We've accumulated a scary amount of local patches to this directory. I
tried to merge them all, but if your favorite change is missing please
reapply it manually (and send it upstream).
The new matcher additionally covers blocks and Objective-C methods.
This matcher actually makes sure that the statement truly belongs
to that declaration's body. forFunction() incorrectly reported that
a statement in a nested block belonged to the surrounding function.
forFunction() is now deprecated due to the above footgun, in favor of
forCallable(functionDecl()) when only functions need to be considered.
Differential Revision: https://reviews.llvm.org/D102213
Original commit message:
In http://lists.llvm.org/pipermail/llvm-dev/2020-July/143257.html we have
mentioned our plans to make some of the incremental compilation facilities
available in llvm mainline.
This patch proposes a minimal version of a repl, clang-repl, which enables
interpreter-like interaction for C++. For instance:
./bin/clang-repl
clang-repl> int i = 42;
clang-repl> extern "C" int printf(const char*,...);
clang-repl> auto r1 = printf("i=%d\n", i);
i=42
clang-repl> quit
The patch allows very limited functionality, for example, it crashes on invalid
C++. The design of the proposed patch follows closely the design of cling. The
idea is to gather feedback and gradually evolve both clang-repl and cling to
what the community agrees upon.
The IncrementalParser class is responsible for driving the clang parser and
codegen and allows the compiler infrastructure to process more than one input.
Every input adds to the “ever-growing” translation unit. That model is enabled
by an IncrementalAction which prevents teardown when HandleTranslationUnit.
The IncrementalExecutor class hides some of the underlying implementation
details of the concrete JIT infrastructure. It exposes the minimal set of
functionality required by our incremental compiler/interpreter.
The Transaction class keeps track of the AST and the LLVM IR for each
incremental input. That tracking information will be later used to implement
error recovery.
The Interpreter class orchestrates the IncrementalParser and the
IncrementalExecutor to model interpreter-like behavior. It provides the public
API which can be used (in future) when using the interpreter library.
Differential revision: https://reviews.llvm.org/D96033
This reverts commit 44a4000181.
We are seeing build failures due to missing dependency to libSupport and
CMake Error at tools/clang/tools/clang-repl/cmake_install.cmake
file INSTALL cannot find
In http://lists.llvm.org/pipermail/llvm-dev/2020-July/143257.html we have
mentioned our plans to make some of the incremental compilation facilities
available in llvm mainline.
This patch proposes a minimal version of a repl, clang-repl, which enables
interpreter-like interaction for C++. For instance:
./bin/clang-repl
clang-repl> int i = 42;
clang-repl> extern "C" int printf(const char*,...);
clang-repl> auto r1 = printf("i=%d\n", i);
i=42
clang-repl> quit
The patch allows very limited functionality, for example, it crashes on invalid
C++. The design of the proposed patch follows closely the design of cling. The
idea is to gather feedback and gradually evolve both clang-repl and cling to
what the community agrees upon.
The IncrementalParser class is responsible for driving the clang parser and
codegen and allows the compiler infrastructure to process more than one input.
Every input adds to the “ever-growing” translation unit. That model is enabled
by an IncrementalAction which prevents teardown when HandleTranslationUnit.
The IncrementalExecutor class hides some of the underlying implementation
details of the concrete JIT infrastructure. It exposes the minimal set of
functionality required by our incremental compiler/interpreter.
The Transaction class keeps track of the AST and the LLVM IR for each
incremental input. That tracking information will be later used to implement
error recovery.
The Interpreter class orchestrates the IncrementalParser and the
IncrementalExecutor to model interpreter-like behavior. It provides the public
API which can be used (in future) when using the interpreter library.
Differential revision: https://reviews.llvm.org/D96033
Non-comprehensive list of cases:
* Dumping template arguments;
* Corresponding parameter contains a deduced type;
* Template arguments are for a DeclRefExpr that hadMultipleCandidates()
Type information is added in the form of prefixes (u8, u, U, L),
suffixes (U, L, UL, LL, ULL) or explicit casts to printed integral template
argument, if MSVC codeview mode is disabled.
Differential revision: https://reviews.llvm.org/D77598
This fixes two errors:
Previously, clang-format was splitting up type identifiers from the
nullable ?. This changes this behavior so that the type name sticks with
the operator.
