scripts/kconfig/menu.c - pub/scm/linux/kernel/git/jesper/cris - Git at Google

 /*
  * Copyright (C) 2002 Roman Zippel <zippel@linux-m68k.org>
  * Released under the terms of the GNU GPL v2.0.
  */

 #include <ctype.h>
 #include <stdarg.h>
 #include <stdlib.h>
 #include <string.h>

 #include "lkc.h"

 static const char nohelp_text[] = "There is no help available for this option.";

 struct menu rootmenu;
 static struct menu **last_entry_ptr;

 struct file *file_list;
 struct file *current_file;

 void menu_warn(struct menu *menu, const char *fmt, ...)
 {
 	va_list ap;
 	va_start(ap, fmt);
 	fprintf(stderr, "%s:%d:warning: ", menu->file->name, menu->lineno);
 	vfprintf(stderr, fmt, ap);
 	fprintf(stderr, "\n");
 	va_end(ap);
 }

 static void prop_warn(struct property *prop, const char *fmt, ...)
 {
 	va_list ap;
 	va_start(ap, fmt);
 	fprintf(stderr, "%s:%d:warning: ", prop->file->name, prop->lineno);
 	vfprintf(stderr, fmt, ap);
 	fprintf(stderr, "\n");
 	va_end(ap);
 }

 void _menu_init(void)
 {
 	current_entry = current_menu = &rootmenu;
 	last_entry_ptr = &rootmenu.list;
 }

 void menu_add_entry(struct symbol *sym)
 {
 	struct menu *menu;

 	menu = xmalloc(sizeof(*menu));
 	memset(menu, 0, sizeof(*menu));
 	menu->sym = sym;
 	menu->parent = current_menu;
 	menu->file = current_file;
 	menu->lineno = zconf_lineno();

 	*last_entry_ptr = menu;
 	last_entry_ptr = &menu->next;
 	current_entry = menu;
 	if (sym)
 		menu_add_symbol(P_SYMBOL, sym, NULL);
 }

 struct menu *menu_add_menu(void)
 {
 	last_entry_ptr = &current_entry->list;
 	return current_menu = current_entry;
 }

 void menu_end_menu(void)
 {
 	last_entry_ptr = &current_menu->next;
 	current_menu = current_menu->parent;
 }

 /*
  * Rewrites 'm' to 'm' && MODULES, so that it evaluates to 'n' when running
  * without modules
  */
 static struct expr *rewrite_m(struct expr *e)
 {
 	if (!e)
 		return e;

 	switch (e->type) {
 	case E_NOT:
 		e->left.expr = rewrite_m(e->left.expr);
 		break;
 	case E_OR:
 	case E_AND:
 		e->left.expr = rewrite_m(e->left.expr);
 		e->right.expr = rewrite_m(e->right.expr);
 		break;
 	case E_SYMBOL:
 		/* change 'm' into 'm' && MODULES */
 		if (e->left.sym == &symbol_mod)
 			return expr_alloc_and(e, expr_alloc_symbol(modules_sym));
 		break;
 	default:
 		break;
 	}
 	return e;
 }

 void menu_add_dep(struct expr *dep)
 {
 	current_entry->dep = expr_alloc_and(current_entry->dep, dep);
 }

 void menu_set_type(int type)
 {
 	struct symbol *sym = current_entry->sym;

 	if (sym->type == type)
 		return;
 	if (sym->type == S_UNKNOWN) {
 		sym->type = type;
 		return;
 	}
 	menu_warn(current_entry,
 		"ignoring type redefinition of '%s' from '%s' to '%s'",
 		sym->name ? sym->name : "<choice>",
 		sym_type_name(sym->type), sym_type_name(type));
 }

 static struct property *menu_add_prop(enum prop_type type, char *prompt, struct expr *expr, struct expr *dep)
 {
 	struct property *prop = prop_alloc(type, current_entry->sym);

 	prop->menu = current_entry;
 	prop->expr = expr;
 	prop->visible.expr = dep;

 	if (prompt) {
 		if (isspace(*prompt)) {
 			prop_warn(prop, "leading whitespace ignored");
 			while (isspace(*prompt))
 				prompt++;
 		}
 		if (current_entry->prompt && current_entry != &rootmenu)
 			prop_warn(prop, "prompt redefined");

 		/* Apply all upper menus' visibilities to actual prompts. */
 		if(type == P_PROMPT) {
 			struct menu *menu = current_entry;

 			while ((menu = menu->parent) != NULL) {
 				struct expr *dup_expr;

 				if (!menu->visibility)
 					continue;
 				/*
 				 * Do not add a reference to the
 				 * menu's visibility expression but
 				 * use a copy of it.  Otherwise the
 				 * expression reduction functions
 				 * will modify expressions that have
 				 * multiple references which can
 				 * cause unwanted side effects.
 				 */
 				dup_expr = expr_copy(menu->visibility);

 				prop->visible.expr
 					= expr_alloc_and(prop->visible.expr,
 							 dup_expr);
 			}
 		}

 		current_entry->prompt = prop;
 	}
 	prop->text = prompt;

 	return prop;
 }

 struct property *menu_add_prompt(enum prop_type type, char *prompt, struct expr *dep)
 {
 	return menu_add_prop(type, prompt, NULL, dep);
 }

 void menu_add_visibility(struct expr *expr)
 {
 	current_entry->visibility = expr_alloc_and(current_entry->visibility,
 	    expr);
 }

 void menu_add_expr(enum prop_type type, struct expr *expr, struct expr *dep)
 {
 	menu_add_prop(type, NULL, expr, dep);
 }

 void menu_add_symbol(enum prop_type type, struct symbol *sym, struct expr *dep)
 {
 	menu_add_prop(type, NULL, expr_alloc_symbol(sym), dep);
 }

 void menu_add_option(int token, char *arg)
 {
 	switch (token) {
 	case T_OPT_MODULES:
 		if (modules_sym)
 			zconf_error("symbol '%s' redefines option 'modules'"
 				    " already defined by symbol '%s'",
 				    current_entry->sym->name,
 				    modules_sym->name
 				    );
 		modules_sym = current_entry->sym;
 		break;
 	case T_OPT_DEFCONFIG_LIST:
 		if (!sym_defconfig_list)
 			sym_defconfig_list = current_entry->sym;
 		else if (sym_defconfig_list != current_entry->sym)
 			zconf_error("trying to redefine defconfig symbol");
 		sym_defconfig_list->flags |= SYMBOL_AUTO;
 		break;
 	case T_OPT_ENV:
 		prop_add_env(arg);
 		break;
 	case T_OPT_ALLNOCONFIG_Y:
 		current_entry->sym->flags |= SYMBOL_ALLNOCONFIG_Y;
 		break;
 	}
 }

