I'm making a 2D SDL game in C. The native resolution of the game is 160 × 120, which is just before displaying it on the screen upscaled by a certain (integer) scale factor (x1, x2, ...) to give a nice aliased & pixelated indie-like look. Nothing surprising there. However, it has quite a (visible) impact on the game's performance: the higher the scale factor, the higher the impact (obviously).

The code that handles the scaling and displaying is the following:

#define GET_PIXEL(surface, x, y) *(Uint32 *)((Uint32 *)surface->pixels + (y * surface->w) + x)

void draw(void) {
    if (SDL_MUSTLOCK(screen.native))
    for (int i = 0; i < 120; ++i)
        for (int j = 0; j < 160; ++j) {
            SDL_Rect rect = { j * screen.scale, i * screen.scale, screen.scale, screen.scale };
            SDL_FillRect(screen.scaled, &rect, GET_PIXEL(screen.native, j, i));
    if (SDL_MUSTLOCK(screen.native))

The draw() function is called every frame. screen.native is the 160 × 120 game surface, and screen.scaled is the final surface after scaling. Both are 32-bit surfaces created using the SDL_HWSURFACE flag.

Is there any better way to do this to improve performance?


One easy solution would be to upscale everything on load, not in the draw function, and you store the up-scaled version and reuse that. You will be trading memory for better performance.


Found a solution. I compiled the latest unstable version of SDL 2.0 (which supports full hardware acceleration) and used only SDL_Textures for a nice constant high FPS, whatever the resolution.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy