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I'm sure I've done something wrong, but for the life of me I can't figure out what! Please consider the following code:

const char *value = el.getText().c_str();
field.cdata = el.getText().c_str();

el is an XML element and getText returns a std::string. As expected, el.getText() and el.getText().c_str() print the same value. However, value is set to "" - that is, the empty string - when it assigned the result of c_str(). This code had been written to set field.cdata=value, and so was clearing it out. After changing it to the supposedly-identical expression value is set from, it works fine and the final line prints the expected value.

Since el is on the stack, I thought I might have been clobbering it - but even after value is set, the underlying value in el is still correct.

My next thought was that there was some weird compiler-specific issue with assigning things to const pointers, so I wrote the following:

std::string thing = "test";
std::cout << thing << std::endl;
std::cout << thing.c_str() << std::endl;
const char* value = thing.c_str();
std::cout << value << std::endl;

As expected, I get 'test' three times.

So now I have no clue what is going on. It would seem obvious that there is something strange going on in my program that's not happening in the sample, but I don't know what it is and I'm out of ideas about how to keep looking. Can somebody enlighten me, or at least point me in the right direction?

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Does getText return the string by value? If so, your problem lies in such lines as const char *value = el.getText().c_str();, which cause a dangling pointer at the end of that very line. –  chris Jan 26 '13 at 3:28
Can you clarify what you mean? getText() does return by value. Are you saying that the return-by-val creates a copy of the string, which immediately goes out of scope and is destroyed - but not before I got a (now-invalid) pointer to it? –  Robert Jan 26 '13 at 3:41
@chris You were correct; the string is returned by value so it goes out of scope immediately and the pointer ceases to be valid. If you post this as an answer I'll accept it. –  Robert Jan 26 '13 at 3:49
Accept the existing answer. It already explains what I said in my comment. –  chris Jan 26 '13 at 4:20

1 Answer 1

up vote 4 down vote accepted

I assume that el.getText() is returning a temporary string object. When that object is destroyed the pointer returned by c_str() is no longer valid (keep in mind that that are other ways the pointer returned by c_str() can be invalidated, too).

The temporary object will be destroyed at the end of the full expression it's created in (which is generally at the semi-colon in your example above).

You may be able to solve your problem with something like the following:

const char *value = strdup(el.getText().c_str());

which creates a copy of the string as a raw char array in dynamically allocated memory. You then become responsible for calling free() on that pointer at some point when that data is no longer needed.

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getText is implemented as std::string getText() const { return _text; }. So I think it's a real copy of the string. However, the el object goes out of scope and it's on the stack, so would the pointer become invalid? It still doesn't explain why I was getting an empty string when its source was still valid and in scope. –  Robert Jan 26 '13 at 3:39
@Robert, the string returned by getText is a temporary copy of the string in e1. Since the source is a temporary, the pointer becomes invalid when the temporary becomes invalid - at the first semi-colon. –  Mark Ransom Jan 26 '13 at 3:42
@Robert It's not el that's going out of scope, but the std::string returned by the getText() function. That return value goes out of scope at the end of the assignment statement where you assign it to value. Thereafter value points to a deallocated object, and accessing it is undefined behavior. –  Praetorian Jan 26 '13 at 3:44
OK, I understand now. Thanks! –  Robert Jan 26 '13 at 3:48
Well, keeping the returned string as a local variable is more C++-style than copying a C-string and calling free on it. Good C++-style code should contain almost no malloc, free, delete, raw pointers, raw arrays, ... (as long as there is a good C++ way to handle it, like smart pointers and stuff like that; the same counts for std::string) –  leemes Jan 26 '13 at 4:29

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