With this patch, clang-format can analyze the input file for two
properties:
1. Is "int *a" or "int* a" more common.
2. Are non-C++03 constructs used, e.g. A<A<A>>.
With Google-style, clang-format will now use the more common style for
(1) and format C++03 compatible, unless it finds C++11 constructs in the
input.
llvm-svn: 174504
A very common use case is to search for the first occurrence of
a certain node that is a descendant of another node. In that
case, selectFirst significantly simplifies the code at the client side.
llvm-svn: 174499
Properly handle annotation contexts while calculating extra information
for each token. This enable nested ObjC calls and thus solves (most of)
llvm.org/PR15164. E.g., we can now format:
[contentsContainer replaceSubview:[subviews objectAtIndex:0]
with:contentsNativeView];
Also fix a problem with the formatting of types in casts as this was
trivial now.
llvm-svn: 174498
1. let determineStarAmp() check of unary operators before checking for
"is next '['". That check was added in r173150, and the test from that
revision passes either way.
2. change determineStarAmp() to categorize '*' and '&' after '=' as unary
operator.
3. don't let parseSquare() overwrite the type of a '*' or '&' before the start
of an objc message expression if has the role of unary operator.
llvm-svn: 174489
We can now format stuff like:
- (void)doSomethingWith:(GTMFoo *)theFoo
rect:(NSRect)theRect
interval:(float)theInterval {
[myObject doFooWith:arg1 //
name:arg2
error:arg3];
}
This seems to fix everything mentioned in llvm.org/PR14939.
llvm-svn: 174364
In preprocessor definitions, we would not parse all the tokens and thus
not annotate them anymore. This led to a wrong formatting of comments
in google style:
#endif // HEADER_GUARD -- requires two spaces
llvm-svn: 174361
We found that findAll has been implemented incorrectly multiple times
by various people using the matchers. To prevent further wasted
development effort, it makes sense to add it as convenience matcher
implemented as eachOf(m, forEachDescendant(m)).
This patch also updates the docs with the new matchers.
llvm-svn: 174320
eachOf gives closure on the forEach and forEachDescendant matchers.
Before, it was impossible to implement a findAll matcher, as matching
the node or any of its descendants was not expressible (since anyOf
only triggers the first match).
llvm-svn: 174315
If there are string literals on either side of a '<<', chances are
high that they represent logically separate concepts. Otherwise,
the author could just have just a single literal (possible split
over multiple lines).
So, we can now nicely format things like:
cout << "somepacket = {\n"
<< " val a = " << ValueA << "\n"
<< " val b = " << ValueB << "\n"
<< "}";
llvm-svn: 174310
This combines several changes:
* Calculation token type (e.g. for * and &) in the AnnotatingParser.
* Calculate the scope binding strength in the AnnotatingParser.
* Let <> and [] scopes bind stronger than () and {} scopes.
* Add minimal debugging output.
llvm-svn: 174307
First, this implements a match() method on MatchFinder; this allows us
to get rid of the findAll implementation, as findAll is really a special
case of recursive matchers on match.
Instead of findAll, provide a convenience function match() that lets
users iterate easily over the results instead of needing to implement
callbacks.
llvm-svn: 174172
1. Never avoid bin packing in static initializers as this can
lead to terrible results.
2. If an element has to be broken over multiple lines, break after
the following comma.
This should be a step forward, but there are still many cases
especially with nested static initializers that we handle badly.
More patches will follow.
llvm-svn: 174061
The style guide only forbids this for function declarations. So,
now
someFunction(
aaaaaaaaaaaaaaaaaaaa, aaaaaaaaaaaaaaaaa, aaaaaaaaaaaa);
Is allowed in Chromium mode.
llvm-svn: 173806
Before (in good cases):
for (auto aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
: aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa) {}
for (auto aaaaaaaaaaaaaaaaaaaa : aaaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaaaaaaaa,
aaaa)) {}
After:
for (auto aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa :
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa) {}
for (auto aaaaaaaaaaaaaaaaaaaa :
aaaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaaaaaaaa, aaaa)) {}
llvm-svn: 173684
Before we did not really systematically format those. Now, we format the
different cases as:
- 1 Line: a ? b : c;
- 2 Lines: short ? loooooooooong
: loooooooooong
- 2 Lines: loooooooooooooooong
? short : short
- 3 Lines: loooooooooooooooong
? loooooooooooooong
: loooooooooooooong
Not sure whether "?" and ":" should go on the new line, but it seems to
be the most consistent approach.
llvm-svn: 173683
1. Use a hanging ident for function calls nested in binary expressions.
E.g.:
int aaaaa = aaaaaaaaa && aaaaaaaaaa(
aaaaaaaaaa);
2. Slightly improve heuristic for builder type expressions and reduce
penalty for breaking before "." and "->" in those.
3. Remove mostly obsolete metric of decreasing indent level. This
fixes: llvm.org/PR14931.
Changes #1 and #2 were necessary to keep tests passing after #3.
llvm-svn: 173680
These always represent a continuation and we should increase the ident.
Before:
aaaaaaaaa(aaaaaaaaaaaaaaaaaaaaa::
aaaaaaaaaaaaaaaaaaaa);
After:
aaaaaaaaa(aaaaaaaaaaaaaaaaaaaaa::
aaaaaaaaaaaaaaaaaaaa);
llvm-svn: 173675
This combines two small changes:
1) Put a penalty on breaking after "<"
2) Only produce a hanging indent when parameters are separated by
commas.
Before:
aaaaaaaaaaaaaaaaaaaaaaaa<
aaaaaaaaaaaaaaaaa, aaaaaaaaaaaaaaaaa>(aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa);
aaaaaa(new Aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
aaaaaaaaaaaaaaaaaaaaaaaaaaaaa));
After:
aaaaaaaaaaaaaaaaaaaaaaaa<aaaaaaaaaaaaaaaaa, aaaaaaaaaaaaaaaaa>(
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa);
aaaaaa(new Aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
aaaaaaaaaaaaaaaaaaaaaaaaaaaaa));
This changes one ObjC test, but AFAICT this is not according to any
style guide (neither before nor after). We probably should be aligning
on the ":" there according to:
http://google-styleguide.googlecode.com/svn/trunk/objcguide.xml?showone=Method_Invocations#Method_Invocations
llvm-svn: 173457
Otherwise, really long nested name specifiers can easily lead to a
violation of the column limit.
Not sure about the rules for indentation in those cases, so input is
appreciated (see tests.).
llvm-svn: 173438
Before:
int aaaa = aaaaa().aaaaa() // force break
.aaaaa();
After:
int aaaa = aaaaa().aaaaa() // force break
.aaaaa();
The other indent is just wrong and confusing.
llvm-svn: 173273
Before:
bool aaaa = aaaaaaaaaaa(
aaaaaaaaaaaaaaaaa);
After:
bool aaaa = aaaaaaaaaaa(
aaaaaaaaaaaaaaaaa);
The other indentation was a nice attempt but doesn't work in many cases.
