ref: bc84f7d811717a7ec07d7ce36d1442b1022cf0c9
dir: /term_util.c/
#include "term_util.h" #include <ctype.h> #include <form.h> #include <menu.h> // No overflow checks in most of these guys. Switch to use 'sds' if we ever // need anything more advanced. void heapstr_init(Heapstr* hs) { enum { InitialCapacity = 16 }; hs->str = malloc(InitialCapacity); hs->capacity = InitialCapacity; hs->str[0] = 0; } void heapstr_init_cstr(Heapstr* hs, char const* cstr) { Usz len = strlen(cstr); hs->str = malloc(len + 1); hs->capacity = len + 1; memcpy(hs->str, cstr, len + 1); } void heapstr_deinit(Heapstr* hs) { free(hs->str); } void heapstr_reserve(Heapstr* hs, Usz capacity) { if (hs->capacity < capacity) { Usz new_cap = orca_round_up_power2(capacity); hs->str = realloc(hs->str, new_cap); hs->capacity = new_cap; } } void heapstr_set_cstrlen(Heapstr* hs, char const* cstr, Usz len) { heapstr_reserve(hs, len + 1); memcpy(hs->str, cstr, len); hs->str[len] = 0; } void heapstr_set_cstr(Heapstr* hs, char const* cstr) { Usz len = strlen(cstr); heapstr_set_cstrlen(hs, cstr, len); } Usz heapstr_len(Heapstr const* hs) { return strlen(hs->str); } void term_util_init_colors() { if (has_colors()) { // Enable color start_color(); use_default_colors(); for (int ifg = 0; ifg < Colors_count; ++ifg) { for (int ibg = 0; ibg < Colors_count; ++ibg) { int res = init_pair((short int)(1 + ifg * Colors_count + ibg), (short int)(ifg - 1), (short int)(ibg - 1)); (void)res; // Might fail on Linux virtual console/terminal for a couple of colors. // Just ignore. #if 0 if (res == ERR) { endwin(); fprintf(stderr, "Error initializing color pair: %d %d\n", ifg - 1, ibg - 1); exit(1); } #endif } } } } #define ORCA_CONTAINER_OF(ptr, type, member) \ ((type*)((char*)(1 ? (ptr) : &((type*)0)->member) - offsetof(type, member))) struct Qmsg { Qblock qblock; }; struct Qmenu_item_extra { int user_id; U8 owns_string : 1; U8 is_spacer : 1; }; struct Qmenu { Qblock qblock; MENU* ncurses_menu; ITEM** ncurses_items; Usz items_count; Usz items_cap; ITEM* initial_item; int id; // Flag for right-padding hack. Temp until we do our own menus U8 has_submenu_item : 1; }; struct Qform { Qblock qblock; FORM* ncurses_form; FIELD* ncurses_fields[32]; Usz fields_count; int id; }; Qnav_stack qnav_stack; void qnav_init() { qnav_stack.count = 0; qnav_stack.stack_changed = false; memset(qnav_stack.blocks, 0, sizeof(qnav_stack.blocks)); } void qnav_deinit() { while (qnav_stack.count != 0) qnav_stack_pop(); } static ORCA_FORCE_NO_INLINE void qnav_stack_push(Qblock* qb, int height, int width) { #ifndef NDEBUG for (Usz i = 0; i < qnav_stack.count; ++i) { assert(qnav_stack.blocks[i] != qb); } #endif int top = 0, left = 0; int total_h = height + 2, total_w = width + 2; if (qnav_stack.count > 0) { WINDOW* w = qnav_stack.blocks[qnav_stack.count - 1]->outer_window; int prev_y, prev_x, prev_h, prev_w; getbegyx(w, prev_y, prev_x); getmaxyx(w, prev_h, prev_w); // Start by trying to position the item to the right of the previous item. left = prev_x + prev_w + 0; int term_h, term_w; getmaxyx(stdscr, term_h, term_w); // Check if we'll run out of room if we position the new item to the right // of the existing item (with the same Y position.) if (left + total_w > term_w) { // If we have enough room if we position just below the previous item in // the