Summary:
Object of type `Compilation` now can keep a callback that is called
after each execution of `Command`. This must simplify adaptation of
clang in custom distributions and allow facilities like collection of
execution statistics.
Reviewers: rsmith, rjmccall, Eugene.Zelenko
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D78899
Made the isExpandedFromMacro matcher work on Stmt's, TypeLocs and Decls in line with the other macro expansion matchers.
Also tweaked it to take a `std::string` instead of a `StringRef`.
This prevents potential use-after-free bugs if the matcher is created with a string thats destroyed before the matcher finishes matching.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D90303
Summary:
IgnoreUnlessSpelledInSource mode should ignore these because they are
not written in the source. This matters for example when trying to
replace types or values which are templated. The new test in
TransformerTest.cpp in this commit demonstrates the problem.
In existing matcher code, users can write
`unless(isInTemplateInstantiation())` or `unless(isInstantiated())` (the
user must know which to use). The point of the
TK_IgnoreUnlessSpelledInSource mode is to allow the novice to avoid such
details. This patch changes the IgnoreUnlessSpelledInSource mode to
skip over implicit template instantiations.
This patch does not change the TK_AsIs mode.
Note: An obvious attempt at an alternative implementation would simply
change the shouldVisitTemplateInstantiations() in ASTMatchFinder.cpp to
return something conditional on the operational TraversalKind. That
does not work because shouldVisitTemplateInstantiations() is called
before a possible top-level traverse() matcher changes the operational
TraversalKind.
Reviewers: sammccall, aaron.ballman, gribozavr2, ymandel, klimek
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D80961
TokenAnnotator::splitPenalty() was always returning 0 for opening parens if
AlignAfterOpenBracket was set to BAS_DontAlign, so the preferred point for
line breaking was always after the open paren (and was ignoring
PenaltyBreakBeforeFirstCallParameter). This change restricts the zero
penalty to the AllowAllArgumentsOnNextLine case. This results in improved
formatting for FreeBSD where we set AllowAllArgumentsOnNextLine: false
and a high value for PenaltyBreakBeforeFirstCallParameter to avoid breaking
after the open paren.
Before:
```
functionCall(
paramA, paramB, paramC);
void functionDecl(
int A, int B, int C)
```
After:
```
functionCall(paramA, paramB,
paramC);
void functionDecl(int A, int B,
int C)
```
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D90246
This reverts commit 940d0a310d,
effectively reapplying 84e8257937, after
working around the compile errors on the bots that I wasn't seeing
locally. I removed the `constexpr` from `OptionalStorage<FileEntryRef>`
that I had cargo-culted from the generic version, since `FileEntryRef`
isn't relevant in `constexpr` contexts anyway.
The original commit message follows:
Make a few changes to the `FileEntryRef` API in preparation for
propagating it enough to remove `FileEntry::getName()`.
- Allow `FileEntryRef` to degrade implicitly to `const FileEntry*`. This
allows functions currently returning `const FileEntry *` to be updated
to return `FileEntryRef` without requiring all callers to be updated
in the same patch. This helps avoid both (a) massive patches where
many fields and locals are updated simultaneously and (b) noisy
incremental patches where the first patch adds `getFileEntry()` at
call sites and the second patch removes it. (Once `FileEntryRef` is
everywhere, we should remove this API.)
- Change `operator==` to compare the underlying `FileEntry*`, ignoring
any difference in the spelling of the filename. There were 0 users of
the existing function because it's not useful. In case comparing the
exact named reference becomes important, add/test `isSameRef`.
- Add `==` comparisons between `FileEntryRef` and `const FileEntry *`
(compares the `FileEntry*`).
- Customize `OptionalStorage<FileEntryRef>` to be pointer-sized. Add
a private constructor that initializes with `nullptr` and specialize
`OptionalStorage` to use it. This unblocks updating fields in
size-sensitive data structures that currently use `const FileEntry *`.
- Add `OptionalFileEntryRefDegradesToFileEntryPtr`, a wrapper around
`Optional<FileEntryRef>` that degrades to `const FileEntry*`. This
facilitates future incremental patches, like the same operator on
`FileEntryRef`. (Once `FileEntryRef` is everywhere, we should remove
this class.)
- Remove the unncessary `const` from the by-value return of
`FileEntryRef::getName`.
- Delete the unused function `FileEntry::isOpenForTests`.
Note that there are still `FileEntry` APIs that aren't wrapped and I
plan to deal with these separately / incrementally, as they are needed.
Differential Revision: https://reviews.llvm.org/D89834
This reverts commit 5530fb586f.
This reverts commit 010238a296.
This reverts commit 84e8257937.
Having trouble getting the bots compiling. Will try again later.
Make a few changes to the `FileEntryRef` API in preparation for
propagating it enough to remove `FileEntry::getName()`.
- Allow `FileEntryRef` to degrade implicitly to `const FileEntry*`. This
allows functions currently returning `const FileEntry *` to be updated
to return `FileEntryRef` without requiring all callers to be updated
in the same patch. This helps avoid both (a) massive patches where
many fields and locals are updated simultaneously and (b) noisy
incremental patches where the first patch adds `getFileEntry()` at
call sites and the second patch removes it. (Once `FileEntryRef` is
everywhere, we should remove this API.)
- Change `operator==` to compare the underlying `FileEntry*`, ignoring
any difference in the spelling of the filename. There were 0 users of
the existing function because it's not useful. In case comparing the
exact named reference becomes important, add/test `isSameRef`.
- Add `==` comparisons between `FileEntryRef` and `const FileEntry *`
(compares the `FileEntry*`).
- Customize `OptionalStorage<FileEntryRef>` to be pointer-sized. Add
a private constructor that initializes with `nullptr` and specialize
`OptionalStorage` to use it. This unblocks updating fields in
size-sensitive data structures that currently use `const FileEntry *`.
- Add `OptionalFileEntryRefDegradesToFileEntryPtr`, a wrapper around
`Optional<FileEntryRef>` that degrades to `const FileEntry*`. This
facilitates future incremental patches, like the same operator on
`FileEntryRef`. (Once `FileEntryRef` is everywhere, we should remove
this class.)
- Remove the unncessary `const` from the by-value return of
`FileEntryRef::getName`.
- Delete the unused function `FileEntry::isOpenForTests`.
Note that there are still `FileEntry` APIs that aren't wrapped and I
plan to deal with these separately / incrementally, as they are needed.
Differential Revision: https://reviews.llvm.org/D89834
Summary:
Skip over elidable nodes, and ensure that intermediate
CXXFunctionalCastExpr nodes are also skipped if they are semantic.
