#define _CRT_SECURE_NO_WARNINGS #include <> #include <> #include <> #include <> #include <> #define PI 3.14159265359 char love[20][43] = { "111111111111111111111111111111111111111111", "111111111111110000111111100001000111111111", "110000000000000000011111100011000111111111", "110000111001110001111111000110001111111111", "111100010000110000111111100011000000000011", "111100001000100011111110000100011111100011", "100000000000000000001110000100011111000111", "100000000000000000011100000000110001000111", "100011100011111000110000000000110001111111", "111011100011111100111111000111110001111111", "111000000000000000111111000110000000001111", "111111000111111111111111000110000000000111", "111110001111111111111111000100010001000111", "111000000000000001111111000000010001100011", "111000000011000011111111000000110001100001", "110001110000000111111111000001110001110111", "100011111000011111111111000111110001111111", "111110000000000000011111000111000001111111", "111000000111110000011111000111000011111111", "111111111111111111111111111111111111111111" }; void gotoxy(int x, int y) { HANDLE hout = GetStdHandle(STD_OUTPUT_HANDLE); COORD pos = { x,y }; SetConsoleCursorPosition(hout, pos); } void SetColor(int color) { if (color == 0)color = 0x04; HANDLE hCon = GetStdHandle(STD_OUTPUT_HANDLE); SetConsoleTextAttribute(hCon, color); } void showsnow() { SetColor(rand() % 16); int x = rand() % 120; int y = rand() % 40; gotoxy(x, y); putchar('*'); } float sx, sy; float sdCircle(float px, float py, float r) { float dx = px - sx, dy = py - sy; return sqrtf(dx * dx + dy * dy) - r; } float opUnion(float d1, float d2) { return d1 < d2 ? d1 : d2; } #define T px+scale*r*cosf(theta),py+scale*r*sin(theta) int ribbon() { float x = (fmodf(sy, 0.1f) / 0.1f - 0.5f) * 0.5f; return sx >= x - 0.05f && sx <= x + 0.05f; } float f(float px, float py, float theta, float scale, int n) { float d = 0.0f; for (float r = 0.0f; r < 0.8f; r += 0.02f) d = opUnion(d, sdCircle(T, 0.05f * scale * (0.95 - r))); if (n > 0) for (int t = -1; t <= 1; t += 2) { float tt = theta + t * 1.8f; float ss = scale * 0.9f; for (float r = 0.2f; r < 0.8f; r += 0.1f) { d = opUnion(d, f(T, tt, ss * 0.5f, n - 1)); ss *= 0.8f; } } return d; } int main(int argc, char* argv[]) { system("mode con cols=120 lines=42"); srand((int)time(NULL)); SetConsoleCP(437); SetConsoleOutputCP(437); int n = argc > 1 ? atoi(argv[1]) : 3; float zoom = argc > 2 ? atof(argv[2]) : 1.0f; for (sy = 0.8f; sy > 0.0f; sy -= 0.02f / zoom, putchar('\n')) { for (sx = -0.35f; sx < 0.35f; sx += 0.01f / zoom) { if (f(0, 0, PI * 0.5f, 1.0f, n) < 0.0f) { if (sy < 0.1f) { SetColor(rand() % 16); putchar('\3'); } else { if (ribbon()) { putchar('='); } else { SetColor(rand() % 16); putchar('\3'); } } } else { putchar(' '); } } } int i, j; int x, y = 3; for (i = 0; i < 19; i++, y++) { x = 60; for (j = 0; j < 42; j++, x++) { gotoxy(x, y); if (love[i][j] == '1') { putchar(' '); } else { SetColor(0x06); putchar('*'); } } } for (n = 0; n++ < 365;) { showsnow(); } gotoxy(0, 40); getchar(); return 0; }