Additionally, nullable operators attached to return types in interface
functions were not parsed correctly. Digging deeper, it looks like
interface bodies were being parsed differently than classes and structs,
causing MustBeDeclaration to be incorrect for interface members. They
now share the same logic.
One other change is reintroducing the CSharpNullable type independent of
JsTypeOptionalQuestion. Despite having a similar semantic purpose, their
actual syntax differs quite a bit.
Reviewed By: MyDeveloperDay, curdeius
Differential Revision: https://reviews.llvm.org/D101860
Fixes https://llvm.org/PR35099.
I'm not sure if this decision was intentional but its definitely confusing for users.
Reviewed By: MyDeveloperDay, HazardyKnusperkeks, curdeius
Differential Revision: https://reviews.llvm.org/D101628
Previously, the JavaScript import sorter would ignore `// clang-format
off` and `on` comments. This change fixes that. It tracks whether
formatting is enabled for a stretch of imports, and then only sorts and
merges the imports where formatting is enabled, in individual chunks.
This means that there's no meaningful total order when module references are mixed
with blocks that have formatting disabled. The alternative approach
would have been to sort all imports that have formatting enabled in one
group. However that raises the question where to insert the
formatting-off block, which can also impact symbol visibility (in
particular for exports). In practice, sorting in chunks probably isn't a
big problem.
This change also simplifies the general algorithm: instead of tracking
indices separately and sorting them, it just sorts the vector of module
references. And instead of attempting to do fine grained tracking of
whether the code changed order, it just prints out the module references
text, and compares that to the previous text. Given that source files
typically have dozens, but not even hundreds of imports, the performance
impact seems negligible.
Differential Revision: https://reviews.llvm.org/D101515
A need for such an option came up in a few libc++ reviews. That's because libc++ has both code in C++03 and newer standards.
Currently, it uses `Standard: C++03` setting for clang-format, but this breaks e.g. u8"string" literals.
Also, angle brackets are the only place where C++03-specific formatting needs to be applied.
Reviewed By: MyDeveloperDay, HazardyKnusperkeks
Differential Revision: https://reviews.llvm.org/D101344
Reverts parts of https://reviews.llvm.org/D17183, but keeps the
resetDataLayout() API and adds an assert that checks that datalayout string and
user label prefix are in sync.
Approach 1 in https://reviews.llvm.org/D17183#2653279
Reduces number of TUs build for 'clang-format' from 689 to 575.
I also implemented approach 2 in D100764. If someone feels motivated
to make us use DataLayout more, it's easy to revert this change here
and go with D100764 instead. I don't plan on doing more work in this
area though, so I prefer going with the smaller, more self-consistent change.
Differential Revision: https://reviews.llvm.org/D100776
Clang-format was indenting the lines following the `?` in the added test
case by +5 instead of +4. This only happens in a very specific
situation, where the `?` is followed by a multiline block comment, as in
the example. This fix addresses this without regressing any of the
existing tests.
Differential Revision: https://reviews.llvm.org/D101033
The if condition was testing the current element, but
forgot to check the previous element (doh), so it
would fail depending on sort order of the imports.
Differential Revision: https://reviews.llvm.org/D101020
`asserts` is a pseudo keyword in TypeScript used in return types.
Wrapping after it triggers automatic semicolon insertion, which
breaks the code semantics/syntax.
`asserts` is different from other pseudo keywords in that it is
specific to TS and only carries meaning in a very specific location.
Thus introducing a token type is probably overkill.
Differential Revision: https://reviews.llvm.org/D100953
Previously, clang-format would erroneously merge import and export
statements. These need to be kept separate, as the semantics differ.
Differential Revision: https://reviews.llvm.org/D100752
This patch implements the copy assignment for `CompilerInvocation`.
Eventually, the deep-copy operation will be moved into a `clone()` method (D100460), but until then, this is necessary for basic ergonomics.
Depends on D100455.
Reviewed By: Bigcheese
Differential Revision: https://reviews.llvm.org/D100473
Extend the matchers gathering API for types to record template
parameters. The TypeLoc type hierarchy has some types which are
templates used in CRTP such as PointerLikeTypeLoc. Record the inherited
template and template arguments of types inheriting those CRTP types in
the ClassInheritance map. Because the name inherited from is now
computed, the value type in that map changes from StringRef to
std::string. This also causes the toJSON override signature used to
serialize that map to change.
