/* * Copyright (c) 2018 PHYTEC Messtechnik GmbH * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #define LOG_LEVEL CONFIG_CFB_LOG_LEVEL #include LOG_MODULE_REGISTER(cfb); extern const struct cfb_font __font_entry_start[]; extern const struct cfb_font __font_entry_end[]; static inline uint8_t byte_reverse(uint8_t b) { b = (b & 0xf0) >> 4 | (b & 0x0f) << 4; b = (b & 0xcc) >> 2 | (b & 0x33) << 2; b = (b & 0xaa) >> 1 | (b & 0x55) << 1; return b; } struct char_framebuffer { /** Pointer to a buffer in RAM */ uint8_t *buf; /** Size of the framebuffer */ uint32_t size; /** Pointer to the font entry array */ const struct cfb_font *fonts; /** Display pixel format */ enum display_pixel_format pixel_format; /** Display screen info */ enum display_screen_info screen_info; /** Resolution of a framebuffer in pixels in X direction */ uint16_t x_res; /** Resolution of a framebuffer in pixels in Y direction */ uint16_t y_res; /** Number of pixels per tile, typically 8 */ uint8_t ppt; /** Number of available fonts */ uint8_t numof_fonts; /** Current font index */ uint8_t font_idx; /** Font kerning */ int8_t kerning; /** Invertedj*/ bool inverted; }; static struct char_framebuffer char_fb; static inline uint8_t *get_glyph_ptr(const struct cfb_font *fptr, char c) { if (fptr->caps & CFB_FONT_MONO_VPACKED) { return (uint8_t *)fptr->data + (c - fptr->first_char) * (fptr->width * fptr->height / 8U); } return NULL; } /* * Draw the monochrome character in the monochrome tiled framebuffer, * a byte is interpreted as 8 pixels ordered vertically among each other. */ static uint8_t draw_char_vtmono(const struct char_framebuffer *fb, char c, uint16_t x, uint16_t y) { const struct cfb_font *fptr = &(fb->fonts[fb->font_idx]); uint8_t *glyph_ptr; bool need_reverse = (((fb->screen_info & SCREEN_INFO_MONO_MSB_FIRST) != 0) != ((fptr->caps & CFB_FONT_MSB_FIRST) != 0)); if (c < fptr->first_char || c > fptr->last_char) { c = ' '; } glyph_ptr = get_glyph_ptr(fptr, c); if (!glyph_ptr) { return 0; } for (size_t g_x = 0; g_x < fptr->width; g_x++) { uint32_t y_segment = y / 8U; for (size_t g_y = 0; g_y < fptr->height / 8U; g_y++) { uint32_t fb_y = (y_segment + g_y) * fb->x_res; uint8_t byte; if ((fb_y + x + g_x) >= fb->size) { return 0; } byte = glyph_ptr[g_x * (fptr->height / 8U) + g_y]; if (need_reverse) { byte = byte_reverse(byte); } fb->buf[fb_y + x + g_x] = byte; } } return fptr->width; } int cfb_print(const struct device *dev, char *str, uint16_t x, uint16_t y) { const struct char_framebuffer *fb = &char_fb; const struct cfb_font *fptr; if (!fb->fonts || !fb->buf) { return -1; } fptr = &(fb->fonts[fb->font_idx]); if (fptr->height % 8) { LOG_ERR("Wrong font size"); return -1; } if ((fb->screen_info & SCREEN_INFO_MONO_VTILED) && !(y % 8)) { for (size_t i = 0; i < strlen(str); i++) { if (x + fptr->width > fb->x_res) { x = 0U; y += fptr->height; } x += fb->kerning + draw_char_vtmono(fb, str[i], x, y); } return 0; } LOG_ERR("Unsupported framebuffer configuration"); return -1; } static int cfb_invert(const struct char_framebuffer *fb) { for (size_t i = 0; i < fb->x_res * fb->y_res / 8U; i++) { fb->buf[i] = ~fb->buf[i]; } return 0; } int cfb_framebuffer_clear(const struct device *dev, bool clear_display) { const struct char_framebuffer *fb = &char_fb; struct display_buffer_descriptor desc; if (!fb || !fb->buf) { return -1; } desc.buf_size = fb->size; desc.width = fb->x_res; desc.height = fb->y_res; desc.pitch = fb->x_res; memset(fb->buf, 0, fb->size); return 0; } int cfb_framebuffer_invert(const struct device *dev) { struct char_framebuffer *fb = &char_fb; if (!fb || !fb->buf) { return -1; } fb->inverted = !fb->inverted; return 0; } int cfb_framebuffer_finalize(const struct device *dev) { const struct display_driver_api *api = dev->api; const struct char_framebuffer *fb = &char_fb; struct display_buffer_descriptor desc; if (!fb || !fb->buf) { return -1; } desc.buf_size = fb->size; desc.width = fb->x_res; desc.height = fb->y_res; desc.pitch = fb->x_res; if (!(fb->pixel_format & PIXEL_FORMAT_MONO10) != !(fb->inverted)) { cfb_invert(fb); } return api->write(dev, 0, 0, &desc, fb->buf); } int cfb_get_display_parameter(const struct device *dev, enum cfb_display_param param) { const struct char_framebuffer *fb = &char_fb; switch (param) { case CFB_DISPLAY_HEIGH: return fb->y_res; case CFB_DISPLAY_WIDTH: return fb->x_res; case CFB_DISPLAY_PPT: return fb->ppt; case CFB_DISPLAY_ROWS: if (fb->screen_info & SCREEN_INFO_MONO_VTILED) { return fb->y_res / fb->ppt; } return fb->y_res; case CFB_DISPLAY_COLS: if (fb->screen_info & SCREEN_INFO_MONO_VTILED) { return fb->x_res; } return fb->x_res / fb->ppt; } return 0; } int cfb_framebuffer_set_font(const struct device *dev, uint8_t idx) { struct char_framebuffer *fb = &char_fb; if (idx >= fb->numof_fonts) { return -1; } fb->font_idx = idx; return 0; } int cfb_get_font_size(const struct device *dev, uint8_t idx, uint8_t *width, uint8_t *height) { const struct char_framebuffer *fb = &char_fb; if (idx >= fb->numof_fonts) { return -1; } if (width) { *width = __font_entry_start[idx].width; } if (height) { *height = __font_entry_start[idx].height; } return 0; } int cfb_get_numof_fonts(const struct device *dev) { const struct char_framebuffer *fb = &char_fb; return fb->numof_fonts; } int cfb_framebuffer_init(const struct device *dev) { const struct display_driver_api *api = dev->api; struct char_framebuffer *fb = &char_fb; struct display_capabilities cfg; api->get_capabilities(dev, &cfg); fb->numof_fonts = __font_entry_end - __font_entry_start; LOG_DBG("number of fonts %d", fb->numof_fonts); if (!fb->numof_fonts) { return -1; } fb->x_res = cfg.x_resolution; fb->y_res = cfg.y_resolution; fb->ppt = 8U; fb->pixel_format = cfg.current_pixel_format; fb->screen_info = cfg.screen_info; fb->buf = NULL; fb->font_idx = 0U; fb->kerning = 0; fb->inverted = false; fb->fonts = __font_entry_start; fb->font_idx = 0U; fb->size = fb->x_res * fb->y_res / fb->ppt; fb->buf = k_malloc(fb->size); if (!fb->buf) { return -1; } memset(fb->buf, 0, fb->size); return 0; }