 static int menu_validate_number(struct symbol *sym, struct symbol *sym2)
 {
 	return sym2->type == S_INT || sym2->type == S_HEX ||
 	       (sym2->type == S_UNKNOWN && sym_string_valid(sym, sym2->name));
 }

 static void sym_check_prop(struct symbol *sym)
 {
 	struct property *prop;
 	struct symbol *sym2;
 	char *use;

 	for (prop = sym->prop; prop; prop = prop->next) {
 		switch (prop->type) {
 		case P_DEFAULT:
 			if ((sym->type == S_STRING || sym->type == S_INT || sym->type == S_HEX) &&
 			    prop->expr->type != E_SYMBOL)
 				prop_warn(prop,
 				    "default for config symbol '%s'"
 				    " must be a single symbol", sym->name);
 			if (prop->expr->type != E_SYMBOL)
 				break;
 			sym2 = prop_get_symbol(prop);
 			if (sym->type == S_HEX || sym->type == S_INT) {
 				if (!menu_validate_number(sym, sym2))
 					prop_warn(prop,
 					    "'%s': number is invalid",
 					    sym->name);
 			}
 			if (sym_is_choice(sym)) {
 				struct property *choice_prop =
 					sym_get_choice_prop(sym2);

 				if (!choice_prop ||
 				    prop_get_symbol(choice_prop) != sym)
 					prop_warn(prop,
 						  "choice default symbol '%s' is not contained in the choice",
 						  sym2->name);
 			}
 			break;
 		case P_SELECT:
 		case P_IMPLY:
 			use = prop->type == P_SELECT ? "select" : "imply";
 			sym2 = prop_get_symbol(prop);
 			if (sym->type != S_BOOLEAN && sym->type != S_TRISTATE)
 				prop_warn(prop,
 				    "config symbol '%s' uses %s, but is "
 				    "not bool or tristate", sym->name, use);
 			else if (sym2->type != S_UNKNOWN &&
 				 sym2->type != S_BOOLEAN &&
 				 sym2->type != S_TRISTATE)
 				prop_warn(prop,
 				    "'%s' has wrong type. '%s' only "
 				    "accept arguments of bool and "
 				    "tristate type", sym2->name, use);
 			break;
 		case P_RANGE:
 			if (sym->type != S_INT && sym->type != S_HEX)
 				prop_warn(prop, "range is only allowed "
 						"for int or hex symbols");
 			if (!menu_validate_number(sym, prop->expr->left.sym) ||
 			    !menu_validate_number(sym, prop->expr->right.sym))
 				prop_warn(prop, "range is invalid");
 			break;
 		default:
 			;
 		}
 	}
 }

 void menu_finalize(struct menu *parent)
 {
 	struct menu *menu, *last_menu;
 	struct symbol *sym;
 	struct property *prop;
 	struct expr *parentdep, *basedep, *dep, *dep2, **ep;

 	sym = parent->sym;
 	if (parent->list) {
 		/*
 		 * This menu node has children. We (recursively) process them
 		 * and propagate parent dependencies before moving on.
 		 */

 		if (sym && sym_is_choice(sym)) {
 			if (sym->type == S_UNKNOWN) {
 				/* find the first choice value to find out choice type */
 				current_entry = parent;
 				for (menu = parent->list; menu; menu = menu->next) {
 					if (menu->sym && menu->sym->type != S_UNKNOWN) {
 						menu_set_type(menu->sym->type);
 						break;
 					}
 				}
 			}
 			/* set the type of the remaining choice values */
 			for (menu = parent->list; menu; menu = menu->next) {
 				current_entry = menu;
 				if (menu->sym && menu->sym->type == S_UNKNOWN)
 					menu_set_type(sym->type);
 			}

 			/*
 			 * Use the choice itself as the parent dependency of
 			 * the contained items. This turns the mode of the
 			 * choice into an upper bound on the visibility of the
 			 * choice value symbols.
 			 */
 			parentdep = expr_alloc_symbol(sym);
 		} else if (parent->prompt)
 			/* Menu node for 'menu' */
 			parentdep = parent->prompt->visible.expr;
 		else
 			/* Menu node for 'if' */
 			parentdep = parent->dep;

 		/* For each child menu node... */
 		for (menu = parent->list; menu; menu = menu->next) {
 			/*
 			 * Propagate parent dependencies to the child menu
 			 * node, also rewriting and simplifying expressions
 			 */
 			basedep = rewrite_m(menu->dep);
 			basedep = expr_transform(basedep);
 			basedep = expr_alloc_and(expr_copy(parentdep), basedep);
 			basedep = expr_eliminate_dups(basedep);
 			menu->dep = basedep;

 			if (menu->sym)
 				/*
 				 * Note: For symbols, all prompts are included
 				 * too in the symbol's own property list
 				 */
 				prop = menu->sym->prop;
 			else
 				/*
 				 * For non-symbol menu nodes, we just need to
 				 * handle the prompt
 				 */
 				prop = menu->prompt;

 			/* For each property... */
 			for (; prop; prop = prop->next) {
 				if (prop->menu != menu)
 					/*
 					 * Two possibilities:
 					 *
 					 * 1. The property lacks dependencies
 					 *    and so isn't location-specific,
 					 *    e.g. an 'option'
 					 *
 					 * 2. The property belongs to a symbol
 					 *    defined in multiple locations and
 					 *    is from some other location. It
 					 *    will be handled there in that
 					 *    case.
 					 *
 					 * Skip the property.
 					 */
 					continue;

 				/*
 				 * Propagate parent dependencies to the
 				 * property's condition, rewriting and
 				 * simplifying expressions at the same time
 				 */
 				dep = rewrite_m(prop->visible.expr);
 				dep = expr_transform(dep);
 				dep = expr_alloc_and(expr_copy(basedep), dep);
 				dep = expr_eliminate_dups(dep);
 				if (menu->sym && menu->sym->type != S_TRISTATE)
 					dep = expr_trans_bool(dep);
 				prop->visible.expr = dep;

 				/*
 				 * Handle selects and implies, which modify the
 				 * dependencies of the selected/implied symbol
 				 */
 				if (prop->type == P_SELECT) {
 					struct symbol *es = prop_get_symbol(prop);
 					es->rev_dep.expr = expr_alloc_or(es->rev_dep.expr,
 							expr_alloc_and(expr_alloc_symbol(menu->sym), expr_copy(dep)));
 				} else if (prop->type == P_IMPLY) {
 					struct symbol *es = prop_get_symbol(prop);
 					es->implied.expr = expr_alloc_or(es->implied.expr,
 							expr_alloc_and(expr_alloc_symbol(menu->sym), expr_copy(dep)));
 				}
 			}
 		}

 		if (sym && sym_is_choice(sym))
 			expr_free(parentdep);