Remove the logic for skipping over empty ClassData instances. Several
classes such as TypeOfExprTypeLoc inherit a CRTP class which provides
interesting locations though the derived class does not. Record it as a
class to make the locations it inherits available.
Record the typeSourceInfo accessors too as they provide access to
TypeLocs in many classes.
The existing unit tests use UnorderedElementsAre to compare the
introspection result with the expected result. Our current
implementation of google mock (in gmock-generated-matchers.h) is limited
to support for comparing a container of 10 elements. As we are now
returning more than 10 results for one of the introspection tests,
change it to instead compare against an ordered vector of pairs.
Because a macro is used to generate API strings and API calls, disable
clang-format in blocks of expected results. Otherwise clang-format
would insert whitespaces which would then be compared against the
introspected strings and fail the test.
Introduce a recursion guard in the generated code. The TypeLoc class
has IgnoreParens() API which by default returns itself, so it would
otherwise recurse infinitely.
Differential Revision: https://reviews.llvm.org/D100516
This class initially had args to be generic to future needs. In
particular, I thought that source location introspection should show the
getBeginLoc of CallExpr args and the getArgLoc of
TemplateSpecializationLocInfo etc. However, that is probably best left
out of source location introspection because it involves node traversal.
If something like this is needed in the future, it can be added in the
future.
Differential Revision: https://reviews.llvm.org/D100688
Fixes https://llvm.org/PR41870.
Checks for newlines in option Style.EmptyLineBeforeAccessModifier are now based on the formatted new lines and not on the new lines in the file.
Reviewed By: HazardyKnusperkeks, curdeius
Differential Revision: https://reviews.llvm.org/D99503
This could probably be made into a compile time constant, but that would involve generating a second inc file.
Reviewed By: steveire
Differential Revision: https://reviews.llvm.org/D100530
Add a print method that takes a raw_ostream.
Change LocationCallFormatterCpp::format to call that method.
Reviewed By: steveire
Differential Revision: https://reviews.llvm.org/D100423
The current logic for access modifiers in classes ignores the option 'MaxEmptyLinesToKeep=1'. It is therefore impossible to have a coding style that requests one empty line after an access modifier. The patch allows the user to configure how many empty lines clang-format should add after an access modifier. This will remove lines if there are to many and will add them if there are missing.
Reviewed By: MyDeveloperDay, curdeius
Differential Revision: https://reviews.llvm.org/D98237
Fix the logic of detecting pseudo-virtual getBeginLoc etc on Stmt and
Decl subclasses.
Adjust the test infrastructure to filter out invalid source locations.
This makes the tests more clear about which nodes have which locations.
Differential Revision: https://reviews.llvm.org/D99231
Multiple lines importing from the same URL can be merged:
import {X} from 'a';
import {Y} from 'a';
Merge to:
import {X, Y} from 'a';
This change implements this merge operation. It takes care not to merge in
various corner case situations (default imports, star imports).
Differential Revision: https://reviews.llvm.org/D100466
The `CompilerInvocationBase` class factors out members of `CompilerInvocation` that need special handling (initialization or copy constructor), so that `CompilerInvocation` can be implemented as a simple value object.
Currently, the `AnalyzerOpts` member of `CompilerInvocation` violates that setup. This patch extracts the member to `CompilerInvocationBase` and handles it in the copy constructor the same way other it handles other members.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D99568
clang Tooling, and more specifically Refactoring/Rename, have support
code to extract source locations given a Unified Symbol Resolution set.
This support code is used by clang-rename and other tools that might not
be in the tree.
Currently field designated initializer are not supported.
So, renaming S::a to S::b in this code:
S s = { .a = 10 };
will not extract the field designated initializer for a (the 'a' after the
dot).
This patch adds support for field designated initialized to
RecursiveSymbolVisitor and RenameLocFinder that is used in
createRenameAtomicChanges.
Differential Revision: https://reviews.llvm.org/D100310
The function did not handle every case. In some cases this
caused assertion failure.
After the fix the function returns DependentTy if the exact
return type can not be determined.
It seems that clang itself does not call the function in the
affected cases but some checker or other code may call it.
Reviewed By: hokein
Differential Revision: https://reviews.llvm.org/D95244
Fixes bug http://bugs.llvm.org/show_bug.cgi?id=49000.
