On OpenBSD, malloc introspection (e.g., malloc_usable_size or
malloc_size) is not provided by the platform allocator. Since allocator
introspection is currently a load-bearing piece of functionality for
ManagedBuffer and ManagedBufferPointer, pending any API changes, as a
stopgap measure, this commit marks methods in ManagedBuffer and
ManagedBufferPointer calling _swift_stdlib_malloc_size and methods
dependent thereon unavailable on OpenBSD.
This may induce some compatibility issues for some files, but at least
this change ensures that we can get stdlib to build on this platform
until the evolution process addresses this problem more thoroughly.
* Dynamic Cast Rework: Runtime
This is a completely refactored version of the core swift_dynamicCast
runtime method.
This fixes a number of bugs, especially in the handling of multiply-wrapped
types such as Optional within Any. The result should be much closer to the
behavior specified by `docs/DynamicCasting.md`.
Most of the type-specific logic is simply copied over from the
earlier implementation, but the overall structure has been changed
to be uniformly recursive. In particular, this provides uniform
handling of Optional, existentials, Any and other common "box"
types along all paths. The consistent structure should also be
easier to update in the future with new general types.
Benchmarking does not show any noticable performance implications.
**Temporarily**, the old implementation is still available. Setting the
environment variable `SWIFT_OLD_DYNAMIC_CAST_RUNTIME` before launching a program
will use the old runtime implementation. This is only to facilitate testing;
once the new implementation is stable, I expect to completely remove the old
implementation.
* Moved `random` methods out of FloatingPoint.swift
* Added `random` methods to FloatingPointRandom.swift
* Added FloatingPointRandom.swift to CMakeLists.txt
* Added FloatingPointRandom.swift to GroupInfo.json
* Moved filename within CMakeLists.txt
We can't actually check for NaN (because the notion doesn't exist for Comparable), but we can require that the endpoint is non-exceptional by checking if it equals itself.
The "Result" type is expected to have no overhead when used.
This requires the member functions to be inlinable.
Which is probably okay for library evolution, because it's unlikely that those methods change in an incompatible way.
To be able to constant fold string interpolation, the right semantic attributes must be in place.
Also, the interpolation's write function must be inlinable.
For the _typeName constant folding, a semantic attribute is required.
Instead of doing the sanity checks by default (with an assert-build of the stdlib), only do the checks if the environment variable SWIFT_DEBUG_ENABLE_COW_SANITY_CHECKS is set to true.
The checks can give false alarms in case a binary is built against a no-assert stdlib but run with an assert-stdlib.
Therefore only do the checks if it's explicitly enabled at runtime.
rdar://problem/65475776
Inlining those operations does not really give any benefit.
Those operations are complex and most likely, cannot be folded into simpler patterns after inlining, anyway.
Reduces some code size for cases where those functions were inlined (due to a not perfect inlining heuristics).
LLVM doesn't have a stable ABI for Float16 on x86 yet; we're working with Intel to get that fixed, but we don't want to make the type available on macOS until a stable ABI is actually available, because we'd break binaries compiled before any calling convention changes if we do.
This function walks all the fields of a struct, class, or tuple, and calls
`body` with the name, offset, and type of each field. `body` can perform
any required work or validation, returning `true` to continue walking fields
or `false` to stop immediately.
We ultimately want to explicitly change standard library uses of #file to #fileID, but once we do, previous compilers won’t be able to build the standard library. So instead, we will temporarily build the standard library with -enable-experimental-concise-pound-file, which should have the same effect, but will back-deploy to compilers going back several months.