 		/*
 		 * Recursively process children in the same fashion before
 		 * moving on
 		 */
 		for (menu = parent->list; menu; menu = menu->next)
 			menu_finalize(menu);
 	} else if (sym) {
 		/*
 		 * Automatic submenu creation. If sym is a symbol and A, B, C,
 		 * ... are consecutive items (symbols, menus, ifs, etc.) that
 		 * all depend on sym, then the following menu structure is
 		 * created:
 		 *
 		 *	sym
 		 *	 +-A
 		 *	 +-B
 		 *	 +-C
 		 *	 ...
 		 *
 		 * This also works recursively, giving the following structure
 		 * if A is a symbol and B depends on A:
 		 *
 		 *	sym
 		 *	 +-A
 		 *	 | +-B
 		 *	 +-C
 		 *	 ...
 		 */

 		basedep = parent->prompt ? parent->prompt->visible.expr : NULL;
 		basedep = expr_trans_compare(basedep, E_UNEQUAL, &symbol_no);
 		basedep = expr_eliminate_dups(expr_transform(basedep));

 		/* Examine consecutive elements after sym */
 		last_menu = NULL;
 		for (menu = parent->next; menu; menu = menu->next) {
 			dep = menu->prompt ? menu->prompt->visible.expr : menu->dep;
 			if (!expr_contains_symbol(dep, sym))
 				/* No dependency, quit */
 				break;
 			if (expr_depends_symbol(dep, sym))
 				/* Absolute dependency, put in submenu */
 				goto next;

 			/*
 			 * Also consider it a dependency on sym if our
 			 * dependencies contain sym and are a "superset" of
 			 * sym's dependencies, e.g. '(sym || Q) && R' when sym
 			 * depends on R.
 			 *
 			 * Note that 'R' might be from an enclosing menu or if,
 			 * making this a more common case than it might seem.
 			 */
 			dep = expr_trans_compare(dep, E_UNEQUAL, &symbol_no);
 			dep = expr_eliminate_dups(expr_transform(dep));
 			dep2 = expr_copy(basedep);
 			expr_eliminate_eq(&dep, &dep2);
 			expr_free(dep);
 			if (!expr_is_yes(dep2)) {
 				/* Not superset, quit */
 				expr_free(dep2);
 				break;
 			}
 			/* Superset, put in submenu */
 			expr_free(dep2);
 		next:
 			menu_finalize(menu);
 			menu->parent = parent;
 			last_menu = menu;
 		}
 		expr_free(basedep);
 		if (last_menu) {
 			parent->list = parent->next;
 			parent->next = last_menu->next;
 			last_menu->next = NULL;
 		}

 		sym->dir_dep.expr = expr_alloc_or(sym->dir_dep.expr, parent->dep);
 	}
 	for (menu = parent->list; menu; menu = menu->next) {
 		if (sym && sym_is_choice(sym) &&
 		    menu->sym && !sym_is_choice_value(menu->sym)) {
 			current_entry = menu;
 			menu->sym->flags |= SYMBOL_CHOICEVAL;
 			if (!menu->prompt)
 				menu_warn(menu, "choice value must have a prompt");
 			for (prop = menu->sym->prop; prop; prop = prop->next) {
 				if (prop->type == P_DEFAULT)
 					prop_warn(prop, "defaults for choice "
 						  "values not supported");
 				if (prop->menu == menu)
 					continue;
 				if (prop->type == P_PROMPT &&
 				    prop->menu->parent->sym != sym)
 					prop_warn(prop, "choice value used outside its choice group");
 			}
 			/* Non-tristate choice values of tristate choices must
 			 * depend on the choice being set to Y. The choice
 			 * values' dependencies were propagated to their
 			 * properties above, so the change here must be re-
 			 * propagated.
 			 */
 			if (sym->type == S_TRISTATE && menu->sym->type != S_TRISTATE) {
 				basedep = expr_alloc_comp(E_EQUAL, sym, &symbol_yes);
 				menu->dep = expr_alloc_and(basedep, menu->dep);
 				for (prop = menu->sym->prop; prop; prop = prop->next) {
 					if (prop->menu != menu)
 						continue;
 					prop->visible.expr = expr_alloc_and(expr_copy(basedep),
 									    prop->visible.expr);
 				}
 			}
 			menu_add_symbol(P_CHOICE, sym, NULL);
 			prop = sym_get_choice_prop(sym);
 			for (ep = &prop->expr; *ep; ep = &(*ep)->left.expr)
 				;
 			*ep = expr_alloc_one(E_LIST, NULL);
 			(*ep)->right.sym = menu->sym;
 		}

 		/*
 		 * This code serves two purposes:
 		 *
 		 * (1) Flattening 'if' blocks, which do not specify a submenu
 		 *     and only add dependencies.
 		 *
 		 *     (Automatic submenu creation might still create a submenu
 		 *     from an 'if' before this code runs.)
 		 *
 		 * (2) "Undoing" any automatic submenus created earlier below
 		 *     promptless symbols.
 		 *
 		 * Before:
 		 *
 		 *	A
 		 *	if ... (or promptless symbol)
 		 *	 +-B
 		 *	 +-C
 		 *	D
 		 *
 		 * After:
 		 *
 		 *	A
 		 *	if ... (or promptless symbol)
 		 *	B
 		 *	C
 		 *	D
 		 */
 		if (menu->list && (!menu->prompt || !menu->prompt->text)) {
 			for (last_menu = menu->list; ; last_menu = last_menu->next) {
 				last_menu->parent = parent;
 				if (!last_menu->next)
 					break;
 			}
 			last_menu->next = menu->next;
 			menu->next = menu->list;
 			menu->list = NULL;
 		}
 	}

 	if (sym && !(sym->flags & SYMBOL_WARNED)) {
 		if (sym->type == S_UNKNOWN)
 			menu_warn(parent, "config symbol defined without type");

 		if (sym_is_choice(sym) && !parent->prompt)
 			menu_warn(parent, "choice must have a prompt");

 		/* Check properties connected to this symbol */
 		sym_check_prop(sym);
 		sym->flags |= SYMBOL_WARNED;
 	}

