baloghadamsoftware added inline comments.
================
Comment at: clang/lib/StaticAnalyzer/Checkers/Iterator.cpp:330-336
+SVal getReturnIterator(const CallEvent &Call) {
+ Optional<SVal> RetValUnderConstr = Call.getReturnValueUnderConstruction();
+ if (RetValUnderConstr.hasValue())
+ return *RetValUnderConstr;
+
+ return Call.getReturnValue();
+}
----------------
NoQ wrote:
> baloghadamsoftware wrote:
> > NoQ wrote:
> > > NoQ wrote:
> > > > NoQ wrote:
> > > > > I still believe you have not addressed the problem while moving the
> > > > > functions from D81718 to this patch. The caller of this function has
> > > > > no way of knowing whether the return value is the prvalue of the
> > > > > iterator or the glvalue of the iterator.
> > > > >
> > > > > Looks like most callers are safe because they expect the object of
> > > > > interest to also be already tracked. But it's quite possible that
> > > > > both are tracked, say:
> > > > >
> > > > > ```lang=c++
> > > > > Container1<T> container1 = ...;
> > > > > Container2<Container1::iterator> container2 = { container1.begin()
> > > > > };
> > > > > container2.begin(); // ???
> > > > > ```
> > > > >
> > > > > Suppose `Container1::iterator` is implemented as an object and
> > > > > `Container2::iterator` is implemented as a pointer. In this case
> > > > > `getIteratorPosition(getReturnIterator())` would yield the position
> > > > > of `container1.begin()` whereas the correct answer is the position of
> > > > > `container2.begin()`.
> > > > >
> > > > > This problem may seem artificial but it is trivial to avoid if you
> > > > > simply stop defending your convoluted solution of looking at value
> > > > > classes instead of AST types.
> > > > Ugh, the problem is much worse. D82185 is entirely broken for the exact
> > > > reason i described above and you only didn't notice it because you
> > > > wrote almost no tests.
> > > >
> > > > Consider the test you've added in D82185:
> > > >
> > > > ```lang=c++
> > > > void begin_ptr_iterator(const cont_with_ptr_iterator<int> &c) {
> > > > auto i = c.begin();
> > > >
> > > > clang_analyzer_eval(clang_analyzer_iterator_container(i) == &c); //
> > > > expected-warning{{TRUE}}
> > > > }
> > > > ```
> > > >
> > > > It breaks very easily if you modify it slightly:
> > > > ```lang=c++
> > > > void begin_ptr_iterator(const cont_with_ptr_iterator<int> &c) {
> > > > auto i = c.begin();
> > > > ++i; // <==
> > > >
> > > > clang_analyzer_eval(clang_analyzer_iterator_container(i) == &c); //
> > > > Says FALSE!
> > > > }
> > > > ```
> > > > The iterator obviously still points to the same container, so why does
> > > > the test fail? Because you're tracking the wrong iterator: you treated
> > > > your `&SymRegion{conj_$3}` as a glvalue whereas you should have treated
> > > > it as a prvalue. In other words, your checker thinks that
> > > > `&SymRegion{conj_$3}` is the location of an iterator object rather than
> > > > the iterator itself, and after you increment the pointer it thinks that
> > > > it's a completely unrelated iterator.
> > > >
> > > > There's a separate concern about why does it say `FALSE` (should be
> > > > `UNKNOWN`) but you get the point.
> > > The better way to test D82185 would be to make all existing tests with
> > > iterator objects pass with iterator pointers as well. Like, make existing
> > > container mocks use either iterator objects or iterator pointers
> > > depending on a macro and make two run-lines in each test file, one with
> > > `-D` and one without it. Most of the old tests should have worked out of
> > > the box if you did it right; the few that don't pass would be hidden
> > > under #ifdef for future investigation.
> > Thank you for your review and especially for this tip! It is really a good
> > idea. I changed it now and it indeed shows the problem you reported. It
> > seems that my checker mixes up the region of the pointer-typed variable
> > (`&i` and `&j`) with the region they point to (`&SymRegion{reg_$1<int *
> > SymRegion{reg_$0<const std::vector<int> & v>}._start>}` for `i` before the
> > increment and `&Element{SymRegion{reg_$1<int * SymRegion{reg_$0<const
> > std::vector<int> & v>}._start>},1 S64b,int}` for both `i` and `j` after the
> > increment).
> >
> > What I fail to see and I am asking you help in it is that the relation
> > between this problem and the `getReturnIterator()` function. This function
> > retrieves the object from the construction context if there is one, but for
> > plain pointers there is never one. Thus this function is always
> > `Call.getReturnValue()` like before this patch.
> > I am asking you help
>
> I spent way more time on that already than i find reasonable. Please figure
> this out on your own by fixing the bug.
I do not see why I got so a rude answer. I was just asking help in //seeing the
relation between the bug and this function//. Because I do not see any. I think
the bug is somewhere in handling unary and binary operators for pointers. I
struggled with that part for this same reason and I thought I solved it but now
I see that I did not. However, this function just looks for object under
construction in the construction context of the function. If the function
returns an object by value, then there will be one. In other cases there will
be none. I do not see how this relates to pointers and //glvalues// and
//prvalues//. For parameters you were fully right and I fixed that.
CHANGES SINCE LAST ACTION
https://reviews.llvm.org/D77229/new/
https://reviews.llvm.org/D77229
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