Two pieces to this:
- Peephole OptionalEvaluationExpr(InjectOptionalExpr(BindOptionalExpr(X))) to bitcast x to the result type.
- Enhance OptionalEvaluationExpr to delete the failure block if not needed.
This is the same as r28150, but it includes a fix for the case when a non-address-only type
is initializing a contextally-provided-and-addressible buffer, tested by the new
testContextualInitOfNonAddrOnlyType testcase.
Swift SVN r28153
Two pieces to this:
- Peephole OptionalEvaluationExpr(InjectOptionalExpr(BindOptionalExpr(X))) to
bitcast x to the result type.
- Enhance OptionalEvaluationExpr to delete the failure block if not needed.
This is the same as r28111, except that we finalize the initialization in the
address-only case. A reduced testcase for the specific issue is added to
optional-casts.swift.
Swift SVN r28150
and r28105: "implement <rdar://problem/17013042> T! <-> T? conversions should not produce a diamond"
r28111 broke the stdlib build. I also reverted r28105, because r28111 fixes regressions introduced in r2805.
Swift SVN r28114
Two pieces to this:
- Peephole InjectOptionalExpr(BindOptionalExpr(X)) to bitcast x to the result type.
- Enhance OptionalEvaluationExpr to delete the failure block if not needed.
Swift SVN r28105
nil path. This avoids emitting a "release" operation on an optional temporary that is
always guaranteed to be dynamically nil. This cleans up the generated code for x?.foo().
Swift SVN r28103
to not drop optionals in memory all the time. We now generate a lot better code
for them in many cases. This makes generated SIL more readable and should help
-O0 perf.
This is progress towards <rdar://problem/20642198> SILGen shouldn't be dropping optionals into memory all the time
Swift SVN r28102
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
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
Use init_enum_data_addr and inject_enum_addr to construct optional values instead of the injection intrinsics, further simplifying -Onone IR. This not only avoids a call but also allows the frontend to emit optional payloads in-place in more cases, eliminating a lot of stack traffic.
Swift SVN r22549
Now the SILLinkage for functions and global variables is according to the swift visibility (private, internal or public).
In addition, the fact whether a function or global variable is considered as fragile, is kept in a separate flag at SIL level.
Previously the linkage was used for this (e.g. no inlining of less visible functions to more visible functions). But it had no effect,
because everything was public anyway.
For now this isFragile-flag is set for public transparent functions and for everything if a module is compiled with -sil-serialize-all,
i.e. for the stdlib.
For details see <rdar://problem/18201785> Set SILLinkage correctly and better handling of fragile functions.
The benefits of this change are:
*) Enable to eliminate unused private and internal functions
*) It should be possible now to use private in the stdlib
*) The symbol linkage is as one would expect (previously almost all symbols were public).
More details:
Specializations from fragile functions (e.g. from the stdlib) now get linkonce_odr,default
linkage instead of linkonce_odr,hidden, i.e. they have public visibility.
The reason is: if such a function is called from another fragile function (in the same module),
then it has to be visible from a third module, in case the fragile caller is inlined but not
the specialized function.
I had to update lots of test files, because many CHECK-LABEL lines include the linkage, which has changed.
The -sil-serialize-all option is now handled at SILGen and not at the Serializer.
This means that test files in sil format which are compiled with -sil-serialize-all
must have the [fragile] attribute set for all functions and globals.
The -disable-access-control option doesn't help anymore if the accessed module is not compiled
with -sil-serialize-all, because the linker will complain about unresolved symbols.
A final note: I tried to consider all the implications of this change, but it's not a low-risk change.
If you have any comments, please let me know.
Swift SVN r22215
