Decrease the size of nominal type descriptors and make them true-const by relative-addressing the other metadata they need to reference, which should all be included in the same image as the descriptor itself. Relative-referencing string constants exposes a bug in the Apple linker, which crashes when resolving relative relocations to coalesceable symbols (rdar://problem/22674524); work around this for now by revoking the `unnamed_addr`-ness of string constants that we take relative references to. (I haven't tested whether GNU ld or gold also have this problem on Linux; it may be possible to conditionalize the workaround to only apply to Darwin targets for now.)
Reuses the enum metadata layout and builder because most of the logic is
also required for Optional (generic arg and payload). We may want to
optimize this at some point (Optional doesn't have a Parent), but I
don't see much opportunity.
Note that with this approach there will be no change in metadata layout.
Changing the kind still breaks the ABI of course.
Also leaves the MirrorData summary string as "(Enum Value)". We should
consider changing it.
This value witness function takes an address of an enum value where the
payload has already been initialized, together with a case index, and
forms the enum value.
The formal behavior can be thought of as satisfying an identity in
relation to the existing two enum value witnesses. For any enum
value, the following is to leave the value unchanged:
tag = getEnumTag(value)
destructiveProjectEnumData(value)
destructiveInjectEnumData(value, tag)
This is the last missing piece for the inject_enum_addr SIL instruction
to handle resilient enums, allowing the implementation of an enum to be
decoupled from its uses. Also, it should be useful for dynamically
constructing enum cases with write reflection, once we get around to
doing such a thing.
The body of the value witness is emitted by a new emitStoreTag() method
on EnumImplStrategy. This is similar to the existing storeTag(), except
the case index is a value instead of a contant.
This is implemented as follows for the different enum strategies:
1) For enums consisting of a single case, this is trivial.
2) For enums where all cases are empty, stores the case index into the
payload area.
3) For enums with a single payload case, emits a call to a runtime
function. Note that for non-generic single payload enums, this could
be open-coded more efficiently, but the function still has the
correct behavior since it supports extra inhabitants and so on.
A follow-up patch will make this more efficient.
4) For multi-payload enums, there are two cases:
a) If one of the payloads is generic or resilient, the enum is
dynamically-sized, and a call to a runtime function is emitted.
b) If the entire enum is fixed-size, the value witness checks if
the case is empty or not.
If the case has a payload, the case index is swizzled into
spare bits of the payload, if any, with remaining bits going
into the extra tag area.
If the case is empty, the case index is swizzled into the
spare bits of the payload, the remaining bits of the payload,
and the extra tag area.
The implementations of emitStoreTag() duplicate existing logic in the
enum strategies, in particular case 4)b) is rather complicated.
Code cleanups are welcome here!
This is a bit of a hodge-podge of related changes that I decided
weren't quite worth teasing apart:
First, rename the weak{Retain,Release} entrypoints to
unowned{Retain,Release} to better reflect their actual use
from generated code.
Second, standardize the names of the rest of the entrypoints around
unowned{operation}.
Third, standardize IRGen's internal naming scheme and API for
reference-counting so that (1) there are generic functions for
emitting operations using a given reference-counting style and
(2) all operations explicitly call out the kind and style of
reference counting.
Finally, implement a number of new entrypoints for unknown unowned
reference-counting. These entrypoints use a completely different
and incompatible scheme for working with ObjC references. The
primary difference is that the new scheme abandons the flawed idea
(which I take responsibility for) that we can simulate an unowned
reference count for ObjC references, and instead moves towards an
address-only scheme when the reference might store an ObjC reference.
(The current implementation is still trivially takable, but that is
not something we should be relying on.) These will be tested in a
follow-up commit. For now, we still rely on the bad assumption of
reference-countability.
Getting the name of a type seems like reasonable core runtime functionality, and something the runtime can cache on its side too. Have the function return a pointer to a raw string in memory owned by the runtime, and have it be wrappen in a Swift.String on the standard library side.
Move the ObjC internal declarations to a public runtime header so they can be shared, and rename _swift_deallocClassInstance to the more descriptive name swift_rootObjCDealloc (and make it only available with ObjC interop).
Set up a separate libSwiftStubs.a archive for C++ stub functionality that's needed by the standard library but not part of the core runtime interface. Seed it with the Stubs.cpp and LibcShims.cpp files, which consist only of stubs, though a few stubs are still strewn across the runtime code base.
some of the ARC entry points. rdar://22724641. After this commit,
swift_retain_noresult will be completely replaced by swift_retain.
LLVMARCOpts pass is modified NOT to rewrite swift_retain to
swift_retain_noresult which forward no reference.
Swift SVN r32082
After this commit, swift_retain will return no reference and LLVMARCContract pass is modified NOT to rewrite
swift_retain_noresult to old swift_retain which forwarded the reference.
