#include "tui.h" #include #include #include #include #include #include #include #include #include "ui/color.h" const int MAX_WIDTH = -1; const int MAX_HEIGHT = -1; const int MIN_WIDTH = -2; const int MIN_HEIGHT = -2; const int FRAME_UNLIMITED = 0; void _tui_clear_cells(TUI *tui) { const TERMINAL_CELL empty = {.c = ' ', .color = COLOR_NO_COLOR, .background_color = COLOR_NO_COLOR, .on_click_callback = NULL}; for (size_t i = 0; i < tui->cells_length; ++i) { tui->cells[i] = empty; } } void _tui_init_cells(TUI *tui) { tui->cells_length = tui_get_width(tui) * tui_get_height(tui); tui->cells = malloc(tui->cells_length * sizeof(TERMINAL_CELL)); _tui_clear_cells(tui); } void _tui_delete_cells(TUI *tui) { tui->cells_length = 0; free(tui->cells); tui->cells = NULL; } TUI *tui_init() { setbuf(stdout, NULL); TUI *tui = malloc(sizeof(TUI)); tui_get_cursor_pos(tui, &tui->init_cursor_x, &tui->init_cursor_y); // Save original serial communication configuration for stdin tcgetattr(STDIN_FILENO, &tui->original); // Put stdin in raw mode so keys get through directly without // requiring pressing enter. cfmakeraw(&tui->raw); tcsetattr(STDIN_FILENO, TCSANOW, &tui->raw); // Switch to the alternate buffer screen write(STDOUT_FILENO, "\e[?47h", 6); // Enable mouse tracking write(STDOUT_FILENO, "\e[?9h", 5); _tui_init_cells(tui); tui_refresh(tui); return tui; } void tui_delete(TUI *restrict tui) { // Revert the terminal back to its original state write(STDOUT_FILENO, "\e[?9l", 5); write(STDOUT_FILENO, "\e[?47l", 6); tcsetattr(STDIN_FILENO, TCSANOW, &tui->original); tui_move_to(tui->init_cursor_x, tui->init_cursor_y); _tui_delete_cells(tui); free(tui); } void tui_refresh(TUI *tui) { const int width = tui_get_width(tui); const int height = tui_get_height(tui); ioctl(STDOUT_FILENO, TIOCGWINSZ, &tui->size); if (width != tui_get_width(tui) || height != tui_get_height(tui)) { _tui_delete_cells(tui); _tui_init_cells(tui); } } int tui_get_width(TUI *tui) { return tui->size.ws_col; } int tui_get_height(TUI *tui) { return tui->size.ws_row; } int tui_clear_screen() { return printf("\033[2J\r"); } int tui_move_top(int n) { return printf("\033[%dA", n); } int tui_move_up(int n) { return printf("\033[%dB", n); } int tui_move_right(int n) { return printf("\033[%dC", n); } int tui_move_left(int n) { return printf("\033[%dD", n); } int tui_save_cursor() { return printf("\0337"); } int tui_restore_cursor() { return printf("\0338"); } void tui_get_cursor_pos(TUI *tui, int *x, int *y) { char buf[8]; char cmd[] = "\033[6n"; tcgetattr(0, &tui->raw); cfmakeraw(&tui->helper); tcsetattr(0, TCSANOW, &tui->helper); if (isatty(fileno(stdin))) { write(STDOUT_FILENO, cmd, sizeof(cmd)); read(STDIN_FILENO, buf, sizeof(buf)); sscanf(buf, "\033[%d;%dR", y, x); --*x; --*y; } tcsetattr(0, TCSANOW, &tui->raw); } int tui_move_to(int x, int y) { return printf("\033[%d;%dH", y + 1, x + 1); } int tui_delete_before() { return printf("\b \b"); } int tui_delete_under_cursor() { return printf(" \b"); } int _tui_get_cell_index(TUI *tui, int x, int y) { const int width = tui_get_width(tui); return x + width * y; } void _tui_set_cell_char(TUI *tui, int x, int y, char c) { tui->cells[_tui_get_cell_index(tui, x, y)].c = c; } void _tui_set_cell_color(TUI *tui, int x, int y, COLOR color) { if (color_equals(color, COLOR_NO_COLOR)) { return; } tui->cells[_tui_get_cell_index(tui, x, y)].color = color; } void _tui_set_cell_background_color(TUI *tui, int x, int y, COLOR background_color) { if (color_equals(background_color, COLOR_NO_COLOR)) { return; } tui->cells[_tui_get_cell_index(tui, x, y)].background_color = background_color; } void _tui_set_cell_background_color_if_not_set(TUI *tui, int x, int y, COLOR background_color) { if (color_equals(background_color, COLOR_NO_COLOR)) { return; } TERMINAL_CELL *cell = &tui->cells[_tui_get_cell_index(tui, x, y)]; if (color_equals(cell->background_color, COLOR_NO_COLOR)) { cell->background_color = background_color; } } void _tui_set_cell_on_click_callback(TUI *tui, int x, int y, ON_CLICK_CALLBACK on_click_callback) { tui->cells[_tui_get_cell_index(tui, x, y)].on_click_callback = on_click_callback; } void tui_handle_mouse_action(TUI *tui, const MOUSE_ACTION *mouse_action) { const ON_CLICK_CALLBACK callback = tui->cells[_tui_get_cell_index(tui, mouse_action->x, mouse_action->y)] .on_click_callback; if (callback != NULL) { callback(mouse_action); } } /* int tui_change_terminal_text_color(COLOR color) { if (color_equals(color, COLOR_NO_COLOR)) { return 0; } else if (color == COLOR_RESET) { return printf("\033[%dm", COLOR_RESET); } return printf("\033[%dm", color + 30); } int tui_change_terminal_background_color(COLOR color) { if (color == COLOR_NO_COLOR) { return 0; } else if (color == COLOR_RESET) { return printf("\033[%dm", COLOR_RESET); } return printf("\033[%dm", color + 40); } */ bool handle_input(TUI *tui) { unsigned char buff[6]; read(STDIN_FILENO, &buff, 1); if (buff[0] == 3) { // User pressd Ctr+C return true; } else if (buff[0] == '\x1B') { // [ESCAPE] // TODO: fix for inputting actual read(STDIN_FILENO, &buff, 5); switch (buff[1]) { case 77: { const MOUSE_ACTION mouse_action = { .button = buff[2], .x = buff[3] - 32 - 1, // starts at 0 .y = buff[4] - 32 - 1, // starts at 0 }; tui_handle_mouse_action(tui, &mouse_action); /*printf("button:%u\n\rx:%u\n\ry:%u\n\n\r", mouse_action.button,*/ /* mouse_action.x, mouse_action.y);*/ } break; } } else { switch (buff[0]) { case 'h': tui_move_left(1); break; case 'j': tui_move_up(1); break; case 'k': tui_move_top(1); break; case 'l': tui_move_right(1); break; case 'q': return true; case '\r': { // int x, y; tui_get_cursor_pos(tui, &x, &y); const MOUSE_ACTION mouse_action = { .button = MOUSE_BUTTON_LEFT_CLICK, .x = x, .y = y, }; tui_handle_mouse_action(tui, &mouse_action); } break; case '\b': case 127: // back space tui_delete_before(); break; default: /*printf("unknown:%c,%d\n\r", buff[0], buff[0]);*/ /*sleep(1);*/ break; } } return false; } void tui_start_app(TUI *tui, WIDGET_BUILDER widget_builder, int fps) { tui_main_loop(tui, widget_builder, fps); } void _tui_draw_widget_to_cells(TUI *tui, const WIDGET *widget, int width_begin, int width_end, int height_begin, int height_end, int *child_width, int *child_height) { switch (widget->type) { case WIDGET_TYPE_TEXT: { const TEXT_METADATA *metadata = widget->metadata; const int width_diff = width_end - width_begin; const size_t text_len = strlen(metadata->text); size_t inserted_index = 0; int height = height_begin; int max_width = width_begin; for (; height < height_end; ++height) { for (int j = 0; j < width_diff; ++j) { START_OF_HORIZONTAL_LOOP: if (inserted_index < text_len) { const int x = width_begin + j; const int y = height; const char c = metadata->text[inserted_index]; inserted_index += 1; if (c == '\n') { // do for other spaces height += 1; j = 0; goto START_OF_HORIZONTAL_LOOP; } else { if (max_width < x) { max_width = x; } _tui_set_cell_color(tui, x, y, metadata->color); _tui_set_cell_char(tui, x, y, c); } } else { goto END_OF_TEXT; } } } END_OF_TEXT: *child_height = height + 1; *child_width = max_width + 1; } return; case WIDGET_TYPE_BUTTON: { const BUTTON_METADATA *metadata = widget->metadata; if (metadata->child != NULL) { _tui_draw_widget_to_cells(tui, metadata->child, width_begin, width_end, height_begin, height_end, child_width, child_height); for (int i = width_begin; i < *child_width; ++i) { for (int j = height_begin; j < *child_height; ++j) { _tui_set_cell_on_click_callback(tui, i, j, metadata->callback); } } } } return; case WIDGET_TYPE_COLUMN: { const COLUMN_METADATA *metadata = widget->metadata; *child_width = width_begin; *child_height = height_begin; for (size_t i = 0; i < metadata->children->size; ++i) { const WIDGET *child = metadata->children->widgets[i]; int width_temp; _tui_draw_widget_to_cells(tui, child, width_begin, width_end, *child_height, height_end, &width_temp, child_height); if (width_temp > *child_width) { *child_width = width_temp; } } } return; case WIDGET_TYPE_ROW: { const ROW_METADATA *metadata = widget->metadata; int remaining_width = width_end - width_begin; int inf_num = 0; for (size_t i = 0; i < metadata->children->size; ++i) { const WIDGET *child = metadata->children->widgets[i]; if (_tui_is_max_width(child)) { inf_num += 1; } else { int temp_width, temp_height; _tui_get_widget_size(child, width_begin, width_end, height_begin, height_end, &temp_width, &temp_height); remaining_width -= temp_width - width_begin; } } *child_width = width_begin; *child_height = height_begin; for (size_t i = 0; i < metadata->children->size; ++i) { const WIDGET *child = metadata->children->widgets[i]; int current_width_end; if (_tui_is_max_width(child)) { current_width_end = *child_width + remaining_width / inf_num; } else { current_width_end = width_end; } int height_temp; _tui_draw_widget_to_cells(tui, child, *child_width, current_width_end, height_begin, height_end, child_width, &height_temp); if (height_temp > *child_height) { *child_height = height_temp; } } } return; case WIDGET_TYPE_BOX: { const BOX_METADATA *metadata = widget->metadata; if (metadata->width != MIN_WIDTH && metadata->width != MAX_WIDTH) { width_end = metadata->width + width_begin >= width_end ? width_end : metadata->width + width_begin; } if (metadata->height != MIN_HEIGHT && metadata->height != MAX_HEIGHT) { height_end = metadata->height + height_begin >= height_end ? height_end : metadata->height + height_begin; } if (metadata->child != NULL) { int temp_width, temp_height; _tui_draw_widget_to_cells(tui, metadata->child, width_begin, width_end, height_begin, height_end, &temp_width, &temp_height); if (metadata->width == MIN_WIDTH) { width_end = temp_width; } if (metadata->height == MIN_HEIGHT) { height_end = temp_height; } } for (int y = height_begin; y < height_end; ++y) { for (int x = width_begin; x < width_end; ++x) { _tui_set_cell_background_color_if_not_set(tui, x, y, metadata->color); } } *child_width = width_end; *child_height = height_end; } return; case WIDGET_TYPE_CENTER: { const CENTER_METADATA *metadata = widget->metadata; if (metadata != NULL) { _tui_get_widget_size(metadata, width_begin, width_end, height_begin, height_end, child_width, child_height); const int horizontalPadding = width_end - *child_width; const int verticalPadding = height_end - *child_height; const int leftPadding = horizontalPadding / 2; const int rightPadding = horizontalPadding - leftPadding; const int bottomPadding = verticalPadding / 2; const int topPadding = verticalPadding - bottomPadding; _tui_draw_widget_to_cells( tui, metadata, width_begin + leftPadding, width_end - rightPadding, height_begin + topPadding, height_end - bottomPadding, child_width, child_height); } } return; case WIDGET_TYPE_PADDING: { const PADDING_METADATA *metadata = widget->metadata; if (metadata != NULL) { _tui_draw_widget_to_cells( tui, metadata->child, width_begin + metadata->padding_left, width_end - metadata->padding_right, height_begin + metadata->padding_top, height_end - metadata->padding_bottom, child_width, child_height); } } return; } fprintf(stderr, "widget type '%d' went wrong in %s %d\n", widget->type, __FILE_NAME__, __LINE__); exit(1); } void _tui_get_widget_size(const WIDGET *widget, int width_begin, int width_end, int height_begin, int height_end, int *widget_width, int *widget_height) { switch (widget->type) { case WIDGET_TYPE_TEXT: { const TEXT_METADATA *metadata = widget->metadata; const int width_diff = width_end - width_begin; const size_t text_len = strlen(metadata->text); size_t inserted_index = 0; int height = height_begin; int max_width = width_begin; for (; height < height_end; ++height) { for (int j = 0; j < width_diff; ++j) { START_OF_HORIZONTAL_LOOP: if (inserted_index < text_len) { const int x = width_begin + j; const char c = metadata->text[inserted_index]; inserted_index += 1; if (c == '\n') { // do for other spaces height += 1; j = 0; goto START_OF_HORIZONTAL_LOOP; } else { if (max_width < x) { max_width = x; } } } else { goto END_OF_TEXT; } } } END_OF_TEXT: *widget_height = height + 1; *widget_width = max_width + 1; } return; case WIDGET_TYPE_BUTTON: { const BUTTON_METADATA *metadata = widget->metadata; if (metadata->child != NULL) { _tui_get_widget_size(metadata->child, width_begin, width_end, height_begin, height_end, widget_width, widget_height); } } return; case WIDGET_TYPE_COLUMN: { const COLUMN_METADATA *metadata = widget->metadata; *widget_width = width_begin; *widget_height = height_begin; for (size_t i = 0; i < metadata->children->size; ++i) { const WIDGET *child = metadata->children->widgets[i]; int width_temp; _tui_get_widget_size(child, width_begin, width_end, *widget_height, height_end, &width_temp, widget_height); if (width_temp > *widget_width) { *widget_width = width_temp; } } } return; case WIDGET_TYPE_ROW: { const ROW_METADATA *metadata = widget->metadata; *widget_width = width_begin; *widget_height = height_begin; for (size_t i = 0; i < metadata->children->size; ++i) { const WIDGET *child = metadata->children->widgets[i]; int height_temp; _tui_get_widget_size(child, *widget_width, width_end, height_begin, height_end, widget_width, &height_temp); if (height_temp > *widget_height) { *widget_height = height_temp; } } } return; case WIDGET_TYPE_BOX: { const BOX_METADATA *metadata = widget->metadata; if (metadata->width != MIN_WIDTH && metadata->width != MAX_WIDTH) { width_end = metadata->width + width_begin >= width_end ? width_end : metadata->width + width_begin; } if (metadata->height != MIN_HEIGHT && metadata->height != MAX_HEIGHT) { height_end = metadata->height + height_begin >= height_end ? height_end : metadata->height + height_begin; } if (metadata->child != NULL) { int temp_width, temp_height; _tui_get_widget_size(metadata->child, width_begin, width_end, height_begin, height_end, &temp_width, &temp_height); if (metadata->width == MIN_WIDTH) { width_end = temp_width; } if (metadata->height == MIN_HEIGHT) { height_end = temp_height; } } *widget_width = width_end; *widget_height = height_end; } return; case WIDGET_TYPE_CENTER: { const CENTER_METADATA *metadata = widget->metadata; if (metadata != NULL) { _tui_get_widget_size(metadata, width_begin, width_end, height_begin, height_end, widget_width, widget_height); } } return; case WIDGET_TYPE_PADDING: const PADDING_METADATA *metadata = widget->metadata; if (metadata != NULL) { _tui_get_widget_size(metadata->child, width_begin, width_end, height_begin, height_end, widget_width, widget_height); *widget_width += metadata->padding_left + metadata->padding_right; *widget_height += metadata->padding_top + metadata->padding_bottom; if (*widget_width > width_end) { *widget_width = width_end; } if (*widget_height > height_end) { *widget_height = height_end; } } } fprintf(stderr, "widget type '%d' went wrong in %s %d", widget->type, __FILE_NAME__, __LINE__); exit(1); } bool _tui_is_max_width(const WIDGET *widget) { if (widget == NULL) { return false; } switch (widget->type) { case WIDGET_TYPE_TEXT: return false; case WIDGET_TYPE_BUTTON: return _tui_is_max_width(((BUTTON_METADATA *)widget->metadata)->child); case WIDGET_TYPE_COLUMN: { const WIDGET_ARRAY *children = ((COLUMN_METADATA *)widget->metadata)->children; for (size_t i = 0; i < children->size; ++i) { if (!