Not sure what the right long term solution is as the "After: " is still
not nice. We either need to figure out what to do in the cases where it
"doesn't work" or come up with a third solution, e.g. falling back to:
bool aaaa =
aaaaaaaaaaa(
aaaaaaaaaaaaaaaaa);
which should always work and nicely highlight the structure.
llvm-svn: 173268
Layouting would prevent breaking before + in
a[b + c] = d;
Regression detected by code review.
Also fixes an invalid-read found by the valgrind bot.
llvm-svn: 173262
Having seen more cases, this actually was not a good thing to do in the
first place. We can still improve on what we do now, but breaking after
the "=" is good in many cases.
Before:
aaaaaaaaaaaaa = aa->aaaaaaaaaaaaaaaaaaaa(
aaaaaaaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaa));
After:
aaaaaaaaaaaaa =
aa->aaaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaa));
llvm-svn: 173257
Before: if (int * a = &b) ...
After: if (int *a = &b) ...
Also changed all the existing tests to test the expressions in question
both in a declaration and in an expression context.
llvm-svn: 173256
We will need a more principled solution, but we should not leave this
unfixed until we come up with one.
Before: void f() { int * a; }
After: void f() { int *a; }
llvm-svn: 173252
This only affects styles where BinPackParameters is false.
With AllowAllParametersOnNextLine:
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
aaaaaaaaaa, aaaaaaaaaa, aaaaaaaaaa, aaaaaaaaaaa, aaaaaaaaaaa);
Without it:
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(aaaaaaaaaa,
aaaaaaaaaa,
aaaaaaaaaa,
aaaaaaaaaaa,
aaaaaaaaaaa);
llvm-svn: 173246
This gives us the ability to guess better defaults for whether a *
between identifiers is a pointer dereference or binary operator.
Now correctly formats:
void f(a *b);
void f() { f(a * b); }
llvm-svn: 173243
Changing nextToken() in the UnwrappedLineParser to get the next
non-comment token. This allows us to correctly layout a whole class of
snippets, like:
if /* */(/* */ a /* */) /* */
f() /* */; /* */
else /* */
g();
Fixes a bug in the formatter where we would assume there is a previous
non-comment token.
Also adds the indent level of an unwrapped line to the debug output in
the parser.
llvm-svn: 173168
We used to align trailing comments belong to different things.
Before:
void f() { // some function..
}
int a; // some variable..
After:
void f() { // some function..
}
int a; // some variable..
llvm-svn: 173100
Very similar to what we do for record definitions:
- tighten down what is an enum definition, so that we don't mistake a
function for an enum
- allow common idioms around declarations (we'll want to handle that
more centrally in the future)
We now correctly format:
enum X f() {
a();
return 42;
}
llvm-svn: 173075
We now only put empty blocks into a single line, if all of:
- all tokens of the structural element fit into a single line
- we're not in a control flow statement
Note that we usually don't put record definitions into a single line, as
there's usually at least one more token (the semicolon) after the
closing brace. This doesn't hold when we are in a context where there is
no semicolon, like "enum E {}".
There were some missing tests around joining lines around the corner
cases of the allowed number of columns, so this patch adds some.
llvm-svn: 173055
Before: template <template <typename T>, typename P > class X;
After: template <template <typename T>, typename P> class X;
More importantly, the token annotations for the second ">" are now computed
correctly.
llvm-svn: 173047
Previously, we would not detect brace initializer lists in return
statements, thus:
return (a)(b) { 1, 2, 3 };
would put the semicolon onto the next line.
llvm-svn: 173017
Also, it was the only reason that `argc` and `argv` were being passed
into createDiagnostics, so remove those parameters and clean up callers.
llvm-svn: 172945
Manually fix the order of UnwrappedLineParser.cpp as that one didn't
have its associated header as the first header.
This also uncovered a subtle inclusion order dependency as CLog.h didn't
include LLVM.h to pick up using declarations it relied upon.
llvm-svn: 172892
This patch prepares being able to test for and fix more problems (see
FIXME in the test for example).
Previously we would output unwrapped lines for preprocessor directives
at the point where we also parsed the hash token. Since often
projections only terminate (and thus output their own unwrapped line)
after peeking at the next token, this would lead to the formatter seeing
the preprocessor directives out-of-order (slightly earlier). To be able
to correctly identify lines to merge, the formatter needs a well-defined
order of unwrapped lines, which this patch introduces.
llvm-svn: 172819
').' is likely part of a builder pattern statement.
This is based upon a patch developed by Nico Weber. Thank you!
Before:
int foo() {
return llvm::StringSwitch<Reference::Kind>(name).StartsWith(
".eh_frame_hdr", ORDER_EH_FRAMEHDR).StartsWith(
".eh_frame", ORDER_EH_FRAME).StartsWith(".init", ORDER_INIT).StartsWith(
".fini", ORDER_FINI).StartsWith(".hash", ORDER_HASH).Default(ORDER_TEXT);
}
After:
int foo() {
return llvm::StringSwitch<Reference::Kind>(name)
.StartsWith(".eh_frame_hdr", ORDER_EH_FRAMEHDR)
.StartsWith(".eh_frame", ORDER_EH_FRAME)
.StartsWith(".init", ORDER_INIT).StartsWith(".fini", ORDER_FINI)
.StartsWith(".hash", ORDER_HASH).Default(ORDER_TEXT);
}
Probably not ideal, but makes many cases much more readable.
The changes to overriding-ftemplate-comments.cpp don't seem better or
worse. We should address those soon.
llvm-svn: 172804
It's generally not possible to know if 'a' '*' 'b' is a multiplication
expression or a variable declaration with a purely lexer-based approach. The
formatter currently uses a heuristic that classifies this token sequence as a
multiplication in rhs contexts (after '=' or 'return') and as a declaration
else.
Because of this, it gets bit tests in ifs, such as "if (a & b)" wrong. However,
declarations in ifs always have to be followed by '=', so this patch changes
the formatter to classify '&' as an operator if it's at the start of an if
statement.
Before:
if (a& b)
if (int* b = f())
Now:
if (a & b)
if (int* b = f())
llvm-svn: 172731
Also adding more tests.