Swift SVN r32075
I asked that the patches were split up so I could do post commit review.
This reverts commit r32059.
This reverts commit r32058.
This reverts commit r32056.
This reverts commit r32055.
Swift SVN r32060
to remove reference forwarding for some of the ARC entry points. rdar://22724641. After this
commit, swift_retain_noresult will be completely replaced by swift_retain and LLVMARCOpts.cpp
will no longer canonicalize swift_retain to swift_retain_noresult as now swift_retain returns no
reference.
Swift SVN r32058
to remove reference forwarding for some of the ARC entry points. rdar://22724641. After this
commit, swift_retain will be the same as swift_retain_noresult, returning no reference.
LLVMARCContract pass is also modified NOT to rewrite swift_retain_noresult to the
old swift_retain which forwards the reference.
Swift SVN r32055
Not every relative address makes sense to be conditionally indirect, so separate RelativeIndirectablePointer (which takes a tag bit to indicate whether the reference is directly to the object in question or to memory containing its address, such as its GOT entry) and RelativeDirectPointer. NFC.
Swift SVN r31839
By using relative references, either directly to symbols internal to the current TU, or to the GOT entry for external symbols, we avoid unnecessary runtime relocations, and we save space on 64-bit platforms, since a single image is still <2GB in size. For the 64-bit standard library, this trades 26KB of fake-const data in __DATA,__swift1_proto for 13KB of true-const data in __TEXT,__swift2_proto. Implements rdar://problem/22334380.
Swift SVN r31555
dealloc_ref [destructor] is the existing behavior. It expects the
reference count to have reached zero and the isDeallocating bit to
be set.
The new [constructor] variant first drops the initial strong
reference.
This allows DI to properly free uninitialized instances in
constructors. Previously this would fail with an assertion if the
runtime was built with debugging enabled.
Progress on <rdar://problem/21991742>.
Swift SVN r31142
This reverts commit r30215.
Fixes a bunch of problems on the ASAN bot.
Before:
Swift :: 1_stdlib/ErrorType.swift
Swift :: 1_stdlib/Runtime.swift
Swift :: Constraints/bridging.swift
Swift :: Constraints/diagnostics.swift
Swift :: Constraints/lvalues.swift
Swift :: DebugInfo/variables-repl.swift
Swift :: Interpreter/enum_runtime_alignment.swift
Swift :: Interpreter/nil_error_value.swift
Swift :: Interpreter/return_from_main.swift
Swift :: Misc/misc_diagnostics.swift
Swift :: Prototypes/Result.swift
Swift :: expr/expressions.swift
Swift-Unit :: runtime/SwiftRuntimeTests/MetadataTest.installCommonValueWitnesses_pod_indirect
After:
Swift :: Constraints/bridging.swift
Swift :: Constraints/diagnostics.swift
Swift :: Constraints/lvalues.swift
Swift :: Misc/misc_diagnostics.swift
Swift :: expr/expressions.swift
Swift-Unit :: runtime/SwiftRuntimeTests/MetadataTest.installCommonValueWitnesses_pod_indirect
Swift SVN r30396
Full type metadata isn't necessary to calculate the runtime layout of a dependent struct or enum; we only need the non-function data from the value witness table (size, alignment, extra inhabitant count, and POD/BT/etc. flags). This can be generated more efficiently than the type metadata for many types--if we know a specific instantiation is fixed-layout, we can regenerate the layout information, or if we know the type has the same layout as another well-known type, we can get the layout from a common value witness table. This breaks a deadlock in most (but not all) cases where a value type is recursive using classes or fixed-layout indirected structs like UnsafePointer. rdar://problem/19898165
This time, factor out the ObjC-dependent parts of the tests so they only run with ObjC interop.
Swift SVN r30266
Full type metadata isn't necessary to calculate the runtime layout of a dependent struct or enum; we only need the non-function data from the value witness table (size, alignment, extra inhabitant count, and POD/BT/etc. flags). This can be generated more efficiently than the type metadata for many types--if we know a specific instantiation is fixed-layout, we can regenerate the layout information, or if we know the type has the same layout as another well-known type, we can get the layout from a common value witness table. This breaks a deadlock in most (but not all) cases where a value type is recursive using classes or fixed-layout indirected structs like UnsafePointer. rdar://problem/19898165
Swift SVN r30243
This came up for multi-payload enums without generic parameters, eg
enum MyError {
case BusError
case TrainError(Int)
case DataLoss(String)
}
Fixes <rdar://problem/21739870>.
Swift SVN r30215
These will be used for reflection, and eventually to speed up generic
operations on single payload enums as well.
Progress on <rdar://problem/21739870>.
Swift SVN r30214
