/** Public terminal drawing API. Frontend for the screen image in memory. * @file */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "elinks.h" #include "bfu/dialog.h" #include "config/options.h" #include "intl/charsets.h" #include "terminal/color.h" #include "terminal/draw.h" #include "terminal/screen.h" #include "terminal/terminal.h" #include "util/color.h" #include "util/box.h" /** Makes sure that @a x and @a y are within the dimensions of the terminal. */ #define check_range(term, x, y) \ do { \ int_bounds(&(x), 0, (term)->width - 1); \ int_bounds(&(y), 0, (term)->height - 1); \ } while (0) #if SCREEN_COLOR_SIZE > 1 #define clear_screen_char_color(schar) \ do { memset((schar)->c.color, 0, SCREEN_COLOR_SIZE); (schar)->is_node = 0;} while (0) #else #define clear_screen_char_color(schar) \ do { (schar)->c.color[0] = 0; (schar)->is_node = 0; } while (0) #endif NONSTATIC_INLINE struct screen_char * get_char(struct terminal *term, int x, int y) { assert(term && term->screen && term->screen->image); if_assert_failed return NULL; check_range(term, x, y); return &term->screen->image[x + term->width * y]; } void draw_border_cross(struct terminal *term, int x, int y, enum border_cross_direction dir, struct color_pair *color) { static const unsigned char border_trans[2][4] = { /* Used for BORDER_X_{RIGHT,LEFT}: */ { BORDER_SVLINE, BORDER_SRTEE, BORDER_SLTEE }, /* Used for BORDER_X_{DOWN,UP}: */ { BORDER_SHLINE, BORDER_SDTEE, BORDER_SUTEE }, }; struct screen_char *screen_char = get_char(term, x, y); unsigned int d; if (!screen_char) return; if (!(screen_char->attr & SCREEN_ATTR_FRAME)) return; /* First check if there is already a horizontal/vertical line, so that * we will have to replace with a T char. Example: if there is a '|' * and the direction is right, replace with a '|-' T char. * * If this is not the case check if there is a T char and we are adding * the direction so that we end up with a cross. Example : if there is * a '|-' and the direction is left, replace with a '+' (cross) char. */ d = dir>>1; if (screen_char->data == border_trans[d][0]) { screen_char->data = border_trans[d][1 + (dir & 1)]; } else if (screen_char->data == border_trans[d][2 - (dir & 1)]) { screen_char->data = BORDER_SCROSS; } screen_char->is_node = 0; set_term_color(screen_char, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); } void draw_border_cross_node(struct terminal *term, int x, int y, enum border_cross_direction dir, unsigned int node_number) { static const unsigned char border_trans[2][4] = { /* Used for BORDER_X_{RIGHT,LEFT}: */ { BORDER_SVLINE, BORDER_SRTEE, BORDER_SLTEE }, /* Used for BORDER_X_{DOWN,UP}: */ { BORDER_SHLINE, BORDER_SDTEE, BORDER_SUTEE }, }; struct screen_char *screen_char = get_char(term, x, y); unsigned int d; if (!screen_char) return; if (!(screen_char->attr & SCREEN_ATTR_FRAME)) return; /* First check if there is already a horizontal/vertical line, so that * we will have to replace with a T char. Example: if there is a '|' * and the direction is right, replace with a '|-' T char. * * If this is not the case check if there is a T char and we are adding * the direction so that we end up with a cross. Example : if there is * a '|-' and the direction is left, replace with a '+' (cross) char. */ d = dir>>1; if (screen_char->data == border_trans[d][0]) { screen_char->data = border_trans[d][1 + (dir & 1)]; } else if (screen_char->data == border_trans[d][2 - (dir & 1)]) { screen_char->data = BORDER_SCROSS; } screen_char->c.node_number = node_number; screen_char->is_node = 1; } void draw_border_char(struct terminal *term, int x, int y, border_char_T border, struct color_pair *color) { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = (unsigned char) border; screen_char->attr = SCREEN_ATTR_FRAME; screen_char->is_node = 0; set_term_color(screen_char, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); set_screen_dirty(term->screen, y, y); } void