#ifndef __DRAW_H__ // #define HAS_GUI #include #include #include #include #define ANSI_COLOR_RED 31 #define ANSI_COLOR_GREEN 32 #define ANSI_COLOR_WHITE 37 #define ANSI_COLOR_RESET 0 #ifdef HAS_GUI #define TILE_W 4 #define SCREEN_W 320 #define SCREEN_H 200 static inline void set_color(int c) { } static inline void print_char(char c, int y, int x) { static char last_c = 0xff; static uint32_t buf[TILE_W * TILE_W]; if (last_c != c) { last_c = c; uint32_t color = 0x0; if (c != ' ') { // convert different character to different color uint8_t r = c / 25; c -= r * 25; uint8_t g = c / 5; c -= g * 5; uint8_t b = c; r = r * 0x100 / 5; g = g * 0x100 / 5; b = b * 0x100 / 5; color = (r << 16) | (g << 8) | b; } int i; for (i = 0; i < TILE_W * TILE_W; i ++) { buf[i] = color; } } io_write(AM_GPU_FBDRAW, x * TILE_W, y * TILE_W, buf, TILE_W, TILE_W, false); } static inline void screen_clear() { static uint32_t buf[SCREEN_W]; int i; for (i = 0; i < SCREEN_H; i ++) { io_write(AM_GPU_FBDRAW, 0, i, buf, SCREEN_W, 1, false); } } static inline void screen_refresh() { io_write(AM_GPU_FBDRAW, 0, 0, NULL, 0, 0, true); } static inline int screen_tile_height() { return io_read(AM_GPU_CONFIG).height / TILE_W; } static inline int screen_tile_width() { return io_read(AM_GPU_CONFIG).width / TILE_W; } #else static inline void set_color(int c) { printf("\033[%dm", c); } static inline void print_char(char c, int y, int x) { printf("\033[%d;%dH%c", y + 1, x + 1, c); } static inline void screen_clear() { printf("\033[H\033[J"); } static inline void screen_refresh() { } static inline int screen_tile_height() { return 24; } static inline int screen_tile_width() { return 80; } #endif static inline void usleep(int us) { uint64_t now = io_read(AM_TIMER_UPTIME).us; uint64_t next = now + us; while (io_read(AM_TIMER_UPTIME).us < next) ; } #endif