_tui_is_max_width(children->widgets[i])) { return true; } } return false; } case WIDGET_TYPE_ROW: { const WIDGET_ARRAY *children = ((ROW_METADATA *)widget->metadata)->children; for (size_t i = 0; i < children->size; ++i) { if (_tui_is_max_width(children->widgets[i])) { return true; } } return false; } case WIDGET_TYPE_BOX: { const BOX_METADATA *metadata = widget->metadata; if (metadata->width == MAX_WIDTH) { return true; } else if (metadata->width == MIN_WIDTH) { return _tui_is_max_width(metadata->child); } else { return false; } } case WIDGET_TYPE_CENTER: return _tui_is_max_width((CENTER_METADATA *)widget->metadata); case WIDGET_TYPE_PADDING: return _tui_is_max_width(((PADDING_METADATA *)widget->metadata)->child); } fprintf(stderr, "widget type '%d' went wrong in %s %d\n", widget->type, __FILE_NAME__, __LINE__); exit(1); } void _tui_move_to_start_in_str(char *str) { strcpy(str, "\033[;H"); } /* int _tui_get_background_color_ascii(COLOR color) { if (color_equals(color, COLOR_NO_COLOR)) { return 0; } else if (color == COLOR_RESET) { return printf("\033[%dm", COLOR_RESET); } return printf("\033[%dm", color + 40); } */ void _tui_draw_cells_to_terminal(TUI *tui) { const size_t size_of_cell = 5 + 5 + sizeof(char) + 5; const size_t size = tui->cells_length * size_of_cell; char str[(size + 2) * sizeof(char) + 1]; _tui_move_to_start_in_str(str); char cell_str[20]; COLOR last_color = COLOR_NO_COLOR; COLOR last_background_color = COLOR_NO_COLOR; for (size_t i = 0; i < tui->cells_length; ++i) { const TERMINAL_CELL cell = tui->cells[i]; if (color_not_equals(last_color, cell.color) || color_not_equals(last_background_color, cell.background_color)) { sprintf(cell_str, "\033[0m"); strcat(str, cell_str); last_color = cell.color; last_background_color = cell.background_color; if (color_not_equals(cell.color, COLOR_NO_COLOR)) { sprintf(cell_str, "\033[38;2;%d;%d;%dm", cell.color.r, cell.color.g, cell.color.b); } strcat(str, cell_str); if (color_not_equals(cell.background_color, COLOR_NO_COLOR)) { sprintf(cell_str, "\033[48;2;%d;%d;%dm", cell.background_color.r, cell.background_color.g, cell.background_color.b); } strcat(str, cell_str); } strncat(str, &cell.c, 1); } const int len = strlen(str); write(STDOUT_FILENO, str, len); } int kbhit() { struct timeval tv = {0L, 0L}; fd_set fds; FD_ZERO(&fds); FD_SET(0, &fds); return select(1, &fds, NULL, NULL, &tv) > 0; } bool tui_widget_array_eqauls(const WIDGET_ARRAY *restrict left, const WIDGET_ARRAY *restrict right) { if (left->size != right->size) { return false; } for (size_t i = 0; i < left->size; ++i) { if (!tui_widget_eqauls(left->widgets[i], right->widgets[i])) { return false; } } return true; } bool tui_widget_eqauls(const WIDGET *restrict left, const WIDGET *restrict right) { if (left == NULL || right == NULL) { return left == NULL && right == NULL; } if (left->type != right->type) { return false; } switch (left->type) { case WIDGET_TYPE_TEXT: { const TEXT_METADATA *left_data = left->metadata; const TEXT_METADATA *right_data = right->metadata; return color_equals(left_data->color, right_data->color) && strcmp(left_data->text, right_data->text) == 0; } case WIDGET_TYPE_BUTTON: { const BUTTON_METADATA *left_data = left->metadata; const BUTTON_METADATA *right_data = right->metadata; return left_data->callback == right_data->callback && tui_widget_eqauls(left_data->child, right_data->child); } case WIDGET_TYPE_COLUMN: { const COLUMN_METADATA *left_data = left->metadata; const COLUMN_METADATA *right_data = right->metadata; return tui_widget_array_eqauls(left_data->children, right_data->children); } case WIDGET_TYPE_ROW: { const ROW_METADATA *left_data = left->metadata; const ROW_METADATA *right_data = right->metadata; return