This patch allows Clang-Tidy checks to do
diag(X->getLocation(), "text") << Y->getSourceRange();
and get the highlight of `Y` as expected:
warning: text [blah-blah]
xxx(something)
^ ~~~~~~~~~
Reviewed-By: aaron.ballman, njames93
Differential Revision: http://reviews.llvm.org/D98635
Required for capturing base specifier in matchers:
`cxxRecordDecl(hasDirectBase(cxxBaseSpecifier().bind("base")))`
Reviewed By: steveire, aaron.ballman
Differential Revision: https://reviews.llvm.org/D69218
The major change here is to index macro occurrences in more places than
before, specifically
* In non-expansion references such as `#if`, `#ifdef`, etc.
* When the macro is a reference to a builtin macro such as __LINE__.
* When using the preprocessor state instead of callbacks, we now include
all definition locations and undefinitions instead of just the latest
one (which may also have had the wrong location previously).
* When indexing an existing module file (.pcm), we now include module
macros, and we no longer report unrelated preprocessor macros during
indexing the module, which could have caused duplication.
Additionally, we now correctly obey the system symbol filter for macros,
so by default in system headers only definition/undefinition occurrences
are reported, but it can be configured to report references as well if
desired.
Extends FileIndexRecord to support occurrences of macros. Since the
design of this type is to keep a single list of entities organized by
source location, we incorporate macros into the existing DeclOccurrence
struct.
Differential Revision: https://reviews.llvm.org/D99758
In D84673, we started using `DiagnosticsEngine` during command-line parsing in more contexts.
When using `ToolInvocation`, a custom `DiagnosticsConsumer` can be specified and it might expect `SourceManager` to be present on the emitted diagnostics.
This patch ensures the `SourceManager` is set up in such scenarios.
Test authored by Jordan Rupprecht.
Reviewed By: rupprecht
Differential Revision: https://reviews.llvm.org/D99414
The '-plugin-arg' command-line arguments are not being generated in deterministic order.
This patch changes the storage from `std::unordered_map` to `std::map` to enforce ordering.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D99879
(PR49478)
As ArrayType::ArrayType mentioned in clang/lib/AST/Type.cpp, a
DependentSizedArrayType might not have size expression because it it
used as the type of a dependent array of unknown bound with a dependent
braced initializer.
Thus, I add a check when mangling array of that type.
This should fix https://bugs.llvm.org/show_bug.cgi?id=49478
Reviewed By: Richard Smith - zygoloid
Differential Revision: https://reviews.llvm.org/D99407
All three cases were imported correctly.
For BlockDecls, correctly means that we don't support importing them, thus an
error is the expected behaviour.
- BlockDecls were not yet covered. I know that they are not imported but the
test at least documents it.
- Default values for ParmVarDecls were also uncovered.
- Importing bitfield FieldDecls were imported correctly.
Reviewed By: martong, shafik
Differential Revision: https://reviews.llvm.org/D99576
This patch fixes left pointer alignment after pointer qualifiers of
operators. Currently "operator void const*()" is formatted with a space between
const and pointer despite setting PointerAlignment to Left.
AFAICS this has been broken since clang-format 10.
Reviewed By: MyDeveloperDay, curdeius
Differential Revision: https://reviews.llvm.org/D99458
In JavaScript, `- -1;` is legal syntax, the language allows unary minus.
However the two tokens must not collapse together: `--1` is prefix
decrement, i.e. different syntax.
Before:
- -1; ==> --1;
After:
- -1; ==> - -1;
This change makes no attempt to format this "nicely", given by all
likelihood this represents a programming mistake by the user, or odd
generated code.
The check is not guarded by language: this appears to be a problem in
Java as well, and will also be beneficial when formatting syntactically
incorrect C++ (e.g. during editing).
Differential Revision: https://reviews.llvm.org/D99495
We do the import of the member enum specialization similarly to as we do
with member CXXRecordDecl specialization.
Differential Revision: https://reviews.llvm.org/D99421
Breaking a string literal or a function calls arguments with
AlignConsecutiveDeclarations or AlignConsecutiveAssignments did misalign
the continued line. E.g.:
void foo() {
int myVar = 5;
double x = 3.14;
auto str = "Hello"
"World";
}
or
void foo() {
int myVar = 5;
double x = 3.14;
auto str = "Hello"
"World";
}
Differential Revision: https://reviews.llvm.org/D98214
`expandedTokens(SourceRange)` used to do a binary search to get the
expanded tokens belonging to a source range. Each binary search uses
`isBeforeInTranslationUnit` to order two source locations. This is
inherently very slow.
