This just renames the existing "uncheckedAdd" (and related) functions to addWithOverflow. These
were already "checked" and return the partial result + bool that we want.
Swift SVN r19246
This API exposes unmediated access to memory, and most users will never
see the UnsafeArray argument that's passed to the closure, so best to be
explicit.
Swift SVN r19243
If underlying NSString contained isolated surrogates, then we were crashing in
following ways:
- subscripting by index could crash;
- index pointing to the second code unit sequence was not moved backwards
correctly. Instead of moving it to pointing to the beginning of the view it
could be moved to point to the code unit before the beginning of the view.
Swift SVN r19230
Until we get an optimizer pass to remove get/set pairs, passing a
property that is a protocol requirement as inout from generic code is
always going to cause an extra retain, causing many unintended Array
copies.
Because this dropped reference counts to 1 in some cases, it exercised
previously-untested code paths and uncovered bugs, particularly in the
handling of subrange replacement on Slice<T>.
There are still differences in speed for short arrays of CGPoint that bear
investigation, but at least as things scale up, the ratio of time goes
to 1.
Fixes <rdar://problem/17040913> append and += on an array have
completely different performance
Swift SVN r19228
Give UnsafePointer versions of CMutablePointer._setIfNonNil and _withBridgeObject/Value. Also provide a version of 'withUnsafePointer' as a staging aid so that UnsafePointer can be used in place of CMutablePointer.
Swift SVN r19215
Because _demandUniqueMutableBuffer returns nil if the buffer already
exists, rename to _createUniqueMutableBuffer.
Because _requestUniqueMutableBuffer may return native backing storage
for a slice whose bounds don't exactly match the backing storage, rename
to _requestUniqueMutableBackingBuffer
Swift SVN r19214
We (correctly) import this as AutoreleasingUnsafePointer instead of UnsafePointer in the new regime, but need to stage out the old regime fully before switching over.
Swift SVN r19200
don't call into CoreFoundation to perform UTF-8 transcoding. CoreFoundation
can replace ill-formed sequences with a single byte, which is not good enough
to implement U+FFFD insertion. Instead, use the same transcoding routine as
for contiguous buffer.
Pulled out the transcoding routine into a generic function that should be
specialized and simplified for the case when input is UnsafeArray; we should
not be losing efficiency here.
Fixes <rdar://problem/17297055> [unicode] println crashes when given string
with unpaired surrogate
Swift SVN r19157
...where T is the equivalent Swift function type. This gives us proper type
safety (ish) for C function pointers while still not treating them the same
as Swift closures.
If the function type is not one we can represent in Swift, we fall back to
COpaquePointer. CFunctionPointer<T> and COpaquePointer can be explicitly
constructed from one another, but do not freely convert.
<rdar://problem/17215978>
Swift SVN r19154
implementation:
- don't crash on NSStrings that contain isolated surrogates (partial fix, there
is a different code path that dispatches CoreFoundation and it still
crashes);
- insert U+FFFD according to Unicode recommendation;
- fix decoding of surrogate pairs when the internal buffer is almost full
(we used to drop characters in that case, rdar://16833733 + dups).
Swift SVN r19147
Keep calm: remember that the standard library has many more public exports
than the average target, and that this contains ALL of them at once.
I also deliberately tried to tag nearly every top-level decl, even if that
was just to explicitly mark things @internal, to make sure I didn't miss
something.
This does export more than we might want to, mostly for protocol conformance
reasons, along with our simple-but-limiting typealias rule. I tried to also
mark things private where possible, but it's really going to be up to the
standard library owners to get this right. This is also only validated
against top-level access control; I haven't fully tested against member-level
access control yet, and none of our semantic restrictions are in place.
Along the way I also noticed bits of stdlib cruft; to keep this patch
understandable, I didn't change any of them.
Swift SVN r19145
This is motivated by <rdar://problem/17051606>.
This ends up renaming variables as well, which seems right for
consistency since we use "predicate" as variable name.
Swift SVN r19135
Now that we use bridgeFromObjectiveCConditional to perform conditional
bridging, make bridgeFromObjectiveC handle forced bridging. For the
latter, deferred checking is acceptable.
Almost all of <rdar://problem/17319154>.
Swift SVN r19046
In UTF-8 decoder:
- implement U+FFFD insertion according to the recommendation given in the
Unicode spec. This required changing the decoder to become stateful, which
significantly increased complexity due to the need to maintain an internal
buffer.
- reject invalid code unit sequences properly instead of crashing rdar://16767868
- reject overlong sequences rdar://16767911
In stdlib:
- change APIs that assume that UTF decoding can never fail to account for
possibility of errors
- fix a bug in UnicodeScalarView that could cause a crash during backward
iteration if U+8000 is present in the string
- allow noncharacters in UnicodeScalar. They are explicitly allowed in the
definition of "Unicode scalar" in the specification. Disallowing noncharacters
in UnicodeScalar prevents actually using these scalar values as internal
special values during string processing, which is exactly the reason why they
are reserved in the first place.
- fix a crash in String.fromCString() that could happen if it was passed a null
pointer
In Lexer:
- allow noncharacters in string literals. These Unicode scalar values are not
allowed to be exchanged externally, but it is totally reasonable to have them
in literals as long as they don't escape the program. For example, using
U+FFFF as a delimiter and then calling str.split("\uffff") is completely
reasonable.
This is a lot of changes in a single commit; the primary reason why they are
lumped together is the need to change stdlib APIs to account for the
possibility of UTF decoding failure, and this has long-reaching effects
throughout stdlib where these APIs are used.
Swift SVN r19045
Revert "[stdlib] Use an enum for ArrayBuffer storage"
This reverts commit r18996.
This reverts commit r18954.
The optimizer is not ready yet to handle this change especially given
the time until Beta 3. After speaking with DaveA, we agreed to revert
this and take such large changes onto private branches until we are sure
that the optimizer is ready to handle them rather than risking
performance regressions due to hitting the "optimization cliff".
Swift SVN r19026
rdar://17380298 to track removing .. entirely for GM.
This finishes <rdar://problem/17203527> Swift range operators too easy to mis-type: change .. to ..<
Swift SVN r19004
This entry point is used in conditional downcasts (as?) to attempt to
bridge from an Objective-C class down to a specific native type (e.g.,
array, dictionary), bridging all elements eagerly so that it can
produce nil if the bridging would fail.
This is the scaffolding for <rdar://problem/17319154>, and makes the
example there work, but there is much more cleanup and optimization to
do.
Swift SVN r18999