Reviewers: klimek, ymandel
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D82278
This patch is mainly doing two things:
1. Adding support for parentheses, making the combination of target features
more diverse;
2. Making the priority of ’,‘ is higher than that of '|' by default. So I need
to make some change with PTX Builtin function.
Differential Revision: https://reviews.llvm.org/D89184
This gives us slightly nicer syntax (foreach) for idioms currently expressed
as a loop, and the option to use range algorithms where it makes sense
(e.g. llvm::all_of et al encapsulate the needed flow control in a useful way).
It's also a building block for iteration over filtered views (e.g. iterate over
all Stmt children, with the right type):
for (const Statement &S : filter<Statement>(N.children()))
...
I realize the recent direction has been mostly towards strongly-typed
node-specific facilities, but I think it's important we have convenient
generic facilities too.
Differential Revision: https://reviews.llvm.org/D90023
Shrink `FileEntryRef` to the size of a pointer, by having it directly
reference the `StringMapEntry` the same way that `DirectoryEntryRef`
does. This makes `FileEntryRef::FileEntryRef` private as a side effect
(`FileManager` is a friend!).
There are two helper types added within `FileEntryRef`:
- `FileEntryRef::MapValue` is the type stored in
`FileManager::SeenFileEntries`. It's a replacement for
`SeenFileEntryOrRedirect`, where the second pointer type has been
changed from `StringRef*` to `MapEntry*` (see next bullet).
- `FileEntryRef::MapEntry` is the instantiation of `StringMapEntry<>`
where `MapValue` is stored. This is what `FileEntryRef` has a pointer
to, in order to grab the name in addition to the value.
Differential Revision: https://reviews.llvm.org/D89488
After D86959 the code `#define lambda [](const decltype(x) &ptr) {}`
was formatted as `#define lambda [](const decltype(x) & ptr) {}` due to
now parsing the '&' token as a BinaryOperator. The problem was caused by
the condition `Line.InPPDirective && (!Left->Previous || !Left->Previous->is(tok::identifier))) {`
being matched and therefore not performing the checks for "previous token
is one of decltype/_Atomic/etc.". This patch moves those checks after the
existing if/else chain to ensure the left-parent token classification is
always run after checking whether the contents of the parens is an
expression or not.
This change also introduces a new TokenAnnotatorTest that checks the
token kind and Role of Tokens after analyzing them. This is used to check
for TT_PointerOrReference, in addition to indirectly testing this based
on the resulting formatting.
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D88956
Put the guts of `ComputeLineNumbers` into `LineOffsetMapping::get` and
`LineOffsetMapping::LineOffsetMapping`. As a drive-by, store the number
of lines directly in the bump-ptr-allocated array.
Differential Revision: https://reviews.llvm.org/D89913
`SourceManager::isMainFile` does not use the filename, so it doesn't
need the full `FileEntryRef`; in fact, it's misleading to take the name
because that makes it look relevant. Simplify the API, and in the
process remove some calls to `FileEntryRef::FileEntryRef` in the unit
tests (which were blocking making that private to `SourceManager`).
Differential Revision: https://reviews.llvm.org/D89507
This functionality is commonly needed in clang tidy checks (based on
transformer) that only print warnings, without suggesting any edits. The no-op
edit allows the user to associate a diagnostic message with a source location.
Differential Revision: https://reviews.llvm.org/D89961
Some early errors during the ASTUnit creation were not transferred to the `FailedParseDiagnostic` so when the code in `LoadFromCommandLine` swaps its content with the content of `StoredDiagnostics` they cannot be retrieved by the user in any way.
Reviewed By: andrewrk, dblaikie
Differential Revision: https://reviews.llvm.org/D78658
Add a test demonstrating `getFileRef`'s behaviour, which isn't obvious
from code inspection when it's handling a redirected file.
Differential Revision: https://reviews.llvm.org/D89469
In order to drop the final callers to `SourceManager::getBuffer`, change
`FrontendInputFile` to use `Optional<MemoryBufferRef>`. Also updated
the "unowned" version of `SourceManager::createFileID` to take a
`MemoryBufferRef` (it now calls `MemoryBuffer::getMemBuffer`, which
creates a `MemoryBuffer` that does not own the buffer data).
Differential Revision: https://reviews.llvm.org/D89427
This allows building the clang-format unit tests in only 657 ninja steps
rather than 1257 which allows for much faster incremental builds after a
git pull.
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D89709
This allows removing the clangAST dependency from libclangToolingCore and
therefore allows clang-format to be built without depending on clangAST.
Before 1166 files had to be compiled for clang-format, now only 796.
Reviewed By: bkramer
Differential Revision: https://reviews.llvm.org/D89708
PartialDiagnostic misses some functions compared to DiagnosticBuilder.
This patch refactors DiagnosticBuilder and PartialDiagnostic, extracts
the common functionality so that the streaming << operators are
shared.
Differential Revision: https://reviews.llvm.org/D84362
Some projects (e.g. FreeBSD) align pointers to the right but expect a
space between the '*' and any pointer qualifiers such as const. To handle
these cases this patch adds a new config option SpaceAroundPointerQualifiers
that can be used to configure whether spaces need to be added before/after
pointer qualifiers.
PointerAlignment = Right
SpaceAroundPointerQualifiers = Default/After:
void *const *x = NULL;
SpaceAroundPointerQualifiers = Before/Both
void * const *x = NULL;
PointerAlignment = Left
SpaceAroundPointerQualifiers = Default/Before:
void* const* x = NULL;
SpaceAroundPointerQualifiers = After/Both
void* const * x = NULL;
PointerAlignment = Middle
SpaceAroundPointerQualifiers = Default/Before/After/Both:
void * const * x = NULL;
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D88227
ClangFormat does not correctly handle an Objective-C interface declaration
with both lightweight generics and a protocol conformance.
This simple example:
```
@interface Foo : Bar <Baz> <Blech>
@end
```
means `Foo` extends `Bar` (a lightweight generic class whose type
parameter is `Baz`) and also conforms to the protocol `Blech`.
ClangFormat should not apply any changes to the above example, but
instead it currently formats it quite poorly:
```
@interface Foo : Bar <Baz>
<Blech>
@end
```
The bug is that `UnwrappedLineParser` assumes an open-angle bracket
after a base class name is a protocol list, but it can also be a
lightweight generic specification.
This diff fixes the bug by factoring out the logic to parse
lightweight generics so it can apply both to the declared class
as well as the base class.
Test Plan: New tests added. Ran tests with:
% ninja FormatTests && ./tools/clang/unittests/Format/FormatTests
Confirmed tests failed before diff and passed after diff.
