[NFC] Add -enable-sil-opaque-values frontend option.
This will be used to change the SIL-level calling convention for opaque values,
such as generics and resilient structs, to pass-by-value. Under this flag,
opaque values have SSA lifetimes, managed by copy_value and destroy_value.
This will make it easier to optimize copies and verify ownership.
* [SILGen] type lowering support for opaque values.
Add OpaqueValueTypeLowering.
Under EnableSILOpaqueValues, lower address-only types as opaque values.
* [SIL] Fix ValueOwnershipKind to support opaque SIL values.
* Test case: SILGen opaque value support for Parameter/ResultConvention.
* [SILGen] opaque value support for function arguments.
* Future Test case: SILGen opaque value specialDest arguments.
* Future Test case: SILGen opaque values: emitOpenExistential.
* Test case: SIL parsing support for EnableSILOpaqueValues.
* SILGen opaque values: prepareArchetypeCallee.
* [SIL Verify] allow copy_value for EnableSILOpaqueValues.
* Test cast: SIL serializer support for opaque values.
* Add a static_assert for ParameterConvention layout.
* Test case: Mandatory SILOpt support for EnableSILOpaqueValues.
* Test case: SILOpt support for EnableSILOpaqueValues.
* SILGen opaque values: TypeLowering emitCopyValue.
* SILBuilder createLoad. Allow loading opaque values.
* SIL Verifier. Allow loading and storing opaque values.
* SILGen emitSemanticStore support for opaque values.
* Test case for SILGen emitSemanticStore.
* Test case for SIL mandatory support for inout assignment.
* Fix SILGen opaque values test case after rebasing.
There's a class of errors in Serialization called "circularity
issues", where declaration A in file A.swift depends on declaration B
in file B.swift, and B also depends on A. In some cases we can manage
to type-check each of these files individually due to the laziness of
'validateDecl', but then fail to merge the "partial modules" generated
from A.swift and B.swift to form a single swiftmodule for the library
(because deserialization is a little less lazy for some things). A
common case of this is when at least one of the declarations is
nested, in which case a lookup to find that declaration needs to load
all the members of the parent type. This gets even worse when the
nested type is defined in an extension.
This commit sidesteps that issue specifically for nested types by
creating a top-level, per-file table of nested types in the "partial
modules". When a type is in the same module, we can then look it up
/without/ importing all other members of the parent type.
The long-term solution is to allow accessing any members of a type
without having to load them all, something we should support not just
for module-merging while building a single target but when reading
from imported modules as well. This should improve both compile time
and memory usage, though I'm not sure to what extent. (Unfortunately,
too many things still depend on the whole members list being loaded.)
Because this is a new code path, I put in a switch to turn it off:
frontend flag -disable-serialization-nested-type-lookup-table
https://bugs.swift.org/browse/SR-3707 (and possibly others)
The implementation's not quite right (no objc_msgSend_stret on arm64)
and since other host OSs aren't being tested right now it's just dead
code there.
rdar://problem/29982823
The typedef `swift::Module` was a temporary solution that allowed
`swift::Module` to be renamed to `swift::ModuleDecl` without requiring
every single callsite to be modified.
Modify all the callsites, and get rid of the typedef.
This reverts the contents of #5778 and replaces it with a far simpler
implementation of condition resolution along with canImport. When
combined with the optimizations in #6279 we get the best of both worlds
with a performance win and a simpler implementation.
This allows script mode to pick up the current version of macOS
instead of defaulting to 10.9, making it unnecessary to write #available.
A -target flag can still override this if you're trying to write a
portable script.
The logic is a little tortured to avoid having to actually link to
Foundation.framework or libobjc.
Finishes rdar://problem/29433205.
Based off the PlaygroundTransform, this new ASTWalker leaves calls to __builtin_pc_before and __builtin_pc_after before and after a user would expect a program counter to enter a range of source code.
Changes:
* Terminate all namespaces with the correct closing comment.
* Make sure argument names in comments match the corresponding parameter name.
* Remove redundant get() calls on smart pointers.
* Prefer using "override" or "final" instead of "virtual". Remove "virtual" where appropriate.
This is a hidden option. It should be used like: -assume-single-threaded
When this function is provided, the compiler assumes that the code will be executed in the single threaded mode. It then performs certain optimizations that can benefit from it, e.g. it marks as non-atomic all reference counting instructions in the user code being compiled.
The block info block does not require an explicit abbreviation width as the
local abbreviations are internal to the block. Remove the parameter similar to
the clang change.
llvm r283043 and possibly other recent changes switch to use StringRef
instead of char* pointers. Update Swift to match. In some cases, this is
a clear improvement. It would be good to assess the impact on memory use,
particularly for the Filename component of source locations.
Note that the change to SILLocation::isNull fixes an apparent bug where
the location was treated as null when the filename was *not* null.
This will allow for semantic arc work to remain behind a flag and not affect
other in tree developers. More importantly it enables for bots to be setup with
this flag enabled.
rdar://28685236
Resilient classes are not fully implemented yet, and can cause
crashes at runtime; add a flag disabling them until the code is
done, to unblock standard library testing with resilience
enabled.
This flag switches the "effective language version" of the compiler,
at least to any version supported (as of this change: "3" or "3.0").
At the moment nothing uses it except the language version build
configuration statements (#if swift(...)) and various other places
that report, encode, or otherwise check version numbers.
In the future, it's intended as scaffolding for backwards compatibility.
Fixes SR-2582
Enables Chris's auto-apply-fixes mode for -verify: if an expected-*
annotation has the wrong message, or if the expected fix-its are
incorrect, this option will **edit the original file** to update them.
This is a tool for compiler developers only; it doesn't affect
normal diagnostic printing or normal fix-its.
