes `do` clause mandatory, so when a `try` body is empty,
the folded text format will be
```
(try
(do)
(catch
...
)
```
Suggested in
https://github.com/WebAssembly/exception-handling/issues/52#issuecomment-626696720.
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In WebAssembly/exception-handling#52, We decided to put `try` bodies in
a `do` clause to be more consistent with `catch`.
- Before
```wast
(try
...
(catch
...
)
)
```
- After
```wast
(try
(do
...
)
(catch
...
)
)
```
Another upside of this change is when there are multiple instructions
within a `try` body, we no longer need to wrap them in a `block`.
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Since it wasn't easy to support tuples in Asyncify's call support
using temporary functions, we decided to allow tuple-typed globals
after all. This PR adds support for parsing, printing, lowering, and
interpreting tuple globals and also adds validation ensuring that
imported and exported globals do not have tuple types.
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Implements parsing and emitting of tuple creation and extraction and tuple-typed control flow for both the text and binary formats.
TODO:
- Extend Precompute/interpreter to handle tuple values
- C and JS API support/testing
- Figure out how to lower in stack IR
- Fuzzing
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This adds line and column info to wast parser exception messages to be
more readable when they are encoutered. In other cases this makes
existing line and column number more fine grained, or adds some helpful
strings (if line and column info is not available).
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- Allow `atomic.notify` and `atomic.wait` instructions to parse memory
arguments (`align` and `offset`) and print the offset in these
instruction when writing binary, rather than assuming it to be 0
- Change arguments of `parseMemAttributes` to be references
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This adds support for the reference type proposal. This includes support
for all reference types (`anyref`, `funcref`(=`anyfunc`), and `nullref`)
and four new instructions: `ref.null`, `ref.is_null`, `ref.func`, and
new typed `select`. This also adds subtype relationship support between
reference types.
This does not include table instructions yet. This also does not include
wasm2js support.
Fixes #2444 and fixes #2447.
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Several type-related functions currently exist outside of `Type`
class and thus in the `wasm`, effectively global, namespace. This moves
these functions into `Type` class, making them either member functions
or static functions.
Also this renames `getSize` to `getByteSize` to make it not to be
confused with `size`, which returns the number of types in multiple
types. This also reorders the order of functions in `wasm-type.cpp` to
match that of `wasm-type.h`.
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According to the current spec, `local.tee`'s return type should be the
same as its local's type. (Discussions on whether we should change this
rule is going on in WebAssembly/reference-types#55, but here I will
assume this spec does not change. If this changes, we should change many
parts of Binaryen transformation anyway...)
But currently in Binaryen `local.tee`'s type is computed from its
value's type. This didn't make any difference in the MVP, but after we
have subtype relationship in #2451, this can become a problem. For
example:
```
(func $test (result funcref) (local $0 anyref)
(local.tee $0
(ref.func $test)
)
)
```
This shouldn't validate in the spec, but this will pass Binaryen
validation with the current `local.tee` implementation.
This makes `local.tee`'s type computed from the local's type, and makes
`LocalSet::makeTee` get a type parameter, to which we should pass the
its corresponding local's type. We don't embed the local type in the
class `LocalSet` because it may increase memory size.
This also fixes the type of `local.get` to be the local type where
`local.get` and `local.set` pair is created from `local.tee`.
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Function signatures were previously redundantly stored on Function
objects as well as on FunctionType objects. These two signature
representations had to always be kept in sync, which was error-prone
and needlessly complex. This PR takes advantage of the new ability of
Type to represent multiple value types by consolidating function
signatures as a pair of Types (params and results) stored on the
Function object.
Since there are no longer module-global named function types,
significant changes had to be made to the printing and emitting of
function types, as well as their parsing and manipulation in various
passes.
The C and JS APIs and their tests also had to be updated to remove
named function types.
