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First off, I'm a C# programmer, so my working knowledge of C++ is fairly limited. I took it back in college, but haven't touched it in 10 years, so please forgive me if this is relatively simple stuff.

I'm attempting to make a DLL that I can use in C# that implements the libwpd library.

I've managed to create a DLL that exports 2 functions that I can access via P/Invoke. The first returns a constant integer (generated by visual studio as a sample), the 2nd a string.

If I return a constant string from the function, it passes successfully to C# and I can read it on the other end, so I know the data is being passed back.

The problem I'm running into is with libwpd. I've had to modify their TextDocumentGenerator.cpp file to add the information to a char* instead of using the printf that they use so I can access it later.

I've added a variable definition to the public section of the header file so I can read it from the calling code.

Now, I'm trying to write a function that allows me to add the char* given by libwpd to the external char*.

I've come up with this:

char* addString(const char* addThis, char* toThis)
{
char* copier  = (char*)malloc(strlen(toThis) + 1 + 1);
strcpy(copier, toThis);
strcpy(copier, "1");

toThis = (char*)malloc(strlen(copier) + 1);
strcpy(toThis, copier);

return copier;
} 

But when I pass the information back, I get a blank string.

I call the function by calling totalFile = addString("\n", totalFile);

(I realize it should only technically add "1" to the string repeatedly, but it's not doing even that)

If i change the strcpy to strcat for the copier lines, it locks up.

I don't know how to create a program in C++ so I can even step through the functions to see what's happening.

Any assistance would be appreciated.

share|improve this question
    
strcpy(copier, toThis); strcpy(copier, "1"); - for one thing, the second strcpy overwrites the results of the first. –  Steve Jessop Dec 13 '11 at 19:07
    
If you find yourself using malloc in C++, it almost always means you're doing something wrong. If you find yourself using new in C++, it may still mean you're doing something wrong; many of the common scenarios where new would be needed are already provided in the standard template library. –  Brian Dec 13 '11 at 19:10
    
@Trevor A friendly tip: I would suggest compiling your C++ project as C++/CLI, and in the project create a managed wrapper for the native code. That way, it is MUCH cleaner interfacing with it. You just add a reference as usual and you can create managed instances of your wrapper, which contains unmanaged pointers to the native classes. –  Max Dec 13 '11 at 19:21
    
Don't forget to write and export another function in your DLL to free the allocated string. DLL has it's own memory manager. –  Gene Bushuyev Dec 13 '11 at 19:21

4 Answers 4

up vote 3 down vote accepted

Are you aware of existence of std::string? It's a class that handles strings in C++; char * is legacy from C.

std::string provides + operator, that does what you want.

share|improve this answer
    
I wasn't aware of std::string. The existing code I have to work with and my school used char*, so that's what I was trying to use. I don't seem to have access to std::string (missing an include?) but will look for it. –  Trevor Watson Dec 13 '11 at 18:47
    
He wants to call this from c#, so std::string is not going to work (at least for the parameters and return value). –  crashmstr Dec 13 '11 at 18:53
    
#include <string>. Next time, google for "cppreference <whatever>" to get such information ;) –  Griwes Dec 13 '11 at 18:53
1  
@crashmstr, do you know that there are two ways of getting char * from string? c_str() and &str[0]? –  Griwes Dec 13 '11 at 18:54
    
Blah. Apparently using #include <string> conflicts with the existing required stream class from libwpd. C makes my eyes bleed. thanks for all your assistance. Not sure where I'm going from here. –  Trevor Watson Dec 13 '11 at 18:58

You need to allocate enough space for the return string, copy the inital string into the destination buffer, and then call strcat to append the extra info.

For example:

char* addString(const char* addThis, const char* toThis)
{
    char* destination = (char*)malloc( strlen( addThis ) + strlen( toThis ) + 1 );
    strcpy( destination, toThis );
    strcat( destination, addThis );
    return destination;
} 

Don't forget you'll need to call free( destination ) at some point after calling this function.

EDIT: Of course, this is just me fixing the function proposed in your question. Really, it's not a great idea to return a pointer from a function and count on the caller to free it. Since you're using C++ rather than C, you'd likely be much better off using some C++ constructs, such as std::string or at the very least, wrapping the char* in a shared_ptr or similar.

If you're going to be writing C++, I'd recommend buying yourself a good book on the subject, it really is far too easy to shoot yourself in the foot if you don't know what you're doing.

share|improve this answer
    
This is not necessarily a good idea. You've put the responsibility of the caller to free the block of memory you allocated. This is as bad as not using shared_ptr. You're allocating memory, then saying "be damned with it". Some may disagree, but I find this bad practice. –  Moo-Juice Dec 13 '11 at 18:38
    
@Moo-Juice I agree, personally I'd never write a function like this. I was just fixing the mess of a function proposed in the question. Might edit in a disclaimer to that effect I suppose. –  obmarg Dec 13 '11 at 18:39
    
The strcmp for the first one was what causing it to lock up when i changed it. Doing it as strcpy/strcmp let it run past this point. I'll probably look into sprintf or std::string if i can get past the linking errors. Thanks for the comments! –  Trevor Watson Dec 13 '11 at 19:07

First off, Griwes is correct. You have no business doing what you are doing and marking this question as C++. The simple reason being, this is not how we work with strings in C++.

As you are a C# programmer you are well aware of the String class. Well, std::string is similar. It takes the leg-work out of dealing with strings so that you do not have to go down the painful route that you're going down.

To concatenate two strings together in C++, it's as simple as:

std::string a = "I slept with ";
std::string b = "a heavy heart.";
std::string c = a + b;

Voila.

share|improve this answer
    
The downside to this is using legacy code or code written with char* originally. Can you convert from a std::string to a char* and back again without issue? I also don't have access to the std::string as it stands (missing an include somewhere). In school and in the existing source code that I'm modifying, char* was used so I used char*. I will definitely look into std::string though if I can get access to it. –  Trevor Watson Dec 13 '11 at 18:46
1  
@TrevorWatson, yes. in the above example, calling c.c_str() will give you a regular const char*. –  Moo-Juice Dec 13 '11 at 18:55
    
@TrevorWatson: std::string is part of the standard template library. It will be included with any decent C++ compiler. Using char * instead of std::string is analogous to using char[] in C# instead of using a System.String. –  Brian Dec 13 '11 at 19:04

Since you are replacing a printf() call, sprintf() would probably be the easiest way to create your string.

share|improve this answer
    
This looked relatively promising until the required includes broke libwpd. Thanks for the comment! –  Trevor Watson Dec 13 '11 at 18:59
    
@Trevor: It should only need the same include that is also required for printf, the <stdio.h> header. –  sth Dec 13 '11 at 19:12

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