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Just like we do with other casts, refine the cast type to be the greatest lower
bound of its previous cast type and its input type. The difference is that the
output type of ref.test remains i32, but it's still useful to retain more
precise type information.
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When printing Binaryen IR, we previously generated names for unnamed heap types
based on their structure. This was useful for seeing the structure of simple
types at a glance without having to separately go look up their definitions, but
it also had two problems:
1. The same name could be generated for multiple types. The generated names did
not take into account rec group structure or finality, so types that differed
only in these properties would have the same name. Also, generated type names
were limited in length, so very large types that shared only some structure
could also end up with the same names. Using the same name for multiple types
produces incorrect and unparsable output.
2. The generated names were not useful beyond the most trivial examples. Even
with length limits, names for nontrivial types were extremely long and visually
noisy, which made reading disassembled real-world code more challenging.
Fix these problems by emitting simple indexed names for unnamed heap types
instead. This regresses readability for very simple examples, but the trade off
is worth it.
This change also reduces the number of type printing systems we have by one.
Previously we had the system in Print.cpp, but we had another, more general and
extensible system in wasm-type-printing.h and wasm-type.cpp as well. Remove the
old type printing system from Print.cpp and replace it with a much smaller use
of the new system. This requires significant refactoring of Print.cpp so that
PrintExpressionContents object now holds a reference to a parent
PrintSExpression object that holds the type name state.
This diff is very large because almost every test output changed slightly. To
minimize the diff and ease review, change the type printer in wasm-type.cpp to
behave the same as the old type printer in Print.cpp except for the differences
in name generation. These changes will be reverted in much smaller PRs in the
future to generally improve how types are printed.
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* Update text output for `ref.cast` and `ref.test`
* Update text output for `array.new_fixed`
* Update tests with new syntax for `ref.cast` and `ref.test`
* Update tests with new `array.new_fixed` syntax
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The WasmGC spec will require that the target cast type of br_on_cast and
br_on_cast_fail be a subtype of the input type, but so far Binaryen has not
enforced this constraint, so it could produce invalid modules when optimizations
refined the input to a br_on_cast* such that it was no longer a supertype of the
cast target type.
Fix this problem by setting the cast target type to be the greatest lower bound
of the original cast target type and the current input type in
`BrOn::finalize()`. This maintains the invariant that the cast target type
should be a subtype of the input type and it also does not change cast behavior;
any value that could make the original cast succeed at runtime necessarily
inhabits both the original cast target type and the input type, so it also must
inhabit their greatest lower bound and will make the updated cast succeed as
well.
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The final versions of the br_on_cast and br_on_cast_fail instructions have two
reference type annotations: one for the input type and one for the cast target
type. In the binary format, this is represented as a flags byte followed by two
encoded heap types. Upgrade all of the tests at once to use the new versions of
the instructions and drop support for the old instructions from the text parser.
Keep support in the binary parser to avoid breaking users, though. Drop some
binary tests of deprecated instruction encodings that would be more effort to
update than they're worth.
Re-land with fixes of #5734
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This reverts commit b7b1d0df29df14634d2c680d1d2c351b624b4fbb.
See comment at the end of #5734: It turns out that dropping the old opcodes causes
problems for current users, so let's revert this for now, and later we can figure out
how best to do the update.
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The final versions of the br_on_cast and br_on_cast_fail instructions have two
reference type annotations: one for the input type and one for the cast target
type. In the binary format, this is represented as a flags byte followed by two
encoded heap types. Since these instructions have been in flux for a while, do
not attempt to maintain backward compatibility with older versions of the
instructions. Instead, upgrade all of the tests at once to use the new versions
of the instructions. Drop some binary tests of deprecated instruction encodings
that would be more effort to update than they're worth.
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We already did this for nullablilty, and so for the same reasons we should do it
for heap types as well. Also, I realized that doing so would solve #5703, which
is the new test added for TypeRefining here.
The fuzz bug solved here is that our analysis of struct gets/sets will skip
copy operations - a read from a field that is written into it. And we skip
fallthrough values while doing so, since it doesn't matter if the read goes
through an if arm or a cast. An if would automatically get a more precise
type during refinalize, so this PR does the same for a cast basically.
Fixes #5703
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`struct` has replaced `data` in the upstream spec, so update Binaryen's types to
match. We had already supported `struct` as an alias for data, but now remove
support for `data` entirely. Also remove instructions like `ref.is_data` that
are deprecated and do not make sense without a `data` type.
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* Replace `RefIs` with `RefIsNull`
The other `ref.is*` instructions are deprecated and expressible in terms of
`ref.test`. Update binary and text parsing to parse those instructions as
`RefTest` expressions. Also update the printing and emitting of `RefTest`
expressions to emit the legacy instructions for now to minimize test changes and
make this a mostly non-functional change. Since `ref.is_null` is the only
`RefIs` instruction left, remove the `RefIsOp` field and rename the expression
class to `RefIsNull`.
The few test changes are due to the fact that `ref.is*` instructions are now
subject to `ref.test` validation, and in particular it is no longer valid to
perform a `ref.is_func` on a value outside of the `func` type hierarchy.
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The `br_on{_non}_{data,i31,func}` operations are deprecated and directly
representable in terms of the new `br_on_cast` and `br_on_cast_fail`
instructions, so remove their dedicated IR opcodes in favor of representing them
as casts. `br_on_null` and `br_on_non_null` cannot be consolidated the same way
because their behavior is not directly representable in terms of `br_on_cast`
and `br_on_cast_fail`; when the cast to null bottom type succeeds, the null
check instructions implicitly drop the null value whereas the cast instructions
would propagate it.
Add special logic to the binary writer and printer to continue emitting the
deprecated instructions for now. This will allow us to update the test suite in
a separate future PR with no additional functional changes.
Some tests are updated because the validator no longer allows passing non-func
data to `br_on_func`. Doing so has not made sense since we separated the three
reference type hierarchies.
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As well as br_on_cast_fail null. Unlike the existing br_on_cast* instructions,
these new instructions treat the cast as succeeding when the input is a null.
Update the internal representation of the cast type in `BrOn` expressions to be
a `Type` rather than a `HeapType` so it will include nullability information.
Also update and improve `RemoveUnusedBrs` to handle the new instructions
correctly and optimize in more cases.
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The standard casting instructions now allow casting to basic heap types, not
just user-defined types, but they also require that the intended type and
argument type have a common supertype. Update the validator to use the standard
rules, update the binary parser and printer to allow basic types, and update the
tests to remove or modify newly invalid test cases.
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