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That was needed for super-old wasm type system, where we allowed
(block $x
(br_if $x
(unreachable)
(nop)
)
)
That is, we differentiated "taken" branches from "named" ones (just
referred to by name, but not actually taken as it's in unreachable code).
We don't need to differentiate those any more. Remove the ReFinalize
code that considered it, and also remove the named/taken distinction in
other places.
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This means that debugging/tracing can now be enabled and controlled
centrally without managing and passing state around the codebase.
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This is the start of a larger refactoring to remove FunctionType entirely and
store types and signatures directly on the entities that use them. This PR
updates BrOnExn and Events to remove their use of FunctionType and makes the
BinaryWriter traverse the module and collect types rather than using the global
FunctionType list. While we are collecting types, we also sort them by frequency
as an optimization. Remaining uses of FunctionType in Function, CallIndirect,
and parsing will be removed in a future PR.
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- When a catch body is a block, call its `finalize` function with the
correct type
- Don't create a block when there's one instruction in a catch body
- Remove `makeCatch` from gen-s-parser.py; it's not necessary
- Fix a test case that has a `catch` without `try`
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Previously we didn't print an additional block when there are multiple
instructions within a `try` body, so those wast files cannot be parsed
correctly, because the wast parser assumes there are two bodies within a
`try` scope: a try body and a catch body.
We don't need to print an additional block for a `catch` body because
`(catch ...)` itself serves as a scope.
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Adds support for the new load and extend instructions. Also updates
from C++11 to C++17 in order to use generic lambdas in the interpreter
implementation.
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Introduces a new instruction class, `SIMDLoad`. Implements encoding,
decoding, parsing, printing, and interpretation of the load and splat
instructions, including in the C and JS APIs. `v128.load` remains in
the `Load` instruction class for now because the interpreter code
expects a `Load` to be able to load any memory value type.
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Renames the SIMDBitselect class to SIMDTernary and adds the new
{f32x4,f64x2}.qfm{a,s} ternary instructions. Because the SIMDBitselect
class is no more, this is a backwards-incompatible change to the C
interface. The new instructions are not yet used in the fuzzer because
they are not yet implemented in V8.
The corresponding LLVM commit is https://reviews.llvm.org/rL370556.
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This adds `atomic.fence` instruction:
https://github.com/WebAssembly/threads/blob/master/proposals/threads/Overview.md#fence-operator
This also fix bugs in `atomic.wait` and `atomic.notify` instructions in
binaryen.js and adds tests for them.
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Another round of trying to push upstream things from my fork.
This PR only adds support for anyref itself as an opaque type. It does NOT implement the full [reference types proposal](https://github.com/WebAssembly/reference-types/blob/master/proposals/reference-types/Overview.md)--so no table.get/set/grow/etc or ref.null, ref.func, etc.
Figured it was easier to review and merge as we go, especially if I did something fundamentally wrong.
***
I did put it under the `--enable-reference-types` flag as I imagine that even though this PR doesn't complete the full feature set, it probably is the right home. Lmk if not.
I'll also be adding a few github comments to places I want to point out/question.
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This adds basic support for exception handling instructions, according
to the spec:
https://github.com/WebAssembly/exception-handling/blob/master/proposals/Exceptions.md
This PR includes support for:
- Binary reading/writing
- Wast reading/writing
- Stack IR
- Validation
- binaryen.js + C API
- Few IR routines: branch-utils, type-updating, etc
- Few passes: just enough to make `wasm-opt -O` pass
- Tests
This PR does not include support for many optimization passes, fuzzer,
or interpreter. They will be follow-up PRs.
Try-catch construct is modeled in Binaryen IR in a similar manner to
that of if-else: each of try body and catch body will contain a block,
which can be omitted if there is only a single instruction. This block
will not be emitted in wast or binary, as in if-else. As in if-else,
`class Try` contains two expressions each for try body and catch body,
and `catch` is not modeled as an instruction. `exnref` value pushed by
`catch` is get by `pop` instruction.