tui_widget_array_eqauls(left_data->children, right_data->children); } case WIDGET_TYPE_BOX: { const BOX_METADATA *left_data = left->metadata; const BOX_METADATA *right_data = right->metadata; return left_data->width == right_data->width && left_data->height == right_data->height && color_equals(left_data->color, right_data->color) && tui_widget_eqauls(left_data->child, right_data->child); } case WIDGET_TYPE_CENTER: { const CENTER_METADATA *left_data = left->metadata; const CENTER_METADATA *right_data = right->metadata; return tui_widget_eqauls(left_data, right_data); } case WIDGET_TYPE_PADDING: { const PADDING_METADATA *left_data = left->metadata; const PADDING_METADATA *right_data = right->metadata; return tui_widget_eqauls(left_data->child, right_data->child) && left_data->padding_top == right_data->padding_top && left_data->padding_bottom == right_data->padding_bottom && left_data->padding_left == right_data->padding_left && left_data->padding_right == right_data->padding_right; } } fprintf(stderr, "Type error '%d' in %s %d\n", left->type, __FILE__, __LINE__); exit(1); } const int NANO_TO_SECOND = 1000000000; int64_t nano_sleep(long int nano_seconds) { struct timespec remaining, request = {nano_seconds / NANO_TO_SECOND, nano_seconds % NANO_TO_SECOND}; nanosleep(&request, &remaining); return remaining.tv_sec * NANO_TO_SECOND + remaining.tv_nsec; } long int nano_time() { struct timespec t = {0, 0}; clock_gettime(CLOCK_MONOTONIC, &t); return t.tv_sec * NANO_TO_SECOND + t.tv_nsec; } void tui_main_loop(TUI *tui, WIDGET_BUILDER widget_builder, int fps) { const long int frame_nano = (fps == FRAME_UNLIMITED) ? 0 : NANO_TO_SECOND / fps; int64_t last_remaining = 0; while (1) { const long int start = nano_time(); tui_save_cursor(); tui_refresh(tui); WIDGET *root_widget = widget_builder(tui); _tui_clear_cells(tui); int width, height; _tui_draw_widget_to_cells(tui, root_widget, 0, tui_get_width(tui), 0, tui_get_height(tui), &width, &height); _tui_draw_cells_to_terminal(tui); tui_delete_widget(root_widget); /*tui_move_to(0, 0);*/ /*printf("%ld\t%ld", last_frame_time, frame_nano);*/ tui_restore_cursor(); if (fps != FRAME_UNLIMITED) { const long int diff = nano_time() - start; last_remaining = nano_sleep(frame_nano - diff + last_remaining); } tui->last_frame = nano_time() - start; if (kbhit()) { if (handle_input(tui)) { return; } } } } WIDGET *tui_new_widget(WIDGET_TYPE type, void *metadata) { WIDGET *widget = malloc(sizeof(WIDGET)); widget->type = type; widget->metadata = metadata; return widget; } void tui_delete_widget(WIDGET *restrict widget) { if (widget == NULL) { return; } switch (widget->type) { case WIDGET_TYPE_TEXT: _tui_delete_text(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_BUTTON: _tui_delete_button(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_COLUMN: _tui_delete_column(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_ROW: _tui_delete_row(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_BOX: _tui_delete_box(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_CENTER: _tui_delete_center(widget); goto RETURN_SUCCESS; case WIDGET_TYPE_PADDING: _tui_delete_padding(widget); goto RETURN_SUCCESS; } fprintf(stderr, "Type error '%d' in %s %d\n", widget->type, __FILE__, __LINE__); exit(1); RETURN_SUCCESS: free(widget); } WIDGET *tui_make_text(char *restrict text, COLOR color) { return tui_new_widget(WIDGET_TYPE_TEXT, _tui_make_text_metadata(text, color)); } TEXT_METADATA *_tui_make_text_metadata(char *restrict text, COLOR color) { TEXT_METADATA *metadata = malloc(sizeof(TEXT_METADATA)); metadata->text = malloc(strlen(text) + 1); strcpy(metadata->text, text); metadata->color = color; return metadata; } void _tui_delete_text(WIDGET *restrict text) { free(((TEXT_METADATA *)text->metadata)->text); free(text->metadata); } WIDGET *tui_make_button(WIDGET *restrict child, ON_CLICK_CALLBACK callback) { return tui_new_widget(WIDGET_TYPE_BUTTON, _tui_make_button_metadata(child, callback)); } BUTTON_METADATA *_tui_make_button_metadata(WIDGET *restrict child, ON_CLICK_CALLBACK callback) { BUTTON_METADATA *metadata = malloc(sizeof(BUTTON_METADATA)); metadata->child = child; metadata->callback = callback; return metadata; } void _tui_delete_button(WIDGET *restrict button) { tui_delete_widget(((BUTTON_METADATA *)button->metadata)->child); free(button->metadata); } WIDGET *tui_make_column(WIDGET_ARRAY *restrict children) { return tui_new_widget(WIDGET_TYPE_COLUMN, _tui_make_column_metadata(children)); } COLUMN_METADATA *_tui_make_column_metadata(WIDGET_ARRAY *restrict children) { COLUMN_METADATA *metadata = malloc(sizeof(COLUMN_METADATA)); metadata->children = children; return metadata; } void _tui_delete_column(WIDGET *restrict column) { COLUMN_METADATA *metadata = column->metadata; _tui_delete_widget_array(metadata->children); free(column->metadata); } WIDGET *tui_make_row(WIDGET_ARRAY *restrict children) { return tui_new_widget(WIDGET_TYPE_ROW, _tui_make_row_metadata(children)); } ROW_METADATA *_tui_make_row_metadata(WIDGET_ARRAY *restrict children) { ROW_METADATA *metadata = malloc(sizeof(ROW_METADATA)); metadata->children = children; return metadata; } void _tui_delete_row(WIDGET *restrict row) { ROW_METADATA *metadata = row->metadata; _tui_delete_widget_array(metadata->children); free(row->metadata); } WIDGET *tui_make_box(int width, int height, WIDGET *restrict child, COLOR color) { return tui_new_widget(WIDGET_TYPE_BOX, _tui_make_box_metadata(child, width, height, color)); } BOX_METADATA *_tui_make_box_metadata(WIDGET *restrict child, int width, int height, COLOR color) { BOX_METADATA *metadata = malloc(sizeof(BOX_METADATA)); metadata->width = width; metadata->height = height; metadata->child = child; metadata->color = color; return metadata; } void _tui_delete_box(WIDGET *box) { tui_delete_widget(((BOX_METADATA *)box->metadata)->child); free(box->metadata); } WIDGET *tui_make_center(WIDGET *restrict child) { return tui_new_widget(WIDGET_TYPE_CENTER, _tui_make_center_metadata(child)); } CENTER_METADATA *_tui_make_center_metadata(WIDGET *restrict child) { return child; } void _tui_delete_center(WIDGET *restrict center) { tui_delete_widget(center->metadata); } WIDGET *tui_make_padding(WIDGET *restrict child, int padding_top, int padding_bottom, int padding_left, int padding_right) { return tui_new_widget( WIDGET_TYPE_PADDING, _tui_make_padding_metadata(child, padding_top, padding_bottom, padding_left, padding_right)); } PADDING_METADATA *_tui_make_padding_metadata(WIDGET *restrict child, int padding_top, int padding_bottom, int padding_left, int padding_right) { PADDING_METADATA *metadata = malloc(sizeof(*metadata)); metadata->child = child; metadata->padding_top = padding_top; metadata->padding_bottom = padding_bottom; metadata->padding_left = padding_left; metadata->padding_right = padding_right; return metadata; } void _tui_delete_padding(WIDGET *restrict padding) { tui_delete_widget(((PADDING_METADATA *)padding->metadata)->child); free(padding->metadata); } WIDGET_ARRAY *tui_make_widget_array_raw(size_t size, ...) { va_list arg_pointer; va_start(arg_pointer, size); WIDGET **widgets = malloc(size * sizeof(WIDGET **)); for (size_t i = 0; i < size; ++i) { widgets[i] = va_arg(arg_pointer, WIDGET *); } va_end(arg_pointer); WIDGET_ARRAY *widget_array = malloc(sizeof(WIDGET_ARRAY)); widget_array->widgets = widgets; widget_array->size = size; return widget_array; } void _tui_delete_widget_array(WIDGET_ARRAY *restrict widget_array) { for (size_t i = 0; i < widget_array->size; ++i) { tui_delete_widget(widget_array->widgets[i]); } free(widget_array->widgets); free(widget_array); }