Reviewed By: sammccall, MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D89496
Currently, `after` fails when applied to locations in macro arguments. This
change projects the subrange into a file source range and then applies `after`.
Differential Revision: https://reviews.llvm.org/D89468
Update clang-tools-extra, clang/tools, clang/unittests to migrate from
`SourceManager::getBuffer`, which returns an always dereferenceable
`MemoryBuffer*`, to `getBufferOrNone` or `getBufferOrFake`, both of
which return a `MemoryBufferRef`, depending on whether the call site was
checking for validity of the buffer. No functionality change intended.
Differential Revision: https://reviews.llvm.org/D89416
The argument passed to the preprocessor macros `NS_SWIFT_NAME(x)` and
`CF_SWIFT_NAME(x)` is stringified before passing to
`__attribute__((swift_name("x")))`.
ClangFormat didn't know about this stringification, so its custom parser
tried to parse the argument(s) passed to the macro as if they were
normal function arguments.
That means ClangFormat currently incorrectly inserts whitespace
between `NS_SWIFT_NAME` arguments with colons and dots, so:
```
extern UIWindow *MainWindow(void) NS_SWIFT_NAME(getter:MyHelper.mainWindow());
```
becomes:
```
extern UIWindow *MainWindow(void) NS_SWIFT_NAME(getter : MyHelper.mainWindow());
```
which clang treats as a parser error:
```
error: 'swift_name' attribute has invalid identifier for context name [-Werror,-Wswift-name-attribute]
```
Thankfully, D82620 recently added the ability to treat specific macros
as "whitespace sensitive", meaning their arguments are implicitly
treated as strings (so whitespace is not added anywhere inside).
This diff adds `NS_SWIFT_NAME` and `CF_SWIFT_NAME` to
`WhitespaceSensitiveMacros` so their arguments are implicitly treated
as whitespace-sensitive.
Test Plan:
New tests added. Ran tests with:
% ninja FormatTests && ./tools/clang/unittests/Format/FormatTests
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D89425
During the import of attributes we forgot to set the spelling list
index. This caused a segfault when we wanted to traverse the AST
(e.g. by the dump() method).
Differential Revision: https://reviews.llvm.org/D89318
During the import of FormatAttrs we forgot to import the type (e.g
`__scanf__`) of the attribute. This caused a segfault when we wanted to
traverse the AST (e.g. by the dump() method).
Differential Revision: https://reviews.llvm.org/D89319
After D88666, which implemented DirectoryWatcher on Windows, we're
seeing test failures on Chromium's Windows bots.
Try raising the timeout in case the test is failing due to high load on
the machine.
This implements the directory watcher on Windows. It does the most
naive thing for simplicity. ReadDirectoryChangesW is used to monitor
the changes. However, in order to support interruption, we must use
overlapped IO, which allows us to use the blocking, synchronous
mechanism. We create a thread to post the notification to the consumer
to allow the monitoring to continue. The two threads communicate via a
locked queue.
Differential Revision: https://reviews.llvm.org/D88666
Reviewed By: Adrian McCarthy
The Callbacks.cpp test was taking a long time to compile on some build bots
causing timeouts. This patch splits up that test into five separate cpp
files and a header file.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D88886
This patch extracts the ExprMutAnalyzer changes from https://reviews.llvm.org/D54943
into its own revision for simpler review and more atomic changes.
The analysis results are improved. Nested expressions (e.g. conditional
operators) are now detected properly. Some edge cases, especially
template induced imprecisions are improved upon.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D88088
Object of class `Command` contains various properties of a command to
execute, but output file was missed from them. This change adds this
property. It is required for reporting consumed time and memory implemented
in D78903 and may be used in other cases too.
Differential Revision: https://reviews.llvm.org/D78902
While debugging a different clang-format failure, I tried to reuse the
MacroExpander lexer, but was surprised to see that it marks all C++
keywords (e.g. const, decltype) as being of type identifier. After stepping
through the ::format() code, I noticed that the difference between these
two is that the identifier table was not being initialized based on the
FormatStyle, so only basic tokens such as tok::semi, tok::plus, etc. were
being handled.
Reviewed By: klimek
Differential Revision: https://reviews.llvm.org/D88952
After this change all nodes that have a delimited-list are using the
`List` API.
Implementation details:
Let's look at a declaration with multiple declarators:
`int a, b;`
To generate a declarator list node we need to have the range of
declarators: `a, b`:
However, the `ClangAST` actually stores them as separate declarations:
`int a ;`
`int b;`
We solve that by appropriately marking the declarators on each separate
declaration in the `ClangAST` and then for the final declarator `int
b`, shrinking its range to fit to the already marked declarators.
Differential Revision: https://reviews.llvm.org/D88403
Summary:
The MacroExpander allows to expand simple (non-resursive) macro
definitions from a macro identifier token and macro arguments. It
annotates the tokens with a newly introduced MacroContext that keeps
track of the role a token played in expanding the macro in order to
be able to reconstruct the macro expansion from an expanded (formatted)
token stream.
Made Token explicitly copy-able to enable copying tokens from the parsed
macro definition.
Reviewers: sammccall
Subscribers: mgorny, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83296
For /C++/ constructor initializers `ExprEngine:computeUnderConstruction()`
asserts that they are all member initializers. This is not neccessarily
true when this function is used to get the return value for the
construction context thus attempts to fetch return values of base and
delegating constructor initializers result in assertions. This small
patch fixes this issue.
Differential Revision: https://reviews.llvm.org/D85351
Currently, when marshaling a dynamic AST matchers, we check for the type
and value validity of matcher arguments at the same time for some matchers.
For instance, when marshaling hasAttr("foo"), the argument is first type
checked to ensure it's a string and then checked to see if that string can
locate an attribute with that name. Similar happens for other enumeration
conversions like cast kinds or unary operator kinds. If the type is
correct but the value cannot be looked up, we make a best-effort attempt
to find a nearby name that the user might have meant, but if one cannot
be found, we throw our hands up and claim the types don't match.
This has an unfortunate behavior that when the user enters something of
the correct type but a best guess cannot be located, you get confusing
error messages like:
Incorrect type for arg 1. (Expected = string) != (Actual = String).
This patch splits the argument check into two parts: if the types don't
match, give a type diagnostic. If the type matches but the value cannot
be converted, give a best guess diagnostic or a value could not be
located diagnostic. This addresses PR47057.
There can be Macros that are tagged with `modifiable`. Thus verifying
`canModifyAllDescendants` is not sufficient to avoid macros when deep
copying.
We think the `TokenBuffer` could inform us whether a `Token` comes from
a macro. We'll look into that when we can surface this information
easily, for instance in unit tests for `ComputeReplacements`.
