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In a recent change to switch my program from using arrays to vectors when creating a buffer, a totally unrelated problem surfaced. This switch involves the creation of a std::vector<std::vector<std::vector<GLfloat> > > terrainMap; instead of a GLfloat[size+1][size+1][4] terrainMap. To initialize the 3-D vector, I use

 terrainMap.resize(size+1);
for (int i = 0; i < size+1; ++i) {
    terrainMap[i].resize(size+1);

    for (int j = 0; j < size+1; ++j)
      terrainMap[i][j].resize(4);
    }

This "map" is a parameter of many classes which modify the contents as setup for the program through void Terrain::Load(std::vector<std::vector<std::vector<GLfloat> > >& terrainMap,State &current){ This is the strange part though, when creating a totally unrelated bitmap for for texturing, a break point is hit and going further results in heap corruption. Here is the code for the image loading.

bmp = LoadBmp("dirt.jpg");

which extends into...

Bitmap Object::LoadBmp(const char* filename) {
Bitmap bmp = Bitmap::bitmapFromFile(ResourcePath(filename));
bmp.flipVertically();
return bmp;
} 

at this point bmp is the proper 1600 by 1600 size with the correct format, RGB. It is, however, the following that causes the malfunction.

Bitmap& Bitmap::operator = (const Bitmap& other) {
_set(other._width, other._height, other._format, other._pixels);
return *this;
}


void Bitmap::_set(unsigned width, 
              unsigned height, 
              Format format, 
              const unsigned char* pixels)
{
if(width == 0) throw std::runtime_error("Zero width bitmap");
if(height == 0) throw std::runtime_error("Zero height bitmap");
if(format <= 0 || format > 4) throw std::runtime_error("Invalid bitmap format");

_width = width;
_height = height;
_format = format;

size_t newSize = _width * _height * _format;
if(_pixels){
    _pixels = (unsigned char*)realloc(_pixels, newSize);
} else {
    _pixels = (unsigned char*)malloc(newSize);
}

if(pixels)
    memcpy(_pixels, pixels, newSize);
}

the image finds its way to _pixels = (unsigned char*)realloc(_pixels, newSize); where the content of _pixels points to unreadable memory. What strikes me as strange is how changing the 3-D array to a 3-D vector causes this problem. No interaction between the two is occurring. Any help is much appreciated. Behemyth

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2  
How about supplying class definitions rather than just a triple-dim vector. An SSCCE would really come in handy. Further, that triple-dim vector will assuredly NOT be storing all allocation in one contiguous block, so any thoughts you can either read, or write, it as if it were will not work. Finally, is there a solid constructor-definition that ensures _pixels is NULL when it is associated to an uninitialized or zero-sized bitmap? If not, you're calling realloc() with a bogus pointer. If so, the test itself is pointless; realloc() will work with NULL correctly. –  WhozCraig May 18 '13 at 17:19
    
Your call to realloc is wrong. If realloc fails you have a memory leak because you lost the original pointer. Assign the return value to a temp, check for NULL, and then assign to _pixels. –  Ed S. May 18 '13 at 23:22

1 Answer 1

You need to keep the pixel data in a contiguous buffer, that means you need to have one std::vector<GLfloat> of size _width * _height * _format and not vectors of vectors.

Using vector instead of an array won't save you from the index arithmetic. It will save you from memory leaks like the one Ed S. pointed out in a comment. And it will allow you to get rid of your assignment operator entirely, since the compiler-provided default copy assignment (and move assignment) operator will work great.

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