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In Visual Studio, most of my objects and variables cannot be resolved during a debugging session for various reasons. This means I cannot inspect or watch objects or their invoke their functions making it extremely difficult to debug my code because most of my expressions simply won't work. Some typical errors I get when adding an expression to the watch window include:

  • CXX0019: Error: bad type cast
  • CXX0059: Error: left operand is class not a function name
  • CXX0058: Error: overloaded operator not found

Most often these expressions involve overloaded operators and/or template class objects.

Why is this happening? how do you fix it?

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can you post some expressions? using the watch windows with complex algeritms(operators) is asking for troubles imho –  RvdK Nov 24 '09 at 8:54

6 Answers 6

up vote 6 down vote accepted
+50

The errors you have are due to limitations in the debugger, there are not bugs as Daniel implies.

The watch window cannot call overloaded operators. If you have e.g. a std::vector<int> vecSomething you cannot put vecSomething[0] into the watch window, because std::vector<int>::operator[] is an overloaded operator. Consequently, for a vector of objects, you cannot do vecObject[0].SomeMemberVariableOfObject in the watch window. You could write vecObject._Myfirst[0].SomeMemberVariableOfObject. In Visual Studio's STL implementation, _Myfirst is a member of vector pointing at the first element.

If you add your own variables and types to the watch window, add watches to the data members directly. It is no problem to follow chains of pointers like member.memberStruct.ptrToObj->memberOfObj.

Edit:

Actually Visual Studio can call code in the Watch window: http://geekswithblogs.net/sdorman/archive/2009/02/14/visual-studio-2008-debugging-ndash-the-watch-window.aspx

Thus, it is slightly mysterious why overloaded operators cannot be used.

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2  
the watch window does execute code –  stijn Nov 24 '09 at 9:00
    
@stijn: Can you elaborate? It does evaluate expressions, i.e., you can watch "(a+b)/2", it does evaluate code to format expressions following rules given in autoexp.dat, but when does it execute my code? –  Sebastian Nov 24 '09 at 11:24
    
@stijn: Updated my post. I found out that you are right, calling functions is allowed in the watch window. I didn't know that. –  Sebastian Nov 24 '09 at 11:29
1  
I think I recall seeing overloaded operator functions being evaluated in the watch window "once in a blue moon" but most often they definitely do not evaluate. –  Jonathan Neufeld Nov 25 '09 at 21:20

The problem and possible workarounds are precisely described in this Microsoft Documentation

The managed expression evaluator accepts most expressions written in Visual C++. The following topics offer specific information and discuss some of the expression types that are not supported:

Identifiers and Types
Function Evaluation
Operators
Overloaded Operators
Strings
Casts
Object Comparison and Assignment
typeof and sizeof Operators
Boxing
Property Evaluation
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Thanks, however I note that the documentation appears to be wrong for VS2008: it says that overloaded operator[]() will work, but adding a watch v[42] for a variable vector<int> v gives the CXX0058 error -- even if 42 is changed to 42U or 42L or 42LU to satisfy the requirement of exact type matching of arguments. Maybe it doesn't work w.r.t. templates? –  j_random_hacker Oct 9 '13 at 21:12
    
@j_random_hacker Maybe it is because of the template, I don't know since I never used VS2008. When the [] operator doesn't work in the watch window you can display the internal members of the vector Class and add an offset to watch the data you want to see, but this is quite slower than typing v[42]. –  Étienne Oct 9 '13 at 21:59

Why is this happening?

The tool has its limitations. For example, many times I "go to definition" and the definition is not found. I have to "find in files". It is no surprise that some expressions are not evaluated during debugging sessions, either.

How do you fix it?

  • Keep expressions simple. Do not concatenate them directly, use variables with explanatory names for intermediate results.
  • Support your code with explicit assertions. If it's "wrong", an assertion should fail.
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I cannot remember, is there a native assert operator in C++? Or must one devise their own? Moreover, do you think it would work to write wrapper functions as interfaces to commonly inspected expressions to work-around this debugger limitation? That incurs a little more programming overhead, but I cannot think of a better approach just yet. –  Jonathan Neufeld Nov 25 '09 at 21:19
    
@Jonny assert is a macro. It is typically defined by the compiler vendor. And yes, writing extra functions would help clarify what's going on. –  Daniel Daranas Nov 26 '09 at 1:08

PDB file management is far from perfect, certainly in larger projects. In particular, VS has the rather stupid behavior of merging all symbols in VSxx.PDB, even across different projects. The /Fd switch can easily fix this; pass $(TargetDir)$(TargetName).pdb or something similar.

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I found one solution which solves (to some extent) the issue of overloaded operators. It seems to not depend on the internals of the class. You have to use the expanded form of the operator call. Here's an example for vector<int> v:

v.operator[](0)

I tested it in Visual C++ 2012.

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It can be due to nested classes
Example :

    class A
    {
        class B
        {
            int i;
        };
    };

cast like (B*)(0x12345678) will fail, but (A::B*)(0x12345678) will succeeded

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