Differential Revision: https://reviews.llvm.org/D88034
* Introduce `TreeTest.cpp` to unit test `Tree.h`
* Add `generateAllTreesWithShape` to generating test cases
* Add tests for `findFirstLeaf` and `findLastLeaf`
* Fix implementations of `findFirstLeaf` and `findLastLeaf` that had
been broken when empty `Tree` were present.
Differential Revision: https://reviews.llvm.org/D87779
There are several `::IsStructurallyEquivalent` overloads for Decl subclasses
that are used for comparing declarations. There is also one overload that takes
just two Decl pointers which ends up queuing the passed Decls to be later
compared in `CheckKindSpecificEquivalence`.
`CheckKindSpecificEquivalence` implements the dispatch logic for the different
Decl subclasses. It is supposed to hand over the queued Decls to the
subclass-specific `::IsStructurallyEquivalent` overload that will actually
compare the Decl instance. It also seems to implement a few pieces of actual
node comparison logic inbetween the dispatch code.
This implementation causes that the different overloads of
`::IsStructurallyEquivalent` do different (and sometimes no) comparisons
depending on which overload of `::IsStructurallyEquivalent` ends up being
called.
For example, if I want to compare two FieldDecl instances, then I could either
call the `::IsStructurallyEquivalent` with `Decl *` or with `FieldDecl *`
parameters. The overload that takes FieldDecls is doing a correct comparison.
However, the `Decl *` overload just queues the Decl pair.
`CheckKindSpecificEquivalence` has no dispatch logic for `FieldDecl`, so it
always returns true and never does any actual comparison.
On the other hand, if I try to compare two FunctionDecl instances the two
possible overloads of `::IsStructurallyEquivalent` have the opposite behaviour:
The overload that takes `FunctionDecl` pointers isn't comparing the names of the
FunctionDecls while the overload taking a plain `Decl` ends up comparing the
function names (as the comparison logic for that is implemented in
`CheckKindSpecificEquivalence`).
This patch tries to make this set of functions more consistent by making
`CheckKindSpecificEquivalence` a pure dispatch function without any
subclass-specific comparison logic. Also the dispatch logic is now autogenerated
so it can no longer miss certain subclasses.
The comparison code from `CheckKindSpecificEquivalence` is moved to the
respective `::IsStructurallyEquivalent` overload so that the comparison result
no longer depends if one calls the `Decl *` overload or the overload for the
specific subclass. The only difference is now that the `Decl *` overload is
queuing the parameter while the subclass-specific overload is directly doing the
comparison.
`::IsStructurallyEquivalent` is an implementation detail and I don't think the
behaviour causes any bugs in the current implementation (as carefully calling
the right overload for the different classes works around the issue), so the
test for this change is that I added some new code for comparing `MemberExpr`.
The new comparison code always calls the dispatching overload and it previously
failed as the dispatch didn't support FieldDecls.
Reviewed By: martong, a_sidorin
Differential Revision: https://reviews.llvm.org/D87619
Currently newer clang-format options cannot be included in .clang-format files, if not all users can be forced to use an updated version.
This patch tries to solve this by adding an option to clang-format, enabling to ignore unknown (newer) options.
Differential Revision: https://reviews.llvm.org/D86137
Some Java style guides and IDEs group Java static imports after
non-static imports. This patch allows clang-format to control
the location of static imports.
Patch by: @bc-lee
Reviewed By: MyDeveloperDay, JakeMerdichAMD
Differential Revision: https://reviews.llvm.org/D87201
https://bugs.llvm.org/show_bug.cgi?id=47461
The following change {D80940} caused a regression in code which ifdef's around the try and catch block cause incorrect brace placement around the catch
```
try
{
}
catch (...) {
// This is not a small function
bar = 1;
}
}
```
The brace after the catch will be placed on a newline
Reviewed By: curdeius
Differential Revision: https://reviews.llvm.org/D87291
//AST Matcher// `hasBody` is a polymorphic matcher that behaves
differently for loop statements and function declarations. The main
difference is the for functions declarations it does not only call
`FunctionDecl::getBody()` but first checks whether the declaration in
question is that specific declaration which has the body by calling
`FunctionDecl::doesThisDeclarationHaveABody()`. This is achieved by
specialization of the template `GetBodyMatcher`. Unfortunately template
specializations do not catch the descendants of the class for which the
template is specialized. Therefore it does not work correcly for the
descendants of `FunctionDecl`, such as `CXXMethodDecl`,
`CXXConstructorDecl`, `CXXDestructorDecl` etc. This patch fixes this
issue by using a template metaprogram.
The patch also introduces a new matcher `hasAnyBody` which matches
declarations which have a body present in the AST but not necessarily
belonging to that particular declaration.
Differential Revision: https://reviews.llvm.org/D87527
The analysis for const-ness of local variables required a view generally useful
matchers that are extracted into its own patch.
They are decompositionDecl and forEachArgumentWithParamType, that works
for calls through function pointers as well.
This is a reupload of https://reviews.llvm.org/D72505, that already landed,
but had to be reverted due to a GCC crash on powerpc
(https://reviews.llvm.org/rG4c48ea68e491cb42f1b5d43ffba89f6a7f0dadc4)
Because this took a long time to adress, i decided to redo this patch and
have a clean workflow.
I try to coordinate with someone that has a PPC to apply this patch and
test for the crash. If everything is fine, I intend to just commit.
If the crash is still happening, i hope to at least find the cause.
Differential Revision: https://reviews.llvm.org/D87588
Right now the ASTImporter assumes for most Expr nodes that they are always equal
which leads to non-compatible declarations ending up being merged. This patch
adds the basic framework for comparing Stmts (and with that also Exprs) and
implements the custom checks for a few Stmt subclasses. I'll implement the
remaining subclasses in follow up patches (mostly because there are a lot of
subclasses and some of them require further changes like having GNU language in
the testing framework)
The motivation for this is that in LLDB we try to import libc++ source code and
some of the types we are importing there contain expressions (e.g. because they
use `enable_if<expr>`), so those declarations are currently merged even if they
are completely different (e.g. `enable_if<value> ...` and `enable_if<!value>
...` are currently considered equal which is clearly not true).
Reviewed By: martong, balazske
Differential Revision: https://reviews.llvm.org/D87444
In a future patch
* Implement helper function to generate Trees for tests
* and test Tree methods, namely `findFirstLeaf` and `findLastLeaf`
Differential Revision: https://reviews.llvm.org/D87533
Summary:
This is the first patch implementing the new Flang driver as outlined in [1],
[2] & [3]. It creates Flang driver (`flang-new`) and Flang frontend driver
(`flang-new -fc1`). These will be renamed as `flang` and `flang -fc1` once the
current Flang throwaway driver, `flang`, can be replaced with `flang-new`.
