This adds a protocol to the C++ standard library overlay which will improve the ergonomics of `std::optional` when used from Swift code.
As of now, the overlay adds an initializer of `Swift.Optional` that takes an instance of `CxxOptional` as a parameter.
Fixes a usability problem with implicit inout conversion to raw pointers.
For example, supporting this conversion turns out to be bad:
void read_void(const void *input);
func foo(data: inout Data) {
read_void(&data)
}
People understandably expect Foundation.Data to have the same sort of
implicit conversion as Array. But it does something very wrong
instead.
We could have added an an attribute to Data and other copy-on-write
containers to selectively suppress implicit conversion. But there is
no good reason to allow implicit conversion from any non-trivial
type. It is extremely dangerous, and almost always accidental. Note
that this problem becomes worse now that the compiler views imported
`char *` arguments as raw pointers. For example:
void read_char(const char *input);
var object: AnyObject = ...
read_void(&object1)
This seems like a good time to correct this old Swift 3 behavior.
Plan: Add a warning now. Convert it to an error in Swift 6 language
mode based on feedback.
Fixes rdar://97963116 (It's really easy to accidentally corrupt a Data
object with the & operator)
rdar://105837040
* WIP: Store layout string in type metadata
* WIP: More cases working
* WIP: Layout strings almost working
* Add layout string pointer to struct metadata
* Fetch bytecode layout strings from metadata in runtime
* More efficient bytecode layout
* Add support for interpreted generics in layout strings
* Layout string instantiation, take and more
* Remove duplicate information from layout strings
* Include size of previous object in next objects offset to reduce number of increments at runtime
* Add support for existentials
* Build type layout strings with StructBuilder to support target sizes and metadata pointers
* Add support for resilient types
* Properly cache layout strings in compiler
* Generic resilient types working
* Non-generic resilient types working
* Instantiate resilient type in layout when possible
* Fix a few issues around alignment and signing
* Disable generics, fix static alignment
* Fix MultiPayloadEnum size when no extra tag is necessary
* Fixes after rebase
* Cleanup
* Fix most tests
* Fix objcImplementattion and non-Darwin builds
* Fix BytecodeLayouts on non-Darwin
* Fix Linux build
* Fix sizes in linux tests
* Sign layout string pointers
* Use nullptr instead of debug value
This adds a protocol to the C++ standard library overlay which will improve the ergonomics of `std::map` and `std::unordered_map` when used from Swift code.
As of now, `CxxDictionary` adds a subscript with an optional return type that mimics the subscript of `Swift.Dictionary`.
Similar to https://github.com/apple/swift/pull/63244.
Added pack flavors of requirement kinds for metadata and witness tables.
Fixes the function signatures for variadic generic functions which
previously used %swift.type* for variadic generic parameters--those are
lists of metadata and should actually be %swift.type**.
Since values of generic type are currently assumed to always
support copying, we need to prevent move-only types from
being substituted for generic type parameters.
This approach leans on a `_Copyable` marker protocol to which
all generic type parameters implicitly must conform.
A few other changes in this initial implementation:
- Now every concrete type that can conform to Copyable will do so. This fixes issues with conforming to a protocol that requires Copyable.
- Narrowly ban writing a concrete type `[T]` when `T` is move-only.
This adds a protocol to the C++ standard library overlay which will improve the ergonomics of `std::set`, `std::unordered_set` and `std::multiset` when used from Swift code.
As of now, `CxxSet` adds a `contains` function to C++ sets.
C++ stdlib set types are automatically conformed to `CxxSet`: `std::set`, `unordered_set`, `std::multiset`. Custom user types are not conformed to `CxxSet` automatically: while a custom type might have an interface similar to `std::set`, the semantics might differ, and adding a conformance would cause confusion.
For spatial locality on startup.
Hide collocating metadata functions in a separate section behind a flag.
The default is not to collocate functions.
rdar://101593202
This reverts commit 3617b7603c, reversing
changes made to 58a519a5c1.
