/* Terminal screen drawing routines. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "elinks.h" #include "config/options.h" #include "intl/charsets.h" #include "osdep/ascii.h" #include "osdep/osdep.h" #include "terminal/color.h" #include "terminal/draw.h" #include "terminal/hardio.h" #include "terminal/kbd.h" #include "terminal/screen.h" #include "terminal/terminal.h" #include "util/conv.h" #include "util/error.h" #include "util/memory.h" #include "util/string.h" /* TODO: We must use termcap/terminfo if available! --pasky */ unsigned char frame_dumb[48] = " ||||++||++++++--|-+||++--|-+----++++++++ "; static unsigned char frame_vt100[48] = "aaaxuuukkuxkjjjkmvwtqnttmlvwtqnvvwwmmllnnjla "; #if 0 /* For UTF8 I/O */ static unsigned char frame_vt100_u[48] = { 177, 177, 177, 179, 180, 180, 180, 191, 191, 180, 179, 191, 217, 217, 217, 191, 192, 193, 194, 195, 196, 197, 195, 195, 192, 218, 193, 194, 195, 196, 197, 193, 193, 194, 194, 192, 192, 218, 218, 197, 197, 217, 218, 177, 32, 32, 32, 32 }; #endif static unsigned char frame_freebsd[48] = { 130, 138, 128, 153, 150, 150, 150, 140, 140, 150, 153, 140, 139, 139, 139, 140, 142, 151, 152, 149, 146, 143, 149, 149, 142, 141, 151, 152, 149, 146, 143, 151, 151, 152, 152, 142, 142, 141, 141, 143, 143, 139, 141, 128, 128, 128, 128, 128, }; static unsigned char frame_koi[48] = { 144, 145, 146, 129, 135, 178, 180, 167, 166, 181, 161, 168, 174, 173, 172, 131, 132, 137, 136, 134, 128, 138, 175, 176, 171, 165, 187, 184, 177, 160, 190, 185, 186, 182, 183, 170, 169, 162, 164, 189, 188, 133, 130, 141, 140, 142, 143, 139, }; /* Most of this table is just 176 + . */ static unsigned char frame_restrict[48] = { 176, 177, 178, 179, 180, 179, 186, 186, 205, 185, 186, 187, 188, 186, 205, 191, 192, 193, 194, 195, 196, 197, 179, 186, 200, 201, 202, 203, 204, 205, 206, 205, 196, 205, 196, 186, 205, 205, 186, 186, 179, 217, 218, 219, 220, 221, 222, 223, }; #define TERM_STRING(str) INIT_STRING(str, sizeof(str) - 1) #define add_term_string(str, tstr) \ add_bytes_to_string(str, (tstr).source, (tstr).length) static struct string m11_hack_frame_seqs[] = { /* end border: */ TERM_STRING("\033[10m"), /* begin border: */ TERM_STRING("\033[11m"), }; static struct string utf8_linux_frame_seqs[] = { /* end border: */ TERM_STRING("\033[10m\033%G"), /* begin border: */ TERM_STRING("\033%@\033[11m"), }; static struct string vt100_frame_seqs[] = { /* end border: */ TERM_STRING("\x0f"), /* begin border: */ TERM_STRING("\x0e"), }; static struct string underline_seqs[] = { /* begin underline: */ TERM_STRING("\033[24m"), /* end underline: */ TERM_STRING("\033[4m"), }; /* Used in {add_char*()} and {redraw_screen()} to reduce the logic. It is * updated from terminal._template_.* using option change_hooks. */ /* TODO: termcap/terminfo can maybe gradually be introduced via this * structure. We'll see. --jonas */ struct screen_driver { LIST_HEAD(struct screen_driver); /* The terminal._template_.type. Together with the @name member the * uniquely identify the screen_driver. */ enum term_mode_type type; /* The frame translation table. May be NULL. */ unsigned char *frame; /* The frame mode setup and teardown sequences. May be NULL. */ struct string *frame_seqs; /* The underline mode setup and teardown sequences. May be NULL. */ struct string *underline; /* The color mode */ enum color_mode color_mode; /* These are directly derived from the terminal options. */ unsigned int transparent:1; /* UTF-8 I/O */ unsigned int utf8:1; /* The terminal._template_ name. */ unsigned char name[1]; /* XXX: Keep last! */ }; static struct screen_driver dumb_screen_driver = { NULL_LIST_HEAD, /* type: */ TERM_DUMB, /* frame: */ frame_dumb, /* frame_seqs: */ NULL, /* underline: */ underline_seqs, /* color_mode: */ COLOR_MODE_16, /* transparent: */ 1, /* utf-8: */ 