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Here is what I do:

I have bitmaps which I draw into another bitmap.

The coordinates are from the center of the bitmap, thus on a 256 by 256 bitmap, an object at 0.0,0.0 would be drawn at 128,128 on the bitmap.

I also found the furthest extent and made the bitmap size 2 times the extent.

So if the furthest extent is 200,200 pixels, then the bitmap's size is 400,400.

Unfortunately this is a bit inefficient.

If a bitmap needs to be drawn at 500,500 and the other one at 300,300, then the target bitmap only needs to be 200,200 in size.

I cannot seem to find a correct way to draw in the components correctly with a reduced size.

I figure out the target bitmap size like this:

float AvatarComposite::getFloatWidth(float& remainder) const
    float widest = 0.0f;
    float widestNeg = 0.0f;
    for(size_t i = 0; i < m_components.size(); ++i)
        if(m_components[i].getSprite() == NULL)

        float w = m_components[i].getX() + 
            ( ((m_components[i].getSprite()->getWidth() / 2.0f) * 
            m_components[i].getScale()) / getWidthToFloat());
        float wn = m_components[i].getX() - 
            ( ((m_components[i].getSprite()->getWidth() / 2.0f) * 
            m_components[i].getScale()) / getWidthToFloat());

        if(w > widest)
            widest = w;
        if(wn > widest)
            widest = wn;

        if(w < widestNeg)
            widestNeg = w;
        if(wn < widestNeg)
            widestNeg = wn;
    remainder = (2 * widest) - (widest - widestNeg);
    return widest - widestNeg;

And here is how I position and draw the bitmaps:

int dw = m_components[i].getSprite()->getWidth() * m_components[i].getScale();
        int dh = m_components[i].getSprite()->getHeight() * m_components[i].getScale();
        int cx = (getWidth() + (m_remainderX * getWidthToFloat())) / 2;
        int cy = (getHeight() + (m_remainderY * getHeightToFloat())) / 2;
        cx -= m_remainderX * getWidthToFloat();
        cy -= m_remainderY * getHeightToFloat();
        int dx =  cx + (m_components[i].getX() * getWidthToFloat()) - (dw / 2);
        int dy =  cy + (m_components[i].getY() * getHeightToFloat()) - (dh / 2);

I basically store the difference between the original 2 * longest extent bitmap and the new optimized one, then I translate by that much which I would think would cause me to draw correctly but then some of the components look cut off.

Any insight would help.


Essentially, imagine you have a plane. That plane starts at 0,0 which will be the center of the target bitmap. By target bitmap I mean render target / framebuffer object. I'm drawing avatar components into a bitmap, then I render that bitmap to the screen.

The way it currently works is by finding the furthest the plane will extend. So the longest extent might be at 600,700 on the plane. In order for an object at 0,0 to land at the center of this bitmap while still being able to see everything, the dimensions must be longest extent * 2, so the bitmap that everything is drawn into is 1200,1400. The longest extent may also be on the other side of the plane. If the longest extent on the left was -800,-800, then the target bitmap should actually be 1600,1600 in size.

The problem is this, that tends to waste a lot of video memory. You might have a character whose a lot on 1 side of the plane but barely on the other. Thus, if you have an object at 100,100 and an object at -200,-200, then the effective space you need is roughly 300,300 to display this and not 400,400 which the current method does. To correctly display this, I need to change the size of the target bitmap, offset the position of the components in the bitmap, and offset where the final result is drawn on screen so that it appears the object at 0,0 is at the center of the screen.

share|improve this question
Use "x*0.5f" instead of "x/2.0f" and declare "float w" and "float wn" out of the "for". –  Lucas Nunes Aug 28 '12 at 22:51
@Lucas: both of your suggestions won't result in a speedup. The compiler will extract the variable initialization out of the loop anyway and I assume it will also see that both x*0.5f and x/0.5f are equivalent.Milo, your question title is misleading, consider changing it. –  pauluss86 Aug 29 '12 at 7:59
@pauluss86 Usually the multiplication is faster than division. stackoverflow.com/questions/4125033/… –  Lucas Nunes Aug 29 '12 at 21:15
@Lucas That is true, but the compiler will change this for you, If it sees x / 2.0f it will change it to x * 0.5f so it doesn't really matter what you put there, compiler will optimize the division away if it can. –  pauluss86 Aug 30 '12 at 9:06

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