This causes issues for the linker and branches accross sections if
addresses are too far apart.
This extends the existing auto-conformance mechanism to synthesize the conformances to `CxxConvertibleToCollection` protocol for C++ sequence types.
This means that the developer can now call `Array(myCxxSequence)` or `Set(myCxxSequence)` without adding any extensions manually.
This reverts commit 1f3e159cfe, reversing
changes made to 103b4a89c2.
Re-applies "IRGen: Co-locate metadata instatiation/completions/accessor
functions in a special section" for MachO only. The original change broke lldb
on aarch64 linux.
rdar://102481054
`getValue` -> `value`
`getValueOr` -> `value_or`
`hasValue` -> `has_value`
`map` -> `transform`
The old API will be deprecated in the rebranch.
To avoid merge conflicts, use the new API already in the main branch.
rdar://102362022
This makes ClangImporter automatically conform C++ collection types to `Cxx.CxxRandomAccessCollection` protocol.
We consider a C++ sequence type to be a random access collection type its iterator conforms to `UnsafeCxxRandomAccessIterator`.
Allow user-defined macros to be loaded from dynamic libraries and evaluated.
- Introduce a _CompilerPluginSupport module installed into the toolchain. Its `_CompilerPlugin` protocol acts as a stable interface between the compiler and user-defined macros.
- Introduce a `-load-plugin-library <path>` attribute which allows users to specify dynamic libraries to be loaded into the compiler.
A macro library must declare a public top-level computed property `public var allMacros: [Any.Type]` and be compiled to a dynamic library. The compiler will call the getter of this property to obtain and register all macros.
Known issues:
- We current do not have a way to strip out unnecessary symbols from the plugin dylib, i.e. produce a plugin library that does not contain SwiftSyntax symbols that will collide with the compiler itself.
- `MacroExpansionExpr`'s type is hard-coded as `(Int, String)`. It should instead be specified by the macro via protocol requirements such as `signature` and `genericSignature`. We need more protocol requirements in `_CompilerPlugin` to handle this.
- `dlopen` is not secure and is only for prototyping use here.
Friend PR: apple/swift-syntax#1022
This makes ClangImporter automatically conform C++ sequence types to `Cxx.UnsafeCxxInputIterator` protocol.
We consider a C++ type to be a random access iterator type if conforms to `UnsafeCxxInputIterator`, and additionally defines `operator-` and `operator+=`.
This commit begins to generate correct metadata for @_objcImplementation extensions:
• Swift-specific metadata and symbols are not generated.
• For main-class @_objcImpls, we visit the class to emit metadata, but visit the extension’s members.
• Includes both IR tests and executable tests, including coverage of same-module @objc subclasses, different-module @objc subclasses, and clang subclasses.
The test cases do not yet cover stored properties.
In preparation for moving to llvm's opaque pointer representation
replace getPointerElementType and CreateCall/CreateLoad/Store uses that
dependent on the address operand's pointer element type.
This means an `Address` carries the element type and we use
`FunctionPointer` in more places or read the function type off the
`llvm::Function`.
This makes ClangImporter automatically conform C++ sequence types to `Cxx.CxxSequence` protocol.
We consider a C++ type to be a sequence type if it defines `begin()` & `end()` methods that return iterators of the same type which conforms to `UnsafeCxxInputIterator`.
We had two notions of canonical types, one is the structural property
where it doesn't contain sugared types, the other one where it does
not contain reducible type parameters with respect to a generic
signature.
Rename the second one to a 'reduced type'.
Put pointers to class_ro_t referenced from generic class patterns in a section __swift_rodatas such that they are discoverable by the linker.
The linker can then make the method lists contained in the class_ro_t relative like it can for objective c class metadata from non-generic swift classes.
rdar://66634459
Fixes a bug where descriptor for protocol requirement associated with
distributed thunk wasn't marked as `async` that results in ptrauth failures
because discriminator would be misaligned between requirement and witness.
Resolves: rdar://96520492
