This causes a regression in error reporting where there are potential fixes: <rdar://problem/17741575> Other than that, everything works.
Swift SVN r20230
We don't need module names for properties and methods, since they're
effectively unique within a class. Moreover, use all of the
distinguishing characteristics as the key for the stored
representation in the side car writer. No visible functionality
change; this is staging.
Swift SVN r20008
- Change the parser to accept "objc" without an @ sign as a contextual
keyword, including the dance to handle the general parenthesized case.
- Update all comments to refer to "objc" instead of "@objc".
- Update all diagnostics accordingly.
- Update all tests that fail due to the diagnostics change.
- Switch the stdlib to use the new syntax.
This does not switch all tests to use the new syntax, nor does it warn about
the old syntax yet. That will be forthcoming. Also, this needs a bit of
refactoring, which will be coming up.
Swift SVN r19555
There is some follow-up work remaining:
- test/stdlib/UnicodeTrie test kills the type checker without manual type annotations. <rdar://problem/17539704>
- test/Sema/availability test raises a type error on 'a: String == nil', which we want, but probably not as a side effect of string-to-pointer conversions. I'll fix this next.
Swift SVN r19477
This patch extends the syntax with a new #line directive that is inspired
by the homonymous CPP directive. It can be specified in all locations a #if
is legal (Stmt, Decl).
Semantics
---------
#line 42 "file.swift"
This makes diagnostics and debug information behave as if the subsequent
lines came from file.swift+42.
#line // without arguments
This switches back to the main source file and the switches back to the
normal line numbering. Any previous #line directives will result in gaps
in the main file.
Rationale
---------
LLDB and the REPL need this for making expressions that are entered into
the expression evaluator or REPL debugable. For more info see
<rdar://problem/17441710> Need #line directive or something similar so we can enhance the debugging of expressions and REPL
Also, I believe the stdlib would benefit from this and it would allow us
to get rid of the line-directive wrapper script.
Swift SVN r19384
Allow a String value to be implicitly converted to ConstUnsafePointer<{UInt8,Int8,Void}> by string-to-pointer conversion, when enabled by a staging flag.
Swift SVN r19366
algorithm
The implementation uses a specialized trie that has not been tuned to the table
data. I tried guessing parameter values that should work well, but did not do
any performance measurements.
There is no efficient way to initialize arrays with static data in Swift. The
required tables are being generated as C++ code in the runtime library.
rdar://16013860
Swift SVN r19340
This applies to both qualified and unqualified lookups, and is controlled
by the -enable-access-control and -disable-access-control flags. I've
included both so that -disable-access-control can be put into specific tests
that will eventually need to bypass access control (e.g. stdlib unit tests).
The default is still -disable-access-control.
Swift SVN r19146
Add primitive type-checker rules for pointer arguments. An UnsafePointer argument accepts:
- an UnsafePointer value of matching element type, or of any type if the argument is UnsafePointer<Void>,
- an inout parameter of matching element type, or of any type if the argument is UnsafePointer<Void>, or
- an inout Array parameter of matching element type, or of any type if the argument is UnsafePointer<Void>.
A ConstUnsafePointer argument accepts:
- an UnsafePointer, ConstUnsafePointer, or AutoreleasingUnsafePointer value of matching element type, or of any type if the argument is ConstUnsafePointer<Void>,
- an inout parameter of matching element type, or of any type if the argument is ConstUnsafePointer<Void>, or
- an inout or non-inout Array parameter of matching element type, or of any type if the argument is ConstUnsafePointer<Void>.
An AutoreleasingUnsafePointer argument accepts:
- an AutoreleasingUnsafePointer value of matching element type, or
- an inout parameter of matching element type.
This disrupts some error messages in unrelated tests, which is tracked by <rdar://problem/17380520>.
Swift SVN r19008
...in preparation for non-source locations, i.e. locations that don't come
frome source buffers.
No functionality change, but a fair bit of SourceManager API and idioms have
changed.
Swift SVN r18942
This is only for the frontend, not for stdlib. The implementation is very
slow, optimizing it is the next step.
rdar://16755123 rdar://16013860
Swift SVN r18928
Allow class metatypes (including class-constrained existential metatypes) to be treated as subtypes of AnyObject, and single-@objc protocol metatypes to be treated as subtypes of the Protocol class from objc. No codegen support yet, so this is hidden behind a frontend flag for now.
Swift SVN r18810
.../if/ the protocol and the class are from the same top-level Clang module.
If not, the protocol is /not/ renamed, and users will have to disambiguate
with module qualification.
This kills our hardcoded "RenamedProtocols" list; it turns out this pattern
is more common than we thought /and/ leads to cross-referencing issues.
<rdar://problem/16206627>
Swift SVN r18809
I made a wrong assumption that the allocators would deallocate the
memory when their destructor was being called. Turns out this is not
true evidently.
Swift SVN r18753
With this change we now simplify 2192 retain, release operations on
enums an increase of ~56% over the previous stat, 1403 retain, release
operations.
The next step is to implement switch_enum simplification and pushing
releases on enums into switch regions (the real purpose of this pass).
rdar://17139960
Swift SVN r18740
These arrays are meant to be used in situations where you want to allocate a
potentially large amount of default constructible items for a collection of
fixed size.
An example of such a use case is for data flow algorithms which need a
one to one mapping from BB -> StateObject. In such a case, if the state
object is default constructible, we can allocate all of the structures
first, initialize them for each BB, and then process as we normally
would. Thus we eliminate overhead due to memory allocation.
Since the data structures take an allocator it also enables one to use it in
cases where one allocates memory from an allocator and references it via an
ArrayRef. We do this in swift when storing data into certain instructions.
Another benefit over using DenseMaps in such cases is that a DenseMap (unless
you preallocate) can cause all sorts of invalidation issues as new states are
added.
I am planning on using this in my Enum Simplification work and changing
the Global ARC Optimizer to use this.
Swift SVN r18739
Previously, the frontend detected that its output was being piped into the
driver and buffered, and decided that that wasn't a color-friendly output
stream. Now, the driver passes -color-diagnostics to the frontend to force
color output if the driver itself is in a color-output context.
<rdar://problem/16697713>
Swift SVN r18506
I didn't want to rip this logic out wholesale. There is a possibility
the character lexing can be reborn/revisited later, and
disabling it in the parser was easy.
Swift SVN r18102
No options should be changed because of the absence of a flag. This is
necessary for clients like LLDB which may have an initial set of options
that differs from the usual set.
Part of <rdar://problem/16776705>
Swift SVN r17819
