Each loaded file gets added to the main module, rather than being a standalone
separate module. In theory, this will be used to assemble several partial
ASTs into a complete module. In practice, there's still a ways to go...but
this can already round-trip a single module file.
This also factors out the FileUnit-creating part of SerializedModuleLoader,
which should help clients like SourceKit that don't need to search for a
swiftmodule file associated with a particular import.
Swift SVN r10952
This completes the FileUnit refactoring. A module consists of multiple
FileUnits, which provide decls from various file-like sources. I say
"file-like" because the Builtin module is implemented with a single
BuiltinUnit, and imported Clang modules are just a single FileUnit source
within a module.
Most modules, therefore, contain a single file unit; only the main module
will contain multiple source files (and eventually partial AST files).
The term "translation unit" has been scrubbed from the project. To refer
to the context of declarations outside of any other declarations, use
"top-level" or "module scope". To refer to a .swift file or its DeclContext,
use "source file". To refer to a single unit of compilation, use "module",
since the model is that an entire module will be compiled with a single
driver call. (It will still be possible to compile a single source file
through the direct-to-frontend interface, but only in the context of the
whole module.)
Swift SVN r10837
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
The goal of this series of commits is to allow the main module to consist
of both source files and AST files, where the AST files represent files
that were already built and don't need to be rebuilt, or of Swift source
files and imported Clang headers that share a module (because they are in
the same target).
Currently modules are divided into different kinds, and that defines how
decls are looked up, how imports are managed, etc. In order to achieve the
goal above, that polymorphism should be pushed down to the individual units
within a module, so that instead of TranslationUnit, BuiltinModule,
SerializedModule, and ClangModule, we have SourceFile, BuiltinUnit,
SerializedFile, and ClangUnit. (Better names welcome.) At that point we can
hopefully collapse TranslationUnit into Module and make Module non-polymorphic.
This commit makes SourceFile the subclass of an abstract FileUnit, and
makes TranslationUnit hold an array of FileUnits instead of SourceFiles.
To demonstrate that this is actually working, the Builtin module has also
been converted to FileUnit: it is now a TranslationUnit containing a single
BuiltinUnit.
Swift SVN r10830
Each one has a different kind of lookup cache anyway, and there's no real
reason to have them share storage at the cost of type-safety.
Swift SVN r9242
docs/Resilience.rst describes the notion of a resilience component:
if the current source file is in the same component as a module being
used, it can use fragile access for everything in the other module,
with the assumption that everything in a component will always be
recompiled together.
However, nothing is actually using this today, and the interface we
have is probably not what we'll want in 2.0, when we actually implement
resilience.
Swift SVN r9174
getDisplayDecls() was introduced for ":print_module" and works slightly differently, e.g.
it will return the decls from a shadowed clang module, since we want to display them.
Swift SVN r7909
As a bring-up hack, the module serializer would write a special record,
FALL_BACK_TO_TRANSLATION_UNIT, if it encountered something it didn't know
how to serialize. This then directed the deserializer to ignore the
contents of the module file and instead reload the original source file.
Now that we can serialize pretty much everything*, though, we don't need
this, and instead we'd rather know where the serialization coverage has
gaps (by asserting).
Swift SVN r7752
Add tools/lldb-moduleimport-test, which simulates LLDB importing modules
from the __apple_ast section in Mach-O files and use it to regression-test
the new API.
Swift SVN r7709
This is basically the same as doing a :print_decl on every decl in the module,
except that it does not print extensions that come from other modules, and
/does/ print extensions and operators that come from this module.
Does not yet work for Clang modules or the Builtin module.
Swift SVN r7601
In Swift, a module is expected to know which libraries it needs, rather than
having this specified by an external module map. While we haven't quite
designed this yet (frameworks get this for free in Clang, for example),
we can at least provide a simple option for the common case of a module
associated with a single library.
This will probably change in the future, so I left in the more general
deserialization code I was working on before simplifying the use case.
A loaded module can in theory specify any arbitrary frameworks or libraries
as dependencies, not just a single dylib.
Swift SVN r7583
...instead of just those that are re-exported. This will be used for
autolinking (and probably few other places).
As part of this, we get two name changes:
(1) Module::getReexportedModules -> getImportedModules
(2) TranslationUnit::getImportedModules -> getImports
The latter doesn't just get modules-plus-access-paths; it also includes
whether or not the import is re-exported. Mainly, though, it just didn't
seem like a good idea to overload this name when the two functions aren't
really related.
No tests yet, will come with autolinking.
Swift SVN r7487
This will be used to resolve properties and method calls on objects with
dynamic-lookup ("id") type. For now, this is tested in swift-ide-test
by using the -dynamic-lookup-completion option and providing a
-code-completion-token value.
Caveats/TODOs:
- As before, since we're using the global method pool, this isn't scoped by
module. We could do a per-module filter, but I don't know if that will
actually buy us much.
- Again, Clang's method pool does not include methods from protocols.
- Lookup by selector name cannot find properties with a customized getter
name. <rdar://problem/14776565>
- The Clang-side method pool is keyed by selector, but Swift wants to look
things up by method name, which maps to the first selector piece, so we
end up having to do a scan of all the selectors in the pool.
Swift SVN r7330
With this, we can now get a list of all class members* available in the
current translation unit, which will be necessary for doing id-style
dynamic lookup (inferring which method you're referring to when the base
type is some magic "dynamic lookup" type).
* Including members of protocols, since a class we don't know about could
have implemented the protocol.
Since there is no code currently using this, I've added a new mode to
swift-ide-test to just dump all class members -- what will eventually
happen when you code complete on a dynamic lookup type. This mode will
go away once the other pieces of id-style lookup are in place.
