... to avoid hidden cost of multiple COW checks, because they
call getArray() internally.
This obsoletes [loplugin:sequenceloop].
Also rename toNonConstRange to asNonConstRange, to reflect that
the result is a view of the sequence, not an independent object.
TODO: also drop non-const operator[], but introduce operator[]
in SequenceRange.
Change-Id: Idd5fd7a3400fe65274d2a6343025e2ef8911635d
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/123518
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
Reviewed-by: Mike Kaganski <mike.kaganski@collabora.com>
The scenarios are:
1. Calling sequence's begin() and end() in pairs to pass to algorithms
(both calls use getArray(), which does the COW checks)
2. In addition to #1, calling end() again when checking result of find
algorithms, and/or begin() to calculate result's distance
3. Using non-const sequences in range-based for loops, which internally
do #1
4. Assigning sequence to another sequence variable, and then modifying
one of them
In many cases, the sequences could be made const, or treated as const
for the purposes of the algorithms (using std::as_const, std::cbegin,
and std::cend). Where algorithm modifies the sequence, it was changed
to only call getArray() once. For that, css::uno::toNonConstRange was
introduced, which returns a struct (sublclass of std::pair) with two
iterators [begin, end], that are calculated using one call to begin()
and one call to getLength().
To handle #4, css::uno::Sequence::swap was introduced, that swaps the
internal pointer to uno_Sequence. So when a local Sequence variable
should be assigned to another variable, and the latter will be modified
further, it's now possible to use swap instead, so the two sequences
are kept independent.
The modified places were found by temporarily removing non-const end().
Change-Id: I8fe2787f200eecb70744e8b77fbdf7a49653f628
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/123542
Tested-by: Jenkins
Reviewed-by: Mike Kaganski <mike.kaganski@collabora.com>
... that happens while implementing the class declared as deprecated
with MSVC 2019.
cppuhelper/source/typeprovider.cxx(33): warning C4996: 'cppu::OImplementationId': Uses broken double checked locking
Change-Id: I469fe38bd276a554b1ef006d3da270b85f26554b
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/123422
Tested-by: Jenkins
Reviewed-by: Michael Stahl <michael.stahl@allotropia.de>
...for LIBO_INTERNAL_ONLY, instead of having them as additional overloads. That
way, loplugin:bufferadd and loplugin:stringviewparam found many further
opportunities for simplification (all addressed here). Some notes:
* There is no longer an implicit conversion from O[U]String to O[U]StringBuffer
(as that goes via user-defined conversions through string_view now), which was
most noticeable in copy initializations like
OStringBuffer buf = someStr;
that had to be changed to direct initialization,
OStringBuffer buf(someStr);
But then again, it wasn't too many places that were affected and I think we can
live with that.
* I made the O[U]StringBuffer ctors taking string_view non-explicit, mainly to
get them in line with their counterparts taking O[U]String.
* I added an OUStringBuffer::lastIndexOf string_view overload that was missing
(relative to OUStringBuffer::indexOf).
* loplugin:stringconstant needed some addition to keep the
compilerplugins/clang/test/stringconstant.cxx checks related to
OStringBuffer::append and OStringBuffer::insert working.
* loplugin:stringviewparam no longer needs the special O[U]StringBuffer-related
code that had been introduced in 1250aecd71
"loplugin:stringviewparam extend to new.."
Change-Id: Ib1bb8c4632d99b744e742605a9fef6eae959fd72
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/122904
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
Use NSLog() and not just SAL_WARN(). There are so many irrelevant
SAL_WARN() warnings displayed that these ones that can be extremely
relevant are easily missed. I typically run the app in Xcode with
SAL_LOG=-WARN.
(Such warnings are typically caused by something missing from the
solenv/bin/native-code.py.)
Change-Id: I4ab16f4f652ac34319021c9427e2e9f911ee29e4
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/122721
Tested-by: Tor Lillqvist <tml@collabora.com>
Reviewed-by: Tor Lillqvist <tml@collabora.com>
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/122756
Tested-by: Jenkins
If I'm getting it right, MSVC has a non-conforming feature
that allows to declare a function as inline without defining its
body in the header, and it'll work if the function is actually
emitted elsewhere, and the linker will sort it out. This seems
to be implemented by forcing emitting of out-of-line copies
of all inline functions, which is wasteful. /Zc:inline disables
this useless feature, which seems to save quite some space
(optimized build, starmath's .o files 350k->220k, smlo.dll
2.5M->2.2M).
The docs don't say anything about binary compatibility,
but treat it the same way as -Zc:dllexportInlines, just in case.
This change also may help avoid the tdf#144598 problem for our
AVX/etc. code, such as in Calc.
