#include "private.h" #include #include "termpty.h" #include "termptyesc.h" #include "termptyops.h" #include #include #include #include #include #include #include #include #include /* specific log domain to help debug only terminal code parser */ int _termpty_log_dom = -1; #undef CRITICAL #undef ERR #undef WRN #undef INF #undef DBG #define CRITICAL(...) EINA_LOG_DOM_CRIT(_termpty_log_dom, __VA_ARGS__) #define ERR(...) EINA_LOG_DOM_ERR(_termpty_log_dom, __VA_ARGS__) #define WRN(...) EINA_LOG_DOM_WARN(_termpty_log_dom, __VA_ARGS__) #define INF(...) EINA_LOG_DOM_INFO(_termpty_log_dom, __VA_ARGS__) #define DBG(...) EINA_LOG_DOM_DBG(_termpty_log_dom, __VA_ARGS__) void termpty_init(void) { if (_termpty_log_dom >= 0) return; _termpty_log_dom = eina_log_domain_register("termpty", NULL); if (_termpty_log_dom < 0) EINA_LOG_CRIT("could not create log domain 'termpty'."); } void termpty_shutdown(void) { if (_termpty_log_dom < 0) return; eina_log_domain_unregister(_termpty_log_dom); _termpty_log_dom = -1; } static void _handle_buf(Termpty *ty, const Eina_Unicode *codepoints, int len) { Eina_Unicode *c, *ce, *b; int n, bytes; c = (int *)codepoints; ce = &(c[len]); if (ty->buf) { bytes = (ty->buflen + len + 1) * sizeof(int); b = realloc(ty->buf, bytes); if (!b) { ERR("memerr"); } INF("realloc add %i + %i", (int)(ty->buflen * sizeof(int)), (int)(len * sizeof(int))); bytes = len * sizeof(Eina_Unicode); memcpy(&(b[ty->buflen]), codepoints, bytes); ty->buf = b; ty->buflen += len; ty->buf[ty->buflen] = 0; c = ty->buf; ce = c + ty->buflen; while (c < ce) { n = _termpty_handle_seq(ty, c, ce); if (n == 0) { Eina_Unicode *tmp = ty->buf; ty->buf = NULL; ty->buflen = 0; bytes = ((char *)ce - (char *)c) + sizeof(Eina_Unicode); INF("malloc til %i", (int)(bytes - sizeof(Eina_Unicode))); ty->buf = malloc(bytes); if (!ty->buf) { ERR("memerr"); } bytes = (char *)ce - (char *)c; memcpy(ty->buf, c, bytes); ty->buflen = bytes / sizeof(Eina_Unicode); ty->buf[ty->buflen] = 0; free(tmp); break; } c += n; } if (c == ce) { if (ty->buf) { free(ty->buf); ty->buf = NULL; } ty->buflen = 0; } } else { while (c < ce) { n = _termpty_handle_seq(ty, c, ce); if (n == 0) { bytes = ((char *)ce - (char *)c) + sizeof(Eina_Unicode); ty->buf = malloc(bytes); INF("malloc %i", (int)(bytes - sizeof(Eina_Unicode))); if (!ty->buf) { ERR("memerr"); } bytes = (char *)ce - (char *)c; memcpy(ty->buf, c, bytes); ty->buflen = bytes / sizeof(Eina_Unicode); ty->buf[ty->buflen] = 0; break; } c += n; } } } static void _pty_size(Termpty *ty) { struct winsize sz; sz.ws_col = ty->w; sz.ws_row = ty->h; sz.ws_xpixel = 0; sz.ws_ypixel = 0; if (ioctl(ty->fd, TIOCSWINSZ, &sz) < 0) ERR("Size set ioctl failed: %s", strerror(errno)); } static Eina_Bool _cb_exe_exit(void *data, int type __UNUSED__, void *event) { Ecore_Exe_Event_Del *ev = event; Termpty *ty = data; if (ev->pid != ty->pid) return ECORE_CALLBACK_PASS_ON; ty->exit_code = ev->exit_code; ty->pid = -1; if (ty->hand_exe_exit) ecore_event_handler_del(ty->hand_exe_exit); ty->hand_exe_exit = NULL; if (ty->hand_fd) ecore_main_fd_handler_del(ty->hand_fd); ty->hand_fd = NULL; if (ty->fd >= 0) close(ty->fd); ty->fd = -1; if (ty->slavefd >= 0) close(ty->slavefd); ty->slavefd = -1; if (ty->cb.exited.func) ty->cb.exited.func(ty->cb.exited.data); return