stack, do that instead of positioning to the right of it. if (prev_x + total_w <= term_w && total_h < term_h - (prev_y + prev_h)) { top = prev_y + prev_h; left = prev_x; } // If the item doesn't fit there, but it's less wide than the terminal, // right-align it to the edge of the terminal. else if (total_w < term_w) { left = term_w - total_w; } // Otherwise, just start the layout over at Y=0,X=0 else { left = 0; } } } qnav_stack.blocks[qnav_stack.count] = qb; ++qnav_stack.count; qb->outer_window = newpad(total_h, total_w); // This used to be derwin when when used newwin instead of newpad -- not sure // if we should use derwin or subpad now. subpad is probably more compatible. // ncurses docs state that it handles it correctly, unlike some others? qb->content_window = subpad(qb->outer_window, height, width, 1, 1); qb->y = top; qb->x = left; qnav_stack.stack_changed = true; } Qblock* qnav_top_block() { if (qnav_stack.count == 0) return NULL; return qnav_stack.blocks[qnav_stack.count - 1]; } void qblock_init(Qblock* qb, Qblock_type_tag tag) { qb->tag = tag; qb->outer_window = NULL; qb->content_window = NULL; qb->title = NULL; } void qmenu_free(Qmenu* qm); void qform_free(Qform* qf); void qnav_free_block(Qblock* qb) { switch (qb->tag) { case Qblock_type_qmsg: { Qmsg* qm = qmsg_of(qb); free(qm); } break; case Qblock_type_qmenu: { qmenu_free(qmenu_of(qb)); } break; case Qblock_type_qform: { qform_free(qform_of(qb)); } break; } } void qnav_stack_pop() { assert(qnav_stack.count > 0); if (qnav_stack.count == 0) return; Qblock* qb = qnav_stack.blocks[qnav_stack.count - 1]; WINDOW* content_window = qb->content_window; WINDOW* outer_window = qb->outer_window; // erase any stuff underneath where this window is, in case it's outside of // the grid in an area that isn't actively redraw werase(outer_window); wnoutrefresh(outer_window); qnav_free_block(qb); delwin(content_window); delwin(outer_window); --qnav_stack.count; qnav_stack.blocks[qnav_stack.count] = NULL; qnav_stack.stack_changed = true; } void qblock_print_border(Qblock* qb, unsigned int attr) { wborder(qb->outer_window, ACS_VLINE | attr, ACS_VLINE | attr, ACS_HLINE | attr, ACS_HLINE | attr, ACS_ULCORNER | attr, ACS_URCORNER | attr, ACS_LLCORNER | attr, ACS_LRCORNER | attr); } void qblock_print_title(Qblock* qb, char const* title, int attr) { wmove(qb->outer_window, 0, 1); attr_t attrs = A_NORMAL; short pair = 0; wattr_get(qb->outer_window, &attrs, &pair, NULL); wattrset(qb->outer_window, attr); waddch(qb->outer_window, ' '); wprintw(qb->outer_window, title); waddch(qb->outer_window, ' '); wattr_set(qb->outer_window, attrs, pair, NULL); } void qblock_set_title(Qblock* qb, char const* title) { qb->title = title; } void qblock_print_frame(Qblock* qb, bool active) { qblock_print_border(qb, active ? A_NORMAL : A_DIM); if (qb->title) { qblock_print_title(qb, qb->title, active ? A_NORMAL : A_DIM); } if (qb->tag == Qblock_type_qform) { Qform* qf = qform_of(qb); if (qf->ncurses_form) { pos_form_cursor(qf->ncurses_form); } } } WINDOW* qmsg_window(Qmsg* qm) { return qm->qblock.content_window; } void qmsg_set_title(Qmsg* qm, char const* title) { qblock_set_title(&qm->qblock, title); } Qmsg* qmsg_push(int height, int width) { Qmsg* qm = malloc(sizeof(Qmsg)); qblock_init(&qm->qblock, Qblock_type_qmsg); qnav_stack_push(&qm->qblock, height, width); return