We can now keep the formatting of something like:
static SomeType type = { aaaaaaaaaaaaaaaaaaaa, /* comment */
aaaaaaaaaaaaaaaaaaaa /* comment */,
/* comment */ aaaaaaaaaaaaaaaaaaaa,
aaaaaaaaaaaaaaaaaaaa, // comment
aaaaaaaaaaaaaaaaaaaa };
Note that the comment in the first line is handled like a trailing line comment
as that is likely what the user intended.
llvm-svn: 172711
Before: Constructor() : a(a), // comment a(a) {}
After: Constructor() : a(a), // comment
a(a) {}
Needed this as a quick fix. Will add more tests for this in a future
commit.
llvm-svn: 172624
We used to incorrectly parse
aaaaaa ? aaaaaa(aaaaaa) : aaaaaaaa;
Due to an l_paren being followed by a colon, we assumed it to be part of
a constructor initializer. Thus, we never found the colon belonging to
the conditional expression, marked the line as bing incorrect and did
not format it.
llvm-svn: 172621
"Bin-packing" here means allowing multiple parameters on one line, if a
function call/declaration is spread over multiple lines.
This is required by the Chromium style guide and probably desired for
the Google style guide. Not making changes to LLVM style as I don't have
enough data.
With this enabled, we format stuff like:
aaaaaaaaaaaaaaa(aaaaaaaaaa,
aaaaaaaaaa,
aaaaaaaaaaaaaaaaaaaaaaa).aaaaaaaaaaaaaaaaaa();
llvm-svn: 172617
Treat tokens inside <> for includes and everything from the second token
of a warning / error on as an implicit string literal, e.g. do not
change its whitespace at all.
Now correctly formats:
#include < path with space >
#error Leave all white!!!!! space* alone!
Note that for #error and #warning we still format the space up to the
first token of the text, so:
# error Text
will become
#error Text
llvm-svn: 172536
We used to incorrectly identify some operators (*, &, +, -, etc.) if
there were comments around them.
Example:
Before: int a = /**/ - 1;
After: int a = /**/ -1;
llvm-svn: 172533
This switches to parsing record definitions only if we can clearly
identify them. We're specifically allowing common patterns for
visibility control through macros and attributes, but we cannot
currently fix all instances. This fixes all known bugs we have though.
Before:
static class A f() {
return g();
} int x;
After:
static class A f() {
return g();
}
int x;
llvm-svn: 172530
We now format this correctly:
Status::Rep Status::global_reps[3] = {
{ kGlobalRef, OK_CODE, NULL, NULL, NULL },
{ kGlobalRef, CANCELLED_CODE, NULL, NULL, NULL },
{ kGlobalRef, UNKNOWN_CODE, NULL, NULL, NULL }
};
- fixed a bug where BreakBeforeClosingBrace would be set on the wrong
state
- added penalties for breaking between = and {, and between { and any
other non-{ token
llvm-svn: 172433
Now, "if (a) return;" is only allowed, if this option is set.
Also add a Chromium style which is currently identical to Google style
except for this option.
llvm-svn: 172431
Before: if (a)
return;
After: if (a) return;
Not yet sure, whether this is always desired, but we can add options and
make this a style parameter as we go along.
llvm-svn: 172413
They work fine, but this fifth use of colons (after labels, in ?:,
in initalizer lists in constructors, in objc method expressions, and in
bitfields) wasn't covered by tests yet.
llvm-svn: 172377
clang-format should not change whether or not there is a line break
before a line comment as this strongly influences the percieved binding.
User input: void f(int a,
// b is awesome
int b);
void g(int a, // a is awesome
int b);
Before: void f(int a, // b is awesome
int b);
void g(int a, // a is awesome
int b);
After: <unchanged from input>
llvm-svn: 172361
Note that I don't know whether we should put {} on a single line in this
case, but it is probably a theoretical issue as in practice such
structs, classes or unions won't be empty.
Before: union A {}
a;
After: union A {} a;
llvm-svn: 172355
I am not aware of a case where that would be wrong. The specific case I
am fixing are function parameters wrapped in parenthesis (e.g. in
macros).
Before: function(a,(b));
After: function(a, (b));
llvm-svn: 172351
A ")" before any of "=", "{" or ";" won't be a cast. This fixes issues
with the formatting of unnamed parameters.
Before: void f(int *){}
After: void f(int *) {}
llvm-svn: 172349
This follows the approach suggested by djasper in PR14911: When a '[' is
seen that's at the start of a line, follows a binary operator, or follows one
of : [ ( return throw, that '[' and its closing ']' are marked as
TT_ObjCMethodExpr and every ':' in that range that isn't part of a ternary
?: is marked as TT_ObjCMethodExpr as well.
Update the layout routines to not output spaces around ':' tokens that are
marked TT_ObjCMethodExpr, and only allow breaking after such tokens, not
before.
Before:
[self adjustButton : closeButton_ ofKind : NSWindowCloseButton];
Now:
[self adjustButton:closeButton_ ofKind:NSWindowCloseButton];
llvm-svn: 172304
Before:
void aaaaaaaaaaaa(int aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa) GUARDED_BY(
aaaaaaaaaaaaa);
After:
void aaaaaaaaaaaa(int aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa)
GUARDED_BY(aaaaaaaaaaaaa);
Also did some formatting cleanups with clang-format on the way.
llvm-svn: 172200
Added option to put each constructor initializer on its own line
if not all initializers fit on a single line. Enabling this for
Google style now as the style guide (arguable) suggests it. Not
sure whether we also want it for LLVM.
llvm-svn: 172196
Objective-C method declarations look like this:
- (returntype)name:(type)argname anothername:(type)arg2name;
In google style, there's no space after the leading '-' but one after
"(returntype)" instead (but none after the argument types), see
http://google-styleguide.googlecode.com/svn/trunk/objcguide.xml#Method_Declarations_and_Definitions
Not inserting the space after '-' is easy, but to insert the space after the
return type, the formatter needs to know that a closing parenthesis ends the
return type. To do this, I tweaked the code in parse() to check for this, which
in turn required moving detection of TT_ObjCMethodSpecifier from annotate() to
parse(), because parse() runs before annotate().
(To keep things interesting, the return type is optional, but it's almost
always there in practice.)
http://llvm-reviews.chandlerc.com/D280
llvm-svn: 172140
Before:
@property(assign, getter = isEditable) BOOL editable;
Now:
@property(assign, getter=isEditable) BOOL editable;
It'd be nice if some Apple person could let me know if spaces are preferred
around '=' in @synthesize lines (see FIXME in the test).
llvm-svn: 172110
Don't do this in Google style though:
http://google-styleguide.googlecode.com/svn/trunk/objcguide.xml#Protocols
Most other places (function declarations, variable declarations) still get
this wrong, and since this looks very similiar to template instantiations to
the lexer (`id <MyProtocol> a = ...`), it's going to be hard to fix in some
places.
llvm-svn: 172099
The first token in @implementation, @interface, and @protocol lines is now
marked TT_ObjCDecl, and lines starting with a TT_ObjCDecl token are now marked
LT_ObjCMethodDecl.
llvm-svn: 172093
We now decide whether a newline should go before the closing brace
depending on whether a newline was inserted after the opening brace.