draw_border_char_node(struct terminal *term, int x, int y, border_char_T border, unsigned int node_number) { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = (unsigned char) border; screen_char->attr = SCREEN_ATTR_FRAME; screen_char->c.node_number = node_number; screen_char->is_node = 1; set_screen_dirty(term->screen, y, y); } void draw_char_color(struct terminal *term, int x, int y, struct color_pair *color) { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; set_term_color(screen_char, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); screen_char->is_node = 0; set_screen_dirty(term->screen, y, y); } void draw_char_color_node(struct terminal *term, int x, int y, unsigned int node_number) { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->c.node_number = node_number; screen_char->is_node = 1; set_screen_dirty(term->screen, y, y); } /*! The @a data parameter here is like screen_char.data: UCS-4 if the * charset of the terminal is UTF-8 (possible only if CONFIG_UTF8 is * defined), and a byte otherwise. */ void #ifdef CONFIG_UTF8 draw_char_data(struct terminal *term, int x, int y, unicode_val_T data) #else draw_char_data(struct terminal *term, int x, int y, unsigned char data) #endif /* CONFIG_UTF8 */ { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = data; #ifdef CONFIG_UTF8 #ifdef CONFIG_DEBUG /* Detect attempt to draw double-width char on the last * column of terminal. The unicode_to_cell(data) call is * in principle wrong if CONFIG_UTF8 is defined but the * charset of the terminal is not UTF-8, because @data * is then a byte in that charset; but unicode_to_cell * returns 1 for U+0000...U+00FF so it's not a problem. */ if (unicode_to_cell(data) == 2 && x + 1 > term->width) INTERNAL("Attempt to draw double-width glyph on last column!"); #endif /* CONFIG_DEBUG */ if (data == UCS_NO_CHAR) screen_char->attr = 0; #endif /* CONFIG_UTF8 */ set_screen_dirty(term->screen, y, y); } void draw_space(struct terminal *term, int x, int y, struct screen_char *color) { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = ' '; if (color) { screen_char->c = color->c; screen_char->is_node = color->is_node; } } /*! Used by viewer to copy over a document. * When doing frame drawing @a x can be different than 0. */ void draw_line(struct terminal *term, int x, int y, int l, struct screen_char *line) { struct screen_char *screen_char = get_char(term, x, y); int size; assert(line); if_assert_failed return; if (!screen_char) return; size = int_min(l, term->width - x); if (size == 0) return; #ifdef CONFIG_UTF8 if (term->utf8_cp) { struct screen_char *sc; if (line[0].data == UCS_NO_CHAR && x == 0) { unicode_val_T data_save; sc = line; data_save = sc->data; sc->data = UCS_ORPHAN_CELL; copy_screen_chars(screen_char, line, 1); sc->data = data_save; size--; line++; screen_char++; } /* Instead of displaying double-width character at last column * display only UCS_ORPHAN_CELL. */ if (size - 1 > 0 && unicode_to_cell(line[size - 1].data) == 2) { unicode_val_T data_save; sc = &line[size - 1]; data_save = sc->data; sc->data = UCS_ORPHAN_CELL; copy_screen_chars(screen_char, line, size); sc->data = data_save; } else { copy_screen_chars(screen_char, line, size); } } else #endif copy_screen_chars(screen_char, line, size); set_screen_dirty(term->screen, y, y); } void draw_border(struct terminal *term, struct el_box *box, struct color_pair *color, int width) { static const border_char_T p1[] = { BORDER_SULCORNER, BORDER_SURCORNER, BORDER_SDLCORNER, BORDER_SDRCORNER, BORDER_SVLINE, BORDER_SHLINE, }; static const border_char_T p2[] = { BORDER_DULCORNER, BORDER_DURCORNER, BORDER_DDLCORNER, BORDER_DDRCORNER, BORDER_DVLINE, BORDER_DHLINE, }; const border_char_T *p = (width > 1) ? p2 : p1; struct el_box borderbox; set_box(&borderbox, box->x - 1, box->y - 1, box->width + 2, box->height + 2); if (borderbox.width > 2) { struct el_box bbox; /* Horizontal top border */ set_box(&bbox, box->x, borderbox.y, box->width, 1); draw_box(term, &bbox, p[5], SCREEN_ATTR_FRAME, color); /* Horizontal bottom border */ bbox.y += borderbox.height - 1; draw_box(term, &bbox, p[5], SCREEN_ATTR_FRAME, color); } if (borderbox.height > 2) { struct el_box bbox; /* Vertical left border */ set_box(&bbox, borderbox.x, box->y, 1, box->height); draw_box(term, &bbox, p[4], SCREEN_ATTR_FRAME, color); /* Vertical right border */ bbox.x += borderbox.width - 1; draw_box(term, &bbox, p[4], SCREEN_ATTR_FRAME, color); } if (borderbox.width > 1 && borderbox.height > 1) { int right = borderbox.x + borderbox.width - 1; int bottom = borderbox.y + borderbox.height - 1; /* Upper left corner */ draw_border_char(term, borderbox.x, borderbox.y, p[0], color); /* Upper right corner */ draw_border_char(term, right, borderbox.y, p[1], color); /* Lower left corner */ draw_border_char(term, borderbox.x, bottom, p[2], color); /* Lower right corner */ draw_border_char(term, right, bottom, p[3], color); } set_screen_dirty(term->screen, borderbox.y, borderbox.y + borderbox.height); } void draw_border_node(struct terminal *term, struct el_box *box, unsigned int node_number, int width) { static const border_char_T p1[] = { BORDER_SULCORNER, BORDER_SURCORNER, BORDER_SDLCORNER, BORDER_SDRCORNER, BORDER_SVLINE, BORDER_SHLINE, }; static const border_char_T p2[] = { BORDER_DULCORNER, BORDER_DURCORNER, BORDER_DDLCORNER, BORDER_DDRCORNER, BORDER_DVLINE, BORDER_DHLINE, }; const border_char_T *p = (width > 1) ? p2 : p1; struct el_box borderbox; set_box(&borderbox, box->x - 1, box->y - 1, box->width + 2, box->height + 2); if (borderbox.width > 2) { struct el_box bbox; /* Horizontal top border */ set_box(&bbox, box->x, borderbox.y, box->width, 1); draw_box_node(term, &bbox, p[5], SCREEN_ATTR_FRAME, node_number); /* Horizontal bottom border */ bbox.y += borderbox.height - 1; draw_box_node(term, &bbox, p[5], SCREEN_ATTR_FRAME, node_number); } if (borderbox.height > 2) { struct el_box bbox; /* Vertical left border */ set_box(&bbox, borderbox.x, box->y, 1, box->height); draw_box_node(term, &bbox, p[4], SCREEN_ATTR_FRAME, node_number); /* Vertical right border */ bbox.x += borderbox.width - 1; draw_box_node(term, &bbox, p[4], SCREEN_ATTR_FRAME, node_number); } if (borderbox.width > 1 && borderbox.height > 1) { int right = borderbox.x + borderbox.width - 1; int bottom = borderbox.y + borderbox.height - 1; /* Upper left corner */ draw_border_char_node(term, borderbox.x, borderbox.y, p[0], node_number); /* Upper right corner */ draw_border_char_node(term, right, borderbox.y, p[1], node_number); /* Lower left corner */ draw_border_char_node(term, borderbox.x, bottom, p[2], node_number); /* Lower right corner */ draw_border_char_node(term, right, bottom, p[3], node_number); } set_screen_dirty(term->screen, borderbox.y, borderbox.y + borderbox.height); } #ifdef CONFIG_UTF8 /** Checks cells left and right to the box for broken double-width chars. * Replace it with UCS_ORPHAN_CELL. * * @verbatim * 1+---+3 * 1|box|##4 * 1| |##4 * 1| |##4 * 1+---+##4 * 2#####4 * 1,2,3,4 - needs to be checked, # - shadow , +,-,| - border * @endverbatim */ void fix_dwchar_around_box(struct terminal *term, struct el_box *box, int border, int shadow_width, int shadow_height) { struct screen_char *schar; int height, x, y; if (!term->utf8_cp) return; /* 1 */ x = box->x - border - 1; if (x > 0) { y = box->y - border; height = box->height + 2 * border; schar = get_char(term, x, y); for (;height--; schar += term->width) if (unicode_to_cell(schar->data) == 2) schar->data = UCS_ORPHAN_CELL; } /* 2 */ x = box->x - border + shadow_width - 1; if (x > 0 && x < term->width) { y = box->y + border + box->height; height = shadow_height; schar = get_char(term, x, y); for (;height--; schar += term->width) if (unicode_to_cell(schar->data) == 2) schar->data = UCS_ORPHAN_CELL; } /* 3 */ x = box->x + box->width + border; if (x < term->width) { y = box->y - border; height = shadow_height; schar = get_char(term, x, y); for (;height--; schar += term->width) if (schar->data == UCS_NO_CHAR) schar->data = UCS_ORPHAN_CELL; } /* 4 */ x = box->x + box->width + border + shadow_width; if (x < term->width) { y = box->y - border + shadow_height; height = box->height + 2 * border; schar = get_char(term, x, y); for (;height--; schar += term->width) if (schar->data == UCS_NO_CHAR) schar->data = UCS_ORPHAN_CELL; } } #endif #ifdef CONFIG_UTF8 void draw_char(struct terminal *term, int x, int y, unicode_val_T data, int attr, struct color_pair *color) #else void draw_char(struct terminal *term, int x, int y, unsigned char data, int attr, struct color_pair *color) #endif /* CONFIG_UTF8 */ { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = data; screen_char->attr = attr; screen_char->is_node = 0; set_term_color(screen_char, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); set_screen_dirty(term->screen, y, y); } #ifdef CONFIG_UTF8 void draw_char_node(struct terminal *term, int x, int y, unicode_val_T data, int attr, unsigned int node_number) #else void draw_char_node(struct terminal *term, int x, int y, unsigned char data, int attr, unsigned int node_number) #endif /* CONFIG_UTF8 */ { struct screen_char *screen_char = get_char(term, x, y); if (!screen_char) return; screen_char->data = data; screen_char->attr = attr; screen_char->is_node = 1; screen_char->c.node_number = node_number; set_screen_dirty(term->screen, y, y); } void draw_box(struct terminal *term, struct el_box *box, unsigned char data, int attr, struct color_pair *color) { struct screen_char *line, *pos, *end; int width, height; line = get_char(term, box->x, box->y); if (!line) return; height = int_min(box->height, term->height - box->y); width = int_min(box->width, term->width - box->x); if (height <= 0 || width <= 0) return; /* Compose off the ending screen position in the areas first line. */ end = &line[width - 1]; end->attr = attr; end->data = data; if (color) { end->is_node = 0; set_term_color(end, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); } else { clear_screen_char_color(end); } /* Draw the first area line. */ for (pos = line; pos < end; pos++) { copy_screen_chars(pos, end, 1); } /* Now make @end point to the last line */ /* For the rest of the area use the first area line. */ pos = line; while (--height) { pos += term->width; copy_screen_chars(pos, line, width); } set_screen_dirty(term->screen, box->y, box->y + box->height); } #ifdef CONFIG_UTF8 void draw_box_node(struct terminal *term, struct el_box *box, unicode_val_T data, int attr, unsigned int node_number) #else void draw_box_node(struct terminal *term, struct el_box *box, unsigned char data, int attr, unsigned int node_number) #endif { struct screen_char *line, *pos, *end; int width, height; line = get_char(term, box->x, box->y); if (!line) return; height = int_min(box->height, term->height - box->y); width = int_min(box->width, term->width - box->x); if (height <= 0 || width <= 0) return; /* Compose off the ending screen position in the areas first line. */ end = &line[width - 1]; end->attr = attr; end->data = data; if (node_number) { end->is_node = 1; end->c.node_number = node_number; } else { clear_screen_char_color(end); } /* Draw the first area line. */ for (pos = line; pos < end; pos++) { copy_screen_chars(pos, end, 1); } /* Now make @end point to the last line */ /* For the rest of the area use the first area line. */ pos = line; while (--height) { pos += term->width; copy_screen_chars(pos, line, width); } set_screen_dirty(term->screen, box->y, box->y + box->height); } void draw_shadow(struct terminal *term, struct el_box *box, struct color_pair *color, int width, int height) { struct el_box dbox; /* (horizontal) */ set_box(&dbox, box->x + width, box->y + box->height, box->width - width, height); draw_box(term, &dbox, ' ', 0, color); /* (vertical) */ set_box(&dbox, box->x + box->width, box->y + height, width, box->height); draw_box(term, &dbox, ' ', 0, color); } void draw_shadow_node(struct terminal *term, struct el_box *box, unsigned int node_number, int width, int height) { struct el_box dbox; /* (horizontal) */ set_box(&dbox, box->x + width, box->y + box->height, box->width - width, height); draw_box_node(term, &dbox, ' ', 0, node_number); /* (vertical) */ set_box(&dbox, box->x + box->width, box->y + height, width, box->height); draw_box_node(term, &dbox, ' ', 0, node_number); } #ifdef CONFIG_UTF8 static void draw_text_utf8(struct terminal *term, int x, int y, const char *text2, int length, int attr, struct color_pair *color) { struct screen_char *start, *pos; char *text = (char *)text2; char *end = text + length; unicode_val_T data; assert(text && length >= 0); if_assert_failed return; if (length <= 0) return; if (x >= term->width) return; data = utf8_to_unicode(&text, end); if (data == UCS_NO_CHAR) return; start = get_char(term, x, y); if (color) { start->attr = attr; set_term_color(start, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); } if (start->data == UCS_NO_CHAR && x - 1 > 0) draw_char_data(term, x - 1, y, UCS_ORPHAN_CELL); pos = start; if (unicode_to_cell(data) == 2) { /* Is there enough room for whole double-width char? */ if (x + 1 < term->width) { pos->data = data; pos++; x++; pos->data = UCS_NO_CHAR; pos->attr = 0; } else { pos->data = UCS_ORPHAN_CELL; } } else { pos->data = data; } pos++; x++; for (; x < term->width; x++, pos++) { data = utf8_to_unicode(&text, end); if (data == UCS_NO_CHAR) break; if (color) copy_screen_chars(pos, start, 1); if (unicode_to_cell(data) == 2) { /* Is there enough room for whole double-width char? */ if (x + 1 < term->width) { pos->data = data; x++; pos++; pos->data = UCS_NO_CHAR; pos->attr = 0; } else { pos->data = UCS_ORPHAN_CELL; } } else { pos->data = data; } } set_screen_dirty(term->screen, y, y); } static void draw_text_utf8_node(struct terminal *term, int x, int y, const char *text2, int length, int attr, unsigned int node_number) { struct screen_char *start, *pos; char *text = (char *)text2; char *end = text + length; unicode_val_T data; assert(text && length >= 0); if_assert_failed return; if (length <= 0) return; if (x >= term->width) return; data = utf8_to_unicode(&text, end); if (data == UCS_NO_CHAR) return; start = get_char(term, x, y); if (node_number) { start->attr = attr; start->is_node = 1; start->c.node_number = node_number; } if (start->data == UCS_NO_CHAR && x - 1 > 0) draw_char_data(term, x - 1, y, UCS_ORPHAN_CELL); pos = start; if (unicode_to_cell(data) == 2) { /* Is there enough room for whole double-width char? */ if (x + 1 < term->width) { pos->data = data; pos++; x++; pos->data = UCS_NO_CHAR; pos->attr = 0; } else { pos->data = UCS_ORPHAN_CELL; } } else { pos->data = data; } pos++; x++; for (; x < term->width; x++, pos++) { data = utf8_to_unicode(&text, end); if (data == UCS_NO_CHAR) break; if (node_number) copy_screen_chars(pos, start, 1); if (unicode_to_cell(data) == 2) { /* Is there enough room for whole double-width char? */ if (x + 1 < term->width) { pos->data = data; x++; pos++; pos->data = UCS_NO_CHAR; pos->attr = 0; } else { pos->data = UCS_ORPHAN_CELL; } } else { pos->data = data; } } set_screen_dirty(term->screen, y, y); } #endif /* CONFIG_UTF8 */ void draw_text(struct terminal *term, int x, int y, const char *text, int length, int attr, struct color_pair *color) { int end_pos; struct screen_char *pos, *end; assert(text && length >= 0); if_assert_failed return; if (x >= term->width || y >= term->height) return; #ifdef CONFIG_UTF8 if (term->utf8_cp) { draw_text_utf8(term, x, y, text, length, attr, color); return; } #endif /* CONFIG_UTF8 */ if (length <= 0) return; pos = get_char(term, x, y); if (!pos) return; end_pos = int_min(length, term->width - x) - 1; #ifdef CONFIG_DEBUG /* Detect attempt to set @end to a point outside @text, * it may occur in