qm; } void qmsg_printf_push(char const* title, char const* fmt, ...) { int titlewidth = title ? (int)strlen(title) : 0; va_list ap; va_start(ap, fmt); int msgbytes = vsnprintf(NULL, 0, fmt, ap); va_end(ap); char* buffer = malloc((Usz)msgbytes + 1); if (!buffer) exit(1); va_start(ap, fmt); int printedbytes = vsnprintf(buffer, (Usz)msgbytes + 1, fmt, ap); va_end(ap); if (printedbytes != msgbytes) exit(1); // todo better handling? int lines = 1; int curlinewidth = 0; int maxlinewidth = 0; for (int i = 0; i < msgbytes; i++) { if (buffer[i] == '\n') { buffer[i] = '\0'; // This is terrifying :) lines++; if (curlinewidth > maxlinewidth) maxlinewidth = curlinewidth; curlinewidth = 0; } else { curlinewidth++; } } if (curlinewidth > maxlinewidth) maxlinewidth = curlinewidth; int width = titlewidth > maxlinewidth ? titlewidth : maxlinewidth; width += 2; // 1 padding on left and right each Qmsg* msg = qmsg_push(lines, width); // no wrapping yet, no real wcwidth, etc WINDOW* msgw = qmsg_window(msg); int i = 0; int offset = 0; for (;;) { if (offset == msgbytes + 1) break; int numbytes = (int)strlen(buffer + offset); wmove(msgw, i, 1); waddstr(msgw, buffer + offset); offset += numbytes + 1; i++; } free(buffer); if (title) qmsg_set_title(msg, title); } bool qmsg_drive(Qmsg* qm, int key) { (void)qm; switch (key) { case ' ': case 27: case '\r': case KEY_ENTER: return true; } return false; } Qmsg* qmsg_of(Qblock* qb) { return ORCA_CONTAINER_OF(qb, Qmsg, qblock); } Qmenu* qmenu_create(int id) { Qmenu* qm = (Qmenu*)malloc(sizeof(Qmenu)); qblock_init(&qm->qblock, Qblock_type_qmenu); qm->ncurses_menu = NULL; qm->ncurses_items = NULL; qm->items_count = 0; qm->items_cap = 0; qm->initial_item = NULL; qm->id = id; qm->has_submenu_item = 0; return qm; } void qmenu_destroy(Qmenu* qm) { qmenu_free(qm); } int qmenu_id(Qmenu const* qm) { return qm->id; } static ORCA_FORCE_NO_INLINE void qmenu_allocitems(Qmenu* qm, Usz count, Usz* out_idx, ITEM*** out_items, struct Qmenu_item_extra** out_extras) { Usz old_count = qm->items_count; // Add 1 for the extra null terminator guy Usz new_count = old_count + count + 1; Usz items_cap = qm->items_cap; ITEM** items = qm->ncurses_items; if (new_count > items_cap) { // todo overflow check, realloc fail check Usz old_cap = items_cap; Usz new_cap = new_count < 32 ? 32 : orca_round_up_power2(new_count); Usz new_size = new_cap * (sizeof(ITEM*) + sizeof(struct Qmenu_item_extra)); ITEM** new_items = (ITEM**)realloc(items, new_size); if (!new_items) exit(1); items = new_items; items_cap = new_cap; // Move old extras data to new position Usz old_extras_offset = sizeof(ITEM*) * old_cap; Usz new_extras_offset = sizeof(ITEM*) * new_cap; Usz old_extras_size = sizeof(struct Qmenu_item_extra) * old_count; memmove((char*)items + new_extras_offset, (char*)items + old_extras_offset, old_extras_size); qm->ncurses_items = new_items; qm->items_cap = new_cap; } // Not using new_count here in order to leave an extra 1 for the null // terminator as required by ncurses. qm->items_count = old_count + count; Usz extras_offset = sizeof(ITEM*) * items_cap; *out_idx = old_count; *out_items = items + old_count; *out_extras = (struct Qmenu_item_extra*)((char*)items + extras_offset) + old_count; } ORCA_FORCE_STATIC_INLINE struct Qmenu_item_extra* qmenu_item_extras_ptr(Qmenu* qm) { Usz