For example, we now insert a newline before '};' in:
static SomeClass WithALoooooooooooooooooooongName = {
100000000, \"aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\"
};
... while not inserting a newline here:
static SomeClass = { a, b, c, d, e, f, g, h, i, j,
looooooooooooooooooooooooooooooooooongname,
looooooooooooooooooooooooooooooong };
Also fixes the formating of (column limit 25):
int x = {
avariable,
b(alongervariable)
};
llvm-svn: 172076
We're now formatting (column limit 25):
int x = {
avariable,
b(alongervariable) };
This also fixes:
Aaa({
int i;
}, aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb,
ccccccccccccccccc));
... where we would previously break after the '},'.
Putting the closing curly into an extra line when there's a break
directly after the first curly will be done in a subsequent patch.
Paired with djasper.
llvm-svn: 172070
Before: int (^myBlock) (int) = ^(int num) {}
A<void ()>;
int (*b)(int);
After: int (^myBlock)(int) = ^(int num) {}
A<void()>;
int(*b)(int);
For function types and function pointer types, this patch only makes
the behavior consistent (for types that are keywords and other types).
For the latter function pointer type declarations, we'll probably
want to add a space after "int".
Also added LangOpts.Bool = 1, so we handle "A<bool()>" appropriately
Moved the LangOpts-settings to a public place for use by tests
and clang-format binary.
llvm-svn: 172065
Previously, we would not indent:
SOME_MACRO({
int i;
});
correctly. This is fixed by adding the trailing }); to the unwrapped
line starting with SOME_MACRO({, so the formatter can correctly match
the braces and indent accordingly.
Also fixes incorrect parsing of initializer lists, like:
int a[] = { 1 };
llvm-svn: 172058
This fixes llvm.org/PR14684.
Before: int *pa = (int *) & a;
After: int *pa = (int *)&a;
We still don't understand all kinds of casts. I added a FIXME to
address that.
llvm-svn: 172056
Just reuse the @interface code for this. It accepts slightly more than
necessary (@implementation cannot have protocol lists), but that's ok.
llvm-svn: 172019
Previously:
@interface Foo + (id)init; @end
Now:
@interface Foo
+ (id)init;
@end
Some tweaking remains, but this is a good first step.
llvm-svn: 171995
Previously, we'd always start at indent level 0 after a preprocessor
directive, now we layout the following snippet (column limit 69) as
follows:
functionCallTo(someOtherFunction(
withSomeParameters, whichInSequence,
areLongerThanALine(andAnotherCall,
B
withMoreParamters,
whichStronglyInfluenceTheLayout),
andMoreParameters),
trailing);
Note that the different jumping indent is a different issue that will be
addressed separately.
This is the first step towards handling #ifdef->#else->#endif chains
correctly.
llvm-svn: 171974
This fixes llvm.org/PR14870 and we no longer mess up:
template <typename T1, typename T2 = char, typename T3 = char,
typename T4 = char>
void f();
It removes the nice aligment for assignments inside other expressions,
but I am not sure those are actually practically relevant. If so, we can
fix those later.
llvm-svn: 171966
This addresses llvm.org/PR14847.
We can now format something like:
int aaaaaaaaaaaaaaaaaaaaaaaaaaa =
// aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaiaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb;
clang-format unavoidably exceeds the column limit, but does not just
flush everything into a single line. Moreover, it tries to minimize the
number of characters beyond the column limit.
llvm-svn: 171964
This fixes llvm.org/PR14860.
Before, we messed up the format of:
if (DeclaratorInfo.isFunctionDeclarator() &&
//getDeclSpecContextFromDeclaratorContext(Context) == DSC_top_level &&
Tok.is(tok::semi) && NextToken().is(tok::l_brace)) {
}
llvm-svn: 171961
This addresses llvm.org/PR14864.
We used to completely mess this up and now format as:
Diag(NewFD->getLocation(),
getLangOpts().MicrosoftExt ? diag::ext_function_specialization_in_class :
diag::err_function_specialization_in_class)
<< NewFD->getDeclName();
llvm-svn: 171957
In Clang/LLVM this seems to be the more common formatting for ##s. There
might still be case that we miss, but we'll fix those as we go along.
Before:
#define A(X)
void function ## X();
After:
#define A(X)
void function##X();
llvm-svn: 171862
This is a first step towards supporting more complex structures such
as #ifs inside unwrapped lines. This patch mostly converts the array-based
UnwrappedLine into a linked-list-based UnwrappedLine. Future changes will
allow multiple children for each Token turning the UnwrappedLine into a
tree.
No functional changes intended.
llvm-svn: 171856
Previous indent:
class A {
}
a;
void f() {
};
With this patch:
class A {
} a;
void f() {
}
;
The patch introduces a production for classes and structs, and parses
the rest of the line to the semicolon after the class scope.
This allowed us to remove a long-standing wart in the parser that would
just much the semicolon after any block.
Due to this suboptimal formating some tests were broken.
Some unrelated formatting tests broke; those hit a bug in the ast
printing, and need to be fixed separately.
llvm-svn: 171761
Also set ObjC1 in the formatter tests.
The only effect of this flag in the lexer is that '@' now gets turned into
tok::at instead of tok::unknown.
llvm-svn: 171742
This addresses llvm.org/PR14830.
Before:
unsigned Cost =
TTI.getMemoryOpCost(I->getOpcode(), VectorTy, SI->getAlignment(),
SI->getPointerAddressSpace());
CharSourceRange LineRange =
CharSourceRange::getTokenRange(TheLine.Tokens.front().Tok.getLocation(),
TheLine.Tokens.back().Tok.getLocation());
After:
unsigned Cost = TTI.getMemoryOpCost(I->getOpcode(), VectorTy,
SI->getAlignment(),
SI->getPointerAddressSpace());
CharSourceRange LineRange = CharSourceRange::getTokenRange(
TheLine.Tokens.front().Tok.getLocation(),
TheLine.Tokens.back().Tok.getLocation());
This required rudimentary changes to static initializer lists, but we
are not yet formatting them in a reasonable way. That will be done in a
subsequent patch.
llvm-svn: 171731
Before:
virtual void write(ELFWriter *writer, OwningPtr<FileOutputBuffer> &buffer) =
0
After:
virtual void write(ELFWriter *writerrr,
OwningPtr<FileOutputBuffer> &buffer) = 0;
This addresses llvm.org/PR14815.
To implement this I introduced a line type during parsing and moved the
definition of TokenType out of the struct for increased readability.
