Add '-validate-clang-modules-once' and '-clang-build-session-file' corresponding to Clang's '-fmodules-validate-once-per-build-session' and '-fbuild-session-file='. Ensure they are propagated to module interface build sub-invocations.
We require these to be first-class Swift options in order to ensure they are propagated to both: ClangImporter and implicit interface build compiler sub-invocations.
Compiler portion of rdar://105982120
* Remove support for linking arclite
Darwin no longer uses arclite and it's no longer distributed
in the macOS SDKs.
This leaves the options -link-objc-runtime and -no-link-objc-runtime
in place, but strips out all the logic that actually used them.
* Remove a dead function
* Warn if `-link-objc-runtime` is used
* Update tests to not look for arclite library
* Add an explicit test for the deprecation warning
* Move the macOS-only -link-objc-runtime test to a separate test file
Add a compiler option `-load-plugin-executable <path>#<module names>`.
Where '<path>' is a path to a plugin executable, '<module-name>' is a
comma-separated module names the plugin provides.
Nothing is using it at this point. Actual plugin infratructure are
introduced in follow-up commits
Introduce `-plugin-path <path>` to add a search path where we will look
for compiler plugins. When resolving an external macro definition, look
for libraries in these search paths whose names match the module name
of the macro.
Implements rdar://105095761.
Add frontend flag `-emit-macro-expansion-files diagnostics` to emit any
macro expansion buffers referenced by diagnostics into files in a
temporary directory. This makes debugging type-checking failures in
macro expansions far easier, because you can see them after the
compiler process has exited.
Introduce a new flag `-export-as` to specify a name used to identify the
target module in swiftinterfaces. This provides an analoguous feature
for Swift module as Clang's `export_as` feature.
In practice it should be used when a lower level module `MyKitCore` is
desired to be shown publicly as a downstream module `MyKit`. This should
be used in conjunction with `@_exported import MyKitCore` from `MyKit`
that allows clients to refer to all services as being part of `MyKit`,
while the new `-export-as MyKit` from `MyKitCore` will ensure that the
clients swiftinterfaces also use the `MyKit` name for all services.
In the current implementation, the export-as name is used in the
module's clients and not in the declarer's swiftinterface (e.g.
`MyKitCore`'s swiftinterface still uses the `MyKitCore` module name).
This way the module swiftinterface can be verified. In the future, we
may want a similar behavior for other modules in between `MyKitCore` and
`MyKit` as verifying a swiftinterface referencing `MyKit` without it
being imported would fail.
rdar://103888618
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
Currently headers produced with `-emit-objc-header` /
`-emit-objc-header-path` produce headers that include modular imports.
If the consumer wishes to operate without modules enabled, these headers
cannot be used. This patch introduces a new flag
(`-emit-clang-header-nonmodular-includes`) that when enabled
attempts to argument each modular import included in such a header with
a set of equivalent textual imports.
* Introduce TypeLayout Strings
Layout strings encode the structure of a type into a byte string that can be
interpreted by a runtime function to achieve a destroy or copy. Rather than
generating ir for a destroy/assignWithCopy/etc, we instead generate a layout
string which encodes enough information for a called runtime function to
perform the operation for us. Value witness functions tend to be quite large,
so this allows us to replace them with a single call instead. This gives us the
option of making a codesize/runtime cost trade off.
* Added Attribute @_GenerateLayoutBytecode
This marks a type definition that should use generic bytecode based
value witnesses rather than generating the standard suite of
value witness functions. This should reduce the codesize of the binary
for a runtime interpretation of the bytecode cost.
* Statically link in implementation
Summary:
This creates a library to store the runtime functions in to deploy to
runtimes that do not implement bytecode layouts. Right now, that is
everything. Once these are added to the runtime itself, it can be used
to deploy to old runtimes.
* Implement Destroy at Runtime Using LayoutStrings
If GenerateLayoutBytecode is enabled, Create a layout string and use it
to call swift_generic_destroy
* Add Resilient type and Archetype Support for BytecodeLayouts
Add Resilient type and Archetype Support to Bytecode Layouts
* Implement Bytecode assign/init with copy/take
Implements swift_generic_initialize and swift_generic_assign to allow copying
types using bytecode based witnesses.
* Add EnumTag Support
* Add IRGen Bytecode Layouts Test
Added a test to ensure layouts are correct and getting generated
* Implement BytecodeLayouts ObjC retain/release
* Fix for Non static alignments in aligned groups
* Disable MultiEnums
MultiEnums currently have some correctness issues with non fixed multienum
types. Disabling them for now then going to attempt a correct implementation in
a follow up patch
* Fixes after merge
* More fixes
* Possible fix for native unowned
* Use TypeInfoeBasedTypeLayoutEntry for all scalars when ForceStructTypeLayouts is disabled
* Remove @_GenerateBytecodeLayout attribute
* Fix typelayout_based_value_witness.swift
Co-authored-by: Gwen Mittertreiner <gwenm@fb.com>
Co-authored-by: Gwen Mittertreiner <gwen.mittertreiner@gmail.com>
Currently headers produced with `-emit-objc-header` /
`-emit-objc-header-path` produce headers that include modular imports.
If the consumer wishes to operate without modules enabled, these headers
cannot be used. This patch introduces a new flag
(`-emit-clang-header-nonmodular-includes`) that when enabled
attempts to argument each modular import included in such a header with
a set of equivalent textual imports.
This new flag should allow module authors to specify allowable client list. This list is printed
in the textual module interface. Diagnostics support can come later.
The pass to decide which functions should get stack protection was added in https://github.com/apple/swift/pull/60933, but was disabled by default.
This PR enables stack protection by default, but not the possibility to move arguments into temporaries - to keep the risk low.
Moving to temporaries can be enabled with the new frontend option `-enable-move-inout-stack-protector`.
rdar://93677524
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