 	/*
 	 * For non-optional choices, add a reverse dependency (corresponding to
 	 * a select) of '<visibility> && m'. This prevents the user from
 	 * setting the choice mode to 'n' when the choice is visible.
 	 *
 	 * This would also work for non-choice symbols, but only non-optional
 	 * choices clear SYMBOL_OPTIONAL as of writing. Choices are implemented
 	 * as a type of symbol.
 	 */
 	if (sym && !sym_is_optional(sym) && parent->prompt) {
 		sym->rev_dep.expr = expr_alloc_or(sym->rev_dep.expr,
 				expr_alloc_and(parent->prompt->visible.expr,
 					expr_alloc_symbol(&symbol_mod)));
 	}
 }

 bool menu_has_prompt(struct menu *menu)
 {
 	if (!menu->prompt)
 		return false;
 	return true;
 }

 /*
  * Determine if a menu is empty.
  * A menu is considered empty if it contains no or only
  * invisible entries.
  */
 bool menu_is_empty(struct menu *menu)
 {
 	struct menu *child;

 	for (child = menu->list; child; child = child->next) {
 		if (menu_is_visible(child))
 			return(false);
 	}
 	return(true);
 }

 bool menu_is_visible(struct menu *menu)
 {
 	struct menu *child;
 	struct symbol *sym;
 	tristate visible;

 	if (!menu->prompt)
 		return false;

 	if (menu->visibility) {
 		if (expr_calc_value(menu->visibility) == no)
 			return false;
 	}

 	sym = menu->sym;
 	if (sym) {
 		sym_calc_value(sym);
 		visible = menu->prompt->visible.tri;
 	} else
 		visible = menu->prompt->visible.tri = expr_calc_value(menu->prompt->visible.expr);

 	if (visible != no)
 		return true;

 	if (!sym || sym_get_tristate_value(menu->sym) == no)
 		return false;

 	for (child = menu->list; child; child = child->next) {
 		if (menu_is_visible(child)) {
 			if (sym)
 				sym->flags |= SYMBOL_DEF_USER;
 			return true;
 		}
 	}

 	return false;
 }

 const char *menu_get_prompt(struct menu *menu)
 {
 	if (menu->prompt)
 		return menu->prompt->text;
 	else if (menu->sym)
 		return menu->sym->name;
 	return NULL;
 }

 struct menu *menu_get_root_menu(struct menu *menu)
 {
 	return &rootmenu;
 }

 struct menu *menu_get_parent_menu(struct menu *menu)
 {
 	enum prop_type type;

 	for (; menu != &rootmenu; menu = menu->parent) {
 		type = menu->prompt ? menu->prompt->type : 0;
 		if (type == P_MENU)
 			break;
 	}
 	return menu;
 }

 bool menu_has_help(struct menu *menu)
 {
 	return menu->help != NULL;
 }

 const char *menu_get_help(struct menu *menu)
 {
 	if (menu->help)
 		return menu->help;
 	else
 		return "";
 }

 static void get_prompt_str(struct gstr *r, struct property *prop,
 			   struct list_head *head)
 {
 	int i, j;
 	struct menu *submenu[8], *menu, *location = NULL;
 	struct jump_key *jump = NULL;

 	str_printf(r, _("Prompt: %s\n"), _(prop->text));
 	menu = prop->menu->parent;
 	for (i = 0; menu != &rootmenu && i < 8; menu = menu->parent) {
 		bool accessible = menu_is_visible(menu);

 		submenu[i++] = menu;
 		if (location == NULL && accessible)
 			location = menu;
 	}
 	if (head && location) {
 		jump = xmalloc(sizeof(struct jump_key));

 		if (menu_is_visible(prop->menu)) {
 			/*
 			 * There is not enough room to put the hint at the
 			 * beginning of the "Prompt" line. Put the hint on the
 			 * last "Location" line even when it would belong on
 			 * the former.
 			 */
 			jump->target = prop->menu;
 		} else
 			jump->target = location;

 		if (list_empty(head))
 			jump->index = 0;
 		else
 			jump->index = list_entry(head->prev, struct jump_key,
 						 entries)->index + 1;

 		list_add_tail(&jump->entries, head);
 	}

 	if (i > 0) {
 		str_printf(r, _("  Location:\n"));
 		for (j = 4; --i >= 0; j += 2) {
 			menu = submenu[i];
 			if (jump && menu == location)
 				jump->offset = strlen(r->s);
 			str_printf(r, "%*c-> %s", j, ' ',
 				   _(menu_get_prompt(menu)));
 			if (menu->sym) {
 				str_printf(r, " (%s [=%s])", menu->sym->name ?
 					menu->sym->name : _("<choice>"),
 					sym_get_string_value(menu->sym));
 			}
 			str_append(r, "\n");
 		}
 	}
 }

 /*
  * get property of type P_SYMBOL
  */
 static struct property *get_symbol_prop(struct symbol *sym)
 {
 	struct property *prop = NULL;

 	for_all_properties(sym, prop, P_SYMBOL)
 		break;
 	return prop;
 }

 static void get_symbol_props_str(struct gstr *r, struct symbol *sym,
 				 enum prop_type tok, const char *prefix)
 {
 	bool hit = false;
 	struct property *prop;

 	for_all_properties(sym, prop, tok) {
 		if (!hit) {
 			str_append(r, prefix);
 			hit = true;
 		} else
 			str_printf(r, " && ");
 		expr_gstr_print(prop->expr, r);
 	}
 	if (hit)
 		str_append(r, "\n");
 }

 /*
  * head is optional and may be NULL
  */
 static void get_symbol_str(struct gstr *r, struct symbol *sym,
 		    struct list_head *head)
 {
 	struct property *prop;

 	if (sym && sym->name) {
 		str_printf(r, "Symbol: %s [=%s]\n", sym->name,
 			   sym_get_string_value(sym));
 		str_printf(r, "Type  : %s\n", sym_type_name(sym->type));
 		if (sym->type == S_INT || sym->type == S_HEX) {
 			prop = sym_get_range_prop(sym);
 			if (prop) {
 				str_printf(r, "Range : ");
 				expr_gstr_print(prop->expr, r);
 				str_append(r, "\n");
 			}
 		}
 	}
 	for_all_prompts(sym, prop)
 		get_prompt_str(r, prop, head);

 	prop = get_symbol_prop(sym);
 	if (prop) {
 		str_printf(r, _("  Defined at %s:%d\n"), prop->menu->file->name,
 			prop->menu->lineno);
 		if (!expr_is_yes(prop->visible.expr)) {
 			str_append(r, _("  Depends on: "));
 			expr_gstr_print(prop->visible.expr, r);
 			str_append(r, "\n");
 		}
 	}

 	get_symbol_props_str(r, sym, P_SELECT, _("  Selects: "));
 	if (sym->rev_dep.expr) {
 		str_append(r, _("  Selected by: "));
 		expr_gstr_print_revdep(sym->rev_dep.expr, r);
 		str_append(r, "\n");
 	}

