A significant number of our tests in C accidentally use functions
without prototypes. This patch converts the function signatures to have
a prototype for the situations where the test is not specific to K&R C
declarations. e.g.,
void func();
becomes
void func(void);
This is the eighth batch of tests being updated (there are a
significant number of other tests left to be updated).
When bugreporter::trackExpressionValue() is invoked on a DeclRefExpr,
it tries to do most of its computations over the node in which
this DeclRefExpr is computed, rather than on the error node (or whatever node
is stuffed into it). One reason why we can't simply use the error node is
that the binding to that variable might have already disappeared from the state
by the time the bug is found.
In case of the inlined defensive checks visitor, the DeclRefExpr node
is in fact sometimes too *early*: the call in which the inlined defensive check
has happened might have not been entered yet.
Change the visitor to be fine with tracking dead symbols (which it is totally
capable of - the collapse point for the symbol is still well-defined), and fire
it up directly on the error node. Keep using "LVState" to find out which value
should we be tracking, so that there weren't any problems with accidentally
loading an ill-formed value from a dead variable.
Differential Revision: https://reviews.llvm.org/D67932
In Objective-C, method calls with nil receivers are essentially no-ops. They
do not fault (although the returned value may be garbage depending on the
declared return type and architecture). Programmers are aware of this
behavior and will complain about a false alarm when the analyzer
diagnoses API violations for method calls when the receiver is known to
be nil.
Rather than require each individual checker to be aware of this behavior
and suppress a warning when the receiver is nil, this commit
changes ExprEngineObjC so that VisitObjCMessage skips calling checker
pre/post handlers when the receiver is definitely nil. Instead, it adds a
new event, ObjCMessageNil, that is only called in that case.
The CallAndMessageChecker explicitly cares about this case, so I've changed it
to add a callback for ObjCMessageNil and moved the logic in PreObjCMessage
that handles nil receivers to the new callback.
rdar://problem/18092611
Differential Revision: http://reviews.llvm.org/D12123
llvm-svn: 247653
This also includes some infrastructure to make it easier to build multi-argument
selectors, rather than trying to use string matching on each piece. There's a bit
more setup code, but less cost at runtime.
PR18908
llvm-svn: 205827
This fixes false positives by allowing us to know that a loop is always entered if
the collection count method returns a positive value and vice versa.
Addresses radar://14169391.
llvm-svn: 184618
We should only suppress a bug report if the IDCed or null returned nil value is directly related to the value we are warning about. This was
not the case for nil receivers - we would suppress a bug report that had an IDCed nil receiver on the path regardless of how it’s
related to the warning.
1) Thread EnableNullFPSuppression parameter through the visitors to differentiate between tracking the value which
is directly responsible for the bug and other values that visitors are tracking (ex: general tracking of nil receivers).
2) in trackNullOrUndef specifically address the case when a value of the message send is nil due to the receiver being nil.
llvm-svn: 178309
Register the nil tracking visitors with the region and refactor trackNullOrUndefValue a bit.
Also adds the cast and paren stripping before checking if the value is an OpaqueValueExpr
or ExprWithCleanups.
llvm-svn: 178093