Currently only 2 options are supported: `-help` and `--version`.
`flang-new` is implemented in terms of libclangDriver, defaulting the driver
mode to `FlangMode` (added to libclangDriver in [4]). This ensures that the
driver runs in Flang mode regardless of the name of the binary inferred from
argv[0].
The design of the new Flang compiler and frontend drivers is inspired by it
counterparts in Clang [3]. Currently, the new Flang compiler and frontend
drivers re-use Clang libraries: clangBasic, clangDriver and clangFrontend.
To identify Flang options, this patch adds FlangOption/FC1Option enums.
Driver::printHelp is updated so that `flang-new` prints only Flang options.
The new Flang driver is disabled by default. To enable it, set
`-DBUILD_FLANG_NEW_DRIVER=ON` when configuring CMake and add clang to
`LLVM_ENABLE_PROJECTS` (e.g. -DLLVM_ENABLE_PROJECTS=“clang;flang;mlir”).
[1] “RFC: new Flang driver - next steps”
http://lists.llvm.org/pipermail/flang-dev/2020-July/000470.html
[2] “RFC: Adding a fortran mode to the clang driver for flang”
http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html
[3] “RFC: refactoring libclangDriver/libclangFrontend to share with Flang”
http://lists.llvm.org/pipermail/cfe-dev/2020-July/066393.html
[4] https://reviews.llvm.org/rG6bf55804924d5a1d902925ad080b1a2b57c5c75c
co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
Reviewed By: richard.barton.arm, sameeranjoshi
Differential Revision: https://reviews.llvm.org/D86089
In some situation shifts can be treated as a template, and is thus formatted as one. So, by doing a couple extra checks to assure that the condition doesn't contain a template, and is in fact a bit shift should solve this problem.
This is a fix for [[ https://bugs.llvm.org/show_bug.cgi?id=46969 | bug 46969 ]]
Reviewed By: MyDeveloperDay
Patch By: Saldivarcher
Differential Revision: https://reviews.llvm.org/D86581
* Do not visit `CXXDefaultArgExpr`
* To build `CallArguments` nodes, just go through non-default arguments
Differential Revision: https://reviews.llvm.org/D87249
MSVC's cl.exe has a few command line arguments which start with -M such
as "-MD", "-MDd", "-MT", "-MTd", "-MP".
These arguments are not dependency file generation related, and these
arguments were being removed by getClangStripDependencyFileAdjuster()
which was wrong.
Differential revision: https://reviews.llvm.org/D86999
Decl::dump is primarily used for debugging to visualise the current state of a
declaration. Usually Decl::dump just displays the current state of the Decl and
doesn't actually change any of its state, however since commit
457226e02a the method actually started loading
additional declarations from the ExternalASTSource. This causes that calling
Decl::dump during a debugging session now actually does permanent changes to the
AST and will cause the debugged program run to deviate from the original run.
The change that caused this behaviour is the addition of
`hasConstexprDestructor` (which is called from the TextNodeDumper) which
performs a lookup into the current CXXRecordDecl to find the destructor. All
other similar methods just return their respective bit in the DefinitionData
(which obviously doesn't have such side effects).
This just changes the node printer to emit "unknown_constexpr" in case a
CXXRecordDecl is dumped that could potentially call into the ExternalASTSource
instead of the usually empty string/"constexpr". For CXXRecordDecls that can
safely be dumped the old behaviour is preserved
Reviewed By: bruno
Differential Revision: https://reviews.llvm.org/D80878
When using the always break after return type setting:
Before:
SomeType funcdecl(LIST(uint64_t));
After:
SomeType
funcdecl(LIST(uint64_t));"
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D87007
Before: _Atomic(uint64_t) * a;
After: _Atomic(uint64_t) *a;
This treats _Atomic the same as the the TypenameMacros and decltype. It
also allows some cleanup by removing checks whether the token before a
paren is kw_decltype and instead checking for TT_TypeDeclarationParen.
While touching this code also extend the decltype test cases to also check
for typeof() and _Atomic(T).
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D86959
This adds a `AttributeMacros` configuration option that causes certain
identifiers to be parsed like a __attribute__((foo)) annotation.
This is motivated by our CHERI C/C++ fork which adds a __capability
qualifier for pointer/reference. Without this change clang-format parses
many type declarations as multiplications/bitwise-and instead.
I initially considered adding "__capability" as a new clang-format keyword,
but having a list of macros that should be treated as attributes is more
flexible since it can be used e.g. for static analyzer annotations or other language
extensions.
Example: std::vector<foo * __capability> -> std::vector<foo *__capability>
Depends on D86775 (to apply cleanly)
Reviewed By: MyDeveloperDay, jrtc27
Differential Revision: https://reviews.llvm.org/D86782
Currently a test failure always reports a line number inside verifyFormat()
which is not very helpful to see which test failed. With this change we now
emit the line number where the verify function was called. When using an
IDE such as CLion, the output now includes a clickable link that points to
the call site.
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D86926
The new overloads apply directly to a node, like the
`clang::ast_matchers::match` functions, Rather than generating an
`EditGenerator` combinator.
Differential Revision: https://reviews.llvm.org/D87031
This patch restores the default traversal for Transformer's `makeRule` to
`TK_AsIs`. The implicit mode has proven problematic.
Differential Revision: https://reviews.llvm.org/D87048
When guessing whether a closing paren is then end of a cast expression also
skip over pointer qualifiers while looking for TT_PointerOrReference.
This prevents some address-of and dereference operators from being parsed
as a binary operator.
Before:
x = (foo *const) * v;
x = (foo *const volatile restrict __attribute__((foo)) _Nonnull _Null_unspecified _Nonnull) & v;
After:
x = (foo *const)*v;
x = (foo *const volatile restrict __attribute__((foo)) _Nonnull _Null_unspecified _Nonnull)&v;
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D86716
Motivating use case is ".cu.cc" extensions used in some bazel projects.
Alternative is to work around this with IncludeIsMainRegex in styles.
I proposed this approach because it seems like a better default.
Differential Revision: https://reviews.llvm.org/D86597
Previously a NodeRole would generally be prefixed with the `NodeKind`,
we remove this prefix, as it we redundant and made tests more noisy.
Differential Revision: https://reviews.llvm.org/D86636
* Generate `CallExpression` syntax node for all semantic nodes inheriting from
`CallExpr` with call-expression syntax - except `CUDAKernelCallExpr`.