Should have done the latter in a separate patch, but it would be hard to
pull apart now.
llvm-svn: 171724
The case that we wanted to write a test for cannot happen, as the
UnwrappedLineParser already protects against it. Added an assert to
prevent regressions of that assumption.
llvm-svn: 171720
We would format:
#define A \
int f(a); int i;
as
#define A \
int f(a);\
int i
The fix will break up macro definitions that could fit a line, but hit
the last column; fixing that is more involved, though, as it requires
looking at the following line.
llvm-svn: 171715
Previously, we'd format
int i;\
// comment
as
int i; // comment
The problem is that the escaped newline is part of the next token, and
thus the raw token text of the comment doesn't start with "//".
llvm-svn: 171713
If a token follows directly on an escaped newline, the escaped newline
is stored with the token. Since we re-layout escaped newlines, we need
to treat them just like normal whitespace - thus, we need to increase
the whitespace-length of the token, while decreasing the token length
(otherwise the token length contains the length of the escaped newline
and we double-count it while indenting).
llvm-svn: 171706
If we find an unexpected closing brace, we must not stop parsing, as
we'd otherwise not layout anything beyond that point.
If we find a structural error on the highest level we'll not re-indent
anyway, but we'll still want to format within unwrapped lines.
Needed to introduce a differentiation between an expected and unexpected
closing brace.
llvm-svn: 171666
To parse # correctly, we need to know whether it is the first token in a
line - we can deduct this either from the whitespace or seeing that the
token is the first in the file - we already calculate this information.
This patch moves the identification of the first token into the
getNextToken method and stores it inside the FormatToken, so the
UnwrappedLineParser can stay independent of the SourceManager.
llvm-svn: 171640
Some of this is still pretty rough (note the load of FIXMEs), but it is
strictly an improvement and fixes various bugs that were related to
macro processing but are also imporant in non-macro use cases.
Specific fixes:
- correctly puts espaced newlines at the end of the line
- fixes counting of white space before a token when escaped newlines are
present
- fixes parsing of "trailing" tokens when eof() is hit
- puts macro parsing orthogonal to parsing other structure
- general support for parsing of macro definitions
Due to the fix to format trailing tokens, this change also includes a
bunch of fixes to the c-index tests.
llvm-svn: 171556
Fixes:
- incorrect handling of multiple consecutive preprocessor directives
- crash when trying to right align the escpaed newline for a line that
is longer than the column limit
- using only ColumnLimit-1 columns when layouting with escaped newlines
inside preprocessor directives
llvm-svn: 171401
This fixes llvm.org/PR14786.
We will need to split there as a last resort, but that should be done
consistently independent of whether the type is a template type or not.
Before:
template <typename T>
aaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaaaaaa, aaaaaaaaaaaaaaaaaaaaaaaaaa<T>
::aaaaaaaaaa, aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa);
After:
template <typename T>
aaaaaaaaaaaaaaaaaaa(aaaaaaaaaaaaaaaaaa,
aaaaaaaaaaaaaaaaaaaaaaaaaa<T>::aaaaaaaaaa,
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa);
llvm-svn: 171400
This fixes llvm.org/PR14687.
Also fixes segfault for lines starting with * or &.
Before:
a *~b;
*a = 1; // <- this segfaulted
After:
a * ~b;
*a = 1; // no segfault :-)
llvm-svn: 171396
This is the first step towards handling preprocessor directives. This
patch only fixes the most pressing issue, namely correctly escaping
newlines for tokens within a sequence of a preprocessor directive.
The next step will be to fix incorrect format decisions on #define
directives.
llvm-svn: 171393
This prevents formattings like this (assuming "parameter" doesn't fit the line):
bool f = someFunction() && someFunctionWithParam(
parameter) && someOtherFunction();
Here, "parameter" - the start of line 2 - has a parenthesis level of 2, but
there are subsequent tokens ("&&" and "someOtherFunction") with a lower level.
This is bad for readability as "parameter" hides "someOtherFunction". With this
patch, this changes to:
bool f = someFunction() &&
someFunctionWithParam(parameter) &&
someOtherFunction();
llvm-svn: 171038
This changes:
int Result = a + // force break
b;
return Result + // force break
5;
To:
int Result = a + // force break
b;
return Result + // force break
5;
llvm-svn: 171032
This fixes llvm.org/pr14686.
We used to add too many spaces for different versions of overloaded operator
function declarations/definitions. This patch changes, e.g.
operator *() {}
operator >() {}
operator () () {}
to
operator*() {}
operator>() {}
operator()() {}
llvm-svn: 171028
With this patch, splitting after binary operators has a panelty corresponding
to the operator's precedence. We used to ignore this and eagerly format like:
if (aaaaaaaaaaaaaaaaaaaaaaaaa || bbbbbbbbbbbbbbbbbbbbbbbbb &&
ccccccccccccccccccccccccc) { .. }
With this patch, this becomes:
if (aaaaaaaaaaaaaaaaaaaaaaaaa ||
bbbbbbbbbbbbbbbbbbbbbbbbb && ccccccccccccccccccccccccc) { .. }
llvm-svn: 171007
We used to not really format them. Now we do:
for (MachineBasicBlock::succ_iterator SI = BB->succ_begin(),
SE = BB->succ_end();
SI != SE; ++SI) {
This is just one example and I am sure we still mess some of them up, but it
is a step forward.
llvm-svn: 170899
fix any bad objectiveC syntax coming out of
DeclPrinter. This is on going. Also, introduce a new
PrintPolicy and use it as needed when declaration tag
is to be produced via DeclPrinter.
llvm-svn: 170606
use clang's formatter. Currently, formatter is used
to format declaration tags for xml comments. Since formatter
is in flux and its change will break several of the clang comment
tests, only a single tests is formatted using this facility.
Doug has reviewed and approved it for check-in.
llvm-svn: 170467
We used to format initializers like this (with a sort of hacky implementation):
Constructor()
: Val1(A),
Val2(B) {
and now format like this (with a somewhat better solution):
Constructor()
: Val1(A), Val2(B) {
assuming this would not fit on a single line. Also added tests.
As a side effect we now first analyze whether an UnwrappedLine needs to be
split at all. If not, not splitting it is the best solution by definition. As
this should be a very common case in normal code, not exploring the entire
solution space can provide significant speedup.
llvm-svn: 170457
This allows for writing tests including line comments easier and more readable.
We will need more of those tests in the future and also line comments are
useful to force line breaks in tests.
llvm-svn: 170446
avoided.
This required a minor modification of the memoization as now the
"CurrentPenalty" depends on whether or not we break before the current
token. Therefore, the CurrentPenalty should not be memoized but added
after retrieving a value from memory. This should not affect the runtime
behavior.
llvm-svn: 170337
More specifically:
- Improve formatting of static initializers.
