This is very frequently returned by Object.prototype.toString(),
so we benefit from caching it instead of recreating it every time.
Takes Speedometer2.1/EmberJS-Debug-TodoMVC from ~4000ms to ~3700ms
on my M3 MacBook Pro.
If we have two PrimitiveString objects that are both backed by UTF-16
data, we don't have to convert them to UTF-8 for equality checking.
Just compare the underlying UTF-16 data. :^)
FJCVTZS (Floating-point Javascript Convert to Signed fixed-point,
rounding toward Zero) does exactly what we need for ToInt32 in the
JavaScript specification.
This isn't world-changing, but it does give a ~2% boost on compute-
heavy benchmarks like JetStream, so we should obviously use it.
The fast path of to_i32() can be neatly inlined everywhere, and we still
have to_i32_slow_case() for non-trivial conversions.
For to_u32(), it really can just be implemented as a static cast to i32!
The special empty value (that we use for array holes, Optional<Value>
when empty and a few other other placeholder/sentinel tasks) still
exists, but you now create one via JS::js_special_empty_value() and
check for it with Value::is_special_empty_value().
The main idea here is to make it very unlikely to accidentally create an
unexpected special empty value.
PrimitiveString is now internally either UTF-8, UTF-16, or both.
We no longer convert them to/from ByteString anywhere, nor does VM have
a ByteString cache.
Previously, `String.prototype.split()` caused the construction of a
temporary StringObject when a string primitive was passed as an
argument, solely to perform a Symbol.split lookup. This change allows
skipping that allocation by looking directly into the prototype of
primitive values.
As a result, we can avoid ~200000 StringObject allocations in a single
test from the Speedometer 2 benchmark.
Co-Authored-By: Andreas Kling <andreas@ladybird.org>
Resulting in a massive rename across almost everywhere! Alongside the
namespace change, we now have the following names:
* JS::NonnullGCPtr -> GC::Ref
* JS::GCPtr -> GC::Ptr
* JS::HeapFunction -> GC::Function
* JS::CellImpl -> GC::Cell
* JS::Handle -> GC::Root
Yay for more spec compliance! This is pretty easy as everything using
to_size_t() should just be using one of the other abstract operations we
already have implemented.
This allows us to get rid of get_length() in ArrayPrototype, which is
basically a slightly incorrect implementation of length_of_array_like(),
and then finally remove to_size_t()!
Also fixes a couple of "argument is undefined" vs "argument isn't given"
issues along the way.
The pseudo-code from the spec says "Assert: Type(obj) is Object.", so we
can just enforce this at compile time rather than taking it literally
and doing "ASSERT(value.is_object())".
Also fix an issue where the absence of a "length" property on the object
would cause a crash (to_number() on empty value).
This adds a String.prototype.split implementation modelled after
ECMA262 specification.
Additionally, `Value::to_u32` was added as an implementation of
the standard `ToUint32` abstract operation.
There is a tiny kludge for when the separator is an empty string.
Basic tests and visiting google.com prove that this is working.
This was missing a "toInt32()" which returns 0 for NaN and Infinity.
From the spec:
6.1.6.1.2 Number::bitwiseNOT ( x )
The abstract operation Number::bitwiseNOT takes argument x (a Number).
It performs the following steps when called:
Let oldValue be ! ToInt32(x).
Return the result of applying bitwise complement to oldValue.
The mathematical value of the result is exactly representable as
a 32-bit two's complement bit string.
Fixes#4868.
This changes the remaining uses of the following functions across LibJS:
- String::format() => String::formatted()
- dbg() => dbgln()
- printf() => out(), outln()
- fprintf() => warnln()
I also removed the relevant 'LogStream& operator<<' overloads as they're
not needed anymore.
Here's a reasonably faithful implementation of ECMAScript 2021 18.2.5.
Some corner cases are not covered, I've left them as FIXME's in the
included unit test.
Also I had to tweak JS::Value::to_i32() to always convert infinity to
zero, which is in accordance with ToInt32 AFAICT.
We should pay more attention to using the well-defined abstract
operations from the spec rather than making up our own, often slightly
different rules. This is another step in that direction.
This renames Object::to_primitive() to Object::ordinary_to_primitive()
for two reasons:
- No confusion with Value::to_primitive()
- To match the spec's name
Also change existing uses of Object::to_primitive() to
Value::to_primitive() when the spec uses the latter (which will still
call Object::ordinary_to_primitive()). Object::to_string() has been
removed as it's not needed anymore (and nothing the spec uses).
This makes it possible to overwrite an object's toString and valueOf and
have them provide results for anything that uses to_primitive() - e.g.:
const o = { toString: undefined, valueOf: () => 42 };
Number(o) // 42, previously NaN
["foo", o].toString(); // "foo,42", previously "foo,[object Object]"
++o // 43, previously NaN
etc.
Two issues:
- throw_exception() with ErrorType::InstanceOfOperatorBadPrototype would
receive rhs_prototype.to_string_without_side_effects(), which would
ASSERT_NOT_REACHED() as to_string_without_side_effects() must not be
called on an empty value. It should (and now does) receive the RHS
value instead as the message is "'prototype' property of {} is not an
object".
- Value::instance_of() was missing an exception check after calling
has_instance_method, to_boolean() on an empty value result would crash
as well.
Fixes#3930.
Roughly 7% of test-js runtime was spent creating FlyStrings from string
literals. This patch frontloads that work and caches all the commonly
used names in LibJS on a CommonPropertyNames struct that hangs off VM.
More work on decoupling the general runtime from Interpreter. The goal
is becoming clearer. Interpreter should be one possible way to execute
code inside a VM. In the future we might have other ways :^)
This patch moves the exception state, call stack and scope stack from
Interpreter to VM. I'm doing this to help myself discover what the
split between Interpreter and VM should be, by shuffling things around
and seeing what falls where.
With these changes, we no longer have a persistent lexical environment
for the current global object on the Interpreter's call stack. Instead,
we push/pop that environment on Interpreter::run() enter/exit.
Since it should only be used to find the global "this", and not for
variable storage (that goes directly into the global object instead!),
I had to insert some short-circuiting when walking the environment
parent chain during variable lookup.
Note that this is a "stepping stone" commit, not a final design.
The fact that a `MarkedValueList` had to be created was just annoying,
so here's an alternative.
This patchset also removes some (now) unneeded MarkedValueList.h includes.
The motivation for this change is twofold:
- Returning a JS::Value is misleading as one would expect it to carry
some meaningful information, like maybe the error object that's being
created, but in fact it is always empty. Supposedly to serve as a
shortcut for the common case of "throw and return empty value", but
that's just leading us to my second point.
- Inconsistent usage / coding style: as of this commit there are 114
uses of throw_exception() discarding its return value and 55 uses
directly returning the call result (in LibJS, not counting LibWeb);
with the first style often having a more explicit empty value (or
nullptr in some cases) return anyway.
One more line to always make the return value obvious is should be
worth it.
So now it's basically always these steps, which is already being used in
the majority of cases (as outlined above):
- Throw an exception. This mutates interpreter state by updating
m_exception and unwinding, but doesn't return anything.
- Let the caller explicitly return an empty value, nullptr or anything
else itself.