Swift SVN r7287
...by adding a new callback to ModuleLoader: loadDeclsConformingTo.
This is used only when the type checker doesn't have enough contextual
information to resolve an expression involving a literal, so it's
possible many *LiteralConvertible types will never be loaded.
Deserialization of types with conversion methods is still eager, since
there's no easy hook to tell when they're needed, but the list has been
renamed to refer to any decls that need to be eagerly deserialized, in
case we need it for other purposes in the future.
This probably won't help much in a real program, but it cuts the test
run time by about 5-10% in my build.
Swift SVN r7268
This switches from simple lists of decls to name-based on-disk hash tables,
which allows decls to be loaded lazily when doing simple lookup (but not
code completion, at least not yet).
The on-disk hash table implementation is borrowed from Clang; eventually
it will be pushed down to LLVM's Support library. (Fortunately the
implementation is header-only.)
This breaks a few tests that rely on magic protocols like
IntegerLiteralConvertible, because the type checker won't have seen the
types that conform to those protocols yet. This will be fixed by doing
an additional "hey, modules, got any of these?" lookup.
Swift SVN r7259
Every valid source location corresponds to a source buffer. There should be no
cases where we create a source location for a random string. Thus,
findBufferContainingLoc() always succeeds.
Swift SVN r7120
Previously, a module contained references to every module listed in the
ASTContext. Now, we actually only encode the imports from the TU itself,
which allows us to include access paths for scoped imports.
This is necessary to implement proper name lookup shadowing rules.
Swift SVN r7013
Now that we have true serialized modules, the standard library can import
the Builtin module without any special direction (beyond -parse-stdlib),
and anyone can include those modules without special direction.
Swift SVN r6752
This involved threading it through ModuleLoader, as with all the other
module-generic callbacks. I plan to collapse a bit of the chaining, but
unfortunately not that much.
This brings back the CodeCompletion tests.
Swift SVN r6527
Rather than automatically re-exporting or not re-exporting every import in
a TranslationUnit, we'll eventually want to control which imports are local
(most of them) and which imports are shared with eventual module loaders.
It's probably not worth implementing this for TranslationUnit, but
LoadedModule can certainly do something here.
Currently, a LoadedModule is even more permissive than a TranslationUnit:
all imports are re-exported. We can lock down on this once we have a
re-export syntax.
Swift SVN r6523
...and use it for shadowed modules (e.g. the Clang module "Foundation"
referenced by the Swift module "Foundation"), so that we can actually
find "NSString" when building AppKit.
Additionally, record shadowed modules as dependencies, so that they can
be loaded when the adapter module is loaded.
Swift SVN r6522
This unfortunately duplicates the hack of directly referencing the Clang
module loader if a cross-reference points to the current module; ideally
we'd have some kind of module chain, but I'd settle for a refactoring of
the code to share with NameBinding.
Additionally, Clang nodes are not actually validated to be from the right
module, which could be problematic for extensions or any case of actual
name collision.
Swift SVN r6519
All we need is the skeleton Module to let us know not to try again. This
was previously leading to a use-after-free, caught by Guard Malloc.
Thanks, Argyrios!
Swift SVN r6267
These still need to be serialized, because they are one-to-one with the
type's protocol list, but don't actually require any data. Found on
attempting to emit a module for the standard library.
Most of the churn here is moving Interleave.h to a more general STLExtras.h.
Swift SVN r6167
This causes the SourceLoader to recursively parse the imported module in standard
library mode, giving it access to the Builtin module.
This is all a terrible hack and should be ripped out with great victory someday, but
until we have binary modules that persist the build setting used to produce the
module, this is the best we can do.
Swift SVN r5847
When loading a module, we now try to load its dependencies as well.
If one of those dependencies can't be loaded, we emit an error message.
Swift SVN r5796
Also, explicitly list the top-level decls in a module. Eventually this
will be a proper lazily-loaded identifier-DeclID map, but for now it's
just a flat list of IDs to deserialize as soon as a lookup is
requested.
We can now parse and typecheck a file that imports typealiases of builtin
types.
Swift SVN r5325
This includes the reading half of BCRecordLayout metaprogramming, and
then a fairly straightforward deserialize-and-cache implementation in
ModuleFile. Once again, this is based on Clang's module implementation:
decls and types are referred to by an ID, which is used as an index into
an array, which contains offsets to the definitions of the decl/type in
the "decls-and-types" block in the serialized module.
In order to test the feature, the code is currently eagerly deserializing
all declarations. This will be partially fixed in the next commit.
Swift SVN r5324
We can bikeshed on this later, but for now we can use a very explicit
extension that has no chance of stepping on any existing extension.
Swift SVN r5239
The bringup hack, again, is to just process the module source files as a
TranslationUnit if the module doesn't accurately represent the original
source. Currently this happens if the module is not empty, or if it imports
/anything/, since we don't actually serialize anything yet.
This also cleans up the decl/type serialization skeleton a bit.
Swift SVN r5238
This replaces the obscure, inefficient lookup into extensions with
something more straightforward: walk all of the known extensions
(available as a simple list), then eliminate any declarations that
have been shadowed by other declarations. The shadowing rules still
need to consider the module re-export DAG, but we'll leave that for
later.
As part of this, keep track of the last time we loaded extensions for
a given nominal type. If the list of extensions is out-of-date with
respect to the global generation count (which tracks resolved module
imports), ask the modules to load any additional extensions. Only the
Clang module importer can currently load extensions in this manner.
Swift SVN r5223