- Fix formatting of lines comments in enums.
- Fix formmating of trailing line comments.
llvm-svn: 170316
specifies not to. Dont build ASTMatchers with Rewriter disabled and
StaticAnalyzer when it's disabled.
Without all those three, the clang binary shrinks (x86_64) from ~36MB
to ~32MB (unstripped).
llvm-svn: 170135
a file or directory, allowing just a stat call if a file descriptor
is not needed.
Doing just 'stat' is faster than 'open/fstat/close'.
This has the effect of cutting down system time for validating the input files of a PCH.
llvm-svn: 169831
definition, rather than at the end of the definition of the set of nested
classes. We still defer checking of the user-specified exception specification
to the end of the nesting -- we can't check that until we've parsed the
in-class initializers for non-static data members.
llvm-svn: 169805
Summary: Adds support for formatting for and while loops.
Reviewers: djasper, klimek
Reviewed By: klimek
CC: cfe-commits
Differential Revision: http://llvm-reviews.chandlerc.com/D174
llvm-svn: 169387
- Fix behavior of memoization together with optimization
- Correctly attribute the PenaltyIndentLevel (breaking directly after "(" did
not count towards the inner level)
- Recognize more tokens as assignments
Review: http://llvm-reviews.chandlerc.com/D172
llvm-svn: 169384
PreprocessingRecord and into its own class, PPConditionalDirectiveRecord.
Decoupling allows a client to use the functionality of PPConditionalDirectiveRecord
without needing a PreprocessingRecord.
llvm-svn: 169229
I think "i128", that I conditioned out, could be completely removed.
MS Compiler doesn't accept i128. We can assume no one would use i128.
llvm-svn: 168865
The problem is that a partial match of an (explicit or implicit) allOf matcher
binds results, i.e.
recordDecl(decl().bind("x"), hasName("A"))
can very well bind a record that is not named "A". With this fix, the common
cases of stumbling over this bug are fixed by the BoundNodesMap overwriting the
results of a partial match. An error can still be created with a weird
combination of anyOf and allOf (see inactive test). We need to decide whether
this is worth fixing, as the fix will have performance impact.
Review: http://llvm-reviews.chandlerc.com/D124
llvm-svn: 168177
When recursively visiting the generated matches, the aggregated bindings need
to be copied during the recursion. Otherwise, we they might not be properly
overwritten (which is shown by the test), or there might be bound nodes present
that were bound on a different matching branch.
Review: http://llvm-reviews.chandlerc.com/D112
llvm-svn: 167695
Often users of the ASTMatchers want to add tasks that are done once per
translation unit, for example, cleaning up caches. Combined with the
interception point for the end of source file one can add to the factory
creation, this covers the cases we've seen users need.
llvm-svn: 167271
This implements has(), hasDescendant(), forEach() and
forEachDescendant() for NestedNameSpecifier and NestedNameSpecifierLoc
matchers.
Review: http://llvm-reviews.chandlerc.com/D86
llvm-svn: 167017
methods looking for documentation on a particular base
class inherited by any method that overrides the base class.
In case of redeclaration, as when objc method is defined
in the implementation, it also looks up for documentation
in class/class extension being redeclared.
llvm-svn: 165643
Without this patch, the isDerivedFrom matcher asserts in the
"assert(ClassDecl != NULL);" in the new test, as a
DependentTemplateSpecilizationType is not a sub-type of
TemplateSpecializationType and also does not offer getAsCXXRecordDecl().
I am not sure why this did not cause problems before. It is now (after
the changed implementation of isDerivedFrom) easier to write a matcher
that actually gets into this branch of the code.
llvm-svn: 164127
Having Expr-subclass-matchers being VariadicDynCast-Expr-matchers does
not provide additional type safety and just makes using them harder. In
the clang AST, expressions are always statements and an expression
matcher can be used anywhere, a statement matcher is expected. Any given
matcher definition still has at least one noun.
llvm-svn: 164121
There are two evils we can choose from:
- Name overlap between isA-matcher and llvm::isa<>()
- Bad name for what the isA-matcher currently does
After some discussion we have agreed to go with the latter evil.
Review: http://llvm-reviews.chandlerc.com/D40
llvm-svn: 163740
Now we have a list of all commands. This is a good thing in itself, but it
also enables us to easily implement typo correction for command names.
With this change we have objects that contain information about each command,
so it makes sense to resolve command name just once during lexing (currently we
store command names as strings and do a linear search every time some property
value is needed). Thus comment token and AST nodes were changed to contain a
command ID -- index into a tables of builtin and registered commands. Unknown
commands are registered during parsing and thus are also uniformly assigned an
ID. Using an ID instead of a StringRef is also a nice memory optimization
since ID is a small integer that fits into a common bitfield in Comment class.
This change implies that to get any information about a command (even a command
name) we need a CommandTraits object to resolve the command ID to CommandInfo*.
Currently a fresh temporary CommandTraits object is created whenever it is
needed since it does not have any state. But with this change it has state --
new commands can be registered, so a CommandTraits object was added to
ASTContext.
Also, in libclang CXComment has to be expanded to include a CXTranslationUnit
so that all functions working on comment AST nodes can get a CommandTraits
object. This breaks binary compatibility of CXComment APIs.
Now clang_FullComment_getAsXML(CXTranslationUnit TU, CXComment CXC) doesn't
need TU parameter anymore, so it was removed. This is a source-incompatible
change for this C API.
llvm-svn: 163540
class itself. This caused some confusion (intuitively, a class is not
derived from itself) and makes it hard to write certain matchers, e.g.
"match and bind any pair of base and subclass".
The original behavior can be achieved with a new isA-matcher. Similar
to all other matchers, this matcher has the same behavior and name as
the corresponding AST-entity - in this case the isa<>() function.
llvm-svn: 163385
Implements the hasAncestor matcher. This builds
on the previous patch that introduced DynTypedNode to build up
a parent map for an additional degree of freedom in the AST traversal.
The map is only built once we hit an hasAncestor matcher, in order
to not slow down matching for cases where this is not needed.
We could implement some speed-ups for special cases, like building up
the parent map as we go and only building up the full map if we break
out of the already visited part of the tree, but that is probably
not going to be worth it, and would make the code significantly more
complex.
Major TODOs are:
- implement hasParent
- implement type traversal
- implement memoization in hasAncestor
llvm-svn: 163382
Due to DynTypedNode the basic dynamically typed matcher interface can now be simplified.
Also switches the traversal interfaces to use DynTypedNode;
this is in preperation for the hasAncestor implementation, and
also allows us to need fewer changes when we want to add new
nodes to traverse, thus making the code a little more decoupled.