* Implement all the accessors
* Arguments of `CallExpression` have their own syntax node which is based on
the `List` base API
Differential Revision: https://reviews.llvm.org/D86544
We should see `NodeRole` information in the dump because that exposes how the
accessors will behave.
Functional changes in the dump:
* Surround Leaf tokens with `'`
* Append `Node` dumps with `NodeRole` information, except for unknown roles
* Append marks to `Node` dumps, instead of prepending
Non-functional changes:
* `::dumpTokens(llvm::raw_ostream, ArrayRef<syntax::Token>, const
SourceManager &SM)` always received as parameter a `syntax::Token *`
pointing to `Leaf::token()`. Changed the function to
`dumpLeaf(llvm::raw_ostream, syntax::Leaf *, const SourceManager&)`
* `dumpTree` acted on a Node, rename to `dumpNode`
Differential Revision: https://reviews.llvm.org/D85330
This patch moves FixedPointSemantics and APFixedPoint
from Clang to LLVM ADT.
This will make it easier to use the fixed-point
classes in LLVM for constructing an IR builder for
fixed-point and for reusing the APFixedPoint class
for constant evaluation purposes.
RFC: http://lists.llvm.org/pipermail/llvm-dev/2020-August/144025.html
Reviewed By: leonardchan, rjmccall
Differential Revision: https://reviews.llvm.org/D85312
In this process we also create some other tests, in order to not lose
coverage when focusing on the annotated code
Differential Revision: https://reviews.llvm.org/D85962
We add the method `SyntaxTreeTest::treeDumpEqualOnAnnotations`, which
allows us to compare the treeDump of only annotated code. This will reduce a
lot of noise from our `BuildTreeTest` and make them short and easier to
read.
We do that because:
* Big tests generated big tree dumps that could hardly serve as documentation.
* In most cases the tests didn't share setup, thus there was not much addition in lines of code.
We split tests for:
* `UserDefinedLiteral`
* `NestedBinaryOperator`
* `UserDefinedBinaryOperator`
* `UserDefinedPrefixOperator`
* `QualifiedId`
Differential Revision: https://reviews.llvm.org/D85819
For an user define `<`, `x < y` would yield the syntax tree:
```
BinaryOperatorExpression
|-IdExpression
| `-UnqualifiedId
| `-x
|-IdExpression
| `-UnqualifiedId
| `-<
`-IdExpression
`-UnqualifiedId
`-y
```
But there is no syntatic difference at call site between call site or
built-in `<`. As such they should generate the same syntax tree, namely:
```
BinaryOperatorExpression
|-IdExpression
| `-UnqualifiedId
| `-x
|-<
`-IdExpression
`-UnqualifiedId
`-y
```
Differential Revision: https://reviews.llvm.org/D85750
Currently, changes to includes are applied to an entire rule. However,
include changes may be specific to particular edits within a rule (for example,
they may apply to one file but not another). Also, include changes may need to
carry metadata, just like other changes. So, we make include changes first-class
edits.
Reviewed By: tdl-g
Differential Revision: https://reviews.llvm.org/D85734
There are already matchers for type template parameters and non-type template
parameters, but somehow no matcher exists for template template parameters
and I need it to write unit tests.
Differential Revision: https://reviews.llvm.org/D85536
Reviewed By: aaron.ballman
Use spaces to align binary and ternary expressions when using AlignOperands and UT_AlignWithSpaces.
This fixes an oversight in the new UT_AlignWithSpaces option (see D75034), which did not correctly identify the alignment of binary/ternary expressions.
Reviewed By: curdeius
Patch by: fickert
Differential Revision: https://reviews.llvm.org/D85600
This fixes a crash bug in clangd when used with modules. ASTWriter would
end up writing references to submodules into the PCH file, but upon
reading the submodules would not exists and
HeaderFileInfoTrait::ReadData would crash.
Differential Revision: https://reviews.llvm.org/D85532
Summary:
We want NestedNameSpecifier syntax nodes to be generally supported, not
only for `DeclRefExpr` and `DependentScopedDeclRefExpr`.
To achieve this we:
* Use the `RecursiveASTVisitor`'s API to traverse
`NestedNameSpecifierLoc`s and automatically create its syntax nodes
* Add links from the `NestedNameSpecifierLoc`s to their syntax nodes.
In this way, from any semantic construct that has a `NestedNameSpecifier`,
we implicitly generate its syntax node via RAV and we can easily access
this syntax node via the links we added.
On the frontend side, this patch recovers AIX static init implementation to
use the linkage type and function names Clang chooses for sinit related function.
On the backend side, this patch sets correct linkage and function names on aliases
created for sinit/sterm functions.
Differential Revision: https://reviews.llvm.org/D84534
This is our grammar rule for nested-name-specifiers:
globalbal-specifier:
/*empty*/
simple-template-specifier:
template_opt simple-template-id
name-specifier:
global-specifier
decltype-specifier
identifier
simple-template-specifier
nested-name-specifier:
list(name-specifier, ::, non-empty, terminated)
It is a relaxed version of C++ [expr.prim.id] and quite simpler to map to our API.
TODO: refine name specifiers, `simple-template-name-specifier` and
decltype-name-specifier` are token soup for now.
Summary:
The MultiLine option in BreakBeforeBraces was only handling standard
control statement, leading to invalid indentation with for each macros:
Previous behavior:
/* invalid: brace should be on the same line */
Q_FOREACH(int a; list)
{
foo();
}
/* valid */
Q_FOREACH(int longVariable;
list)
{
foo();
}
To fix this, simply add the TT_ForEachMacro kind in the list of
recognized control statements for the multiline option.
This is a fix for https://bugs.llvm.org/show_bug.cgi?id=44632
Reviewers: MyDeveloperDay, mitchell-stellar
Reviewed by: mitchell-stellar
Contributed by: vthib
Subscribers: cfe-commits
Tags: #clang, #clang-format, #clang-tools-extra
Differential Revision: https://reviews.llvm.org/D85304
NamedDecl::printName will print the pretty-printed name of the entity, which
is not what we want here (we should print "enum { e };" instead of "enum
(unnamed enum at input.cc:1:5) { e };").
For now only DecompositionDecl and MDGuidDecl have an overloaded printName so
this does not result in any functional change, but this change is needed since
I will be adding overloads to better handle unnamed entities in diagnostics.
This was the last binary operator that we supported but didn't have any
test coverage. The recent fix in a crash in member pointers allowed us
to add this test.
Differential Revision: https://reviews.llvm.org/D85185
The logic was using incorrect flag versions. For example:
- `-target=` can't be a prefix, it must be `--target=`.
