#include "gifdec.h" #include "../../../misc/lv_log.h" #include "../../../misc/lv_mem.h" #include "../../../misc/lv_color.h" #if LV_USE_GIF #include #include #include #define MIN(A, B) ((A) < (B) ? (A) : (B)) #define MAX(A, B) ((A) > (B) ? (A) : (B)) typedef struct Entry { uint16_t length; uint16_t prefix; uint8_t suffix; } Entry; typedef struct Table { int bulk; int nentries; Entry *entries; } Table; static gd_GIF * gif_open(gd_GIF * gif); static bool f_gif_open(gd_GIF * gif, const void * path, bool is_file); static void f_gif_read(gd_GIF * gif, void * buf, size_t len); static int f_gif_seek(gd_GIF * gif, size_t pos, int k); static void f_gif_close(gd_GIF * gif); static uint16_t read_num(gd_GIF * gif) { uint8_t bytes[2]; f_gif_read(gif, bytes, 2); return bytes[0] + (((uint16_t) bytes[1]) << 8); } gd_GIF * gd_open_gif_file(const char *fname) { gd_GIF gif_base; memset(&gif_base, 0, sizeof(gif_base)); bool res = f_gif_open(&gif_base, fname, true); if(!res) return NULL; return gif_open(&gif_base); } gd_GIF * gd_open_gif_data(const void *data) { gd_GIF gif_base; memset(&gif_base, 0, sizeof(gif_base)); bool res = f_gif_open(&gif_base, data, false); if(!res) return NULL; return gif_open(&gif_base); } static gd_GIF * gif_open(gd_GIF * gif_base) { uint8_t sigver[3]; uint16_t width, height, depth; uint8_t fdsz, bgidx, aspect; int i; uint8_t *bgcolor; int gct_sz; gd_GIF *gif = NULL; /* Header */ f_gif_read(gif_base, sigver, 3); if (memcmp(sigver, "GIF", 3) != 0) { LV_LOG_WARN("invalid signature\n"); goto fail; } /* Version */ f_gif_read(gif_base, sigver, 3); if (memcmp(sigver, "89a", 3) != 0) { LV_LOG_WARN("invalid version\n"); goto fail; } /* Width x Height */ width = read_num(gif_base); height = read_num(gif_base); /* FDSZ */ f_gif_read(gif_base, &fdsz, 1); /* Presence of GCT */ if (!(fdsz & 0x80)) { LV_LOG_WARN("no global color table\n"); goto fail; } /* Color Space's Depth */ depth = ((fdsz >> 4) & 7) + 1; /* Ignore Sort Flag. */ /* GCT Size */ gct_sz = 1 << ((fdsz & 0x07) + 1); /* Background Color Index */ f_gif_read(gif_base, &bgidx, 1); /* Aspect Ratio */ f_gif_read(gif_base, &aspect, 1); /* Create gd_GIF Structure. */ #if LV_COLOR_DEPTH == 32 gif = lv_mem_alloc(sizeof(gd_GIF) + 5 * width * height); #elif LV_COLOR_DEPTH == 16 gif = lv_mem_alloc(sizeof(gd_GIF) + 4 * width * height); #elif LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 gif = lv_mem_alloc(sizeof(gd_GIF) + 3 * width * height); #endif if (!gif) goto fail; memcpy(gif, gif_base, sizeof(gd_GIF)); gif->width = width; gif->height = height; gif->depth = depth; /* Read GCT */ gif->gct.size = gct_sz; f_gif_read(gif, gif->gct.colors, 3 * gif->gct.size); gif->palette = &gif->gct; gif->bgindex = bgidx; gif->canvas = (uint8_t *) &gif[1]; #if LV_COLOR_DEPTH == 32 gif->frame = &gif->canvas[4 * width * height]; #elif LV_COLOR_DEPTH == 16 gif->frame = &gif->canvas[3 * width * height]; #elif LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 gif->frame = &gif->canvas[2 * width * height]; #endif if (gif->bgindex) { memset(gif->frame, gif->bgindex, gif->width * gif->height); } bgcolor = &gif->palette->colors[gif->bgindex*3]; for (i = 0; i < gif->width * gif->height; i++) { #if LV_COLOR_DEPTH == 32 gif->canvas[i*4 + 0] = *(bgcolor + 2); gif->canvas[i*4 + 1] = *(bgcolor + 1); gif->canvas[i*4 + 2] = *(bgcolor + 0); gif->canvas[i*4 + 3] = 0xff; #elif LV_COLOR_DEPTH == 16 lv_color_t c = lv_color_make(*(bgcolor + 0), *(bgcolor + 1), *(bgcolor + 2)); gif->canvas[i*3 + 0] = c.full & 0xff; gif->canvas[i*3 + 1] = (c.full >> 8) & 0xff; gif->canvas[i*3 + 2] = 0xff; #elif LV_COLOR_DEPTH == 8 lv_color_t c = lv_color_make(*(bgcolor + 0), *(bgcolor + 1), *(bgcolor + 2)); gif->canvas[i*2 + 0] = c.full; gif->canvas[i*2 + 1] = 0xff; #elif LV_COLOR_DEPTH == 1 lv_color_t c = lv_color_make(*(bgcolor + 0), *(bgcolor + 1), *(bgcolor + 2)); gif->canvas[i*2 + 0] = c.ch.red > 128 ? 1 : 0; gif->canvas[i*2 + 1] = 0xff; #endif } gif->anim_start = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); goto ok; fail: f_gif_close(gif_base); ok: return gif; } static void discard_sub_blocks(gd_GIF *gif) { uint8_t size; do { f_gif_read(gif, &size, 1); f_gif_seek(gif, size, LV_FS_SEEK_CUR); } while (size); } static void read_plain_text_ext(gd_GIF *gif) { if (gif->plain_text) { uint16_t tx, ty, tw, th; uint8_t cw, ch, fg, bg; size_t sub_block; f_gif_seek(gif, 1, LV_FS_SEEK_CUR); /* block size = 12 */ tx = read_num(gif); ty = read_num(gif); tw = read_num(gif); th = read_num(gif); f_gif_read(gif, &cw, 1); f_gif_read(gif, &ch, 1); f_gif_read(gif, &fg, 1); f_gif_read(gif, &bg, 1); sub_block = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); gif->plain_text(gif, tx, ty, tw, th, cw, ch, fg, bg); f_gif_seek(gif, sub_block, LV_FS_SEEK_SET); } else { /* Discard plain text metadata. */ f_gif_seek(gif, 13, LV_FS_SEEK_CUR); } /* Discard plain text sub-blocks. */ discard_sub_blocks(gif); } static void read_graphic_control_ext(gd_GIF *gif) { uint8_t rdit; /* Discard block size (always 0x04). */ f_gif_seek(gif, 1, LV_FS_SEEK_CUR); f_gif_read(gif, &rdit, 1); gif->gce.disposal = (rdit >> 2) & 3; gif->gce.input = rdit & 2; gif->gce.transparency = rdit & 1; gif->gce.delay = read_num(gif); f_gif_read(gif, &gif->gce.tindex, 1); /* Skip block terminator. */ f_gif_seek(gif, 1, LV_FS_SEEK_CUR); } static void read_comment_ext(gd_GIF *gif) { if (gif->comment) { size_t sub_block = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); gif->comment(gif); f_gif_seek(gif, sub_block, LV_FS_SEEK_SET); } /* Discard comment sub-blocks. */ discard_sub_blocks(gif); } static void read_application_ext(gd_GIF *gif) { char app_id[8]; char app_auth_code[3]; /* Discard block size (always 0x0B). */ f_gif_seek(gif, 1, LV_FS_SEEK_CUR); /* Application Identifier. */ f_gif_read(gif, app_id, 8); /* Application Authentication Code. */ f_gif_read(gif, app_auth_code, 3); if (!strncmp(app_id, "NETSCAPE", sizeof(app_id))) { /* Discard block size (0x03) and constant byte (0x01). */ f_gif_seek(gif, 2, LV_FS_SEEK_CUR); gif->loop_count = read_num(gif); /* Skip block terminator. */ f_gif_seek(gif, 1, LV_FS_SEEK_CUR); } else if (gif->application) { size_t sub_block = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); gif->application(gif, app_id, app_auth_code); f_gif_seek(gif, sub_block, LV_FS_SEEK_SET); discard_sub_blocks(gif); } else { discard_sub_blocks(gif); } } static void read_ext(gd_GIF *gif) { uint8_t label; f_gif_read(gif, &label, 1); switch (label) { case 0x01: read_plain_text_ext(gif); break; case 0xF9: read_graphic_control_ext(gif); break; case 0xFE: read_comment_ext(gif); break; case 0xFF: read_application_ext(gif); break; default: LV_LOG_WARN("unknown extension: %02X\n", label); } } static Table * new_table(int key_size) { int key; int init_bulk = MAX(1 << (key_size + 1), 0x100); Table *table = lv_mem_alloc(sizeof(*table) + sizeof(Entry) * init_bulk); if (table) { table->bulk = init_bulk; table->nentries = (1 << key_size) + 2; table->entries = (Entry *) &table[1]; for (key = 0; key < (1 << key_size); key++) table->entries[key] = (Entry) {1, 0xFFF, key}; } return table; } /* Add table entry. Return value: * 0 on success * +1 if key size must be incremented after this addition * -1 if could not realloc table */ static int add_entry(Table **tablep, uint16_t length, uint16_t prefix, uint8_t suffix) { Table *table = *tablep; if (table->nentries == table->bulk) { table->bulk *= 2; table = lv_mem_realloc(table, sizeof(*table) + sizeof(Entry) * table->bulk); if (!table) return -1; table->entries = (Entry *) &table[1]; *tablep = table; } table->entries[table->nentries] = (Entry) {length, prefix, suffix}; table->nentries++; if ((table->nentries & (table->nentries - 1)) == 0) return 1; return 0; } static uint16_t get_key(gd_GIF *gif, int key_size, uint8_t *sub_len, uint8_t *shift, uint8_t *byte) { int bits_read; int rpad; int frag_size; uint16_t key; key = 0; for (bits_read = 0; bits_read < key_size; bits_read += frag_size) { rpad = (*shift + bits_read) % 8; if (rpad == 0) { /* Update byte. */ if (*sub_len == 0) { f_gif_read(gif, sub_len, 1); /* Must be nonzero! */ if (*sub_len == 0) return 0x1000; } f_gif_read(gif, byte, 1); (*sub_len)--; } frag_size = MIN(key_size - bits_read, 8 - rpad); key |= ((uint16_t) ((*byte) >> rpad)) << bits_read; } /* Clear extra bits to the left. */ key &= (1 << key_size) - 1; *shift = (*shift + key_size) % 8; return key; } /* Compute output index of y-th input line, in frame of height h. */ static int interlaced_line_index(int h, int y) { int p; /* number of lines in current pass */ p = (h - 1) / 8 + 1; if (y < p) /* pass 1 */ return y * 8; y -= p; p = (h - 5) / 8 + 1; if (y < p) /* pass 2 */ return y * 8 + 4; y -= p; p = (h - 3) / 4 + 1; if (y < p) /* pass 3 */ return y * 4 + 2; y -= p; /* pass 4 */ return y * 2 + 1; } /* Decompress image pixels. * Return 0 on success or -1 on out-of-memory (w.r.t. LZW code table). */ static int read_image_data(gd_GIF *gif, int interlace) { uint8_t sub_len, shift, byte; int init_key_size, key_size, table_is_full=0; int frm_off, frm_size, str_len=0, i, p, x, y; uint16_t key, clear, stop; int ret; Table *table; Entry entry = {0}; size_t start, end; f_gif_read(gif, &byte, 1); key_size = (int) byte; start = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); discard_sub_blocks(gif); end = f_gif_seek(gif, 0, LV_FS_SEEK_CUR); f_gif_seek(gif, start, LV_FS_SEEK_SET); clear = 1 << key_size; stop = clear + 1; table = new_table(key_size); key_size++; init_key_size = key_size; sub_len = shift = 0; key = get_key(gif, key_size, &sub_len, &shift, &byte); /* clear code */ frm_off = 0; ret = 0; frm_size = gif->fw*gif->fh; while (frm_off < frm_size) { if (key == clear) { key_size = init_key_size; table->nentries = (1 << (key_size - 1)) + 2; table_is_full = 0; } else if (!table_is_full) { ret = add_entry(&table, str_len + 1, key, entry.suffix); if (ret == -1) { lv_mem_free(table); return -1; } if (table->nentries == 0x1000) { ret = 0; table_is_full = 1; } } key = get_key(gif, key_size, &sub_len, &shift, &byte); if (key == clear) continue; if (key == stop || key == 0x1000) break; if (ret == 1) key_size++; entry = table->entries[key]; str_len = entry.length; for (i = 0; i < str_len; i++) { p = frm_off + entry.length - 1; x = p % gif->fw; y = p / gif->fw; if (interlace) y = interlaced_line_index((int) gif->fh, y); gif->frame[(gif->fy + y) * gif->width + gif->fx + x] = entry.suffix; if (entry.prefix == 0xFFF) break; else entry = table->entries[entry.prefix]; } frm_off += str_len; if (key < table->nentries - 1 && !table_is_full) table->entries[table->nentries - 1].suffix = entry.suffix; } lv_mem_free(table); if (key == stop) f_gif_read(gif, &sub_len, 1); /* Must be zero! */ f_gif_seek(gif, end, LV_FS_SEEK_SET); return 0; } /* Read image. * Return 0 on success or -1 on out-of-memory (w.r.t. LZW code table). */ static int read_image(gd_GIF *gif) { uint8_t fisrz; int interlace; /* Image Descriptor. */ gif->fx = read_num(gif); gif->fy = read_num(gif); gif->fw = read_num(gif); gif->fh = read_num(gif); f_gif_read(gif, &fisrz, 1); interlace = fisrz & 0x40; /* Ignore Sort Flag. */ /* Local Color Table? */ if (fisrz & 0x80) { /* Read LCT */ gif->lct.size = 1 << ((fisrz & 0x07) + 1); f_gif_read(gif, gif->lct.colors, 3 * gif->lct.size); gif->palette = &gif->lct; } else gif->palette = &gif->gct; /* Image Data. */ return read_image_data(gif, interlace); } static void render_frame_rect(gd_GIF *gif, uint8_t *buffer) { int i, j, k; uint8_t index, *color; i = gif->fy * gif->width + gif->fx; for (j = 0; j < gif->fh; j++) { for (k = 0; k < gif->fw; k++) { index = gif->frame[(gif->fy + j) * gif->width + gif->fx + k]; color = &gif->palette->colors[index*3]; if (!gif->gce.transparency || index != gif->gce.tindex) { #if LV_COLOR_DEPTH == 32 buffer[(i+k)*4 + 0] = *(color + 2); buffer[(i+k)*4 + 1] = *(color + 1); buffer[(i+k)*4 + 2] = *(color + 0); buffer[(i+k)*4 + 3] = 0xFF; #elif LV_COLOR_DEPTH == 16 lv_color_t c = lv_color_make(*(color + 0), *(color + 1), *(color + 2)); buffer[(i+k)*3 + 0] = c.full & 0xff; buffer[(i+k)*3 + 1] = (c.full >> 8) & 0xff; buffer[(i+k)*3 + 2] = 0xff; #elif LV_COLOR_DEPTH == 8 lv_color_t c = lv_color_make(*(color + 0), *(color + 1), *(color + 2)); buffer[(i+k)*2 + 0] = c.full; buffer[(i+k)*2 + 1] = 0xff; #elif LV_COLOR_DEPTH == 1 uint8_t b = (*(color + 0)) | (*(color + 1)) | (*(color + 2)); buffer[(i+k)*2 + 0] = b > 128 ? 