 	get_symbol_props_str(r, sym, P_IMPLY, _("  Implies: "));
 	if (sym->implied.expr) {
 		str_append(r, _("  Implied by: "));
 		expr_gstr_print_revdep(sym->implied.expr, r);
 		str_append(r, "\n");
 	}

 	str_append(r, "\n\n");
 }

 struct gstr get_relations_str(struct symbol **sym_arr, struct list_head *head)
 {
 	struct symbol *sym;
 	struct gstr res = str_new();
 	int i;

 	for (i = 0; sym_arr && (sym = sym_arr[i]); i++)
 		get_symbol_str(&res, sym, head);
 	if (!i)
 		str_append(&res, _("No matches found.\n"));
 	return res;
 }


 void menu_get_ext_help(struct menu *menu, struct gstr *help)
 {
 	struct symbol *sym = menu->sym;
 	const char *help_text = nohelp_text;

 	if (menu_has_help(menu)) {
 		if (sym->name)
 			str_printf(help, "%s%s:\n\n", CONFIG_, sym->name);
 		help_text = menu_get_help(menu);
 	}
 	str_printf(help, "%s\n", _(help_text));
 	if (sym)
 		get_symbol_str(help, sym, NULL);
 }
	/*
	* Copyright (C) 2002 Roman Zippel <zippel@linux-m68k.org>
	* Released under the terms of the GNU GPL v2.0.
	*/

	#include <ctype.h>
	#include <stdarg.h>
	#include <stdlib.h>
	#include <string.h>

	#include "lkc.h"

	static const char nohelp_text[] = "There is no help available for this option.";

	struct menu rootmenu;
	static struct menu **last_entry_ptr;

	struct file *file_list;
	struct file *current_file;

	void menu_warn(struct menu menu, const char fmt, ...)
	{
	va_list ap;
	va_start(ap, fmt);
	fprintf(stderr, "%s:%d:warning: ", menu->file->name, menu->lineno);
	vfprintf(stderr, fmt, ap);
	fprintf(stderr, "\n");
	va_end(ap);
	}

	static void prop_warn(struct property prop, const char fmt, ...)
	{
	va_list ap;
	va_start(ap, fmt);
	fprintf(stderr, "%s:%d:warning: ", prop->file->name, prop->lineno);
	vfprintf(stderr, fmt, ap);
	fprintf(stderr, "\n");
	va_end(ap);
	}

	void _menu_init(void)
	{
	current_entry = current_menu = &rootmenu;
	last_entry_ptr = &rootmenu.list;
	}

	void menu_add_entry(struct symbol *sym)
	{
	struct menu *menu;

	menu = xmalloc(sizeof(*menu));
	memset(menu, 0, sizeof(*menu));
	menu->sym = sym;
	menu->parent = current_menu;
	menu->file = current_file;
	menu->lineno = zconf_lineno();

	*last_entry_ptr = menu;
	last_entry_ptr = &menu->next;
	current_entry = menu;
	if (sym)
	menu_add_symbol(P_SYMBOL, sym, NULL);
	}

	struct menu *menu_add_menu(void)
	{
	last_entry_ptr = &current_entry->list;
	return current_menu = current_entry;
	}

	void menu_end_menu(void)
	{
	last_entry_ptr = &current_menu->next;
	current_menu = current_menu->parent;
	}

	/*
	* Rewrites 'm' to 'm' && MODULES, so that it evaluates to 'n' when running
	* without modules
	*/
	static struct expr rewrite_m(struct expr e)
	{
	if (!e)
	return e;

	switch (e->type) {
	case E_NOT:
	e->left.expr = rewrite_m(e->left.expr);
	break;
	case E_OR:
	case E_AND:
	e->left.expr = rewrite_m(e->left.expr);
	e->right.expr = rewrite_m(e->right.expr);
	break;
	case E_SYMBOL:
	/* change 'm' into 'm' && MODULES */
	if (e->left.sym == &symbol_mod)
	return expr_alloc_and(e, expr_alloc_symbol(modules_sym));
	break;
	default:
	break;
	}
	return e;
	}

	void menu_add_dep(struct expr *dep)
	{
	current_entry->dep = expr_alloc_and(current_entry->dep, dep);
	}

	void menu_set_type(int type)
	{
	struct symbol *sym = current_entry->sym;

	if (sym->type == type)
	return;
	if (sym->type == S_UNKNOWN) {
	sym->type = type;
	return;
	}
	menu_warn(current_entry,
	"ignoring type redefinition of '%s' from '%s' to '%s'",
	sym->name ? sym->name : "<choice>",
	sym_type_name(sym->type), sym_type_name(type));
	}

	static struct property menu_add_prop(enum prop_type type, char prompt, struct expr expr, struct expr dep)
	{
	struct property *prop = prop_alloc(type, current_entry->sym);

	prop->menu = current_entry;
	prop->expr = expr;
	prop->visible.expr = dep;

	if (prompt) {
	if (isspace(*prompt)) {
	prop_warn(prop, "leading whitespace ignored");
	while (isspace(*prompt))
	prompt++;
	}
	if (current_entry->prompt && current_entry != &rootmenu)
	prop_warn(prop, "prompt redefined");

	/* Apply all upper menus' visibilities to actual prompts. */
	if(type == P_PROMPT) {
	struct menu *menu = current_entry;

	while ((menu = menu->parent) != NULL) {
	struct expr *dup_expr;

	if (!menu->visibility)
	continue;
	/*
	* Do not add a reference to the
	* menu's visibility expression but
	* use a copy of it. Otherwise the
	* expression reduction functions
	* will modify expressions that have
	* multiple references which can
	* cause unwanted side effects.
	*/
	dup_expr = expr_copy(menu->visibility);

	prop->visible.expr
	= expr_alloc_and(prop->visible.expr,
	dup_expr);
	}
	}

	current_entry->prompt = prop;
	}
	prop->text = prompt;

	return prop;
	}

	struct property menu_add_prompt(enum prop_type type, char prompt, struct expr *dep)
	{
	return menu_add_prop(type, prompt, NULL, dep);
	}

	void menu_add_visibility(struct expr *expr)
	{
	current_entry->visibility = expr_alloc_and(current_entry->visibility,
	expr);
	}

	void menu_add_expr(enum prop_type type, struct expr expr, struct expr dep)
	{
	menu_add_prop(type, NULL, expr, dep);
	}

	void menu_add_symbol(enum prop_type type, struct symbol sym, struct expr dep)
	{
	menu_add_prop(type, NULL, expr_alloc_symbol(sym), dep);
	}

