This matches how dispatch_once works in C, dramatically cutting the cost of a global accessor by avoiding the runtime call in the hot path and giving the global a unique branch for the CPU to predict away. For now, only do this for Darwin; non-ObjC platforms don't necessarily expose their "done" value as ABI like ours do.
While we're here, change "once" to take a thin function pointer. We don't ever emit global initializers with context dependencies, and this simplifies the runtime glue between swift_once and dispatch_once/std::call_once a bit.
Swift SVN r28166
The rule changes are as follows:
* All functions (introduced with the 'func' keyword) have argument
labels for arguments beyond the first, by default. Methods are no
longer special in this regard.
* The presence of a default argument no longer implies an argument
label.
The actual changes to the parser and printer are fairly simple; the
rest of the noise is updating the standard library, overlays, tests,
etc.
With the standard library, this change is intended to be API neutral:
I've added/removed #'s and _'s as appropriate to keep the user
interface the same. If we want to separately consider using argument
labels for more free functions now that the defaults in the language
have shifted, we can tackle that separately.
Fixes rdar://problem/17218256.
Swift SVN r27704
reference to something of class type. This is required to model
RebindSelfInConstructorExpr correctly to DI, since in the class case,
self.init and super.init *take* a value out of class box so that it
can pass the +1 value without performing an extra retain. Nothing
else in the compiler uninitializes a DI-controlled memory object
like this, so nothing else needs this. DI really doesn't like something
going from initialized to uninitialized.
Yes, I feel super-gross about this and am really unhappy about it. I
may end up reverting this if I can find an alternate solution to this
problem.
Swift SVN r27525
This is new attribute we're using to coalesce @thin, @objc_block, and @cc, and to extend to new uses like C function pointer types. Parse the new attribute, but preserve support for the old attributes, and print with the old attributes for now to separate out test changes. Migration fixits and test updates to come. I did take the opportunity here to kill off the '@cc(cdecl)' hack for AST-level function pointer types, which are now only spelt with @convention(c).
Swift SVN r27247
The only caveat is that:
1. We do not properly recognize when we have a let binding and we
perform a guaranteed dynamic call. In such a case, we add an extra
retain, release pair around the call. In order to get that case I will
need to refactor some code in Callee. I want to make this change, but
not at the expense of getting the rest of this work in.
2. Some of the protocol witness thunks generated have unnecessary
retains or releases in a similar manner.
But this is a good first step.
I am going to send a large follow up email with all of the relevant results, so
I can let the bots chew on this a little bit.
rdar://19933044
Swift SVN r27241
As part of this, re-arrange the argument order so that
generic arguments come before the context, which comes
before the error result. Be more consistent about always
adding a context parameter on thick functions, even
when it's unused. Pull out the witness-method Self
argument so that it appears last after the error
argument.
Swift SVN r26667
We no longer need or use it since we can always refer to the same bit on
the applied function when deciding whether to inline during mandatory
inlining.
Resolves rdar://problem/19478366.
Swift SVN r26534
SIL seems to be doing the right thing here already, which is great!
Part of rdar://problem/17732115. We'll be able to really see this working
with the next change: allowing references to testable things when using
"@testable import".
Swift SVN r26473
When we print the name of a protocol conformance, we normally use the generic parameters as written. However, since some requirements may be inferred (particularly by an extension of a generic type), it's better for the SIL printer to use the generic signature, which is fully expanded and will also be correct, e.g., when working with a deserialized conformance.
Swift SVN r26437
Reapply r26362, which was reverted in r26363 because a couple test
updates were not included.
Remove a questionable change from r17803. Based on the
radar (rdar://problem/16809311), it seems like the core issue this was
trying to fix either has to do with serialization or mangling.
I'd argue that if this fix were the right fix for anything, we need to
apply the same fix to any pass that specializes (and we have several of
those now).
This change by itself doesn't seem to have much performance impact, but
it is required for future changes, specifically marking protocol witness
thunks as @transparent, which is required to get the benefits we'd like
from devirtualizing during mandatory inlining.
Swift SVN r26378
The deallocating parameter convention is a new convention put on a
non-trivial parameter if the caller function guarantees to the callee
that the parameter has the deallocating bit set in its object header.
This means that retains and releases do not need to be emitted on these
parameters even though they are non-trivial. This helps to solve a bug
in +0 self and makes it trivial for the optimizer to perform
optimizations based on this property.
It is not emitted yet by SILGen and will only be put on the self
argument of Deallocator functions.
Swift SVN r26179
sil-verifier was using SIL types to check metatypes. But metatypes, especially metatypes of metatypes, use AST types. Therefore checks should be done based on AST types.
rdar://20153162
Swift SVN r26111
For better consistency with other address-only instruction variants, and to open the door to new exciting existential representations (such as a refcounted boxed representation for ErrorType).
Swift SVN r25902
If multiple swift files are compiled together, then guessing as to the
file when we emit IR obviously doesn't work. Find the filename when we
generate a function's coverage map and propagate it through SIL.
Swift SVN r25436
This is required to correctly use the mock SDK when the SDK overlay is
built and tested separately. (Otherwise, the mock SDK might not get
used, because the overlay SDK options would expand from the
%-substitution, appear first on the command line, and shadow the mock
SDK in the search path).
