An unsafe cast from a base to a derived class isn't really all that different from one from Builtin.NativeObject to an arbitrary class, so relax this pair of instructions to allow an arbitrary bitcast. This only combines the instructions; it doesn't attempt to simplify any codegen that was emitting round-trip casts before yet.
Swift SVN r16736
This allows the payload for a loadable enum to be unsafely projected without branching, enabling more enum optimizations when switch branches can be culled or when indirect enum code can be promoted.
Swift SVN r16729
This was part of the original weak design that
there was never any particular reason to rush the
implementation for. It's convenient to do this now
so that we can use it to implement Unmanaged<T> for
importing CF types.
Swift SVN r16693
The implied semantics are:
- side-effects can occur any time before the first invocation.
- all calls to the same global_init function have the same side-effects.
- any operation that may observe the initializer's side-effects must be
preceded by a call to the initializer.
This is currently true if the function is an addressor that was lazily
generated from a global variable access. Note that the initialization
function itself does not need this attribute. It is private and only
called within the addressor.
Swift SVN r16683
Give us a way to formally represent autoreleases in SIL separate from autoreleased returns, allowing us to lifetime-extend inner pointer parameters the lazy way and hopefully clean up some asmname hacks in the stdlib implementation too.
Swift SVN r16632
We print the AST type for the member when printing SILDeclRef for
protocol_method and dynamic_method. The AST type can be polymorphic, so parsing
of PolymorphicFunctionType is added to the Parser. Also add parsing "inout"
right before an identifier type. "inout" was parsed only in parseTypeTupleBody.
rdar://15763213
Swift SVN r16460
Add project_block_storage, to project the capture storage from within a block_storage, and init_block_storage_header, to represent filling out the block header.
Swift SVN r16358
This enables parsing SILDeclRef with an operator name.
One example is #AnyProtocol."<~>"!1, we will drop the double quotes when
parsing the dotted path.
Swift SVN r16082
This will be a signal to ARC optimization, RVO, and other lifetime-affecting optimizations that they should not shorten the lifetime of a value past a certain point. We need this for C pointer bridging. This adds the instruction, but does not add any knowledge of it to the ARC optimizers.
Swift SVN r15601
immutable variables with a let prefix instead of a 'var' prefix. This allows
us to AST print this as 'let' instead of 'var', which isn't totally awesome,
but is better than misleading people with var.
func f() {
let x : Int = 42
}
Also, fix the SILPrinter to explode pattern binding decls, so that it doesn't
fall into the booby traps inherent in PatternBindingDecl printing.
Swift SVN r15393
Do not print '.Archetype' property of Substitution in SILPrinter.
Update testing cases accordingly.
We assume the order of substitions matchs the order of AllArchetypes for
the generic param list.
rdar://14443287
Swift SVN r15090
This will help with ensuring that we do not create multiple witness
table "definitions" one of which is null. That situtation yields an
IRGen assertion to be hit since the external declaration (in the guise
of a definition) has a different type from the actual deserialized
definition.
Swift SVN r14999
The problem is that SILDeclRef::print does not print enough information
for SILParser to find the correct Decl when there are overloading members.
This commit handles the case for class_method. We print type information for
the SILDeclRef together with the SILFunctionType separated by a comma.
SILParser then use the type information to disambiguate the overloaded
methods.
rdar://15763213
Swift SVN r14994
In the short term, we need to be able to emit shared symbols for SILWitnessTables corresponding to Clang-imported modules, and soon, the generic specializer will need to be able to reference *_external witness tables deserialized from library modules.
Swift SVN r14887
Sema was creating DerivedFileUnit on the fly, while something else is iterating
over FileUnits in the module. The fix is to create DerivedFileUnit in advance.
This change immediately uncovered a lot of code that assumed that the module
consists of a single FileUnit at certain conditions. This patch also fixes
that code (SourceKit patch is separate, not sending it).
The test change is because now operator == on NSObjects is correctly recognised
as coming from a system module.
rdar://16153700, rdar://16227621, possibly rdar://16049613
Swift SVN r14692
alloc_ref_dynamic allocates an instance of a class type based on the
value in its metatype operand. Start emitting these instructions for
the allocating constructor of a complete object initializer (not yet
tested) and for the allocating constructor synthesized for an imported
Objective-C init method.
Still missing:
- IRGen still does the same thing as alloc_ref right now. That
change will follow.
- There are devirtualization opportunities when we know the value of
the metatype that would turn an alloc_ref_dynamic into an alloc_ref;
I'm not planning to do this optimization.
Swift SVN r14560
It's not forming the metatype for the protocol type (exists t: P. t).metatype, it's forming the existential of a metatype of a conforming type, exists t: P. (t.metatype).
Swift SVN r14520
Having one instruction to get the dynamic metatype of a (non-existential) value makes more sense from a generic specialization standpoint and should stave off inevitable crashers when archetype_metatypes get specialized. protocol_metatype remains separate because metatype existentials are more interesting.
Swift SVN r14499
We were wantonly applying 'upcast' to archetypes in some cases, and really, that's OK, since these instructions do the same thing (and generic specialization could turn archetype_ref_to_super into upcast). Make everyone's life easier by folding archetype_to_super into upcast. Fixes <rdar://problem/16192324>.
Swift SVN r14496
These changes add support for build and target configurations in the compiler.
Build and target configurations, combined with the use of #if/#else/#endif allow
for conditional compilation within declaration and statement contexts.
Build configurations can be passed into the compiler via the new '-D' flag, or
set within the LangOptions class. Target configurations are implicit, and
currently only "os" and "arch" are supported.
Swift SVN r14305
Introduce the SIL instructions thick_to_objc_metatype and
objc_to_thick_metatype to convert between the 'thick' and
'Objective-C' representations of a metatype. Most of this code is
trivial support code for these conversions: printing, parsing,
(de-)serialization, etc., for which testing will come online in
subsequent patches or is incidental in other tests.
Lower Objective-C metatype values down to objc_class* at the IR level
and implement IRGen support for these SIL instructions. SIL-only test
case at the moment because SILGen never creates these instructions.
Swift SVN r14087
Previously, we would just parse vars and subscripts with no definitions,
then let getters and setters be referenced arbitrarily later. This was
problematic for a number of reasons, not least of which, the .sil file
might be invalid.
Instead, change sil to require that a protocol style definition indicate
whether a vardecl/subscript is computed or not, and whether it is both
get-able and set-able, e.g. like "var x : Int { get }". Change the
sil printer to print decls in this form, and change the SILParser to
make SILDeclRef::Func values instead of ::Getter/Setter values.
One thing that this exposed is that we weren't correctly serializing the
accessor state in modules, so accessors would get detatched from their
AbstractStorageDecls when deserialized (and in fact, their ASD never got
deserialized at all in some cases). Fix this in the serialization of
the accessors.
NFC, other than the SIL printer and parser.
Swift SVN r13884