	void menu_add_option(int token, char *arg)
	{
	switch (token) {
	case T_OPT_MODULES:
	if (modules_sym)
	zconf_error("symbol '%s' redefines option 'modules'"
	" already defined by symbol '%s'",
	current_entry->sym->name,
	modules_sym->name
	);
	modules_sym = current_entry->sym;
	break;
	case T_OPT_DEFCONFIG_LIST:
	if (!sym_defconfig_list)
	sym_defconfig_list = current_entry->sym;
	else if (sym_defconfig_list != current_entry->sym)
	zconf_error("trying to redefine defconfig symbol");
	sym_defconfig_list->flags \|= SYMBOL_AUTO;
	break;
	case T_OPT_ENV:
	prop_add_env(arg);
	break;
	case T_OPT_ALLNOCONFIG_Y:
	current_entry->sym->flags \|= SYMBOL_ALLNOCONFIG_Y;
	break;
	}
	}

	static int menu_validate_number(struct symbol sym, struct symbol sym2)
	{
	return sym2->type == S_INT \|\| sym2->type == S_HEX \|\|
	(sym2->type == S_UNKNOWN && sym_string_valid(sym, sym2->name));
	}

	static void sym_check_prop(struct symbol *sym)
	{
	struct property *prop;
	struct symbol *sym2;
	char *use;

	for (prop = sym->prop; prop; prop = prop->next) {
	switch (prop->type) {
	case P_DEFAULT:
	if ((sym->type == S_STRING \|\| sym->type == S_INT \|\| sym->type == S_HEX) &&
	prop->expr->type != E_SYMBOL)
	prop_warn(prop,
	"default for config symbol '%s'"
	" must be a single symbol", sym->name);
	if (prop->expr->type != E_SYMBOL)
	break;
	sym2 = prop_get_symbol(prop);
	if (sym->type == S_HEX \|\| sym->type == S_INT) {
	if (!menu_validate_number(sym, sym2))
	prop_warn(prop,
	"'%s': number is invalid",
	sym->name);
	}
	if (sym_is_choice(sym)) {
	struct property *choice_prop =
	sym_get_choice_prop(sym2);

	if (!choice_prop \|\|
	prop_get_symbol(choice_prop) != sym)
	prop_warn(prop,
	"choice default symbol '%s' is not contained in the choice",
	sym2->name);
	}
	break;
	case P_SELECT:
	case P_IMPLY:
	use = prop->type == P_SELECT ? "select" : "imply";
	sym2 = prop_get_symbol(prop);
	if (sym->type != S_BOOLEAN && sym->type != S_TRISTATE)
	prop_warn(prop,
	"config symbol '%s' uses %s, but is "
	"not bool or tristate", sym->name, use);
	else if (sym2->type != S_UNKNOWN &&
	sym2->type != S_BOOLEAN &&
	sym2->type != S_TRISTATE)
	prop_warn(prop,
	"'%s' has wrong type. '%s' only "
	"accept arguments of bool and "
	"tristate type", sym2->name, use);
	break;
	case P_RANGE:
	if (sym->type != S_INT && sym->type != S_HEX)
	prop_warn(prop, "range is only allowed "
	"for int or hex symbols");
	if (!menu_validate_number(sym, prop->expr->left.sym) \|\|
	!menu_validate_number(sym, prop->expr->right.sym))
	prop_warn(prop, "range is invalid");
	break;
	default:
	;
	}
	}
	}

	void menu_finalize(struct menu *parent)
	{
	struct menu menu, last_menu;
	struct symbol *sym;
	struct property *prop;
	struct expr parentdep, basedep, dep, dep2, **ep;

	sym = parent->sym;
	if (parent->list) {
	/*
	* This menu node has children. We (recursively) process them
	* and propagate parent dependencies before moving on.
	*/

	if (sym && sym_is_choice(sym)) {
	if (sym->type == S_UNKNOWN) {
	/* find the first choice value to find out choice type */
	current_entry = parent;
	for (menu = parent->list; menu; menu = menu->next) {
	if (menu->sym && menu->sym->type != S_UNKNOWN) {
	menu_set_type(menu->sym->type);
	break;
	}
	}
	}
	/* set the type of the remaining choice values */
	for (menu = parent->list; menu; menu = menu->next) {
	current_entry = menu;
	if (menu->sym && menu->sym->type == S_UNKNOWN)
	menu_set_type(sym->type);
	}

	/*
	* Use the choice itself as the parent dependency of
	* the contained items. This turns the mode of the
	* choice into an upper bound on the visibility of the
	* choice value symbols.
	*/
	parentdep = expr_alloc_symbol(sym);
	} else if (parent->prompt)
	/* Menu node for 'menu' */
	parentdep = parent->prompt->visible.expr;
	else
	/* Menu node for 'if' */
	parentdep = parent->dep;

	/* For each child menu node... */
	for (menu = parent->list; menu; menu = menu->next) {
	/*
	* Propagate parent dependencies to the child menu
	* node, also rewriting and simplifying expressions
	*/
	basedep = rewrite_m(menu->dep);
	basedep = expr_transform(basedep);
	basedep = expr_alloc_and(expr_copy(parentdep), basedep);
	basedep = expr_eliminate_dups(basedep);
	menu->dep = basedep;

	if (menu->sym)
	/*
	* Note: For symbols, all prompts are included
	* too in the symbol's own property list
	*/
	prop = menu->sym->prop;
	else
	/*
	* For non-symbol menu nodes, we just need to
	* handle the prompt
	*/
	prop = menu->prompt;

	/* For each property... */
	for (; prop; prop = prop->next) {
	if (prop->menu != menu)
	/*
	* Two possibilities:
	*
	* 1. The property lacks dependencies
	* and so isn't location-specific,
	* e.g. an 'option'
	*
	* 2. The property belongs to a symbol
	* defined in multiple locations and
	* is from some other location. It
	* will be handled there in that
	* case.
	*
	* Skip the property.
	*/
	continue;

	/*
	* Propagate parent dependencies to the
	* property's condition, rewriting and
	* simplifying expressions at the same time
	*/
	dep = rewrite_m(prop->visible.expr);
	dep = expr_transform(dep);
	dep = expr_alloc_and(expr_copy(basedep), dep);
	dep = expr_eliminate_dups(dep);
	if (menu->sym && menu->sym->type != S_TRISTATE)
	dep = expr_trans_bool(dep);
	prop->visible.expr = dep;