Main design concerns: I went back towards the original design
of getNodeAs to return a pointer, and switched DynTypedNode::get
to always return a pointer (in case of value types like QualType
the pointer points into the storage of DynTypedNode, thus allowing
us to treat all the nodes the same from the point of view of a
user of the DynTypedNodes.
Adding the QualType implementation for DynTypedNode was needed
for the recursive traversal interface changes.
llvm-svn: 163212
This is similar to how we divide up the StaticAnalyzer libraries to separate
core functionality to what is clearly associated with Frontend actions.
llvm-svn: 163050
Intorduces an abstraction for DynTypedNode which makes
is impossible to create in ways that introduced the bug;
also hides the implementation details of the template
magic away from the user and prepares the code for adding
QualType and TypeLoc bindings, as well as using DynTypedNode
instead of overloads for child and ancestor matching.
getNodeAs<T> was changed towards a non-pointer type, as
we'll want QualType and TypeLoc nodes to be returned
by value (the alternative would be to create new storage
which is prohibitively costly if we want to use it for
child / ancestor matching).
DynTypedNode is moved into a new header ASTTypeTraits.h,
as it is completely independent of the rest of the matcher
infrastructure - if the need comes up, we can move it to
a more common place.
The interface for users before the introduction of the
common storage change remains the same, minus the introduced
bug, for which a regression test was added.
llvm-svn: 162936
isWritten() returns false, if shouldVisitImplicitCode() returns true.
Previously those CXXCtorInitializers were always skipped.
In order to make this change easier to test, this patch also extends the
test class template ExpectedLocationVisitor to support arbitrary numbers
of expected matches and disallowed matches.
llvm-svn: 162544
ASTMatchers have the same name as the corresponding AST nodes
but are lower case. The only exceptions are the "CXX" prefixes
which are not copied over to the matcher names as the goal is to
actually remove these prefixes from the AST node names.
llvm-svn: 162536
name. This should reduce the amount of warning false positives about bad HTML
in comments when the comment author intended to put a reference to a template.
This change will also enable us parse the comment as intended in these cases.
Fixes part 1 of PR13374.
llvm-svn: 162407
Add a flag PrintingPolicy::DontRecurseInDeclContext to provide "terse" output
from DeclPrinter. The motivation is to use DeclPrinter to print declarations
in user-friendly format, without overwhelming user with inner detail of the
declaration being printed.
Also add many tests for DeclPrinter. There are quite a few things that we
print incorrectly: search for WRONG in DeclPrinterTest.cpp -- and these tests
check our output against incorrect output, so that we can fix/refactor/rewrite
the DeclPrinter later.
llvm-svn: 162245
The only caveat is renumbering CXCommentKind enum for aesthetic reasons -- this
breaks libclang binary compatibility, but should not be a problem since API is
so new.
This also fixes PR13372 as a side-effect.
llvm-svn: 161087
hex: ) during comment parsing.
Now internal representation of plain text in comment AST does not contain
character references, but the characters themselves.
llvm-svn: 160891
and became necessary with the change to require BindableMatchers
for binding.
Also fixes PR 13445: "hasSourceExpression only works for implicit casts".
llvm-svn: 160716
as per Chandler's request:
- introduces a new matcher base type BindableMatcher that
provides the bind() call
- makes all dynamic-cast matcher creation functions return
BindableMatchers; the special case about dynamic-cast
matchers is that the node they match on and the node
their child matchers match on are the same node, just
casted to a different type; thus, there is no ambiguity
on what bind() matches on; additionally, those are the
matchers that we name with nouns in the matcher language,
so it's easy for users to intuitively know which matchers
are bindable
To make this change possible, we got rid of a non-orthogonal
implementation of thisPointerType, which had an implicit
dynamic-cast matcher from CallExpr to CXXMemberCallExpr; as
alternative, we now provide a memberCall dynamic-cast matcher
and thisPointerType is a predicate on CXXMemberCallExpr.
Last, the ArgumentAdaptingMatcher is actually not required
for the implementation of makeDynCastAllOfComposite - this
simplification makes it more obvious where the bind() call
can be used based on the matcher creation function types.
llvm-svn: 160673
The assertion was wrong in case we have a verbatim block without a closing
command.
Also add tests for closing command name in a verbatim block, since now it can
be empty in such cases.
llvm-svn: 160568
One adds matchers for the various parts of a for loop (initializer, condition,
increment), as well as extending the hasBody matcher to work for while and
do-while loops. The second patch adds an isInteger matcher for types.
The third patch fixes a bug in allOf, where a few of the name chages
(AllOf --> allOf) had been missed.
All matchers come with unit tests.
Patches by Sam Panzer!
llvm-svn: 160115
diagnostics implemented -- see testcases.
I created a new TableGen file for comment diagnostics,
DiagnosticCommentKinds.td, because comment diagnostics don't logically
fit into AST diagnostics file. But I don't feel strongly about it.
This also implements support for self-closing HTML tags in comment
lexer and parser (for example, <br />).
In order to issue precise diagnostics CommentSema needs to know the
declaration the comment is attached to. There is no easy way to find a decl by
comment, so we match comments and decls in lockstep: after parsing one
declgroup we check if we have any new, not yet attached comments. If we do --
then we do the usual comment-finding process.
It is interesting that this automatically handles trailing comments.
We pick up not only comments that precede the declaration, but also
comments that *follow* the declaration -- thanks to the lookahead in
the lexer: after parsing the declgroup we've consumed the semicolon
and looked ahead through comments.
Added -Wdocumentation-html flag for semantic HTML errors to allow the user to
disable only HTML warnings (but not HTML parse errors, which we emit as
warnings in -Wdocumentation).
llvm-svn: 160078
very simple semantic analysis that just builds the AST; minor changes for lexer
to pick up source locations I didn't think about before.
Comments AST is modelled along the ideas of HTML AST: block and inline content.
* Block content is a paragraph or a command that has a paragraph as an argument
or verbatim command.
* Inline content is placed within some block. Inline content includes plain
text, inline commands and HTML as tag soup.
llvm-svn: 159790
used with classes that generate ASTConsumers; this allows decoupling
the ASTConsumer generation from the Frontend library (like, for example,
the MatchFinder in the upcoming ASTMatcher patch).
llvm-svn: 159760
The fundamental change is to put a CMakeLists.txt file in the unittest
directory, with a single test binary produced from it. This has several
advantages.
Among other fundamental advantages, we start to get the checking logic
for when a file is missing from the CMake build, and this caught one
missing file already! More fun details in the LLVM commit corresponding
to this one.
Note that the LLVM commit and this one most both be applied, or neither.