Swift SVN r25185
This will have an effect on inlining into thunks.
Currently this flag is set for witness thunks and thunks from function signature optimization.
No change in code generation, yet.
Swift SVN r24998
@noescape may be interesting to passes in the future, but it currently has no effect except to cause symbol collisions in reabstraction thunks and other places. Since it has no effect, just remove it from SIL for now.
Swift SVN r24925
implemented with Builtin.Word
The definition Swift.Int is becoming heavily platform-dependent, please
avoid using it in SIL and IR tests unless Swift.Int is being tested and
can't be replaced with a fixed-width type (e.g., Int32).
Swift SVN r24720
Most tests were using %swift or similar substitutions, which did not
include the target triple and SDK. The driver was defaulting to the
host OS. Thus, we could not run the tests when the standard library was
not built for OS X.
Swift SVN r24504
Change all the existing addressors to the unsafe variant.
Update the addressor mangling to include the variant.
The addressor and mutable-addressor may be any of the
variants, independent of the choice for the other.
SILGen and code synthesis for the new variants is still
untested.
Swift SVN r24387
rdar://problem/17198298
- Allow 'static' in protocol property and func requirements, but not 'class'.
- Allow 'static' methods in classes - they are 'class final'.
- Only allow 'class' methods in classes (or extensions of classes)
- Remove now unneeded diagnostics related to finding 'static' in previously banned places.
- Update relevant diagnostics to make the new rules clear.
Swift SVN r24260
wrapping up rdar://16323038. Pieces still remaining are a Clang attribute+
importer support for it, plus adoption in the stdlib (tracked by other radars).
Swift SVN r24223
I am starting to reuse manglings for different passes. I want to make sure that
when we reuse functions we actually get a function created by the same pass.
Swift SVN r23924
This is apart of creating the infrastructure for creating special manglings for
all of the passes that we specialize. The main motiviations for this
infrastructure is:
1. Create an easy method with examples on how to create these manglings.
2. Support multiple specializations. This is important once we allow for partial
specialization and can already occur if we perform function signature
optimizations on specialized functions.
The overall scheme is as follows:
_TTS<MANGLINGINFO>__<FUNCNAME>
Thus if we specialize twice, the first specialization will just be treated as
the function name for the second specialization.
<MANGLINGINFO> is defined as:
_<SPECIALIZATIONKINDID>_<SPECIALIZATIONUNIQUEINFO>
Where specialization kind is an enum that specifies the specific sort of
specialization we are performing and specialization unique info is enough
information to ensure that the identity of the function is appropriately
preserved.
Swift SVN r23801
The metatype's instance type is always an AST type. Fixes rdar://problem/19165906. Also fix a bug where we would incorrectly resolve the metatypes of existential metatypes. We resolved Any.Type.Type to the concrete-meta-existential-meta-type (exists T. (T.Type)).Type, instead of the existential-meta-existential-meta-type exists T. (T.Type.Type), and rejected Any.Type.Protocol, which is the correct spelling of the concrete metatype.
Swift SVN r23759
SILMetadata is the base class with a single enum member (MDKind).
SILBranchNode is the derived class with additional members:
unsigned NumOperands
an array of uint32_t
A static member function SILBranchNode::get is implemented to get or create
SILBranchNode. All SILMetadata created are uniqued and saved in SILModule's
member variable:
llvm::FoldingSet<SILMetadata> Metadatas
Usage of SILMetadta by SILInstruction is captured in SILModule's member variable:
llvm::DenseMap<const SILInstruction *, SILMetadata *> MetadataStore
This is similar to LLVM's Metadata. Another option is to add a SILMetadata* to
SILInstruction. The disadvantage is the waste of space when we don't have PGO on.
This commit also enables parsing and printing of SILMetadata.
We add keyword sil_metadata to define SILMetadata:
sil_metadata !0 = {"branch_weights", 3, 5}
For parsing, we add a map in SILModule
llvm::DenseMap<unsigned, SILMetadata *> NumberedMetadata
that maps from ID to SILMetadata* to help matching usage of "!id" in SILFunction
with definition of "!id" in sil_metadata section.
For printing, we assign IDs to SILMetadata at SILModule scope, we then pass in
an optional argument of
llvm::DenseMap<const SILMetadata *, unsigned> *MetadataMap
to SILFunction::print in order to get the ID of SILMetadata used in
SILInstruction.
Post-commit review will be appreciated.
rdar://18269754
Swift SVN r23713
Doing so is safe even though we have mock SDK. The include paths for
modules with the same name in the real and mock SDKs are different, and
the module files will be distinct (because they will have a different
hash).
This reduces test runtime on OS X by 30% and brings it under a minute on
a 16-core machine.
This also uncovered some problems with some tests -- even when run for
iOS configurations, some tests would still run with macosx triple. I
fixed the tests where I noticed this issue.
rdar://problem/19125022
Swift SVN r23683
Verify that witness_method instructions with a lookup type that is an
opened archetype have the optional operand that represents the
open_existential instruction.
I ran into this working supporting substitution of existential types in
mandatory inlining (rdar://problem/17769717).
Swift SVN r23665