By profiling clangd we found out that users like clangd::SelectionTree
spend 95% of time in `isBeforeInTranslationUnit`. Also it is worth
noting that users of `expandedTokens(SourceRange)` majorly use ranges
provided by AST to query this funciton. The ranges provided by AST are
token ranges (starting at the beginning of a token and ending at the
beginning of another token).
Therefore we can avoid the binary search in majority of the cases by
maintaining an index of ExpandedToken by their SourceLocations. We still
do binary search for ranges which are not token ranges but such
instances are quite low.
Performance:
`~/build/bin/clangd --check=clang/lib/Serialization/ASTReader.cpp`
Before: Took 2:10s to complete.
Now: Took 1:13s to complete.
Differential Revision: https://reviews.llvm.org/D99086
Commit
f7f9f94b2e
changed the indent of ObjC method arguments from +4 to +2, if the method
occurs after a block statement. I believe this was unintentional and there
was insufficient ObjC test coverage to catch this.
Example: `clang-format -style=google test.mm`
before:
```
void aaaaaaaaaaaaaaaaaaaaa(int c) {
if (c) {
f();
}
[dddddddddddddddddddddddddddddddddddddddddddddddddddddddd
eeeeeeeeeeeeeeeeeeeeeeeeeeeee:^(fffffffffffffff gggggggg) {
f(SSSSS, c);
}];
}
```
after:
```
void aaaaaaaaaaaaaaaaaaaaa(int c) {
if (c) {
f();
}
[dddddddddddddddddddddddddddddddddddddddddddddddddddddddd
eeeeeeeeeeeeeeeeeeeeeeeeeeeee:^(fffffffffffffff gggggggg) {
f(SSSSS, c);
}];
}
```
Differential Revision: https://reviews.llvm.org/D99063
As of CMake commit https://gitlab.kitware.com/cmake/cmake/-/commit/d993ebd4,
which first appeared in CMake 3.19.x series, in the compile commands for
clang-cl, CMake puts `--` before the input file. When operating on such a
database, the `InterpolatingCompilationDatabase` - specifically, the
`TransferableCommand` constructor - does not recognize that pattern and so, does
not strip the input, or the double dash when 'transferring' the compile command.
This results in a incorrect compile command - with the double dash and old input
file left in, and the language options and new input file appended after them,
where they're all treated as inputs, including the language version option.
Test files for some tests have names similar enough to be matched to commands
from the database, e.g.:
`.../path-mappings.test.tmp/server/bar.cpp`
can be matched to:
`.../Driver/ToolChains/BareMetal.cpp`
etc. When that happens, the tool being tested tries to use the matched, and
incorrectly 'transferred' compile command, and fails, reporting errors similar
to:
`error: no such file or directory: '/std:c++14'; did you mean '/std:c++14'? [clang-diagnostic-error]`
This happens in at least 4 tests:
Clang Tools :: clang-tidy/checkers/performance-trivially-destructible.cpp
Clangd :: check-fail.test
Clangd :: check.test
Clangd :: path-mappings.test
The fix for `TransferableCommand` removes the `--` and everything after it when
determining the arguments that apply to the new file. `--` is inserted in the
'transferred' command if the new file name starts with `-` and when operating in
clang-cl mode, also `/`. Additionally, other places in the code known to do
argument adjustment without accounting for the `--` and causing the tests to
fail are fixed as well.
Differential Revision: https://reviews.llvm.org/D98824
This moves the two tests we have for importing Objective-C nodes to their own
file. The motivation is that this means I can add more Objective-C tests without
making the compilation time of ASTImporterTest even longer. Also it seems nice
to separate the Apple-specific stuff from the ASTImporter test.
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D99162
Update ASTImporter to import value of FieldDecl::getCapturedVLAType.
Reviewed By: shafik, martong
Differential Revision: https://reviews.llvm.org/D99062
Objective-C apparently allows name conflicts between instance and class
properties, so this is valid code:
```
@protocol DupProp
@property (class, readonly) int prop;
@property (readonly) int prop;
@end
```
The ASTImporter however isn't aware of this and will consider the two properties
as if they are the same property because it just compares their name and types.
This causes that when importing both properties we only end up with one property
(whatever is imported first from what I can see).
