* Use in_guaranteed for let captures
With this all let values will be captured with in_guaranteed convention
by the closure. Following are the main changes :
SILGen changes:
- A new CaptureKind::Immutable is introduced, to capture let values as in_guaranteed.
- SILGen of in_guaranteed capture had to be fixed.
in_guaranteed captures as per convention are consumed by the closure. And so SILGen should not generate a destroy_addr for an in_guaranteed capture.
But LetValueInitialization can push Dealloc and Release states of the captured arg in the Cleanup stack, and there is no way to access the CleanupHandle and disable the emission of destroy_addr while emitting the captures in SILGenFunction::emitCaptures.
So we now create, temporary allocation of the in_guaranteed capture iduring SILGenFunction::emitCaptures without emitting destroy_addr for it.
SILOptimizer changes:
- Handle in_guaranteed in CopyForwarding.
- Adjust dealloc_stack of in_guaranteed capture to occur after destroy_addr for on_stack closures in ClosureLifetimeFixup.
IRGen changes :
- Since HeapLayout can be non-fixed now, make sure emitSize is used conditionally
- Don't consider ClassPointerSource kind parameter type for fulfillments while generating code for partial apply forwarder.
The TypeMetadata of ClassPointSource kind sources are not populated in HeapLayout's NecessaryBindings. If we have a generic parameter on the HeapLayout which can be fulfilled by a ClassPointerSource, its TypeMetaData will not be found while constructing the dtor function of the HeapLayout.
So it is important to skip considering sources of ClassPointerSource kind, so that TypeMetadata of a dependent generic parameters gets populated in HeapLayout's NecessaryBindings.
At Odebug we print the full path to the file and in optimized mode no
file name will be included.
This mirrors what we do in Swift's asserts.
rdar://47880964
I was going to put this off for awhile, but it turns out that a lot of
my testcases are enums with multi-payload cases, which we currently
compile as tuples, so they were all still hanging until this patch.
clang is miscompiling some swiftcall functions on armv7s.
Stop using swiftcall in some places until it is fixed.
Reverts c5bf2ec (#13299).
rdar://35973477
On architectures where the calling convention uses the same argument register as
return register this allows the argument register to be live through the calls.
We use LLVM's 'returned' attribute on the parameter to facilitate this.
We used to perform this optimization via an optimization pass. This was ripped
out some time ago around commit 955e4ed652.
By using LLVM's 'returned' attribute on swift_*retain, we get the same
optimization from the LLVM backend.
Instead of appending a character for each substitution, we now prefix the substitution with the repeat count, e.g.
AbbbbB -> A5B
The same is done for known-type substitutions, e.g.
SiSiSi -> S3i
This significantly shrinks mangled names which contain large lists of the same type, like
func foo(_ x: (Int, Int, Int, Int, Int, Int, Int, Int, Int, Int, Int, Int))
rdar://problem/30707433
Use the generic type lowering algorithm described in
"docs/CallingConvention.rst#physical-lowering" to map from IRGen's explosion
type to the type expected by the ABI.
Change IRGen to use the swift calling convention (swiftcc) for native swift
functions.
Use the 'swiftself' attribute on self parameters and for closures contexts.
Use the 'swifterror' parameter for swift error parameters.
Change functions in the runtime that are called as native swift functions to use
the swift calling convention.
rdar://19978563
Swift uses rt_swift_* functions to call the Swift runtime without using dyld's stubs. These functions are renamed to swift_rt_* to reduce namespace pollution.
rdar://28706212
There was some duplication here, and also a potential
memory management issue; it appears that we were
converting a temporary std::string to a StringRef
when setting the section name of a global.
This reverts commit 062d14b422.
Revert "Fix a swift argument initialization bug - swift argument should be initialized"
This reverts commit 273b149583.
This breaks DebugAssert as well as REPL builds. Revert to appease the bots while i
look further.
after argc and argv are initialized. rdar://24250684
I reordered the CHECK statements in some tests to make them pass.
I tested this on Darwin and Linux.
Now that boxes are typed and projectable, the address no longer has to be passed separately.
For now, this breaks capture promotion, DI, and debug info, which analyze uses of the address param. Will be addressed in upcoming commits:
Swift :: DebugInfo/byref-capture.swift
Swift :: DebugInfo/closure-args.swift
Swift :: DebugInfo/closure-args2.swift
Swift :: DebugInfo/inout.swift
Swift :: DebugInfo/linetable.swift
Swift :: SILPasses/capture_promotion.swift
Swift :: SILPasses/definite_init_diagnostics.swift
All refutable patterns and function parameters marked with 'var'
is now an error.
- Using explicit 'let' keyword on function parameters causes a warning.
- Don't suggest making function parameters mutable
- Remove uses in the standard library
- Update tests
rdar://problem/23378003
And include some supplementary mangling changes:
- Give the first generic param (depth=0, index=0) a single character mangling. Even after removing the self type from method declaration types, 'Self' still shows up very frequently in protocol requirement signatures.
- Fix the mangling of generic parameter counts to elide the count when there's only one parameter at the starting depth of the mangling.
Together these carve another 154KB out of a debug standard library. There's some awkwardness in demangled strings that I'll clean up in subsequent commits; since decl types now only mangle the number of generic params at their own depth, it's context-dependent what depths those represent, which we get wrong now. Currying markers are also wrong, but since free function currying is going away, we can mangle the partial application thunks in different ways.
Swift SVN r32896
Canonical dependent member types are always based from a generic parameter, so we can use a more optimal mangling that assumes this. We can also introduce substitutions for AssociatedTypeDecls, and when a generic parameter in a signature is constrained by a single protocol, we can leave that protocol qualification out of the unsubstituted associated type mangling. These optimizations together shrink the standard library by 117KB, and bring the length of the longest Swift symbol in the stdlib down from 578 to 334 characters, shorter than the longest C++ symbol in the stdlib.
Swift SVN r32786
some of the ARC entry points. rdar://22724641. After this commit,
swift_retain_noresult will be completely replaced by swift_retain.
LLVMARCOpts pass is modified NOT to rewrite swift_retain to
swift_retain_noresult which forward no reference.
Swift SVN r32082
I asked that the patches were split up so I could do post commit review.
This reverts commit r32059.
This reverts commit r32058.
This reverts commit r32056.
This reverts commit r32055.
Swift SVN r32060
to remove reference forwarding for some of the ARC entry points. rdar://22724641. After this
commit, swift_retain_noresult will be completely replaced by swift_retain and LLVMARCOpts.cpp
will no longer canonicalize swift_retain to swift_retain_noresult as now swift_retain returns no
reference.
Swift SVN r32058