`br_on_exn` is special: it returns different types of values when taken
and not taken. We make `exnref`, the type `br_on_exn` pushes if not
taken, as `br_on_exn`'s type.
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In WebAssembly/exception-handling#79 we agreed to rename `except_ref`
type to `exnref`.
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Including parsing, printing, assembling, disassembling.
TODO:
- interpreting
- effects
- finalization and typing
- fuzzing
- JS/C API
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This is the first stage of adding support for stacky/multivaluey things. It adds new push/pop instructions, and so far just shows that they can be read and written, and that the optimizer doesn't do anything immediately wrong on them.
No fuzzer support, since there isn't a "correct" way to use these yet. The current test shows some "incorrect" usages of them, which is nice to see that we can parse/emit them, but we should replace them with proper usages of push/pop once we actually have those (see comments in the tests).
This should be enough to unblock exceptions (which needs a pop in try-catches). It is also a step towards multivalue (I added some docs about that), but most of multivalue is left to be done.
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This adds support for the event and the event section, as specified in
https://github.com/WebAssembly/exception-handling/blob/master/proposals/Exceptions.md#changes-to-the-binary-model.
Wasm events are features that suspend the current execution and transfer
the control flow to a corresponding handler. Currently the only
supported event kind is exceptions.
For events, this includes support for
- Binary file reading/writing
- Wast file reading/writing
- Binaryen.js API
- Fuzzer
- Validation
- Metadce
- Passes: metrics, minify-imports-and-exports,
remove-unused-module-elements
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Now `parseTypeUse` always returns `FunctionType*` and params/return pair
and makes sure the two are consistent, so the caller does not have to
populate params/results when only `(type)` is specified.
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- Refactored & fixed typeuse parsing rules so now the rules more closely
follow the spec. There have been multiple parsing rules that were
different in subtle ways, which are supposed to be the same according
to the spec.
- Duplicate types, i.e., types with the same signature, in the type
section are allowed as long as they don't have the same given name.
If a name is given, we use it; if type name is not given, we
generate one in the form of `$FUNCSIG$` + signature string. If the
same generated name already exists in the type section, we append
`_` at the end. This causes most of the changes in the autogenerated
type names in test outputs.
- A typeuse has to be in the order of (type) -> (param) -> (result),
if more than one of them exist. In case of function definitions,
(local) has to be after all of these. Fixed some test cases that
violate this rule.
- When only (param)/(result) are given, its type will be the type with
the smallest existing type index whose parameter and result are the
same. If there's no such type, a new type will be created and
inserted.
- Added a test case `duplicate_types.wast` to test type namings for
duplicate types.
- Refactored `parseFunction` function.
- Add more overrides to helper functions: `getSig` and
`ensureFunctionType`.
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Checking if a first string matches a certain string within a list
element appears many times within the parser, so extracted it as a
helper function.
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- Reflected new renamed instruction names in code and tests:
- `get_local` -> `local.get`
- `set_local` -> `local.set`
- `tee_local` -> `local.tee`
- `get_global` -> `global.get`
- `set_global` -> `global.set`
- `current_memory` -> `memory.size`
- `grow_memory` -> `memory.grow`
- Removed APIs related to old instruction names in Binaryen.js and added
APIs with new names if they are missing.
- Renamed `typedef SortedVector LocalSet` to `SetsOfLocals` to prevent
name clashes.
- Resolved several TODO renaming items in wasm-binary.h:
- `TableSwitch` -> `BrTable`
- `I32ConvertI64` -> `I32WrapI64`
- `I64STruncI32` -> `I64SExtendI32`
- `I64UTruncI32` -> `I64UExtendI32`
- `F32ConvertF64` -> `F32DemoteI64`
- `F64ConvertF32` -> `F64PromoteF32`
- Renamed `BinaryenGetFeatures` and `BinaryenSetFeatures` to
`BinaryenModuleGetFeatures` and `BinaryenModuleSetFeatures` for
consistency.
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These formats don't seem to be used now.
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