0, }; static struct screen_driver vt100_screen_driver = { NULL_LIST_HEAD, /* type: */ TERM_VT100, /* frame: */ frame_vt100, /* frame_seqs: */ vt100_frame_seqs, /* underline: */ underline_seqs, /* color_mode: */ COLOR_MODE_16, /* transparent: */ 1, /* utf-8: */ 0, }; static struct screen_driver linux_screen_driver = { NULL_LIST_HEAD, /* type: */ TERM_LINUX, /* frame: */ NULL, /* No restrict_852 */ /* frame_seqs: */ NULL, /* No m11_hack */ /* underline: */ underline_seqs, /* color_mode: */ COLOR_MODE_16, /* transparent: */ 1, /* utf-8: */ 0, }; static struct screen_driver koi8_screen_driver = { NULL_LIST_HEAD, /* type: */ TERM_KOI8, /* frame: */ frame_koi, /* frame_seqs: */ NULL, /* underline: */ underline_seqs, /* color_mode: */ COLOR_MODE_16, /* transparent: */ 1, /* utf-8: */ 0, }; static struct screen_driver freebsd_screen_driver = { NULL_LIST_HEAD, /* type: */ TERM_FREEBSD, /* frame: */ frame_freebsd, /* frame_seqs: */ NULL, /* No m11_hack */ /* underline: */ underline_seqs, /* color_mode: */ COLOR_MODE_16, /* transparent: */ 1, /* utf-8: */ 0, }; /* XXX: Keep in sync with enum term_mode_type. */ static struct screen_driver *screen_drivers[] = { /* TERM_DUMB: */ &dumb_screen_driver, /* TERM_VT100: */ &vt100_screen_driver, /* TERM_LINUX: */ &linux_screen_driver, /* TERM_KOI8: */ &koi8_screen_driver, /* TERM_FREEBSD: */ &freebsd_screen_driver, }; #define use_utf8_io(driver) ((driver)->utf8) static INIT_LIST_HEAD(active_screen_drivers); static void update_screen_driver(struct screen_driver *driver, struct option *term_spec) { driver->utf8 = get_opt_bool_tree(term_spec, "utf_8_io"); driver->color_mode = get_opt_int_tree(term_spec, "colors"); driver->transparent = get_opt_bool_tree(term_spec, "transparency"); if (get_opt_bool_tree(term_spec, "underline")) { driver->underline = underline_seqs; } else { driver->underline = NULL; } if (driver->type == TERM_LINUX) { if (get_opt_bool_tree(term_spec, "restrict_852")) driver->frame = frame_restrict; if (get_opt_bool_tree(term_spec, "m11_hack")) driver->frame_seqs = m11_hack_frame_seqs; if (driver->utf8) driver->frame_seqs = utf8_linux_frame_seqs; } else if (driver->type == TERM_FREEBSD) { if (get_opt_bool_tree(term_spec, "m11_hack")) driver->frame_seqs = m11_hack_frame_seqs; } else if (driver->type == TERM_VT100) { driver->frame = frame_vt100; } } static int screen_driver_change_hook(struct session *ses, struct option *term_spec, struct option *changed) { enum term_mode_type type = get_opt_int_tree(term_spec, "type"); struct screen_driver *driver; unsigned char *name = term_spec->name; int len = strlen(name); foreach (driver, active_screen_drivers) if (driver->type == type && !memcmp(driver->name, name, len)) { update_screen_driver(driver, term_spec); break; } return 0; } static inline struct screen_driver * add_screen_driver(enum term_mode_type type, struct terminal *term, int env_len) { struct screen_driver *driver; /* One byte is reserved for name in struct screen_driver. */ driver = mem_alloc(sizeof(*driver) + env_len); if (!driver) return NULL; memcpy(driver, screen_drivers[type], sizeof(*driver) - 1); memcpy(driver->name, term->spec->name, env_len + 1); add_to_list(active_screen_drivers, driver); update_screen_driver(driver, term->spec); term->spec->change_hook = screen_driver_change_hook; term->utf8 = use_utf8_io(driver); return driver; } static inline struct screen_driver * get_screen_driver(struct terminal *term) { enum term_mode_type type = get_opt_int_tree(term->spec, "type"); unsigned char *name = term->spec->name; int len = strlen(name); struct screen_driver *driver; foreach (driver, active_screen_drivers) { if (driver->type != type) continue; if (memcmp(driver->name, name, len + 1)) continue; /* Some simple probably useless MRU ;) */ move_to_top_of_list(active_screen_drivers, driver); term->utf8 = use_utf8_io(driver); return driver; } return add_screen_driver(type, term, len); } void done_screen_drivers(void) { free_list(active_screen_drivers); } /* Adds the term code for positioning the cursor at @x and @y to @string. * The template term code is: "\033[<@y>;<@x>H" */ static inline struct string * add_cursor_move_to_string(struct string *screen, int y, int x) { #define CURSOR_NUM_LEN 10 /* 10 chars for @y and @x numbers should be more than enough. */ unsigned char code[4 + 2 * CURSOR_NUM_LEN + 1]; unsigned int length = 2; code[0] = '\033'; code[1] = '['; if (ulongcat(code, &length, y, CURSOR_NUM_LEN, 0) < 0) return screen; code[length++] = ';'; if (ulongcat(code, &length, x, CURSOR_NUM_LEN, 0) < 0) return screen; code[length++] = 'H'; return add_bytes_to_string(screen, code, length); #undef CURSOR_NUM_LEN } struct screen_state { unsigned char border; unsigned char underline; unsigned char bold; unsigned char attr; /* Following should match struct screen_char color field. */ #if defined(CONFIG_88_COLORS) || defined(CONFIG_256_COLORS) unsigned char color[2]; #else unsigned char color[1]; #endif }; #if defined(CONFIG_88_COLORS) || defined(CONFIG_256_COLORS) #define compare_color(a, b) ((a)[0] == (b)[0] && (a)[1] == (b)[1]) #define copy_color(a, b) do { (a)[0] = (b)[0]; (a)[1] = (b)[1]; } while (0) #define INIT_SCREEN_STATE { 0xFF, 0xFF, 0xFF, 0, { 0xFF, 0xFF } } #else #define compare_color(a, b) ((a)[0] == (b)[0]) #define copy_color(a, b) do { (a)[0] = (b)[0]; } while (0) #define INIT_SCREEN_STATE { 0xFF, 0xFF, 0xFF, 0, { 0xFF } } #endif #define compare_bg_color(a, b) (TERM_COLOR_BACKGROUND(a) == TERM_COLOR_BACKGROUND(b)) #define compare_fg_color(a, b) (TERM_COLOR_FOREGROUND(a) == TERM_COLOR_FOREGROUND(b)) static inline void add_char_data(struct string *screen, struct screen_driver *driver, unicode_val_T data, unsigned char border) { if (!isscreensafe(data)) { add_char_to_string(screen, ' '); return; } if (border && driver->frame && data >= 176 && data < 224) data = driver->frame[data - 176]; if (use_utf8_io(driver)) { if (border) add_char_to_string(screen, (unsigned char)data); else if (data != UCS_NO_CHAR) add_to_string(screen, encode_utf_8(data)); return; } add_char_to_string(screen, (unsigned char)data); } /* Time critical section. */ static inline void add_char16(struct string *screen, struct screen_driver *driver, struct screen_char *ch, struct screen_state *state) { unsigned char border = (ch->attr & SCREEN_ATTR_FRAME); unsigned char underline = (ch->attr & SCREEN_ATTR_UNDERLINE); unsigned char bold = (ch->attr & SCREEN_ATTR_BOLD); if (border != state->border && driver->frame_seqs) { state->border = border; add_term_string(screen, driver->frame_seqs[!!border]); } if (underline != state->underline && driver->underline) { state->underline = underline; add_term_string(screen, driver->underline[!!underline]); } if (bold != state->bold) { state->bold = bold; if (bold) { add_bytes_to_string(screen, "\033[1m", 4); } else { /* Force repainting of the other attributes. */ state->color[0] = ch->color[0] + 1; } } if (!compare_color(ch->color, state->color)) { copy_color(state->color, ch->color); add_bytes_to_string(screen, "\033[0", 3); if (driver->color_mode == COLOR_MODE_16) { unsigned char code[6] = ";30;40"; unsigned char bgcolor = TERM_COLOR_BACKGROUND(ch->color); code[2] += TERM_COLOR_FOREGROUND(ch->color); if (!driver->transparent || bgcolor != 0) { code[5] += bgcolor; add_bytes_to_string(screen, code, 6); } else { add_bytes_to_string(screen, code, 3); } } else if (ch->attr & SCREEN_ATTR_STANDOUT) { /* Flip the fore- and background colors for highlighing * purposes. */ add_bytes_to_string(screen, ";7", 2); } if (underline && driver->underline) { add_bytes_to_string(screen, ";4", 2); } /* Check if the char should be rendered