Change-Id: I73cc5d46ba1e4245e8d3b6688804c2b9684d2f9a
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/122334
Tested-by: Jenkins
Reviewed-by: Luboš Luňák <l.lunak@collabora.com>
This is clang-cl's equivalent of -fvisibility-inlines-hidden,
and it seems to be also sort of the equivalent of MSVC's
-Zc:inline. So it saves build time and disk space.
Clang docs say that this is binary compatible in only one
direction, so our public C++ code shouldn't be using this,
as external C++ code could try to use exported inlines
that are no longer there.
Change-Id: Ie6217808f8ee4a15344183abfc65038e1558d1b0
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/122352
Tested-by: Jenkins
Reviewed-by: Luboš Luňák <l.lunak@collabora.com>
Previously, all of the README files have been renamed to README.md
and now, the contents of these files were changed to use Markdown
format. Other than format inconsistency, some README.md files lacked
information about modules, or were out of date. By using LibreOffice
/ OpenOffice wiki and other documentation websites, these files were
updated. Now every README.md file has a title, and some description.
The top-level README.md file is changed to add links to the modules.
The result of processing the Markdown format README.md files can be
seen at: https://docs.libreoffice.org/
Change-Id: Ic3b0c3c064a2498d6a435253b041df010cd7797a
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/113424
Tested-by: Jenkins
Reviewed-by: Michael Stahl <michael.stahl@allotropia.de>
Reviewed-by: Adolfo Jayme Barrientos <fitojb@ubuntu.com>
Renaming all README files for all top level modules to README.md,
applying no content change at this stage to be able to track history
of the files. These files should be edited to use correct Markdown
syntax later.
Change-Id: I542fa3f3d32072156f16eaad2211a397cc212665
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/112977
Tested-by: Jenkins
Reviewed-by: Christian Lohmaier <lohmaier+LibreOffice@googlemail.com>
It's faster and I do not see any reason for the map to be sorted.
cppuhelper::ServiceManager::findServiceImplementation() may be called
quite often e.g. during text layout by i18npool::BreakIterator.
Change-Id: If8c77c506b88a0a3eac29e0d20d43d2110eed4ba
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/112280
Tested-by: Jenkins
Reviewed-by: Luboš Luňák <l.lunak@collabora.com>
...to ease the implementation in C++ code of constructor-based <implementation>s
that shall be single-instance (and which would have been implemented with e.g.
cppu::creaetOneInstanceFactory for non--constructor-based <implementation>s).
See e.g. 6e35794cad "terminate XDesktop properly
in unit tests" and 6362ebab29 "dbaccess: create
instances with uno constructors" for the clumsy approach used until now, where
the C++ constructor function uses a static instance that is cleared in
dispose(), adding fake <singleton> entries to <implementation>s where necessary
so that the ServiceManager will call those XComponent::dispose() functions when
it itself gets disposed.
For every <implementation>, the ServiceManager already holds an Implementation
data structure, so it can easily hold a singleInstance there and clear it when
the ServiceManager gets disposed. (One consequence is that single-instance
implementations are now created with their Instance.mutex locked, but that
should not cause problems in practice, given that the construction of a single-
instance implementation should not recursively request its own construction
anyway.)
The new single-instance="true" attribute is mostly useful in combination with
the constructor attribute (see above), but it can also be used for non--
constructor-based <implementation>s, at least in theory.
(The single-instance="true" attribute is orthogonal to <singleton> elements.
There are existing single-instance services---even if those should arguably have
been defined as singletons in the first place---that can benefit from
single-instance="true". And there are <implementation>s that support one or
more <singleton>s alongside one or more <service>s, where the latter are not
single-instance.)
This new single-instance="true" attribute in *.component files should not
interfere with the lo_get_constructor_map machinery in the DISABLE_DYNLOADING
branch of cppuhelper::detail::loadSharedLibComponentFactory
(cppuhelper/source/shlib.cxx) used by Android, iOS and some fuzzer code.
AFAIU, the lo_get_constructor_map machinery should only ever come into play
after the ServiceManager has decided whether or not to create a new instance
based on the single-instance attributes in the *.component files.
This commit only provides the new single-instance="true" attribute. Actual
changes of <implementation>s and their C++ constructor functions are delegated
to a series of follow-up commits. (So that they can easily be reverted
individually should the need arise.)
Change-Id: Iea6c0fc539d74477b7a536dc771b198df6b0510e
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/103734
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
...from which an OUString can cheaply be instantiated. This is the OUString
equivalent of 4b9e440c51 "Turn OStringLiteral into
a consteval'ed, static-refcound rtl_String". Most remarks about that commit
apply here too (this commit is just substantially bigger and a bit more
complicated because there were so much more uses of OUStringLiteral than of
OStringLiteral):
The one downside is that OUStringLiteral now needs to be a template abstracting
over the string length. But any uses for which that is a problem (e.g., as the
element type of a container that would no longer be homogeneous, or in the
signature of a function that shall not be turned into a template for one reason
or another) can be replaced with std::u16string_view, without loss of efficiency
compared to the original OUStringLiteral, and without loss of expressivity.
