#include #include #include #include #include #include #include "starfield.h" // Properties double STAR_Speed = 5.0f; double STAR_MaxRotationValue = 5.0f; // End Properties // Vars int STARFIELD_BoxWidth, STARFIELD_BoxHeight; SDL_Texture * STAR_Texture; SDL_Rect * STAR_SourceRects; // End Vars void STARFIELD_Initialize(SDL_Renderer * renderer, int width, int height){ printf("Initializing starfield...\n"); STARFIELD_BoxWidth = width; STARFIELD_BoxHeight = height; STAR_Texture = IMG_LoadTexture(renderer, "star.png"); if (!STAR_Texture) printf("Star texture cannot be loaded!\n"); STAR_SourceRects = malloc(3 * sizeof(SDL_Rect)); int i; for (i = 0; i < 3; i++) { STAR_SourceRects[i] = (SDL_Rect) {.x = 0, .y = (100 * i), .w = 100, .h = 100 }; } printf("Starfield initialized!\n"); } void STARFIELD_Deinitialize(){ printf("De-initializing Starfield class...\n"); printf("De-initializing Source Rectangles...\n"); free(STAR_SourceRects); printf("De-initializing Starfield textures...\n"); SDL_DestroyTexture(STAR_Texture); printf("Starfield class de-initialized!\n"); } Starfield STARFIELD_GetDefault(int count){ Star * strs = malloc(count * sizeof(Star)); int i; for (i = 0; i < count; i++) { strs[i] = STAR_GetDefault(); } return (Starfield) {.Stars = strs, .StarCount = count }; } void STARFIELD_Draw(Starfield * strf, SDL_Renderer * renderer){ printf("Drawing starfield...\n"); int i; for (i = 0; i < (strf->StarCount); i++) { STAR_Draw(&((strf->Stars)[i]), renderer); } printf("Starfield drawn!\n"); } void STARFIELD_Update(Starfield * strf){ int i; for (i = 0; i < (strf->StarCount); i++) { STAR_Update(&((strf->Stars)[i])); } } void STARFIELD_DestroyObject(Starfield * strf){ printf("De-initializing Starfield...\n"); printf("De-initializing Star-array...\n"); free((strf->Stars)); printf("Starfield de-initialized!\n"); } Star STAR_GetDefault(){ return (Star) { .x = (rand() % STARFIELD_BoxWidth) - (STARFIELD_BoxWidth / 2), .y = (rand() % STARFIELD_BoxHeight) - (STARFIELD_BoxHeight / 2), .z = (rand() % STARFIELD_BoxWidth), .TargetRect = (SDL_Rect) {.x = 0, .y = 0, .w = 0, .h = 0 }, .SourceRect = STAR_SourceRects[(rand() % 3)], .Rotation = (double)(rand() % 360), .RotationValue = (fmod((double)(rand()), STAR_MaxRotationValue * 2.0f) - STAR_MaxRotationValue), .OutOfBounds = false }; } void STAR_Update(Star * star){ if (!(star->OutOfBounds)) { (star->Rotation) += (star->RotationValue); (star->z) -= STAR_Speed; // increase speed (rather acceleration since it looks like a 3D room, but the speed is constant) if ((star->z) < 1) { // respawns a star that has disappeared near the edge of the screen *star = STAR_GetDefault(); } double sx = (star->x) / (star->z) * STARFIELD_BoxWidth;// current distance using perspective if (sx > STARFIELD_BoxWidth / 2|| sx < -STARFIELD_BoxWidth / 2) (star->OutOfBounds) = true; double sy = (star->y) / (star->z) * STARFIELD_BoxHeight; // current distance using perspective if (sy * 2 > STARFIELD_BoxHeight || sy < -STARFIELD_BoxHeight / 2) (star->OutOfBounds) = true; double size = (((double)(STARFIELD_BoxWidth - (star->z))) / ((double)(STARFIELD_BoxWidth)) * 2.4f) + 1.0f; // radius size = 3 * size * size; // potentially grow particles (star->TargetRect) = (SDL_Rect) {.x = (int)round(sx) + (STARFIELD_BoxWidth / 2), .y = (int)round(sy) + (STARFIELD_BoxHeight / 2), .w = size, .h = size }; } else { *star = STAR_GetDefault(); } } void STAR_Draw(Star * star, SDL_Renderer * renderer){ if (!(star->OutOfBounds)) { // printf("Drawing star at: %d | %d with Size %d...\n", (star->TargetRect).x,(star->TargetRect).y,(star->TargetRect).w ); SDL_RenderCopyEx(renderer, STAR_Texture, &(star->SourceRect), &(star->TargetRect), (star->Rotation), NULL, SDL_FLIP_NONE); } }