ECORE_CALLBACK_PASS_ON; } static Eina_Bool _cb_fd_read(void *data, Ecore_Fd_Handler *fd_handler __UNUSED__) { Termpty *ty = data; char buf[4097]; Eina_Unicode codepoint[4097]; int len, i, j, reads; // read up to 64 * 4096 bytes for (reads = 0; reads < 64; reads++) { len = read(ty->fd, buf, sizeof(buf) - 1); if (len <= 0) break; /* printf(" I: "); int jj; for (jj = 0; jj < len && jj < 100; jj++) { if ((buf[jj] < ' ') || (buf[jj] >= 0x7f)) printf("\033[33m%02x\033[0m", (unsigned char)buf[jj]); else printf("%c", buf[jj]); } printf("\n"); */ buf[len] = 0; // convert UTF8 to codepoint integers j = 0; for (i = 0; i < len;) { int g = 0; if (buf[i]) { #if (EINA_VERSION_MAJOR > 1) || (EINA_VERSION_MINOR >= 8) g = eina_unicode_utf8_next_get(buf, &i); #else i = evas_string_char_next_get(buf, i, &g); #endif if (i < 0) break; // DBG("(%i) %02x '%c'", j, g, g); } else { g = 0; i++; } codepoint[j] = g; j++; } codepoint[j] = 0; // DBG("---------------- handle buf %i", j); _handle_buf(ty, codepoint, j); } if (ty->cb.change.func) ty->cb.change.func(ty->cb.change.data); return EINA_TRUE; } static void _limit_coord(Termpty *ty, Termstate *state) { state->wrapnext = 0; if (state->cx >= ty->w) state->cx = ty->w - 1; if (state->cy >= ty->h) state->cy = ty->h - 1; if (state->had_cr_x >= ty->w) state->had_cr_x = ty->w - 1; if (state->had_cr_y >= ty->h) state->had_cr_y = ty->h - 1; } Termpty * termpty_new(const char *cmd, Eina_Bool login_shell, const char *cd, int w, int h, int backscroll) { Termpty *ty; const char *pty; ty = calloc(1, sizeof(Termpty)); if (!ty) return NULL; ty->w = w; ty->h = h; ty->backmax = backscroll; _termpty_reset_state(ty); ty->save = ty->state; ty->swap = ty->state; ty->screen = calloc(1, sizeof(Termcell) * ty->w * ty->h); if (!ty->screen) goto err; ty->screen2 = calloc(1, sizeof(Termcell) * ty->w * ty->h); if (!ty->screen2) goto err; ty->circular_offset = 0; ty->fd = posix_openpt(O_RDWR | O_NOCTTY); if (ty->fd < 0) goto err; if (grantpt(ty->fd) != 0) goto err; if (unlockpt(ty->fd) != 0) goto err; pty = ptsname(ty->fd); ty->slavefd = open(pty, O_RDWR | O_NOCTTY); if (ty->slavefd < 0) goto err; fcntl(ty->fd, F_SETFL, O_NDELAY); ty->hand_exe_exit = ecore_event_handler_add(ECORE_EXE_EVENT_DEL, _cb_exe_exit, ty); ty->pid = fork(); if (!ty->pid) { const char *shell = NULL; const char *args[4] = {NULL, NULL, NULL, NULL}; Eina_Bool needs_shell; int i; if (cd) { if (chdir(cd) != 0) { perror("chdir"); ERR("Cannot change to directory '%s'", cd); exit(127); } } needs_shell = ((!cmd) || (strpbrk(cmd, " |&;<>()$`\\\"'*?#") != NULL)); DBG("cmd='%s' needs_shell=%u", cmd ? cmd : "", needs_shell); if (needs_shell) { shell = getenv("SHELL"); if (!shell) { uid_t uid = getuid(); struct passwd *pw = getpwuid(uid); if (pw) shell = pw->pw_shell; } if (!shell) { WRN("Could not find shell, fallback to /bin/sh"); shell = "/bin/sh"; } } if (!needs_shell) args[0] = cmd; else { args[0] = shell; if (cmd) { args[1] = "-c"; args[2] = cmd; } } #define NC(x) (args[x] != NULL ? args[x] : "") DBG("exec %s %s %s %s", NC(0), NC(1), NC(2), NC(3)); #undef NC for (i = 0; i < 100; i++) { if (i != ty->slavefd) close(i); } setsid(); dup2(ty->slavefd, 0); dup2(ty->slavefd, 1); dup2(ty->slavefd, 2); if (ioctl(ty->slavefd, TIOCSCTTY, NULL) < 0) exit(1); close(ty->fd); close(ty->slavefd); /* TODO: