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I must implement a bunch of methods that allocates, modify and free a 2D array of c-style string. I cannot use string nor vectors nor any stl container.

getNewMat :

char*** getNewMat(int w, int h){
    char*** newMat = new char**[h];
    for(int i = 0 ; i < h ; i++){
        newMat[i] = new char*[w];
        for(int j = 0 ; j < w ; j++)
            newMat[i][j] = NULL;
    }
    return newMat;
}

fillMat

void fillMat(char***mat, int x, int y, char* newEl){
    mat[y][x] = newEl; //this will produce a segfault (even with good index)
}

showMat :

void showMat(char*** mat, int w, int h){
    for(int i = 0 ; i < h ; i++){
        for(int j = 0 ; j  < w ; j++)
            cout << mat[i][j];  
    }
    cout << endl;
}

so, can anyone please tell me what's wrong with this?

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2  
In showMat, you use h as limit for both loops. The j loop should use w. –  Daniel Fischer May 4 '13 at 12:31
    
The better solution, I can see here: you should implement your own class string and use it instead of char*. –  soon May 4 '13 at 12:38
    
That's a possibility, but anyway i'd like to know why this couldn't work, for comprehension itself (plus i fear this show a lack in understanding basic mechanism) –  user2177591 May 4 '13 at 12:42

3 Answers 3

In your fillMat method you do this:

mat[y][x] = newEl;

Where x and y are the dimensions of the two ranks of the array. That line will cause a segmentation fault because you're going outside the bounds of the array. mat is indexed from 0 to length - 1 and setting by x and y is going 1 outside the bounds of the array.

Maybe you meant to loop through and set them:

for (int i = 0; i < y; ++i)
{
     for (int k = 0; k < x; ++k)
         mat[i][k] = newEl;
}

Moreover, inside your showMat function you have this:

cout << showMat[i][j];  

I think you meant for that to be mat:

cout << mat[i][j];  
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x, y are not the width and height of mat, but indexes at which the assignation is made, this line produce a segfault even with x, y = 0, 0 –  user2177591 May 4 '13 at 12:52
    
i didn't meant to loop or anything but simply to assign a value, but you're right for the cout, i'll edit my code –  user2177591 May 4 '13 at 12:58
    
@user2177591 Your code works fine here -- ideone.com/1nXUo1#view_edit_box –  0x499602D2 May 4 '13 at 13:19
  1. newMat[i][j] = NULL - it's a bad idea. In showMat you will try to dereference a NULL pointer - this is UB and may cause a segfault.

  2. char* - it's not a string - it's just a pointer to char, that may points to memory location, where can be beginning of string. If you want to work with it like with a string, you should allocate memory for it too.

  3. mat[y][x] = newEl - it's a bad idea too. As I already said, char* is not a string, so, you can't just use assignment operator to copy data from one C-string into another. You should use std::copy or std::strncpy.

  4. Do not forget to free allocated memory after using.

You should implement your own string class - it's the better solution, I can see there. At least, because it simpler and easier to understand.

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char *x = something; x could contain a string, and so could y: unsigned int y = something;. I think you meant to say "It's not a string. It could point to a string, but it doesn't (because you're setting it to NULL)." –  undefined behaviour May 4 '13 at 13:08
    
@undefinedbehaviour, I mean, x may point to memory location, where can be beginning of string. But it's still a pointer. Not a string. Is it what you're asking about, or I'm missed something? –  soon May 4 '13 at 13:12
    
That sounds better. char *x; strncpy((char *) &x, "", sizeof x); x might contain a string, but it's highly unlikely to point to one. –  undefined behaviour May 4 '13 at 13:14

I must implement a bunch of methods that allocates, modify and free a 2D array of c-style string. ...snip... so, can anyone please tell me what's wrong with this?

A "c-style string" isn't a type. It's a representation of data within a type. '\0'-terminated strings are typically stored within char arrays, but you could store one just as easily in a unsigned int array. For example:

unsigned int message[32] = { 0 };
strcpy((char *) message, "Hello, world!");
printf("%s\n", (char *) message);

I discourage programming like this, however micro-optimistic the benefits may seem. It's also possible to store a string in something that isn't an array. Consider that a char might be suitable for storing an empty string:

char x = '\0';
printf("%s\n", &x);

It's reasonable to assume that you meant "an array of array of array of char", when you said "2D array of c-style string". Let us carry on in that direction.


I don't know a lot about C++, but there's a list of property of arrays which you probably haven't thought about in your quest to mimic actual arrays. I'll summarise these using assertions:

#define x 7
#define y 13
#define z 1
char foo[x][y][z] = { 0 };
assert((char *) foo == foo[0]);
assert(sizeof foo == (char *) &foo[1] - (char *) &foo[0]);
assert(sizeof foo == x * y * z);

I'm not sure if you'll be able to solve your problem with any of these assertions passing in C++, but I'm open for any input from others as to hints as to how one might...

Arrays are contiguous. This means that newMat[x] + w and newMat[x+1], for values of x in 0 .. h-1. In your code, this isn't a reality, because you allocate newMat[x] and newMat[x+1] separately. Similarly, it is expected that newMay[0][y] == newMat[0][y+1] + n, where n is the maximum length of your strings. This can be a problem when using generic array sorting algorithms, because they might rely upon your arrays being contiguous.

The closest you might come to solving this problem seems to involve allocating only once per dimension, rather than h times for the first dimension and w for the second. This would look something like this:

char ***getNewMat(size_t w, size_t h, size_t n){
    char ***newMat = new char **[h];
    newMat[0] = new char *[h*w];
    newMat[0][0] = new char[h*w*n];

    for(size_t i = 0; i < h; i++){
        newMat[i] = newMat[0] + i * w;
        for (size_t j = 0; j < w; j++) {
            newMat[i][j] = newMat[0][0] + i * w * n + j * n;
        }
    }

    return newMat;
}

One side-effect of arrays being contiguous is that you can't assign C-style strings by merely changing the pointer within the array to point to a different location. The pointer is the result of a conversion from an array expression to a pointer expression which isn't an lvalue. As I said earlier, I don't know much about C++, but in C that means the following code can't compile:

char foo[x][y][z] = { 0 };
foo[a][b] = "hello";

However, the following code can compile:

char *foo[x][y] = { 0 };
foo[a][b] = "hello";

The former might constitute an array of C-style strings, but the latter can't because of the contiguity rule we've covered, and the fact that it starts off with most if it's elements pointing to NULL, a pointer which can't point to anything let alone strings. There might be some operator overloading magic you can perform to permit the former to compile. I'm also open for any hints in the right direction to provide an example for the OP, here.

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