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To make this as quick and concise as possible, this is my code:

    char* aiMove = getAIMove();
    cout << aiMove;
    cout << "\n" << numMoves << ": " << aiMove << "\n\n";
    return aiMove;

And this is my output:

    a0 a1
    0: �����������������������7

So, the first line calls getAIMove() and assigns the return value (char*) to aiMove.

The second line prints aiMove (a0 a1).

The third line takes numMoves and aiMove into cout and prints it, but it's printing some strange value instead.

The 4th line returns aiMove, which I've inspected to be the strange value printed.

Why has the value of aiMove changed? It seems to only happen when I pass an integer value into cout (in this case, numMoves).

Please help! Thanks, Patrick :)

edit: another thing that I forgot to mention is that this strange behaviour only happens when this block of code gets executed for the first time, every following time it gets run during the program it prints fine.

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and getAIMove() is char* getAIMove() { char str[] = "Patrick"; return str; } ??? If yes, then it's wrong to return pointer to a local variable. –  Jagannath Apr 19 '12 at 7:50
can you provide the code of getAIMove()? Do you return a local stack allocated variable? –  Adriano Repetti Apr 19 '12 at 7:50
@Jagannath you're right, getAIMove() is eventually returning char str[]. Thanks :) Although I still don't understand why passing an integer value to cout makes a difference :S –  Patrick M Apr 19 '12 at 8:00
The call to cout that prints the integer is probably using the stack space that was holding the aiMove char buffer. i.e. it is overwriting what aiMove pointed to. –  JohnPS Apr 19 '12 at 8:02

2 Answers 2

up vote 3 down vote accepted

This is a clear indication that getAIMove returned a pointer to memory that the system felt free to reuse. A subsequent allocation, from either the stack or the heap, overwrote the returned pointer.

There are lots of ways this can happen, this is probably the most common:

char *GetAIMove()
    char buf[128];
    strcpy(buf, "a0");
    strcat(buf, " ");
    strcat(buf, "a1");
    return buf; // oops, buf won't exist after we return

Oops. This code returns a pointer to a buffer that ceases to exist as soon as it returns. A typical fix for this issue would be return strdup(buf);. Just remember that the caller of the function needs to free the string when it's done with it.

Here's another way:

std::string GetAIMove()
 // ...
 return foo;

char* aiMov e= GetAIMove();
// aiMove points to the contents of the returned string, no longer in scope.

The fix for this is std::string aiMove = GetAIMove. Now aiMove keeps the string in scope.

But the best fix is to use a string class specifically designed to hold strings all the way through:

std::string GetAIMove()
    std::string foo;
    foo = "a1";
    foo += " ";
    foo += "a2";
    return foo;

std::string aiMove = GetAIMove();

Note that while this code appears to involve a lot of copying, in practice, modern compilers will make it efficient. So don't feel bad about keeping your code simple, logical, and easy to understand and maintain.

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Thanks for the in depth explanation! :) Would it be OK to make getAIMove() return a std::string then do this: char* aiMove = getAIMove().c_str(); ? –  Patrick M Apr 19 '12 at 8:02
No. Because any non-const method invoked on the string invalidates the returned pointer, and the destructor is non-const. So again aiMove will point to the contents of something that no longer exists. The returned pointer from c_str is valid only until any operation that can modify the string. Destroying it definitely qualifies! –  David Schwartz Apr 19 '12 at 8:07

No, cout doesn't change the contents of the parameter.

You're probably doing something wrong beforehand and running into undefined behavior.

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