should we reset signals here? */ // pretend to be xterm putenv("TERM=xterm"); // putenv("TERM=xterm-256color"); putenv("XTERM_256_COLORS=1"); if (!login_shell) execvp(args[0], (char *const *)args); else { char *cmdfile, *cmd0; cmdfile = (char *)args[0]; cmd0 = alloca(strlen(cmdfile) + 2); cmd0[0] = '-'; strcpy(cmd0 + 1, cmdfile); args[0] = cmd0; execvp(cmdfile, (char *const *)args); } exit(127); /* same as system() for failed commands */ } ty->hand_fd = ecore_main_fd_handler_add(ty->fd, ECORE_FD_READ, _cb_fd_read, ty, NULL, NULL); close(ty->slavefd); ty->slavefd = -1; _pty_size(ty); return ty; err: if (ty->screen) free(ty->screen); if (ty->screen2) free(ty->screen2); if (ty->fd >= 0) close(ty->fd); if (ty->slavefd >= 0) close(ty->slavefd); free(ty); return NULL; } void termpty_free(Termpty *ty) { Termexp *ex; EINA_LIST_FREE(ty->block.expecting, ex) free(ex); if (ty->block.blocks) eina_hash_free(ty->block.blocks); if (ty->block.active) eina_list_free(ty->block.active); if (ty->fd >= 0) close(ty->fd); if (ty->slavefd >= 0) close(ty->slavefd); if (ty->pid >= 0) { int i; // in case someone stopped the child - cont it kill(ty->pid, SIGCONT); // signpipe for shells kill(ty->pid, SIGPIPE); // try 400 time (sleeping for 1ms) to check for death of child for (i = 0; i < 400; i++) { int status = 0; // poll exit of child pid if (waitpid(ty->pid, &status, WNOHANG) == ty->pid) { // if child exited - break loop and mark pid as done ty->pid = -1; break; } // after 100ms set sigint if (i == 100) kill(ty->pid, SIGINT); // after 200ms send term signal else if (i == 200) kill(ty->pid, SIGTERM); // after 300ms send quit signal else if (i == 300) kill(ty->pid, SIGQUIT); usleep(1000); // sleep 1ms } // so 400ms and child not gone - KILL! if (ty->pid >= 0) { kill(ty->pid, SIGKILL); ty->pid = -1; } } if (ty->hand_exe_exit) ecore_event_handler_del(ty->hand_exe_exit); if (ty->hand_fd) ecore_main_fd_handler_del(ty->hand_fd); if (ty->prop.title) eina_stringshare_del(ty->prop.title); if (ty->prop.icon) eina_stringshare_del(ty->prop.icon); if (ty->back) { int i; for (i = 0; i < ty->backmax; i++) { if (ty->back[i]) free(ty->back[i]); } free(ty->back); } if (ty->screen) free(ty->screen); if (ty->screen2) free(ty->screen2); if (ty->buf) free(ty->buf); memset(ty, 0, sizeof(Termpty)); free(ty); } Termcell * termpty_cellrow_get(Termpty *ty, int y, int *wret) { Termsave *ts; if (y >= 0) { if (y >= ty->h) return NULL; *wret = ty->w; /* fprintf(stderr, "getting: %i (%i, %i)\n", y, ty->circular_offset, ty->h); */ return &(TERMPTY_SCREEN(ty, 0, y)); } if (y < -ty->backmax) return NULL; ts = ty->back[(ty->backmax + ty->backpos + y) % ty->backmax]; if (!ts) return NULL; *wret = ts->w; return ts->cell; } void termpty_write(Termpty *ty, const char *input, int len) { if (ty->fd < 0) return; if (write(ty->fd, input, len) < 0) ERR("write %s", strerror(errno)); } ssize_t termpty_line_length(const Termcell *cells, ssize_t nb_cells) { ssize_t len = nb_cells; for (len = nb_cells - 1; len >= 0; len--) { const Termcell *cell = cells + len; if ((cell->codepoint != 0) && (cell->att.bg != COL_INVIS)) return len + 1; } return 0; } static void _termpty_horizontally_expand(Termpty *ty, int old_w, int old_h, Termcell *old_screen) { int i, new_back_pos = 0, old_y, old_x, old_circular_offset = ty->circular_offset, x = 0, y = 0; Termsave **new_back, *new_ts = NULL; Eina_Bool rewrapping = EINA_FALSE; if (!ty->backmax || !ty->back) goto expand_screen; new_back = calloc(sizeof(Termsave*), ty->backmax); for (i = 0; i < ty->backmax; i++) { Termsave *ts; if (ty->backscroll_num == ty->backmax - 1) ts = ty->back[(ty->backpos + i) % ty->backmax]; else ts = ty->back[i]; if (!ts) break; if (!ts->w) { if (rewrapping) { rewrapping = EINA_FALSE; new_ts->cell[new_ts->w - 1].att.autowrapped = 0; } else new_back[new_back_pos++] = ts; continue; } if (rewrapping) { int remaining_width = ty->w - new_ts->w; int len = ts->w; Termcell *cells = ts->cell; if (new_ts->w) { new_ts->cell[new_ts->w - 1].att.autowrapped = 0; } if (ts->w >= remaining_width) { memcpy(new_ts->cell + new_ts->w, cells, remaining_width * sizeof(Termcell)); new_ts->w = ty->w; new_ts->cell[new_ts->w - 1].att.autowrapped = 1; len -= remaining_width; cells += remaining_width; new_ts = calloc(1, sizeof(Termsave) + (ty->w - 1) * sizeof(Termcell)); new_ts->w = 0; new_back[new_back_pos++] = new_ts; } if (len) { memcpy(new_ts->cell + new_ts->w, cells, len * sizeof(Termcell)); new_ts->w += len; } rewrapping = ts->cell[ts->w - 1].att.autowrapped; if (!rewrapping) { new_ts = NULL; } free(ts); } else { if (ts->cell[ts->w - 1].att.autowrapped) { rewrapping = EINA_TRUE; new_ts = calloc(1, sizeof(Termsave) + (ty->w - 1) * sizeof(Termcell)); new_ts->w = ts->w; memcpy(new_ts->cell, ts->cell, ts->w * sizeof(Termcell)); new_ts->cell[ts->w - 1].att.autowrapped = 0; new_back[new_back_pos++] = new_ts; free(ts); } else { new_back[new_back_pos++] = ts; } } } if (new_back_pos >= ty->backmax) { ty->backscroll_num = ty->backmax - 1; ty->backpos = 0; } else { ty->backscroll_num = new_back_pos; ty->backpos = new_back_pos; } free(ty->back); ty->back = new_back; expand_screen: if (ty->altbuf) return; ty->circular_offset = 0; /* TODO: * change of height (handle later?) * double-width :) */ #define OLD_SCREEN(_X, _Y) \ old_screen[_X + (((_Y + old_circular_offset) % old_h) * old_w)] for (old_y = 0; old_y < old_h; old_y++) { ssize_t cur_line_length; cur_line_length = termpty_line_length(&OLD_SCREEN(0, old_y), old_w); if (rewrapping) { if (new_ts) { ssize_t remaining_width = ty->w - new_ts->w; ssize_t len = MIN(cur_line_length, remaining_width); Termcell *cells = &OLD_SCREEN(0, old_y); memcpy(new_ts->cell + new_ts->w, cells, len * sizeof(Termcell)); new_ts->w += len; cells += len; if (cur_line_length > remaining_width) { new_ts->cell[new_ts->w - 1].att.autowrapped = 1; new_ts = NULL; len = cur_line_length - remaining_width; memcpy(ty->screen + (y * ty->w), cells, len * sizeof(Termcell)); x += len; } rewrapping = OLD_SCREEN(old_w - 1, old_y).att.autowrapped; if (!rewrapping) { new_ts = NULL; y++; } } else { int remaining_width = ty->w - x, len = cur_line_length; old_x = 0; if (cur_line_length >= remaining_width) { /* TODO: use termpty_cell_copy */ memcpy(ty->screen + (y * ty->w) + x, &OLD_SCREEN(0, old_y), remaining_width * sizeof(Termcell)); TERMPTY_SCREEN(ty, ty->w - 1, y).att.autowrapped = 1; y++; x = 0; old_x = remaining_width; len -= remaining_width; } if (len) { /* TODO: use termpty_cell_copy */ memcpy(ty->screen + (y * ty->w) + x, &OLD_SCREEN(old_x, old_y), len * sizeof(Termcell)); x += len; TERMPTY_SCREEN(ty, x - 1, y).att.autowrapped = 0; } rewrapping = OLD_SCREEN(old_w - 1, old_y).att.autowrapped; if (!rewrapping) y++; } } else { /* TODO: use termpty_cell_copy */ memcpy(ty->screen + (y * ty->w), &OLD_SCREEN(0, old_y), cur_line_length * sizeof(Termcell)); if (OLD_SCREEN(old_w - 1, old_y).att.autowrapped) { rewrapping = EINA_TRUE; TERMPTY_SCREEN(ty, old_w - 1, old_y).att.autowrapped = 0; x = cur_line_length; } else { y++; } } } #undef OLD_SCREEN } static void _termpty_vertically_expand(Termpty *ty, int old_w, int old_h, Termcell *old_screen) { if (old_screen) { int y, old_circular_offset = ty->circular_offset; ty->circular_offset = 0; #define OLD_SCREEN(_X, _Y) \ old_screen[_X + (((_Y + old_circular_offset) % old_h) * old_w)] for (y = 0; y < old_h; y++) { Termcell *c1, *c2; c1 = &(OLD_SCREEN(0, y)); c2 = &(TERMPTY_SCREEN(ty, 0, y)); _termpty_text_copy(ty, c1, c2, old_w); } #undef OLD_SCREEN } /* TODO: display content from backlog */ } static void _termpty_vertically_shrink(Termpty *ty, int old_w, int old_h, Termcell *old_screen) { int to_history = old_h - ty->h, circular_offset, w, h, y; Termcell *screen; if (old_screen) { screen = old_screen; w = old_w; h = old_h; circular_offset = ty->circular_offset; } else { screen = ty->screen; w = ty->w; h = ty->h; circular_offset = 0; } #define _SCREEN(_X, _Y) \ screen[_X + (((_Y + circular_offset) % h) * w)] for (y = 0; y < to_history; y++) { termpty_text_save_top(ty, &(_SCREEN(0, y)), w); } for (y = 0; y < ty->h; y++) { Termcell *c1, *c2; c1 = &(_SCREEN(0, y + to_history)); c2 = &(TERMPTY_SCREEN(ty, 0, y)); _termpty_text_copy(ty, c1, c2, old_w); } #undef _SCREEN } static void _termpty_horizontally_shrink(Termpty *ty, int old_w, int old_h, Termcell *old_screen) { /* TODO */ } void termpty_resize(Termpty *ty, int w, int h) { Termcell *olds, *olds2; int y, ww, hh, oldw, oldh; if ((ty->w == w) && (ty->h == h)) return; olds = ty->screen; olds2 = ty->screen2; oldw = ty->w; oldh = ty->h; ty->w = w; ty->h = h; ty->state.had_cr = 0; _limit_coord(ty, &(ty->state)); _limit_coord(ty, &(ty->swap)); _limit_coord(ty, &(ty->save)); ty->screen = calloc(1, sizeof(Termcell) * ty->w * ty->h); if (!ty->screen) { ty->screen2 = NULL; ERR("memerr"); } ty->screen2 = calloc(1, sizeof(Termcell) * ty->w * ty->h); if (!ty->screen2) { ERR("memerr"); } if (oldw != ty->w) { if (ty->w > oldw) _termpty_horizontally_expand(ty, oldw, oldh, olds); else _termpty_horizontally_shrink(ty, oldw, oldh, olds); free(olds); olds = NULL; free(olds2); olds2 = NULL; ty->circular_offset = 0; } else { } if (oldh != ty->h) { if (ty->h > oldh) _termpty_vertically_expand(ty, oldw, oldh, olds); else _termpty_vertically_shrink(ty, oldw, oldh, olds); } free(olds); free(olds2); _pty_size(ty); } void termpty_backscroll_set(Termpty *ty, int size) { int i; if (ty->backmax == size) return; if (ty->back) { for (i = 0; i < ty->backmax; i++) { if (ty->back[i]) free(ty->back[i]); } free(ty->back); } if (size > 0) ty->back = calloc(1, sizeof(Termsave *) * size); else ty->back = NULL; ty->backscroll_num = 0; ty->backpos = 0; ty->backmax = size; } pid_t termpty_pid_get(const Termpty *ty) { return ty->pid; } void termpty_block_free(Termblock *tb) { if (tb->path) eina_stringshare_del(tb->path); if (tb->link) eina_stringshare_del(tb->link); if (tb->obj) evas_object_del(tb->obj); free(tb); } Termblock * termpty_block_new(Termpty *ty, int w, int h, const char *path, const char *link) { Termblock *tb; int id; id = ty->block.curid; if (!ty->block.blocks) ty->block.blocks = eina_hash_int32_new((Eina_Free_Cb)termpty_block_free); if (!ty->block.blocks) return NULL; tb = eina_hash_find(ty->block.blocks, &id); if (tb) { if (tb->active) ty->block.active = eina_list_remove(ty->block.active, tb); eina_hash_del(ty->block.blocks, &id, tb); } tb = calloc(1, sizeof(Termblock)); if (!tb) return NULL; tb->id = id; tb->w = w; tb->h = h; tb->path = eina_stringshare_add(path); if (link) tb->link = eina_stringshare_add(link); eina_hash_add(ty->block.blocks, &id, tb); ty->block.curid++; if (ty->block.curid >= 8192) ty->block.curid = 0; return tb; } void termpty_block_insert(Termpty *ty, int ch, Termblock *blk) { // bit 0-8 = y (9b 0->511) // bit 9-17 = x (9b 0->511) // bit 18-30 = id (13b 0->8191) // bit 31 = 1 // // fg/bg = 8+8bit unused. (use for extra id bits? so 16 + 13 == 29bit?) // // cp = (1 << 31) | ((id 0x1fff) << 18) | ((x & 0x1ff) << 9) | (y & 0x1ff); Termexp *ex; ex = calloc(1, sizeof(Termexp)); if (!ex) return; ex->ch = ch; ex->left = blk->w * blk->h; ex->id = blk->id; ex->w = blk->w; ex->h = blk->h; ty->block.expecting = eina_list_append(ty->block.expecting, ex); } int termpty_block_id_get(Termcell *cell, int *x, int *y) { int id; if (!(cell->codepoint & 0x80000000)) return -1; id = (cell->codepoint >> 18) & 0x1fff; *x = (cell->codepoint >> 9) & 0x1ff; *y = cell->codepoint & 0x1ff; return id; } Termblock * termpty_block_get(Termpty *ty, int id) { if (!ty->block.blocks) return NULL; return eina_hash_find(ty->block.blocks, &id); } static void _handle_block_codepoint_overwrite(Termpty *ty, int oldc, int newc) { Termblock *tb; int ido = 0, idn = 0; if (oldc & 0x80000000) ido = (oldc >> 18) & 0x1fff; if (newc & 0x80000000) idn = (newc >> 18) & 0x1fff; if (((oldc & 0x80000000) && (newc & 0x80000000)) && (idn == ido)) return; if (oldc & 0x80000000) { tb = termpty_block_get(ty, ido); if (!tb) return; tb->refs--; if (tb->refs == 0) { if (tb->active) ty->block.active = eina_list_remove(ty->block.active, tb); eina_hash_del(ty->block.blocks, &ido, tb); } } if (newc & 0x80000000) { tb = termpty_block_get(ty, idn); if (!tb) return; tb->refs++; } } void termpty_cell_copy(Termpty *ty, Termcell *src, Termcell *dst, int n) { int i; for (i = 0; i < n; i++) { _handle_block_codepoint_overwrite(ty, dst[i].codepoint, src[i].codepoint); dst[i] = src[i]; } } void termpty_cell_swap(Termpty *ty __UNUSED__, Termcell *src, Termcell *dst, int n) { int i; Termcell t; for (i = 0; i < n; i++) { t = dst[i]; dst[i] = src[i]; dst[i] = t; } } void termpty_cell_fill(Termpty *ty, Termcell *src, Termcell *dst, int n) { int i; if (src) { for (i = 0; i < n; i++) { _handle_block_codepoint_overwrite(ty, dst[i].codepoint, src[0].codepoint); dst[i] = src[0]; } } else { for (i = 0; i < n; i++) { _handle_block_codepoint_overwrite(ty, dst[i].codepoint, 0); memset(&(dst[i]), 0, sizeof(*dst)); } } } void termpty_cell_codepoint_att_fill(Termpty *ty, int codepoint, Termatt att, Termcell *dst, int n) { int i; for (i = 0; i < n; i++) { _handle_block_codepoint_overwrite(ty, dst[i].codepoint, codepoint); dst[i].codepoint = codepoint; dst[i].att = att; } }