t_elem *ft_get_input(char *s, t_elem *l, int *flag) { if (*flag == 1) *flag = 0; else if (s[0] == 27 && s[2] == 'A') ft_up(l); else if (s[0] == 27 && s[2] == 'B') ft_down(l); else if (s[0] == 32) ft_space(l); else if (s[0] == 1) ft_select_all(l); else if (s[0] == 24) ft_unselect_all(l); else if (s[0] == 27 && s[2] == 'F') ft_go_toend(l); else if (s[0] == 27 && s[2] == 'H') ft_go_home(l); else if ((s[0] == 27 && s[1] == 0) || s[0] == 4) ft_unset_canon(); else if (s[0] == '\n') ft_enter(l); else if (s[0] == 8 || s[0] == 127 || (s[0] == 27 && s[2] == '3')) l = ft_delete(l); return (l); }
int main(int ac, char **av) { char **tab; t_magic magic; if (ac != 2) printf("You must enter an equation\n"); else { magic = ft_ini_magic(); tab = ft_strsplit(av[1], ' '); if (tab != NULL) { ft_parse_entry(tab, &magic); if (magic.error == 0) { ft_clear_list(&magic); printf("Reduced form: "); ft_display_reduced(&magic); ft_resolve(&magic); } else ft_error(&magic); ft_delete(&magic); } } return (0); }
static int ft_resolve(t_tetri *tetri, char map[50][50], int letter, int size) { int i; if (!tetri) return (1); tetri->x = 0; while (tetri->x < size) { tetri->y = 0; while (tetri->y < size) { if (test_position(tetri, map, size)) { ft_valid_pos(tetri, map, letter, size); if (ft_resolve(tetri->next, map, letter + 1, size)) return (1); i = 0; ft_delete(map, letter, size); } tetri->y++; } tetri->x++; } return (0); }
static void process_flow_removal(ft_entry_t *entry, indigo_fi_flow_stats_t *final_stats, indigo_fi_flow_removed_t reason) { indigo_error_t rv; if (entry->flags & OF_FLOW_MOD_FLAG_SEND_FLOW_REM) { /* See OF spec 1.0.1, section 3.5, page 6 */ if (reason != INDIGO_FLOW_REMOVED_OVERWRITE) { if (final_stats != NULL) { INDIGO_ASSERT(final_stats->flow_id == entry->id); entry->packets = final_stats->packets; entry->bytes = final_stats->bytes; } else { entry->packets = (uint64_t)-1; entry->bytes = (uint64_t)-1; } send_flow_removed_message(entry, reason); } } rv = ft_delete(ind_core_ft, entry); if (rv != INDIGO_ERROR_NONE) { LOG_ERROR("Error deleting flow from state mgr. id: " INDIGO_FLOW_ID_PRINTF_FORMAT, INDIGO_FLOW_ID_PRINTF_ARG(entry->id)); } LOG_TRACE("Flow table now has %d entries", FT_STATUS(ind_core_ft)->current_count); }
GF_EXPORT void ShutdownInterface(GF_BaseInterface *ifce) { switch (ifce->InterfaceType) { case GF_FONT_READER_INTERFACE: ft_delete(ifce); break; } }
static int ft_manage_inputs(t_env *e, char *inputs) { int value; if ((inputs[0] == 4 || inputs[0] == 10) && inputs[1] == 0 && inputs[2] == 0 && inputs[3] == 0 && inputs[4] == 0 && inputs[5] == 0 && inputs[6] == 0) return (ft_quit(e, inputs)); else if (!ft_delete(e, inputs)) if (!ft_arrows(e, inputs)) if (!ft_clear(e, inputs)) if (ft_isprint(inputs[0]) || inputs[0] == 9) if ((value = ft_process_char(e, inputs)) != 2) return (value); return (-1); }
void term_event(unsigned int key, t_caps *caps) { if (key == 27) ft_exit(caps, 1); else if (ft_check_size(caps) == -1) return ; else if (key == 4345627) move_down(caps); else if (key == 4280091) move_top(caps); else if (key == 32) ft_select(caps); else if (key == 127 || key == 2117294875) ft_delete(caps); else if (key == 10 || key == 5066523) ft_return(caps); }
void ft_command(t_list **l, char buf[4], struct termios *term) { int ret; t_list *cursor; cursor = (*l)->next; while (!check_break(buf, cursor)) { buf[0] = 0; buf[1] = 0; buf[2] = 0; tputs(tgetstr("cl", NULL), 1, tty_putchar); ft_underline(cursor, l); ret = read(0, buf, 3); buf[ret] = '\0'; ft_space(&cursor, buf); ft_up(&cursor, buf); ft_down(&cursor, buf); ft_check_esc(buf, term); ft_delete(cursor, buf, &cursor); } }
char *func1(t_data *st, int *i, char *newbuff, char *stdin) { if (stdin[0] == 127) { if (newbuff[0] != '\0' && *i != 0) { delete_cmd(st, *i); newbuff = ft_delete(*i, newbuff); ft_putstr_complete(newbuff, st); back_to_j(newbuff, (*i) - 2); (*i)--; } } else { delete_cmd(st, *i); newbuff = add_to_tab(newbuff, stdin[0], *i); ft_putstr_complete(newbuff, st); back_to_j(newbuff, *i); (*i)++; } return (newbuff); }
void ft_btoa(t_swap *swap) { swap->a = ft_insert(swap->b[array_size(swap->b) - 1], swap->a, 1); swap->b = ft_delete(swap->b, 1); }
void ft_atob(t_swap *swap) { swap->b = ft_insert(swap->a[array_size(swap->a) - 1], swap->b, 1); swap->a = ft_delete(swap->a, 1); }