Beside generating a different AST this also leads to a bunch of asserts and
crashes as we still correctly import the two different getters for both
properties (the import code for methods does the correct check where it
differentiated between instance and class methods). As one of the setters will
not have its associated ObjCPropertyDecl imported, any call to
`ObjCMethodDecl::findPropertyDecl` will just lead to an assert or crash.
Fixes rdar://74322659
Reviewed By: shafik, kastiglione
Differential Revision: https://reviews.llvm.org/D99077
ImmutableSet doesn't seem like the perfect fit for the RangeSet
data structure. It is good for saving memory in a persistent
setting, but not for the case when the population of the container
is tiny. This commit replaces RangeSet implementation and
redesigns the most common operations to be more efficient.
Differential Revision: https://reviews.llvm.org/D86465
Summary: Try to enable the support for C++20 coroutine keywords for AST
Matchers.
Reviewers: sammccall, njames93, aaron.ballman
Differential Revision: https://reviews.llvm.org/D96316
so that when --sysroot is specified, the detected GCC installation will not be
overridden by another from /usr which happens to have a larger version.
This behavior is particularly inconvenient when the system has a larger version
GCC while the user wants to try out an older sysroot.
Delete some tests from linux-ld.c which overlap with cross-linux.c
It is possible that imported `SourceLocExpr` can cause not expected behavior (if `__builtin_LINE()` is used together with `__LINE__` for example) but still it may be worth to import these because some projects use it.
Reviewed By: teemperor
Differential Revision: https://reviews.llvm.org/D98876
After the import, we did not copy the `TSCSpec`.
This commit resolves that.
Reviewed By: balazske
Differential Revision: https://reviews.llvm.org/D98707
SYCL compilations initiated by the driver will spawn off one or more
frontend compilation jobs (one for device and one for host). This patch
reworks the driver options to make upstreaming this from the downstream
SYCL fork easier.
This patch introduces a language option to identify host executions
(SYCLIsHost) and a -cc1 frontend option to enable this mode. -fsycl and
-fno-sycl become driver-only options that are rejected when passed to
-cc1. This is because the frontend and beyond should be looking at
whether the user is doing a device or host compilation specifically.
Because the frontend should only ever be in one mode or the other,
-fsycl-is-device and -fsycl-is-host are mutually exclusive options.
The idiom:
```
DeclContext::lookup_result R = DeclContext::lookup(Name);
for (auto *D : R) {...}
```
is not safe when in the loop body we trigger deserialization from an AST file.
The deserialization can insert new declarations in the StoredDeclsList whose
underlying type is a vector. When the vector decides to reallocate its storage
the pointer we hold becomes invalid.
This patch replaces a SmallVector with an singly-linked list. The current
approach stores a SmallVector<NamedDecl*, 4> which is around 8 pointers.
The linked list is 3, 5, or 7. We do better in terms of memory usage for small
cases (and worse in terms of locality -- the linked list entries won't be near
each other, but will be near their corresponding declarations, and we were going
to fetch those memory pages anyway). For larger cases: the vector uses a
doubling strategy for reallocation, so will generally be between half-full and
full. Let's say it's 75% full on average, so there's N * 4/3 + 4 pointers' worth
of space allocated currently and will be 2N pointers with the linked list. So we
break even when there are N=6 entries and slightly lose in terms of memory usage
after that. We suspect that's still a win on average.
Thanks to @rsmith!
Differential revision: https://reviews.llvm.org/D91524
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Differential Revision: https://reviews.llvm.org/D93164
This updates the canonical text proto raw string delimiter to `pb` for Google style, moving codebases towards a simpler and more consistent style.
Also updates a behavior where the canonical delimiter was not applied for raw strings with empty delimiters detected via well-known enclosing functions that expect a text proto, effectively making the canonical delimiter more viral. This feature is not widely used so this should be safe and more in line with promoting the canonicity of the canonical delimiter.
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D97688
We've observed this test being significantly flaky on our Mac CI
machines when we're running the full check-clang suite. It fails because
the wait_for condition isn't met within 3 seconds. We believe it's
because our CI machines are somewhat underpowered and pretty heavily
loaded when we're running the full check-clang suite.