The new OUStringLiteral ctor code would probably not be very efficient if it
were ever executed at runtime, but it is intended to be only executed at compile
time. Where available, C++20 "consteval" is used to statically ensure that.
The intended use of the new OUStringLiteral is in all cases where an
object that shall itself not be an OUString (e.g., because it shall be a
global static variable for which the OUString ctor/dtor would be detrimental at
library load/unload) must be converted to an OUString instance in at least one
place. Other string literal abstractions could use std::u16string_view (or just
plain char16_t const[N]), but interestingly OUStringLiteral might be more
efficient than constexpr std::u16string_view even for such cases, as it should
not need any relocations at library load time. For now, no existing uses of
OUStringLiteral have been changed to some other abstraction (unless technically
necessary as discussed above), and no additional places that would benefit from
OUStringLiteral have been changed to use it.
Global constexpr OUStringLiteral variables defined in an included file would be
somewhat suboptimal, as each translation unit that uses them would create its
own, unshared instance. The envisioned solution is to turn them into static
data members of some class (and there may be a loplugin coming to find and fix
affected places). Another approach that has been taken here in a few cases
where such variables were only used in one .cxx anyway is to move their
definitions from the .hxx into that one .cxx (in turn causing some files to
become empty and get removed completely)---which also silenced some GCC
-Werror=unused-variable if a variable from a .hxx was not used in some .cxx
including it.
To keep individual commits reasonably manageable, some consumers of
OUStringLiteral in rtl/ustrbuf.hxx and rtl/ustring.hxx are left in a somewhat
odd state for now, where they don't take advantage of OUStringLiteral's
equivalence to rtl_uString, but just keep extracting its contents and copy it
elsewhere. In follow-up commits, those consumers should be changed
appropriately, making them treat OUStringLiteral like an rtl_uString or
dropping the OUStringLiteral overload in favor of an existing (and cheap to use
now) OUString overload, etc.
In a similar vein, comparison operators between OUString and std::u16string_view
have been added to the existing plethora of comparison operator overloads. It
would be nice to eventually consolidate them, esp. with the overloads taking
OUStringLiteral and/or char16_t const[N] string literals, but that appears
tricky to get right without introducing new ambiguities. Also, a handful of
places across the code base use comparisons between OUString and OUStringNumber,
which are now ambiguous (converting the OUStringNumber to either OUString or
std::u16string_view). For simplicity, those few places have manually been fixed
for now by adding explicit conversion to std::u16string_view.
Also some compilerplugins code needed to be adapted, and some of the
compilerplugins/test cases have become irrelevant (and have been removed), as
the tested code would no longer compile in the first place.
sal/qa/rtl/strings/test_oustring_concat.cxx documents a workaround for GCC bug
<https://gcc.gnu.org/bugzilla/show_bug.cgi?id=96878> "Failed class template
argument deduction in unevaluated, parenthesized context". That place, as well
as uses of OUStringLiteral in extensions/source/abpilot/fieldmappingimpl.cxx and
i18npool/source/localedata/localedata.cxx, which have been replaced with
OUString::Concat (and which is arguably a better choice, anyway), also caused
failures with at least Clang 5.0.2 (but would not have caused failures with at
least recent Clang 12 trunk, so appear to be bugs in Clang that have meanwhile
been fixed).
Change-Id: I34174462a28f2000cfeb2d219ffd533a767920b8
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/102222
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
This is a prerequisite for making conversion from OUStringLiteral to OUString
more efficient at least for C++20 (by replacing its internals with a constexpr-
generated sal_uString-compatible layout with a SAL_STRING_STATIC_FLAG refCount,
conditionally for C++20 for now).
For a configure-wise bare-bones build on Linux, size reported by `du -bs
instdir` grew by 118792 bytes from 1155636636 to 1155755428.
In most places just a u"..." string literal prefix had to be added. In some
places
char const a[] = "...";
variables have been changed to char16_t, and a few places required even further
changes to code (which prompted the addition of include/o3tl/string_view.hxx
helper function o3tl::equalsIgnoreAsciiCase and the additional
OUString::createFromAscii overload).
For all uses of macros expanding to string literals, the relevant uses have been
rewritten as
u"" MACRO
instead of changing the macro definitions. It should be possible to change at
least some of those macro definitions (and drop the u"" from their call sites)
in follow-up commits.
Change-Id: Iec4ef1a057d412d22443312d40c6a8a290dc6144
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/101483
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
