Lower types for SILDeclRefs from the interface types of their referents, dragging the old type along for the ride so we can still offer the context to clients that haven't been weaned off of it. Make SILFunctionType's interface types and generic signature independent arguments of its Derive the context types of SILFunctionType from the interface types, instead of the other way around. Do a bunch of annoying inseparable work in the AST and IRGen to accommodate the switchover.
Swift SVN r12536
This attribute states that all stored properties within the class must
provide initial values. This will allow us to move stored property
initialization into Objective-C's post-allocation initialization hook,
.cxx_construct.
Swift SVN r12228
with qualifiers on it, we have two distinct types:
- LValueType(T) aka @lvalue T, which is used for mutable values on the LHS of an
assignment in the typechecker.
- InOutType(T) aka @inout T, which is used for @inout arguments, and the implicit
@inout self argument of mutable methods on value types. This type is also used
at the SIL level for address types.
While I detangled a number of cases that were checking for LValueType (without checking
qualifiers) and only meant @inout or @lvalue, there is more to be done here. Notably,
getRValueType() still strips @inout, which is totally and unbearably wrong.
Swift SVN r11727
Lower metatype types as @thin or @thick based on whether the type is static and whether the abstraction pattern allows for a thin metatype. Add a '@thick' attribute and require SIL metatypes to always be annotated with either '@thin' or '@thick' to distinguish them from unlowered metatypes.
Swift SVN r11525
We'll need to perform name lookup based on the file-level
DeclContext*, so the module no longer suffices. No functionality
change here yet.
Swift SVN r11523
(various) FunctionType::get's, ArrayType::get,
ArraySliceType::get, OptionalType::get, and a few
other places.
There is more to be done here, but this is all I plan to do
for now.
Swift SVN r11497
This is a structural baby step toward lazily filling in protocol
conformances. We always build a ProtocolConformance, then mark it
either "complete" (when it's well-formed) or "invalid" (when it's
ill-formed). At present, the only benefit to this is that it slows
diagnostic cascades from invalid conformances.
Swift SVN r11492
...rather than a raw pointer that points to a buffer with space for N
elements. Just because we *can* get N from context doesn't mean it's
convenient/safe.
No functionality change.
Swift SVN r11488
typealias MyInt: ForwardIndex = Int
There is no real reason to allow this; it's just a static_assert that Int
conforms to ForwardIndex, which would be better spelled some other way.
This only applies to concrete typealiases, i.e. those that simply alias an
underlying type. Associated types can still have both inheritance clauses
and a (default) underlying type.
Swift SVN r11481
- Switch @mutable to be a tri-state attribute that is invertable with @!mutable.
- Move the semantic form of 'mutable' to being a bit on FuncDecl instead of
something in DeclAttrs. The former is a binary bit, the later is a tristate
which differentiates between "not present", "present and set" "present and inverted".
- Diagnose some invalid uses of @mutable, e.g. on class methods.
- Make setters default to mutable, and allow them to be switched with @!mutable.
Swift SVN r11439
Previously, cross-references just carried a chain of identifiers and a
top-level module, plus a type to validate against, a generic parameter index,
or an operator fixity. However, referencing "the first generic parameter
of the prefix function ++ that takes a ForwardIndex" requires /all three/
of these filters to unambiguously select the right declaration.
Now, cross-references consist of a chain of trailing records, one for each
link in the path. There are (currently) five kinds of links:
Type: a declaration that cannot have overloads
Value: a declaration that can have overloads (filtered by type)
Extension: filter to decls within extensions on another module
Operator:
- as the first path piece, an operator declaration
- as a later path piece, a fixity filter for operator functions
Generic Param: an indexed generic parameter of the previous result
This should allow us to uniquely cross-reference any Swift declaration we
need to.
Swift SVN r11399
A SpecializedProtocolConformance intentionally contains all of the
information we need to synthesize the type witnesses from the
underlying (generic) conformance. Do so lazily rather than eagerly,
because we won't always need all of them.
As a nice side effect, we no longer need to serialize the witnesses of
these specialized protocol conformances, so we can save some space in
the Swift module file.
Swift SVN r11303
That is, if we need a type MyIndex<T> to be a valid ForwardIndex, we should
be able to find it in the conformance for BidirectionalIndex, which inherits
from ForwardIndex.
<rdar://problem/15484898>
Swift SVN r11270
NominalTypeDecls and ExtensionDecls have a list of members. Rather than
eagerly populating that list when the nominal or extension is just referenced,
just include a pointer back to the ModuleFile, so that they can be
deserialized when we actually look into the decl. The design here is
general enough that we could do something similar with imported Clang decls.
Clang is even more lazy here: the on-disk representation is a hash table,
so lookup only forces deserialization of members with the same name. We
probably want that some day, but this might be enough to get by for now.
This is groundwork for loading partial ASTs, where eagerly deserializing
members leads to circular references we're not able to handle.
Swift SVN r11219
are not settable (like get-only ones). Set the 'isLet' bit in various
places, but not the particularly interesting or useful places yet.
Swift SVN r11121
Since we don't have soft-failure yet from deserialization, it's helpful to
at least know where to start looking when something crashes. There are some
rough edges here but it should be much better than nothing.
This also pulls the list of record nodes out into a separate file, so that
we can avoid repeating it.
Example crash:
1. While reading from ./CTypes.swiftmodule
2. While deserializing 'CBool' (StructDecl)
3. While deserializing decl #26 (XREF)
4. Cross-reference to 'LogicValue' in swift
(don't worry, this is an example where I'm tweaking things)
<rdar://problem/14838332>
Swift SVN r11057
Part of the FileUnit restructuring. A serialized module is now represented as
a TranslationUnit containing a single SerializedASTFile.
As part of this change, the FileUnit interface has been made virtual, rather
than switching on the Kind in every accessor. We think the operations
performed on files are sufficiently high-level that this shouldn't affect us.
A nice side effect of all this is that we now properly model the visibility
of modules imported into source files. Previously, we would always consider
the top-level imports of all files within a target, whether re-exported or
not.
We may still end up wanting to distinguish properties of a complete Swift
module file from a partial AST file, but we can do that within
SerializedModuleLoader.
Swift SVN r10832
ModuleID is compatible with IdentifierID, but uses 0 to mean “the builtin module”
and 1 to mean “the current module”. Anything else is a top-level module name,
as an identifier. As an implementation detail, 1 is now never a valid IdentifierID.
(0 remains “the empty string”.)
Using this, simplify the encoding of the owner of a conformance.
Swift SVN r9944
Also add serialization of resilience attributes: Fragile, InherentlyFragile
and Resilient. Serialize VTables before SILFunctions because it may trigger
serializations of non-transparent SILFunctions.
Update funcOrOffset and vTableOrOffset when a SILFunction or a VTable is
de-serialized.
rdar://15165644
Swift SVN r9926