	/*
	* Handle selects and implies, which modify the
	* dependencies of the selected/implied symbol
	*/
	if (prop->type == P_SELECT) {
	struct symbol *es = prop_get_symbol(prop);
	es->rev_dep.expr = expr_alloc_or(es->rev_dep.expr,
	expr_alloc_and(expr_alloc_symbol(menu->sym), expr_copy(dep)));
	} else if (prop->type == P_IMPLY) {
	struct symbol *es = prop_get_symbol(prop);
	es->implied.expr = expr_alloc_or(es->implied.expr,
	expr_alloc_and(expr_alloc_symbol(menu->sym), expr_copy(dep)));
	}
	}
	}

	if (sym && sym_is_choice(sym))
	expr_free(parentdep);

	/*
	* Recursively process children in the same fashion before
	* moving on
	*/
	for (menu = parent->list; menu; menu = menu->next)
	menu_finalize(menu);
	} else if (sym) {
	/*
	* Automatic submenu creation. If sym is a symbol and A, B, C,
	* ... are consecutive items (symbols, menus, ifs, etc.) that
	* all depend on sym, then the following menu structure is
	* created:
	*
	* sym
	* +-A
	* +-B
	* +-C
	* ...
	*
	* This also works recursively, giving the following structure
	* if A is a symbol and B depends on A:
	*
	* sym
	* +-A
	* \| +-B
	* +-C
	* ...
	*/

	basedep = parent->prompt ? parent->prompt->visible.expr : NULL;
	basedep = expr_trans_compare(basedep, E_UNEQUAL, &symbol_no);
	basedep = expr_eliminate_dups(expr_transform(basedep));

	/* Examine consecutive elements after sym */
	last_menu = NULL;
	for (menu = parent->next; menu; menu = menu->next) {
	dep = menu->prompt ? menu->prompt->visible.expr : menu->dep;
	if (!expr_contains_symbol(dep, sym))
	/* No dependency, quit */
	break;
	if (expr_depends_symbol(dep, sym))
	/* Absolute dependency, put in submenu */
	goto next;

	/*
	* Also consider it a dependency on sym if our
	* dependencies contain sym and are a "superset" of
	* sym's dependencies, e.g. '(sym \|\| Q) && R' when sym
	* depends on R.
	*
	* Note that 'R' might be from an enclosing menu or if,
	* making this a more common case than it might seem.
	*/
	dep = expr_trans_compare(dep, E_UNEQUAL, &symbol_no);
	dep = expr_eliminate_dups(expr_transform(dep));
	dep2 = expr_copy(basedep);
	expr_eliminate_eq(&dep, &dep2);
	expr_free(dep);
	if (!expr_is_yes(dep2)) {
	/* Not superset, quit */
	expr_free(dep2);
	break;
	}
	/* Superset, put in submenu */
	expr_free(dep2);
	next:
	menu_finalize(menu);
	menu->parent = parent;
	last_menu = menu;
	}
	expr_free(basedep);
	if (last_menu) {
	parent->list = parent->next;
	parent->next = last_menu->next;
	last_menu->next = NULL;
	}

	sym->dir_dep.expr = expr_alloc_or(sym->dir_dep.expr, parent->dep);
	}
	for (menu = parent->list; menu; menu = menu->next) {
	if (sym && sym_is_choice(sym) &&
	menu->sym && !sym_is_choice_value(menu->sym)) {
	current_entry = menu;
	menu->sym->flags \|= SYMBOL_CHOICEVAL;
	if (!menu->prompt)
	menu_warn(menu, "choice value must have a prompt");
	for (prop = menu->sym->prop; prop; prop = prop->next) {
	if (prop->type == P_DEFAULT)
	prop_warn(prop, "defaults for choice "
	"values not supported");
	if (prop->menu == menu)
	continue;
	if (prop->type == P_PROMPT &&
	prop->menu->parent->sym != sym)
	prop_warn(prop, "choice value used outside its choice group");
	}
	/* Non-tristate choice values of tristate choices must
	* depend on the choice being set to Y. The choice
	* values' dependencies were propagated to their
	* properties above, so the change here must be re-
	* propagated.
	*/
	if (sym->type == S_TRISTATE && menu->sym->type != S_TRISTATE) {
	basedep = expr_alloc_comp(E_EQUAL, sym, &symbol_yes);
	menu->dep = expr_alloc_and(basedep, menu->dep);
	for (prop = menu->sym->prop; prop; prop = prop->next) {
	if (prop->menu != menu)
	continue;
	prop->visible.expr = expr_alloc_and(expr_copy(basedep),
	prop->visible.expr);
	}
	}
	menu_add_symbol(P_CHOICE, sym, NULL);
	prop = sym_get_choice_prop(sym);
	for (ep = &prop->expr; ep; ep = &(ep)->left.expr)
	;
	*ep = expr_alloc_one(E_LIST, NULL);
	(*ep)->right.sym = menu->sym;
	}

	/*
	* This code serves two purposes:
	*
	* (1) Flattening 'if' blocks, which do not specify a submenu
	* and only add dependencies.
	*
	* (Automatic submenu creation might still create a submenu
	* from an 'if' before this code runs.)
	*
	* (2) "Undoing" any automatic submenus created earlier below
	* promptless symbols.
	*
	* Before:
	*
	* A
	* if ... (or promptless symbol)
	* +-B
	* +-C
	* D
	*
	* After:
	*
	* A
	* if ... (or promptless symbol)
	* B
	* C
	* D
	*/
	if (menu->list && (!menu->prompt \|\| !menu->prompt->text)) {
	for (last_menu = menu->list; ; last_menu = last_menu->next) {
	last_menu->parent = parent;
	if (!last_menu->next)
	break;
	}
	last_menu->next = menu->next;
	menu->next = menu->list;
	menu->list = NULL;
	}
	}

	if (sym && !(sym->flags & SYMBOL_WARNED)) {
	if (sym->type == S_UNKNOWN)
	menu_warn(parent, "config symbol defined without type");

	if (sym_is_choice(sym) && !parent->prompt)
	menu_warn(parent, "choice must have a prompt");

	/* Check properties connected to this symbol */
	sym_check_prop(sym);
	sym->flags \|= SYMBOL_WARNED;
	}

	/*
	* For non-optional choices, add a reverse dependency (corresponding to
	* a select) of '<visibility> && m'. This prevents the user from
	* setting the choice mode to 'n' when the choice is visible.
	*
	* This would also work for non-choice symbols, but only non-optional
	* choices clear SYMBOL_OPTIONAL as of writing. Choices are implemented
	* as a type of symbol.
	*/
	if (sym && !sym_is_optional(sym) && parent->prompt) {
	sym->rev_dep.expr = expr_alloc_or(sym->rev_dep.expr,
	expr_alloc_and(parent->prompt->visible.expr,
	expr_alloc_symbol(&symbol_mod)));
	}
	}

	bool menu_has_prompt(struct menu *menu)
	{
	if (!menu->prompt)
	return false;
	return true;
	}