Sorry for any skew issues.
llvm-svn: 158910
match the LLVM implemenation. This also simplifies the name management
and splits the custom library management out from the unittest specific
management. It finally drops the dependency on parsing cmake arguments.
llvm-svn: 158894
express library-level dependencies within Clang.
This is no more verbose really, and plays nicer with the rest of the
CMake facilities. It should also have no change in functionality.
llvm-svn: 158888
That commit added a new library just to hold the RawCommentList. I've
started a discussion on the commit thread about whether that is really
meritted -- it certainly doesn't seem necessary at this stage.
However, the immediate problem is that the AST library has a hard
dependency on the Comment library, but the dependencies were set up
completely backward. In addition to the layering violation, this had an
unfortunate effect if scattering the Comments library dependency
throughout the build system, but inconsistently so -- several parts of
the CMake dependencies were missing and only showed up due to transitive
deps or the fact that the target wasn't being built by tho bots.
It turns out that the Comments library can't (currently) be a well
formed layer *below* the AST library either, as it has an API that
accepts an ASTContext. That parameter is currently unused, so maybe that
was a mistake?
Anyways, it really seems like this is logically part of the AST --
that's the whole point of the ASTContext providing access to it as far
as I can tell -- so I've merged it into the AST library to solve the
immediate layering violation problems and remove some of the churn from
our library dependencies.
llvm-svn: 158807
* Retain comments in the AST
* Serialize/deserialize comments
* Find comments attached to a certain Decl
* Expose raw comment text and SourceRange via libclang
llvm-svn: 158771
Fix RecursiveASTVisitor to visit CXXForRangeStmts accordingly to visit
implicit or explicit code.
The key bug that inspired this was the Visitor not visiting the range
initializer of such a loop, which is explicit code.
llvm-svn: 158395
first writing the changed files to a temporary location and then overwriting
the original files atomically.
Also adds a RewriterTestContext to aid unit testing rewrting logic in general.
llvm-svn: 157260
We don't create any declaration to mark the explicit instantiation of function
templates other than the instantiation itself, so visit that when traversing
the function template decl.
This is a temporary fix, pending the creation of a Decl node to represent the
explicit instantiation.
Patch by Daniel Jasper!
llvm-svn: 156522
* Work around build failures due to gcc 4.2 bugs.
* Remove BodyIndexer::TraverseCXXOperatorCallExpr, which was not being called
prior to this change, and whose presence disables a RecursiveASTVisitor
stack space optimization after this change.
llvm-svn: 155969
all instantiations of a template when we visit the canonical declaration of the
primary template, rather than trying to match them up to the partial
specialization from which they are instantiated. This fixes a bug where we
failed to visit instantiations of partial specializations of member templates of
class templates, and naturally extends to allow us to visit instantiations where
we have instantiated only a declaration.
llvm-svn: 155597
templates. In an implicit instantiation of a member class, any member
templates don't get instantiated, so the existing check which only visited
the instantiations of a defined template skipped these templates'
instantiations.
Since there is only a single declaration of a member template of a class
template specialization, just use that to determine whether to visit the
instantiations. This introduces a slight inconsistency in that we will
visit the instantiations of such templates whether or not they are
defined, but we never visit a declared-but-not-defined instantiation, so
this turns out to not matter.
Patch by Daniel Jasper!
llvm-svn: 155487
Provides an API to run clang tools (FrontendActions) as standalone tools,
or repeatedly in-memory in a process. This is useful for unit-testing,
map-reduce style applications, source transformation daemons or command line
tools.
The ability to run over multiple translation units with different command
line arguments enables building up refactoring tools that need to apply
transformations across translation unit boundaries.
See tools/clang-check/ClangCheck.cpp for an example.
llvm-svn: 154008
"#include MACRO(STUFF)".
-As an inclusion position for the included file, use the file location of the file where it
was included but *after* the macro expansions. We want the macro expansions to be considered
as before-in-translation-unit for everything in the included file.
-In the preprocessing record take into account that only inclusion directives can be encountered
as "out-of-order" (by comparing the start of the range which for inclusions is the hash location)
and use binary search if there is an extreme number of macro expansions in the include directive.
Fixes rdar://11111779
llvm-svn: 153527
the new Objective-C NSArray/NSDictionary/NSNumber literal syntax.
This introduces a new library, libEdit, which provides a new way to support
migration of code that improves on the original ARC migrator. We now believe
that most of its functionality can be refactored into the existing libraries,
and thus this new library may shortly disappear.
llvm-svn: 152141
Introduce PreprocessingRecord::rangeIntersectsConditionalDirective() which returns
true if a given range intersects with a conditional directive block.
llvm-svn: 152018
fails within a call to a constexpr function. Add -fconstexpr-backtrace-limit
argument to driver and frontend, to control the maximum number of notes so
produced (default 10). Fix APValue printing to be able to pretty-print all
APValue types, and move the testing for this functionality from a unittest to
a -verify test now that it's visible in clang's output.
llvm-svn: 146749
tools that match on the C++ ASTs. The main interface is in ASTMatchers.h,
an example implementation of a tool that removes redundant .c_str() calls
is in the example RemoveCStrCalls.cpp.
Various contributions:
Zhanyong Wan, Chandler Carruth, Marcin Kowalczyk, Wei Xu, James Dennett.
llvm-svn: 132374
This patch simplifies writing of standalone Clang tools. As an
example, we add clang-check, a tool that runs a syntax only frontend
action over a .cc file. When you integrate this into your favorite
editor, you get much faster feedback on your compilation errors, thus
reducing your feedback cycle especially when writing new code.
The tool depends on integration of an outstanding patch to CMake to
work which allows you to always have a current compile command
database in your cmake output directory when you set
CMAKE_EXPORT_COMPILE_COMMANDS.
llvm-svn: 130306
the first step towards a standalone Clang tool infrastructure.
The plan is to make it easy to build command line tools that run over
the AST of source files in a project outside of the build system.
llvm-svn: 129924
This removes the final dependency edge from any lib outside of CodeGen
to core. As a result we can, and do, trim the dependency on core
from libclang, PrintFunctionNames, the unit tests and c-index-test.
While at it, review and trim other unneeded dependencies.
llvm-svn: 125820
This patch contains:
- making some of the existing comments more accurate in the presence
of virtual files/directories.
- renaming some private data members of FileManager to match their roles better.
- creating 'DirectorEntry's for the parent directories of virtual
files, such that we can tell whether two virtual files are from the
same directory. This is useful for injecting virtual files whose
directories don't exist in the real file system.
- minor clean-ups and adding comments for class
FileManager::UniqueDirContainer and FileManager::UniqueFileContainer.
- adding statistics on virtual files to FileManager::PrintStats().
- adding unit tests to verify the existing and new behavior of FileManager.
llvm-svn: 125384
Manuel Klimek