I ran some experiments on increasing the timeout. I ran the full
check-clang suite 100 times with each timeout value and recorded how
many flaky failures we encountered in these tests. The results are:
3 second timeout (baseline): 20 failures
10 second timeout: 14 failures
20 second timeout: 4 failures
30 second timeout: 2 failures
40 second timeout: 1 failure
50 second timeout: 0 failures
60 second timeout: 0 failures
I ran another set of 100 tests for the 50 second timeout and observed
one flaky failure. By contrast, I ended up running check-clang 500 times
for the 60 second timeout and didn't observe a single flaky failure.
That's how the 60 second timeout value used in this patch was derived.
While a 60 second timeout might seem high, keep in mind that:
- This is a timeout, not a sleep; the test should require much less time
the vast majority of instances, especially on more powerful machines.
- The long timeout is most likely to occur when other tests are also
running at the same time, so the latency of the timeout will also be
masked by the latency of the other tests.
See https://reviews.llvm.org/D58418?id=200123#inline-554211 for where
this timeout was originally introduced and the possibility of raising it
if it wasn't enough was discussed.
Reviewed By: plotfi
Differential Revision: https://reviews.llvm.org/D97878
This commit removes the old way of handling Whitesmiths mode in favor of just setting the
levels during parsing and letting the formatter handle it from there. It requires a bit of
special-casing during the parsing, but ends up a bit cleaner than before. It also removes
some of switch/case unit tests that don't really make much sense when dealing with
Whitesmiths.
Differential Revision: https://reviews.llvm.org/D94500
Clang exposes an interface for extending the PCM/PCH file format: `ModuleFileExtension`.
Clang itself has only a single implementation of the interface: `TestModuleFileExtension` that can be instantiated via the `-ftest-module-file_extension=` command line argument (and is stored in `FrontendOptions::ModuleFileExtensions`).
Clients of the Clang library can extend the PCM/PCH file format by pushing an instance of their extension class to the `FrontendOptions::ModuleFileExtensions` vector.
When generating the `-ftest-module-file_extension=` command line argument from `FrontendOptions`, a downcast is used to distinguish between the Clang's testing extension and other (client) extensions.
This functionality is enabled by LLVM-style RTTI. However, this style of RTTI is hard to extend, as it requires patching Clang (adding new case to the `ModuleFileExtensionKind` enum).
This patch switches to the LLVM RTTI for open class hierarchies, which allows libClang users (e.g. Swift) to create implementations of `ModuleFileExtension` without patching Clang. (Documentation of the feature: https://llvm.org/docs/HowToSetUpLLVMStyleRTTI.html#rtti-for-open-class-hierarchies)
Reviewed By: artemcm
Differential Revision: https://reviews.llvm.org/D97702
clang-format documentation states that having enabled
FixNamespaceComments one may expect below code:
c++
namespace a {
foo();
}
to be turned into:
c++
namespace a {
foo();
} // namespace a
In reality, no "// namespace a" was added. The problem was too high
value of kShortNamespaceMaxLines, which is used while deciding whether
a namespace is long enough to be formatted.
As with 9163fe2, clang-format idempotence is preserved.
Differential Revision: https://reviews.llvm.org/D87587
... without an active column limit.
Before line comments were not touched at all with ColumnLimit == 0.
Differential Revision: https://reviews.llvm.org/D96896
Currently our strategy for getting header compile flags is something like:
A) look for flags for the header in compile_commands.json
This basically never works, build systems don't generate this info.
B) try to match to an impl file in compile_commands.json and use its flags
This only (mostly) works if the headers are in the same project.
C) give up and use fallback flags
This kind of works for stdlib in the default configuration, and
otherwise doesn't.
Obviously there are big gaps here.
This patch inserts a new attempt between A and B: if the header is
transitively included by any open file (whether same project or not),
then we use its compile command.
This doesn't make any attempt to solve some related problems:
- parsing non-self-contained header files in context (importing PP state)
- using the compile flags of non-opened candidate files found in the index
Fixes https://github.com/clangd/clangd/issues/123
Fixes https://github.com/clangd/clangd/issues/695
See https://github.com/clangd/clangd/issues/519
Differential Revision: https://reviews.llvm.org/D97351
This is a bug fix of https://bugs.llvm.org/show_bug.cgi?id=49175
The expected code format:
unsigned int* a;
int* b;
unsigned int Const* c;
The actual code after formatting (without this patch):
unsigned int* a;
int* b;
unsigned int Const* c;
Differential Revision: https://reviews.llvm.org/D97137
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