1 : 0; buffer[(i+k)*2 + 1] = 0xff; #endif } } i += gif->width; } } static void dispose(gd_GIF *gif) { int i, j, k; uint8_t *bgcolor; switch (gif->gce.disposal) { case 2: /* Restore to background color. */ bgcolor = &gif->palette->colors[gif->bgindex*3]; uint8_t opa = 0xff; if(gif->gce.transparency) opa = 0x00; i = gif->fy * gif->width + gif->fx; for (j = 0; j < gif->fh; j++) { for (k = 0; k < gif->fw; k++) { #if LV_COLOR_DEPTH == 32 gif->canvas[(i+k)*4 + 0] = *(bgcolor + 2); gif->canvas[(i+k)*4 + 1] = *(bgcolor + 1); gif->canvas[(i+k)*4 + 2] = *(bgcolor + 0); gif->canvas[(i+k)*4 + 3] = opa; #elif LV_COLOR_DEPTH == 16 lv_color_t c = lv_color_make(*(bgcolor + 0), *(bgcolor + 1), *(bgcolor + 2)); gif->canvas[(i+k)*3 + 0] = c.full & 0xff; gif->canvas[(i+k)*3 + 1] = (c.full >> 8) & 0xff; gif->canvas[(i+k)*3 + 2] = opa; #elif LV_COLOR_DEPTH == 8 lv_color_t c = lv_color_make(*(bgcolor + 0), *(bgcolor + 1), *(bgcolor + 2)); gif->canvas[(i+k)*2 + 0] = c.full; gif->canvas[(i+k)*2 + 1] = opa; #elif LV_COLOR_DEPTH == 1 uint8_t b = (*(bgcolor + 0)) | (*(bgcolor + 1)) | (*(bgcolor + 2)); gif->canvas[(i+k)*2 + 0] = b > 128 ? 1 : 0; gif->canvas[(i+k)*2 + 1] = opa; #endif } i += gif->width; } break; case 3: /* Restore to previous, i.e., don't update canvas.*/ break; default: /* Add frame non-transparent pixels to canvas. */ render_frame_rect(gif, gif->canvas); } } /* Return 1 if got a frame; 0 if got GIF trailer; -1 if error. */ int gd_get_frame(gd_GIF *gif) { char sep; dispose(gif); f_gif_read(gif, &sep, 1); while (sep != ',') { if (sep == ';') return 0; if (sep == '!') read_ext(gif); else return -1; f_gif_read(gif, &sep, 1); } if (read_image(gif) == -1) return -1; return 1; } void gd_render_frame(gd_GIF *gif, uint8_t *buffer) { // uint32_t i; // uint32_t j; // for(i = 0, j = 0; i < gif->width * gif->height * 3; i+= 3, j+=4) { // buffer[j + 0] = gif->canvas[i + 2]; // buffer[j + 1] = gif->canvas[i + 1]; // buffer[j + 2] = gif->canvas[i + 0]; // buffer[j + 3] = 0xFF; // } // memcpy(buffer, gif->canvas, gif->width * gif->height * 3); render_frame_rect(gif, buffer); } void gd_rewind(gd_GIF *gif) { f_gif_seek(gif, gif->anim_start, LV_FS_SEEK_SET); } void gd_close_gif(gd_GIF *gif) { f_gif_close(gif); lv_mem_free(gif); } static bool f_gif_open(gd_GIF * gif, const void * path, bool is_file) { gif->f_rw_p = 0; gif->data = NULL; gif->is_file = is_file; if(is_file) { lv_fs_res_t res = lv_fs_open(&gif->fd, path, LV_FS_MODE_RD); if(res != LV_FS_RES_OK) return false; else return true; } else { gif->data = path; return true; } } static void f_gif_read(gd_GIF * gif, void * buf, size_t len) { if(gif->is_file) { lv_fs_read(&gif->fd, buf, len, NULL); } else { memcpy(buf, &gif->data[gif->f_rw_p], len); gif->f_rw_p += len; } } static int f_gif_seek(gd_GIF * gif, size_t pos, int k) { if(gif->is_file) { lv_fs_seek(&gif->fd, pos, k); uint32_t x; lv_fs_tell(&gif->fd, &x); return x; } else { if(k == LV_FS_SEEK_CUR) gif->f_rw_p += pos; else if(k == LV_FS_SEEK_SET) gif->f_rw_p = pos; return gif->f_rw_p; } } static void f_gif_close(gd_GIF * gif) { if(gif->is_file) { lv_fs_close(&gif->fd); } } #endif /*LV_USE_GIF*/