bold. */ if (bold) { add_bytes_to_string(screen, ";1", 2); } add_bytes_to_string(screen, "m", 1); } add_char_data(screen, driver, ch->data, border); } #if defined(CONFIG_88_COLORS) || defined(CONFIG_256_COLORS) static struct string color256_seqs[] = { /* foreground: */ TERM_STRING("\033[0;38;5;%dm"), /* background: */ TERM_STRING("\033[48;5;%dm"), }; static inline void add_char_color(struct string *screen, struct string *seq, unsigned char color) { unsigned char color_buf[3]; unsigned char *color_pos = color_buf; int seq_pos = 0; int color_len = 1; check_string_magic(seq); for (; seq->source[seq_pos] != '%'; seq_pos++) ; add_bytes_to_string(screen, seq->source, seq_pos); if (color < 10) { color_pos += 2; } else { int color2; ++color_len; if (color < 100) { ++color_pos; } else { ++color_len; if (color < 200) { color_buf[0] = '1'; color -= 100; } else { color_buf[0] = '2'; color -= 200; } } color2 = (color % 10); color /= 10; color_buf[1] = '0' + color; color = color2; } color_buf[2] = '0' + color; add_bytes_to_string(screen, color_pos, color_len); seq_pos += 2; /* Skip "%d" */ add_bytes_to_string(screen, &seq->source[seq_pos], seq->length - seq_pos); } #define add_background_color(str, seq, chr) add_char_color(str, &(seq)[1], (chr)->color[1]) #define add_foreground_color(str, seq, chr) add_char_color(str, &(seq)[0], (chr)->color[0]) /* Time critical section. */ static inline void add_char256(struct string *screen, struct screen_driver *driver, struct screen_char *ch, struct screen_state *state) { unsigned char attr_delta = (ch->attr ^ state->attr); if (attr_delta) { if ((attr_delta & SCREEN_ATTR_FRAME) && driver->frame_seqs) { state->border = !!(ch->attr & SCREEN_ATTR_FRAME); add_term_string(screen, driver->frame_seqs[state->border]); } if ((attr_delta & SCREEN_ATTR_UNDERLINE) && driver->underline) { state->underline = !!(ch->attr & SCREEN_ATTR_UNDERLINE); add_term_string(screen, driver->underline[state->underline]); } if (attr_delta & SCREEN_ATTR_BOLD) { if (ch->attr & SCREEN_ATTR_BOLD) { add_bytes_to_string(screen, "\033[1m", 4); } else { /* Force repainting of the other attributes. */ state->color[0] = ch->color[0] + 1; } } state->attr = ch->attr; } if (!compare_color(ch->color, state->color)) { copy_color(state->color, ch->color); add_foreground_color(screen, color256_seqs, ch); if (!driver->transparent || ch->color[1] != 0) { add_background_color(screen, color256_seqs, ch); } if (ch->attr & SCREEN_ATTR_BOLD) add_bytes_to_string(screen, "\033[1m", 4); if (ch->attr & SCREEN_ATTR_UNDERLINE && driver->underline) { state->underline = !!(ch->attr & SCREEN_ATTR_UNDERLINE); add_term_string(screen, driver->underline[state->underline]); } } add_char_data(screen, driver, ch->data, ch->attr & SCREEN_ATTR_FRAME); } #endif #define add_chars(image_, term_, driver_, state_, ADD_CHAR) \ { \ struct terminal_screen *screen = (term_)->screen; \ int y = screen->dirty_from; \ int ypos = y * (term_)->width; \ int prev_y = -1; \ int xmax = (term_)->width - 1; \ int ymax = (term_)->height - 1; \ struct screen_char *current = &screen->last_image[ypos]; \ struct screen_char *pos = &screen->image[ypos]; \ struct screen_char *prev_pos = NULL; /* Warning prevention. */ \ \ int_upper_bound(&screen->dirty_to, ymax); \ \ for (; y <= screen->dirty_to; y++) { \ int is_last_line = (y == ymax); \ int x = 0; \ \ for (; x <= xmax; x++, current++, pos++) { \ /* Workaround for terminals without * "eat_newline_glitch (xn)", e.g., the cons25 family * of terminals and cygwin terminal. * It prevents display distortion, but char at bottom * right of terminal will not be drawn. * A better fix would be to correctly detects * terminal type, and/or add a terminal option for * this purpose. */ \ \ if (is_last_line && x == xmax) \ break; \ \ if (compare_bg_color(pos->color, current->color)) { \ /* No update for exact match. */ \ if (compare_fg_color(pos->color, current->color)\ && pos->data == current->data \ && pos->attr == current->attr) \ continue; \ \ /* Else if the color match and the data is * ``space''. */ \ if (pos->data <= ' ' && current->data <= ' ' \ && pos->attr == current->attr) \ continue; \ } \ \ /* Move the cursor when @prev_pos is more than 10 chars * away. */ \ if (prev_y != y || prev_pos + 10 <= pos) { \ add_cursor_move_to_string(image_, y + 1, x + 1);\ prev_pos = pos; \ prev_y = y; \ } \ \ for (; prev_pos <= pos ; prev_pos++) \ ADD_CHAR(image_, driver_, prev_pos, state_); \ } \ } \ } /* Updating of the terminal screen is done by checking what needs to be updated * using the last screen. */ void redraw_screen(struct terminal *term) { struct screen_driver *driver; struct string image; struct screen_state state = INIT_SCREEN_STATE; struct terminal_screen *screen = term->screen; if (!screen || screen->dirty_from > screen->dirty_to) return; if (term->master && is_blocked()) return; driver = get_screen_driver(term); if (!driver) return; if (!init_string(&image)) return; switch (driver->color_mode) { case COLOR_MODE_MONO: case COLOR_MODE_16: add_chars(&image, term, driver, &state, add_char16); break; #ifdef CONFIG_88_COLORS case COLOR_MODE_88: add_chars(&image, term, driver, &state, add_char256); break; #endif #ifdef CONFIG_256_COLORS case COLOR_MODE_256: add_chars(&image, term, driver, &state, add_char256); break; #endif case COLOR_MODES: case COLOR_MODE_DUMP: default: INTERNAL("Invalid color mode (%d).", driver->color_mode); return; } if (image.length) { if (driver->color_mode) add_bytes_to_string(&image, "\033[37;40m", 8); add_bytes_to_string(&image, "\033[0m", 4); /* If we ended in border state end the frame mode. */ if (state.border && driver->frame_seqs) add_term_string(&image, driver->frame_seqs[0]); } /* Even if nothing was redrawn, we possibly still need to move * cursor. */ if (image.length || screen->cx != screen->lcx || screen->cy != screen->lcy) { screen->lcx = screen->cx; screen->lcy = screen->cy; add_cursor_move_to_string(&image, screen->cy + 1, screen->cx + 1); } if (image.length) { if (term->master) want_draw(); hard_write(term->fdout, image.source, image.length); if (term->master) done_draw(); } done_string(&image); copy_screen_chars(screen->last_image, screen->image, term->width * term->height); screen->dirty_from = term->height; screen->dirty_to = 0; } void erase_screen(struct terminal *term) { if (term->master) { if (is_blocked()) return; want_draw(); } hard_write(term->fdout, "\033[2J\033[1;1H", 10); if (term->master) done_draw(); } void beep_terminal(struct terminal *term) { #ifdef CONFIG_OS_WIN32 MessageBeep(MB_ICONEXCLAMATION); #else hard_write(term->fdout, "\a", 1); #endif } struct terminal_screen * init_screen(void) { struct terminal_screen *screen; screen = mem_calloc(1, sizeof(*screen)); if (!screen) return NULL; screen->lcx = -1; screen->lcy = -1; return screen; } /* The two images are allocated in one chunk. */ /* TODO: It seems allocation failure here is fatal. We should do something! */ void resize_screen(struct terminal *term, int width, int height) { struct terminal_screen *screen; struct screen_char *image; size_t size, bsize; assert(term && term->screen); screen = term->screen; assert(width >= 0); assert(height >= 0); size = width * height; if (size <= 0) return; bsize = size * sizeof(*image); image = mem_realloc(screen->image, bsize * 2); if (!image) return; screen->image = image; screen->last_image = image + size; memset(screen->image, 0, bsize); memset(screen->last_image, 0xFF, bsize); term->width = width; term->height = height; set_screen_dirty(screen, 0, height); } void done_screen(struct terminal_screen *screen) { mem_free_if(screen->image); mem_free(screen); }