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I am new to C++, and haven't quite grasped all the concepts yet, so i am perplexed at why this function does not work. I am currently not at home, so i cannot post the compiler error just yet, i will do it as soon as i get home.

Here is the function.

const char * ConvertToChar(std::string input1, std::string input2) {
    // Create a string that you want converted
    std::stringstream ss;
    // Streams the two strings together
    ss << input1 << input2;
    // outputs it into a string
    std::string msg = ss.str();
    //Creating the character the string will go in; be sure it is large enough so you don't overflow the array
    cont char * cstr[80];
    //Copies the string into the char array. Thus allowing it to be used elsewhere.
    strcpy(cstr, msg.c_str());

    return * cstr;

It is made to concatenate and convert two strings together to return a const char *. That is because the function i want to use it with requires a const char pointer to be passed through.

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Strings can be concatenated much easier: string1 + string2. You don't need the whole stringstream stuff. –  Florin Dinu Dec 19 '12 at 14:55

2 Answers 2

up vote 3 down vote accepted

The code returns a pointer to a local (stack) variable. When the caller gets this pointer that local variable doesn't exist any more. This is often called dangling reference.

If you want to convert std::string to a c-style string use std::string::c_str().

So, to concatenate two strings and get a c-style string do:

std::string input1 = ...;
std::string input2 = ...;

// concatenate
std::string s = input1 + input2;

// get a c-style string
char const* cstr = s.c_str(); 
// cstr becomes invalid when s is changed or destroyed
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So do i need to make a global char variable that it will modify instead of returning the local variable? Also could you elaborate on what you mean by local (stack) variable. –  Dibesjr Dec 19 '12 at 14:53
So how would i avoid it getting destroyed? –  Dibesjr Dec 19 '12 at 14:56
@Dibesjr I added concatenation example for you. –  Maxim Egorushkin Dec 19 '12 at 14:57
google stack, heap, and memory managment in c. these are important concepts for any programmer. especially c/c++ people. –  Oren Dec 19 '12 at 14:58
Is that the proper way to concatenate without destroying the cstr? –  Dibesjr Dec 19 '12 at 14:58

Without knowing what the error is, it's hard to say, but this line:

const char* cstr[80];

seems wrong: it creates an array of 80 pointers; when it implicitly converts to a pointer, the type will be char const**, which should give an error when it is passed as an argument to strcpy, and the dereference in the return statement is the same as if you wrote cstr[0], and returns the first pointer in the array—since the contents of the array have never been initialized, this is undefined behavior.

Before you go any further, you have to define what the function should return—not only its type, but where the pointed to memory will reside. There are three possible solutions to this:

Use a local static for the buffer:
This solution was frequently used in early C, and is still present in a number of functions in the C library. It has two major defects: 1) successive calls will overwrite the results, so the client code must make its own copy before calling the function again, and 2) it isn't thread safe. (The second issue can be avoided by using thread local storage.) In cases like yours, it also has the problem that the buffer must be big enough for the data, which probably requires dynamic allocation, which adds to the complexity.
Return a pointer to dynamically allocated memory:
This works well in theory, but requires the client code to free the memory. This must be rigorously documented, and is extremely error prone.
Require the client code to provide the buffer:
This is probably the best solution in modern code, but it does mean that you need extra parameters for the address and the length of the buffer.

In addition to this: there's no need to use std::ostringstream if all you're doing is concatenating; just add the two strings. Whatever solution you use, verify that the results will fit.

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Thank you for the detailed description! Learning something new everyday! C++ is by far the hardest langauge i have had to tackle. Most other languages have pretty clear cut rules as to what can and cannot be done. This makes it a challenge for newbies like me to delve into C++ because of all the rules and nuances that come with it. –  Dibesjr Dec 19 '12 at 17:26

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