- `--driver-mode` can't appear on its own, value must be attached to it.
While fixing those, also changes the append logic to make use of new
`--target=X` format instead of the legacy `-target X` version.
In addition to that makes use of the OPTTable instead of hardcoded strings to
make sure helper also gets updated if clang's options are modified.
Differential Revision: https://reviews.llvm.org/D85076
Currently an Arena can only be built while consuming a TokenBuffer,
some users (like clangd) might want to share a TokenBuffer with multiple
compenents. This patch changes Arena's TokenBuffer member to be a reference so
that it can be created with read-only token buffers.
Differential Revision: https://reviews.llvm.org/D84973
It turned out that the D78704 included a private LLVM header, which is excluded
from the LLVM install target.
I'm substituting that `#include` with the public one by moving the necessary
`#define` into that. There was a discussion about this at D78704 and on the
cfe-dev mailing list.
I'm also placing a note to remind others of this pitfall.
Reviewed By: mgorny
Differential Revision: https://reviews.llvm.org/D84929
Temporarily disable IncrementalProcessingTest partially until the static
initialization implementation on AIX is recovered.
Differential Revision: https://reviews.llvm.org/D84880
Adds the `between` combinator and registers it with the parser. As a driveby, updates some deprecated names to their current versions.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D84315
This cleans up several CMakeLists.txt's where -Wno-suggest-override was manually specified. These test targets now inherit this flag from the gtest target.
Some unittests CMakeLists.txt's, in particular Flang and LLDB, are not touched by this patch. Flang manually adds the gtest sources itself in some configurations, rather than linking to LLVM's gtest target, so this fix would be insufficient to cover those cases. Similarly, LLDB has subdirectories that manually add the gtest headers to their include path without linking to the gtest target, so those subdirectories still need -Wno-suggest-override to be manually specified to compile without warnings.
Differential Revision: https://reviews.llvm.org/D84554
The new combinator, `rewriteDescendants`, applies a rewrite rule to all
descendants of a specified bound node. That rewrite rule can refer to nodes
bound by the parent, both in the matcher and in the edits.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D84409
Summary:
This patch adds various combinators that help in constructing `EditGenerator`s:
* `noEdits`
* `ifBound`, specialized to `ASTEdit`
* `flatten` and `flattenVector` which allow for easy construction from a set
of sub edits.
* `shrinkTo`, which generates edits to shrink a given range to another that
it encloses.
Reviewers: asoffer, gribozavr2
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D84310
add_compile_options is more sensitive to its location in the file than add_definitions--it only takes effect for sources that are added after it. This updated patch ensures that the add_compile_options is done before adding any source files that depend on it.
Using add_definitions caused the flag to be passed to rc.exe on Windows and thus broke Windows builds.
After lots of follow-up fixes, there are still problems, such as
-Wno-suggest-override getting passed to the Windows Resource Compiler
because it was added with add_definitions in the CMake file.
Rather than piling on another fix, let's revert so this can be re-landed
when there's a proper fix.
This reverts commit 21c0b4c1e8.
This reverts commit 81d68ad27b.
This reverts commit a361aa5249.
This reverts commit fa42b7cf29.
This reverts commit 955f87f947.
This reverts commit 8b16e45f66.
This reverts commit 308a127a38.
This reverts commit 274b6b0c7a.
This reverts commit 1c7037a2a5.
`Metadata` is being changed from an `llvm::Any` to a `MatchConsumer<llvm::Any>`
so that it's evaluation can be be dependent on on `MatchResult`s passed in.
Reviewed By: ymandel, gribozavr2
Differential Revision: https://reviews.llvm.org/D83820
Summary:
The purpose of this change is to do a small refactoring of code in
ASTImporterTest.cpp by moving it to ASTImporterFixtures.h in order to
support tests of downstream custom types and minimize the "living
downstream burden" of frequent integrations from community to a
downstream repo that implements custom AST import tests.
Reviewers: martong, a.sidorin, shafik
Reviewed By: martong
Subscribers: balazske, dkrupp, bjope, rnkovacs, teemperor, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83970
`Metadata` is being changed from an `llvm::Any` to a `MatchConsumer<llvm;:Any>`, so that it's evaluation can be be dependent on `MatchResult`s passed in.
Reviewed By: ymandel, gribozavr2
Differential Revision: https://reviews.llvm.org/D83820
Summary:
This allows efficiently accessing all expansions (without iterating over each
token and searching), and also identifying tokens within a range that are
affected by the preprocessor (which is how clangd will use it).
Subscribers: ilya-biryukov, kadircet, usaxena95, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D84009
Summary:
In C++11 and later Clang generates an implicit conversion from int to
size_t in the AST.
Reviewers: ymandel, hokein
Reviewed By: hokein
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83966
Summary:
If there is no record in compile_commands.json, we try to find suitable record with `MatchTrie.findEquivalent()` call.
This is very expensive operation with a lot of `llvm::sys::fs::equivalent()` calls in some cases.
This patch disables file symlinks for performance reasons.
Example scenario without this patch:
- compile_commands.json generated at clangd build (contains ~3000 files).
- it tooks more than 1 second to get compile command for newly created file in the root folder of LLVM project.
- we wait for 1 second every time when clangd requests compile command for this file (at file change).
Reviewers: sammccall, kadircet, hokein
Reviewed By: sammccall
Subscribers: chandlerc, djasper, klimek, ilya-biryukov, kadircet, usaxena95, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83621
Summary:
I am changing tests for AST Matchers to run in multiple language standards
versions, and under multiple triples that have different behavior with regards
to templates. This change is similar to https://reviews.llvm.org/D82179.
To keep the size of the patch manageable, in this patch I'm only migrating one
file to get the process started and get feedback on this approach.
Reviewers: ymandel
Reviewed By: ymandel
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83868
Summary:
Names of local variables have no linkage (see C++20 [basic.link] p8).
Names of variables in unnamed namespace have internal linkage (see C++20
[basic.link] p4).
Reviewers: aaron.ballman, rsmith, ymandel
Reviewed By: ymandel
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83700
This implements the default(firstprivate) clause as defined in OpenMP
Technical Report 8 (2.22.4).
Reviewed By: jdoerfert, ABataev
Differential Revision: https://reviews.llvm.org/D75591
Summary:
If no valid interface definition was found previously we would crash.
With this change instead we just print `<<error-type>>` in place
of the NULL interface. In the future this could be improved by
saving the invalid interface's name and using that.
