Most of this is in updating the standard library, SDK overlays, and
piles of test cases to use the new names. No surprises here, although
this shows us some potential heuristic tweaks.
There is one substantive compiler change that needs to be factored out
involving synthesizing calls to copyWithZone()/copy(zone:). Aside from
that, there are four failing tests:
Swift :: ClangModules/objc_parse.swift
Swift :: Interpreter/SDK/Foundation_test.swift
Swift :: Interpreter/SDK/archiving_generic_swift_class.swift
Swift :: Interpreter/SDK/objc_currying.swift
due to two independent remaining compiler bugs:
* We're not getting partial ordering between NSCoder's
encode(AnyObject, forKey: String) and NSKeyedArchiver's version of
that method, and
* Dynamic lookup (into AnyObject) doesn't know how to find the new
names. We need the Swift name lookup tables enabled to address this.
SILPrinter was printing uses for all SIL values, except for SIL basic blocks arguments. Fill the gap and print uses for BB arguments as well. This makes reading and analyzing SIL easier.
Basic blocks may have multiple arguments, therefore print uses of each BB argument on separate lines - one line per BB argument.
The comment containing information about uses of a BB argument is printed on the line just above the basic block name, following the approach used for function_ref and other kinds of instructions, which have additional information printed on the line above the actual instruction.
The output now looks like:
// %0 // user: %3
// %1 // user: %9
bb0(%0 : $Int32, %1 : $UnsafeMutablePointer<UnsafeMutablePointer<Int8>>):
rdar://23336589
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
'Ss' appears in manglings tens of thousands of times in the standard library and is also incredibly frequent in other modules. This alone is enough to shrink the standard library by 59KB.
Swift SVN r32409
Swift generates two entry points to @objc methods where one of
them is a thunk, and the inliner happily inlines the swift code
into the @objc thunk, effectively doubling the code size of some
@objc classes.
The performance inliner already knows not to inline large functions
into callers that are marked as thunks. This commit adds the [thunk]
attribute to the @objc thunks in an attempt to reduce code size.
rdar://22403108
Swift SVN r31498
For properties, "must be accessed with ObjC dispatch" is different from
"needs objc metadata". When we mean the latter, just call isObjC() on
the AbstractStorageDecl instead of using hasObjCMethodDispatch().
The latter returns false if any overridden declaration is not @objc, in
which case at runtime we don't need to dispatch.
Fixes <rdar://problem/21544588>.
Swift SVN r30382
These classes don't show up well in generated headers (rdar://problem/20855568),
can't actually be allocated from Objective-C (rdar://problem/17184317), and
make the story of "what is exposed to Objective-C" more complicated. Better
to just disallow them.
All classes are still "id-compatible" in that they can be converted to
AnyObject and passed to Objective-C, they secretly implement NSObjectProtocol
(via our SwiftObject root class), and their members can still be individually
exposed to Objective-C.
The frontend flag -disable-objc-attr-requires-foundation-module will disable
this requirement as well, which is still necessary for both the standard
library and a variety of tests I didn't feel like transforming.
Swift SVN r29760
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
Expose static stored properties in @objc classes as trivial class
methods.
static let i: T => +(T)i
static var i: T => +(T)i and +(void)setI:
static var k T { get set } => No change.
Fixes rdar://problem/19784053
Swift SVN r25152
Semantically, a dynamic property must always be dispatched in case it gets replaced at runtime, and an @NSManaged property may not have static accessors at all. Use ordinary access to the computed property accessors in materializeForSet when a property is dynamic or ObjC-originated. More rdar://problem/18706056.
There's still a problem--we try to vtable-dispatch materializeForSet, which is redundant for native classes, but impossible for imported ObjC classes. We should suppress this, but trying to make materializeForSet "final" breaks subclassing if the property is overridden.
This time, update test/SILGen/objc_properties.swift to avoid a false negative test failure.
Swift SVN r24888
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
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
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
Run whole-module checks at the end of perform Sema, specifically
TryAddFinal. After everything has been type checked, accessibility has
been provided, and we have had a chance to see any potential
overrides, we try to add the final attribute to class members.
This ends up de-virtualizing many functions, or rather they avoid the
vtable altogether. Thus, there are many test file changes. New test
file add_final.swift. Other tests updated to either reflect the
non-virtual call, or to have public added to them.
Swift SVN r20338
A while back we decided to require @IBOutlets to be optional (via ! or
?); we got as far as ripping out the implicit !'ification of
@IBOutlets, but never added the diagnostic. Diagnose this restriction
with Fix-Its.
Swift SVN r19981
This is all goodness, and eliminates a major source of implicit conversions.
One thing this regresses on though, is that we now reject "x == nil" where
x is an option type and the element of the optional is not Equtatable. If
this is important, there are ways to enable this, but directly testing it as
a logic value is more straight-forward.
This does not include support for pattern matching against nil, that will be
a follow on patch.
Swift SVN r18918
When the IBOutlet processing logic smashes a VarDecl to an implicit optional, it also has
to update the TypeLoc of any computed getters to include this, otherwise the getter will end
up with a type different from the variable, leading to later hilarity.
This is all really gross, but the TypeLoc mascinations that sema uses are not a good idea to
try to undo right now.
Swift SVN r18370
When type checking a patternbindingdecl with an initializer, we check the
initializer expression, then apply the inferred type to the pattern. This
works except that we get down to a NamedPattern, see that it has various
attributes on it (e.g. iboutlet, weak) that affect the type of the pattern,
and we weren't re-propaging it back out through the pattern. Do that.
Swift SVN r18355
we can represent such a thing.
This fixes: <rdar://problem/16655091> @IBOutlet should imply ImplicitlyUnwrappedOptional+weak by default
Swift SVN r18320
There are two major restrictions on this at the moment:
1) It only applies to [objc] properties/subscripts (where we go
through Objective-C dispatch). It still does static dispatch for
non-[objc] properties/subscripts in classes.
2) The Clang importer doesn't mark imported Objective-C properties
and subscript operators as [objc], so this is useless in practice.
Swift SVN r8691