offset = sizeof(ITEM*) * qm->items_cap; return (struct Qmenu_item_extra*)((char*)qm->ncurses_items + offset); } // Get the curses menu item user pointer out, turn it to an int, and use it as // an index into the 'extras' arrays. ORCA_FORCE_STATIC_INLINE struct Qmenu_item_extra* qmenu_itemextra(struct Qmenu_item_extra* extras, ITEM* item) { return extras + (int)(intptr_t)(item_userptr(item)); } void qmenu_set_title(Qmenu* qm, char const* title) { qblock_set_title(&qm->qblock, title); } void qmenu_add_choice(Qmenu* qm, int id, char const* text) { assert(id != 0); Usz idx; ITEM** items; struct Qmenu_item_extra* extras; qmenu_allocitems(qm, 1, &idx, &items, &extras); items[0] = new_item(text, NULL); set_item_userptr(items[0], (void*)(uintptr_t)idx); extras[0].user_id = id; extras[0].owns_string = false; extras[0].is_spacer = false; } void qmenu_add_submenu(Qmenu* qm, int id, char const* text) { assert(id != 0); qm->has_submenu_item = true; // don't add +1 right padding to subwindow Usz idx; ITEM** items; struct Qmenu_item_extra* extras; qmenu_allocitems(qm, 1, &idx, &items, &extras); items[0] = new_item(text, ">"); set_item_userptr(items[0], (void*)(uintptr_t)idx); extras[0].user_id = id; extras[0].owns_string = false; extras[0].is_spacer = false; } void qmenu_add_printf(Qmenu* qm, int id, char const* fmt, ...) { va_list ap; va_start(ap, fmt); int textsize = vsnprintf(NULL, 0, fmt, ap); va_end(ap); char* buffer = malloc((Usz)textsize + 1); if (!buffer) exit(1); va_start(ap, fmt); int printedsize = vsnprintf(buffer, (Usz)textsize + 1, fmt, ap); va_end(ap); if (printedsize != textsize) exit(1); // todo better handling? Usz idx; ITEM** items; struct Qmenu_item_extra* extras; qmenu_allocitems(qm, 1, &idx, &items, &extras); items[0] = new_item(buffer, NULL); set_item_userptr(items[0], (void*)(uintptr_t)idx); extras[0].user_id = id; extras[0].owns_string = true; extras[0].is_spacer = false; } void qmenu_add_spacer(Qmenu* qm) { Usz idx; ITEM** items; struct Qmenu_item_extra* extras; qmenu_allocitems(qm, 1, &idx, &items, &extras); items[0] = new_item(" ", NULL); item_opts_off(items[0], O_SELECTABLE); set_item_userptr(items[0], (void*)(uintptr_t)idx); extras[0].user_id = 0; extras[0].owns_string = false; extras[0].is_spacer = true; } void qmenu_set_current_item(Qmenu* qm, int id) { ITEM** items = qm->ncurses_items; struct Qmenu_item_extra* extras = qmenu_item_extras_ptr(qm); ITEM* found = NULL; for (Usz i = 0, n = qm->items_count; i < n; i++) { ITEM* item = items[i]; if (qmenu_itemextra(extras, item)->user_id == id) { found = item; break; } } if (!found) return; if (qm->ncurses_menu) { set_current_item(qm->ncurses_menu, found); } else { qm->initial_item = found; } } void qmenu_set_displayed_active(Qmenu* qm, bool active) { // Could add a flag in the Qmenu to avoid redundantly changing this stuff. set_menu_fore(qm->ncurses_menu, active ? A_BOLD : A_DIM); set_menu_back(qm->ncurses_menu, active ? A_NORMAL : A_DIM); set_menu_grey(qm->ncurses_menu, active ? A_DIM : A_DIM); } void qmenu_push_to_nav(Qmenu* qm) { // new_menu() will get angry if there are no items in the menu. We'll get a // null pointer back, and our code will get angry. Instead, just add an empty // spacer item. This will probably only ever occur as a programming error, // but we