Reviewers: sammccall, gribozavr
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D83513
Summary:
Given an UserDefinedLiteral `1.2_w`:
Problem: Lexer generates one Token for the literal, but ClangAST
references two source locations
Fix: Ignore the operator and interpret it as the underlying literal.
e.g.: `1.2_w` token generates syntax node IntegerLiteral(1.2_w)
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D82157
Summary:
The default CTUImportThreshold (8) seems to be too conservative with C projects.
We increase this value to 24 and we introduce another threshold for C++ source
files (defaulted to 8) because their AST is way more compilcated than C source
files.
Differential Revision: https://reviews.llvm.org/D83475
Summary:
New line duplication logic introduced in https://reviews.llvm.org/D63482
has two issues: (1) there is no logic that removes duplicate newlines
when clang-apply-replacment reads YAML and (2) in general such logic
should be applied to all strings and should happen on string
serialization level instead in YAML parser.
This diff changes multiline strings quotation from single quote `'` to
double `"`. It solves problems with internal newlines because now they are
escaped. Also double quotation solves the problem with leading whitespace after
newline. In case of single quotation YAML parsers should remove leading
whitespace according to specification. In case of double quotation these
leading are internal space and they are preserved. There is no way to
instruct YAML parsers to preserve leading whitespaces after newline so
double quotation is the only viable option that solves all problems at
once.
Test Plan: check-all
Reviewers: gribozavr, mgehre, yvvan
Subscribers: xazax.hun, hiraditya, cfe-commits, llvm-commits
Tags: #clang-tools-extra, #clang, #llvm
Differential Revision: https://reviews.llvm.org/D80301
Adds a matcher called `hasDirectBase` for matching the `CXXBaseSpecifier` of a class that directly derives from another class.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D81552
Summary:
Import declarations in correct order if a class contains
multiple redundant friend (type or decl) declarations.
If the order is incorrect this could cause false structural
equivalences and wrong declaration chains after import.
Reviewers: a.sidorin, shafik, a_sidorin
Reviewed By: shafik
Subscribers: dkrupp, Szelethus, gamesh411, teemperor, martong, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D75740
Summary:
This feature was only used in two places, but contributed a non-trivial
amount to the complexity of RecursiveASTVisitor, and was buggy (see my
recent patches where I was fixing the bugs that I noticed). I don't
think the convenience benefit of this feature is worth the complexity.
Besides complexity, another issue with the current state of
RecursiveASTVisitor is the non-uniformity in how it handles different
AST nodes. All AST nodes follow a regular pattern, but operators are
special -- and this special behavior not documented. Correct usage of
RecursiveASTVisitor relies on shadowing member functions with specific
names and signatures. Near misses don't cause any compile-time errors,
incorrectly named or typed methods are just silently ignored. Therefore,
predictability of RecursiveASTVisitor API is quite important.
This change reduces the size of the `clang` binary by 38 KB (0.2%) in
release mode, and by 7 MB (0.3%) in debug mode. The `clang-tidy` binary
is reduced by 205 KB (0.3%) in release mode, and by 5 MB (0.4%) in debug
mode. I don't think these code size improvements are significant enough
to justify this change on its own (for me, the primary motivation is
reducing code complexity), but they I think are a nice side-effect.
Reviewers: rsmith, sammccall, ymandel, aaron.ballman
Reviewed By: rsmith, sammccall, ymandel, aaron.ballman
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D82921
Summary:
How does RecursiveASTVisitor call the WalkUp callback for expressions?
* In pre-order traversal mode, RecursiveASTVisitor calls the WalkUp
callback from the default implementation of Traverse callbacks.
* In post-order traversal mode when we don't have a DataRecursionQueue,
RecursiveASTVisitor also calls the WalkUp callback from the default
implementation of Traverse callbacks.
* However, in post-order traversal mode when we have a DataRecursionQueue,
RecursiveASTVisitor calls the WalkUp callback from PostVisitStmt.
As a result, when the user overrides the Traverse callback, in pre-order
traversal mode they never get the corresponding WalkUp callback. However
in the post-order traversal mode the WalkUp callback is invoked or not
depending on whether the data recursion optimization could be applied.
I had to adjust the implementation of TraverseCXXForRangeStmt in the
syntax tree builder to call the WalkUp method directly, as it was
relying on this behavior. There is an existing test for this
functionality and it prompted me to make this extra fix.
In addition, I had to fix the default implementation implementation of
RecursiveASTVisitor::TraverseSynOrSemInitListExpr to call WalkUpFrom in
the same manner as the implementation generated by the DEF_TRAVERSE_STMT
macro. Without this fix, the InitListExprIsPostOrderNoQueueVisitedTwice
test was failing because WalkUpFromInitListExpr was never called.
Reviewers: eduucaldas, ymandel
Reviewed By: eduucaldas, ymandel
Subscribers: gribozavr2, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D82486
Since strong dependencies aren't user-facing (its hardly ever legal to disable
them), lets enforce that they are hidden. Modeling checkers that aren't
dependencies are of course not impacted, but there is only so much you can do
against developers shooting themselves in the foot :^)
I also made some changes to the test files, reversing the "test" package for,
well, testing.
Differential Revision: https://reviews.llvm.org/D81761
If you were around the analyzer for a while now, you must've seen a lot of
patches that awkwardly puts code from one library to the other:
* D75360 moves the constructors of CheckerManager, which lies in the Core
library, to the Frontend library. Most the patch itself was a struggle along
the library lines.
* D78126 had to be reverted because dependency information would be utilized
in the Core library, but the actual data lied in the frontend.
D78126#inline-751477 touches on this issue as well.
This stems from the often mentioned problem: the Frontend library depends on
Core and Checkers, Checkers depends on Core. The checker registry functions
(`registerMallocChecker`, etc) lie in the Checkers library in order to keep each
checker its own module. What this implies is that checker registration cannot
take place in the Core, but the Core might still want to use the data that
results from it (which checker/package is enabled, dependencies, etc).
D54436 was the patch that initiated this. Back in the days when CheckerRegistry
was super dumb and buggy, it implemented a non-documented solution to this
problem by keeping the data in the Core, and leaving the logic in the Frontend.
At the time when the patch landed, the merger to the Frontend made sense,
because the data hadn't been utilized anywhere, and the whole workaround without
any documentation made little sense to me.
So, lets put the data back where it belongs, in the Core library. This patch
introduces `CheckerRegistryData`, and turns `CheckerRegistry` into a short lived
wrapper around this data that implements the logic of checker registration. The
data is tied to CheckerManager because it is required to parse it.
Side note: I can't help but cringe at the fact how ridiculously awkward the
library lines are. I feel like I'm thinking too much inside the box, but I guess
this is just the price of keeping the checkers so modularized.
Differential Revision: https://reviews.llvm.org/D82585
Serge Pavlov