case of bad calculations. --Zas */ if (end_pos < 0) { INTERNAL("end_pos < 0 !!"); end_pos = 0; } else { int textlen = strlen(text); if (end_pos >= textlen) { INTERNAL("end_pos (%d) >= text length (%d) !!", end_pos, textlen); end_pos = textlen - 1; } } #endif end = &pos[int_max(0, end_pos)]; if (color) { /* Use the last char as template. */ end->attr = attr; set_term_color(end, color, 0, get_opt_int_tree(term->spec, "colors", NULL)); for (; pos < end && *text; text++, pos++) { end->data = *text; copy_screen_chars(pos, end, 1); } end->data = *text; } else { for (; pos <= end && *text; text++, pos++) { pos->data = *text; } } set_screen_dirty(term->screen, y, y); } void draw_text_node(struct terminal *term, int x, int y, const char *text, int length, int attr, unsigned int node_number) { int end_pos; struct screen_char *pos, *end; assert(text && length >= 0); if_assert_failed return; if (x >= term->width || y >= term->height) return; #ifdef CONFIG_UTF8 if (term->utf8_cp) { draw_text_utf8_node(term, x, y, text, length, attr, node_number); return; } #endif /* CONFIG_UTF8 */ if (length <= 0) return; pos = get_char(term, x, y); if (!pos) return; end_pos = int_min(length, term->width - x) - 1; #ifdef CONFIG_DEBUG /* Detect attempt to set @end to a point outside @text, * it may occur in case of bad calculations. --Zas */ if (end_pos < 0) { INTERNAL("end_pos < 0 !!"); end_pos = 0; } else { int textlen = strlen(text); if (end_pos >= textlen) { INTERNAL("end_pos (%d) >= text length (%d) !!", end_pos, textlen); end_pos = textlen - 1; } } #endif end = &pos[int_max(0, end_pos)]; if (node_number) { /* Use the last char as template. */ end->attr = attr; end->is_node = 1; end->c.node_number = node_number; for (; pos < end && *text; text++, pos++) { end->data = *text; copy_screen_chars(pos, end, 1); } end->data = *text; } else { for (; pos <= end && *text; text++, pos++) { pos->data = *text; } } set_screen_dirty(term->screen, y, y); } void draw_dlg_text(struct dialog_data *dlg_data, int x, int y, const char *text, int length, int attr, struct color_pair *color) { struct terminal *term = dlg_data->win->term; struct el_box *box = &dlg_data->real_box; if (box->height) { int y_max = box->y + box->height; y -= dlg_data->y; if (y < box->y || y >= y_max) return; } draw_text(term, x, y, text, length, attr, color); } void draw_dlg_text_node(struct dialog_data *dlg_data, int x, int y, const char *text, int length, int attr, unsigned int node_number) { struct terminal *term = dlg_data->win->term; struct el_box *box = &dlg_data->real_box; if (box->height) { int y_max = box->y + box->height; y -= dlg_data->y; if (y < box->y || y >= y_max) return; } draw_text_node(term, x, y, text, length, attr, node_number); } void set_cursor(struct terminal *term, int x, int y, int blockable) { assert(term && term->screen); if_assert_failed return; if (blockable && get_opt_bool_tree(term->spec, "block_cursor", NULL)) { x = term->width - 1; y = term->height - 1; } if (term->screen->cx != x || term->screen->cy != y) { check_range(term, x, y); set_screen_dirty(term->screen, int_min(term->screen->cy, y), int_max(term->screen->cy, y)); term->screen->cx = x; term->screen->cy = y; } } void set_dlg_cursor(struct terminal *term, struct dialog_data *dlg_data, int x, int y, int blockable) { struct el_box *box = &dlg_data->real_box; assert(term && term->screen); if_assert_failed return; if (box->height) { int y_max = box->y + box->height; y -= dlg_data->y; if (y < box->y || y >= y_max) return; } set_cursor(term, x, y, blockable); } void clear_terminal(struct terminal *term) { struct el_box box; int bgchar = get_opt_int("ui.background_char", NULL); set_box(&box, 0, 0, term->width, term->height); #ifdef CONFIG_UTF8 draw_box_node(term, &box, bgchar, 0, get_bfu_color_node(term, "desktop")); #else draw_box_node(term, &box, (unsigned char)bgchar, 0, get_bfu_color_node(term, "desktop")); #endif set_cursor(term, 0, 0, 1); }