should try to avoid having to deal with qmenu_push_to_nav() // returning a non-ignorable error for now. if (qm->items_count == 0) qmenu_add_spacer(qm); // Allocating items always leaves an extra available item at the end. This is // so we can assign a NULL to it here, since ncurses requires the array to be // null terminated instead of using a count. qm->ncurses_items[qm->items_count] = NULL; qm->ncurses_menu = new_menu(qm->ncurses_items); set_menu_mark(qm->ncurses_menu, " > "); set_menu_fore(qm->ncurses_menu, A_BOLD); set_menu_grey(qm->ncurses_menu, A_DIM); int menu_min_h, menu_min_w; scale_menu(qm->ncurses_menu, &menu_min_h, &menu_min_w); if (!qm->has_submenu_item) menu_min_w += 1; // temp hack if (qm->qblock.title) { // Stupid lack of wcswidth() means we can't know how wide this string is // actually displayed. Just fake it for now, until we have Unicode strings // in the UI. Then we get sad. int title_w = (int)strlen(qm->qblock.title) + 2; if (title_w > menu_min_w) menu_min_w = title_w; } if (qm->initial_item) set_current_item(qm->ncurses_menu, qm->initial_item); qnav_stack_push(&qm->qblock, menu_min_h, menu_min_w); set_menu_win(qm->ncurses_menu, qm->qblock.outer_window); set_menu_sub(qm->ncurses_menu, qm->qblock.content_window); // TODO use this to set how "big" the menu is, visually, for scrolling. // (ncurses can't figure that out on its own, aparently...) // We'll need to split apart some work chunks so that we calculate the size // beforehand. // set_menu_format(qm->ncurses_menu, 5, 1); post_menu(qm->ncurses_menu); } void qmenu_free(Qmenu* qm) { unpost_menu(qm->ncurses_menu); free_menu(qm->ncurses_menu); struct Qmenu_item_extra* extras = qmenu_item_extras_ptr(qm); for (Usz i = 0; i < qm->items_count; ++i) { ITEM* item = qm->ncurses_items[i]; struct Qmenu_item_extra* extra = qmenu_itemextra(extras, item); char const* freed_str = NULL; if (extra->owns_string) freed_str = item_name(item); free_item(qm->ncurses_items[i]); if (freed_str) free((void*)freed_str); } free(qm->ncurses_items); free(qm); } ORCA_FORCE_NO_INLINE static void qmenu_drive_upordown(Qmenu* qm, int req_up_or_down) { struct Qmenu_item_extra* extras = qmenu_item_extras_ptr(qm); ITEM* starting = current_item(qm->ncurses_menu); menu_driver(qm->ncurses_menu, req_up_or_down); ITEM* cur = current_item(qm->ncurses_menu); for (;;) { if (!cur || cur == starting) break; if (!qmenu_itemextra(extras, cur)->is_spacer) break; ITEM* prev = cur; menu_driver(qm->ncurses_menu, req_up_or_down); cur = current_item(qm->ncurses_menu); if (cur == prev) break; } } bool qmenu_drive(Qmenu* qm, int key, Qmenu_action* out_action) { struct Qmenu_item_extra* extras = qmenu_item_extras_ptr(qm); switch (key) { case 27: { out_action->any.type = Qmenu_action_type_canceled; return true; } case ' ': case '\r': case KEY_ENTER: { ITEM* cur = current_item(qm->ncurses_menu); out_action->picked.type = Qmenu_action_type_picked; out_action->picked.id = cur ? qmenu_itemextra(extras, cur)->user_id : 0; return true; } break; case KEY_UP: qmenu_drive_upordown(qm, REQ_UP_ITEM); return false; case KEY_DOWN: qmenu_drive_upordown(qm, REQ_DOWN_ITEM); return false; } return false; } Qmenu* qmenu_of(Qblock* qb) { return ORCA_CONTAINER_OF(qb, Qmenu, qblock); } bool qmenu_top_is_menu(int id) { Qblock* qb = qnav_top_block(); if (!qb) return false; if (qb->tag != Qblock_type_qmenu) return false; Qmenu* qm = qmenu_of(qb); return qm->id == id; } Qform* qform_create(int id) { Qform* qf = (Qform*)malloc(sizeof(Qform)); qblock_init(&qf->qblock, Qblock_type_qform); qf->ncurses_form = NULL; qf->ncurses_fields[0] = NULL; qf->fields_count = 0; qf->id = id; return qf; } Qform* qform_of(Qblock* qb) { return ORCA_CONTAINER_OF(qb, Qform, qblock); } int qform_id(Qform const* qf) { return qf->id; } void qform_add_text_line(Qform* qf, int id, char const* initial) { FIELD* f = new_field(1, 30, 0, 0, 0, 0); set_field_buffer(f, 0, initial); set_field_userptr(f, (void*)(intptr_t)(id)); field_opts_off(f, O_WRAP | O_BLANK | O_STATIC); qf->ncurses_fields[qf->fields_count] = f; ++qf->fields_count; qf->ncurses_fields[qf->fields_count] = NULL; } void qform_push_to_nav(Qform* qf) { qf->ncurses_form = new_form(qf->ncurses_fields); int form_min_h, form_min_w; scale_form(qf->ncurses_form, &form_min_h, &form_min_w); qnav_stack_push(&qf->qblock, form_min_h, form_min_w); set_form_win(qf->ncurses_form, qf->qblock.outer_window); set_form_sub(qf->ncurses_form, qf->qblock.content_window); post_form(qf->ncurses_form); // quick'n'dirty cursor change for now curs_set(1); form_driver(qf->ncurses_form, REQ_END_LINE); } void qform_set_title(Qform* qf, char const* title) { qblock_set_title(&qf->qblock, title); } void qform_free(Qform* qf) { curs_set(0); unpost_form(qf->ncurses_form); free_form(qf->ncurses_form); for (Usz i = 0; i < qf->fields_count; ++i) { free_field(qf->ncurses_fields[i]); } free(qf); } bool qform_drive(Qform* qf, int key, Qform_action* out_action) { switch (key) { case 27: { out_action->any.type = Qform_action_type_canceled; return true; } case CTRL_PLUS('a'): form_driver(qf->ncurses_form, REQ_BEG_LINE); return false; case CTRL_PLUS('e'): form_driver(qf->ncurses_form, REQ_END_LINE); return false; case CTRL_PLUS('b'): form_driver(qf->ncurses_form, REQ_PREV_CHAR); return false; case CTRL_PLUS('f'): form_driver(qf->ncurses_form, REQ_NEXT_CHAR); return false; case CTRL_PLUS('k'): form_driver(qf->ncurses_form, REQ_CLR_EOL); return false; case KEY_RIGHT: form_driver(qf->ncurses_form, REQ_RIGHT_CHAR); return false; case KEY_LEFT: form_driver(qf->ncurses_form, REQ_LEFT_CHAR); return false; case 127: // backspace in terminal.app, apparently case KEY_BACKSPACE: case CTRL_PLUS('h'): form_driver(qf->ncurses_form, REQ_DEL_PREV); return false; case '\r': case KEY_ENTER: { out_action->any.type = Qform_action_type_submitted; return true; } break; default: form_driver(qf->ncurses_form, key); return false; } return false; } static Usz size_without_trailing_spaces(char const* str) { Usz size = strlen(str); for (;;) { if (size == 0) break; if (!isspace(str[size - 1])) break; --size; } return size; } FIELD* qform_find_field(Qform const* qf, int id) { Usz count = qf->fields_count; for (Usz i = 0; i < count; ++i) { FIELD* f = qf->ncurses_fields[i]; if ((int)(intptr_t)field_userptr(f) == id) return f; } return NULL; } bool qform_get_text_line(Qform const* qf, int id, Heapstr* out) { FIELD* f = qform_find_field(qf, id); if (!f) return false; form_driver(qf->ncurses_form, REQ_VALIDATION); char* buf = field_buffer(f, 0); if (!buf) return false; Usz trimmed = size_without_trailing_spaces(buf); heapstr_set_cstrlen(out, buf, trimmed); return true; }