	/*
	* Determine if a menu is empty.
	* A menu is considered empty if it contains no or only
	* invisible entries.
	*/
	bool menu_is_empty(struct menu *menu)
	{
	struct menu *child;

	for (child = menu->list; child; child = child->next) {
	if (menu_is_visible(child))
	return(false);
	}
	return(true);
	}

	bool menu_is_visible(struct menu *menu)
	{
	struct menu *child;
	struct symbol *sym;
	tristate visible;

	if (!menu->prompt)
	return false;

	if (menu->visibility) {
	if (expr_calc_value(menu->visibility) == no)
	return false;
	}

	sym = menu->sym;
	if (sym) {
	sym_calc_value(sym);
	visible = menu->prompt->visible.tri;
	} else
	visible = menu->prompt->visible.tri = expr_calc_value(menu->prompt->visible.expr);

	if (visible != no)
	return true;

	if (!sym \|\| sym_get_tristate_value(menu->sym) == no)
	return false;

	for (child = menu->list; child; child = child->next) {
	if (menu_is_visible(child)) {
	if (sym)
	sym->flags \|= SYMBOL_DEF_USER;
	return true;
	}
	}

	return false;
	}

	const char menu_get_prompt(struct menu menu)
	{
	if (menu->prompt)
	return menu->prompt->text;
	else if (menu->sym)
	return menu->sym->name;
	return NULL;
	}

	struct menu menu_get_root_menu(struct menu menu)
	{
	return &rootmenu;
	}

	struct menu menu_get_parent_menu(struct menu menu)
	{
	enum prop_type type;

	for (; menu != &rootmenu; menu = menu->parent) {
	type = menu->prompt ? menu->prompt->type : 0;
	if (type == P_MENU)
	break;
	}
	return menu;
	}

	bool menu_has_help(struct menu *menu)
	{
	return menu->help != NULL;
	}

	const char menu_get_help(struct menu menu)
	{
	if (menu->help)
	return menu->help;
	else
	return "";
	}

	static void get_prompt_str(struct gstr r, struct property prop,
	struct list_head *head)
	{
	int i, j;
	struct menu submenu[8], menu, *location = NULL;
	struct jump_key *jump = NULL;

	str_printf(r, _("Prompt: %s\n"), _(prop->text));
	menu = prop->menu->parent;
	for (i = 0; menu != &rootmenu && i < 8; menu = menu->parent) {
	bool accessible = menu_is_visible(menu);

	submenu[i++] = menu;
	if (location == NULL && accessible)
	location = menu;
	}
	if (head && location) {
	jump = xmalloc(sizeof(struct jump_key));

	if (menu_is_visible(prop->menu)) {
	/*
	* There is not enough room to put the hint at the
	* beginning of the "Prompt" line. Put the hint on the
	* last "Location" line even when it would belong on
	* the former.
	*/
	jump->target = prop->menu;
	} else
	jump->target = location;

	if (list_empty(head))
	jump->index = 0;
	else
	jump->index = list_entry(head->prev, struct jump_key,
	entries)->index + 1;

	list_add_tail(&jump->entries, head);
	}

	if (i > 0) {
	str_printf(r, _(" Location:\n"));
	for (j = 4; --i >= 0; j += 2) {
	menu = submenu[i];
	if (jump && menu == location)
	jump->offset = strlen(r->s);
	str_printf(r, "%*c-> %s", j, ' ',
	_(menu_get_prompt(menu)));
	if (menu->sym) {
	str_printf(r, " (%s [=%s])", menu->sym->name ?
	menu->sym->name : _("<choice>"),
	sym_get_string_value(menu->sym));
	}
	str_append(r, "\n");
	}
	}
	}

	/*
	* get property of type P_SYMBOL
	*/
	static struct property get_symbol_prop(struct symbol sym)
	{
	struct property *prop = NULL;

	for_all_properties(sym, prop, P_SYMBOL)
	break;
	return prop;
	}

	static void get_symbol_props_str(struct gstr r, struct symbol sym,
	enum prop_type tok, const char *prefix)
	{
	bool hit = false;
	struct property *prop;

	for_all_properties(sym, prop, tok) {
	if (!hit) {
	str_append(r, prefix);
	hit = true;
	} else
	str_printf(r, " && ");
	expr_gstr_print(prop->expr, r);
	}
	if (hit)
	str_append(r, "\n");
	}

	/*
	* head is optional and may be NULL
	*/
	static void get_symbol_str(struct gstr r, struct symbol sym,
	struct list_head *head)
	{
	struct property *prop;

	if (sym && sym->name) {
	str_printf(r, "Symbol: %s [=%s]\n", sym->name,
	sym_get_string_value(sym));
	str_printf(r, "Type : %s\n", sym_type_name(sym->type));
	if (sym->type == S_INT \|\| sym->type == S_HEX) {
	prop = sym_get_range_prop(sym);
	if (prop) {
	str_printf(r, "Range : ");
	expr_gstr_print(prop->expr, r);
	str_append(r, "\n");
	}
	}
	}
	for_all_prompts(sym, prop)
	get_prompt_str(r, prop, head);

	prop = get_symbol_prop(sym);
	if (prop) {
	str_printf(r, _(" Defined at %s:%d\n"), prop->menu->file->name,
	prop->menu->lineno);
	if (!expr_is_yes(prop->visible.expr)) {
	str_append(r, _(" Depends on: "));
	expr_gstr_print(prop->visible.expr, r);
	str_append(r, "\n");
	}
	}

	get_symbol_props_str(r, sym, P_SELECT, _(" Selects: "));
	if (sym->rev_dep.expr) {
	str_append(r, _(" Selected by: "));
	expr_gstr_print_revdep(sym->rev_dep.expr, r);
	str_append(r, "\n");
	}

	get_symbol_props_str(r, sym, P_IMPLY, _(" Implies: "));
	if (sym->implied.expr) {
	str_append(r, _(" Implied by: "));
	expr_gstr_print_revdep(sym->implied.expr, r);
	str_append(r, "\n");
	}

	str_append(r, "\n\n");
	}

	struct gstr get_relations_str(struct symbol *sym_arr, struct list_head head)
	{
	struct symbol *sym;
	struct gstr res = str_new();
	int i;

	for (i = 0; sym_arr && (sym = sym_arr[i]); i++)
	get_symbol_str(&res, sym, head);
	if (!i)
	str_append(&res, _("No matches found.\n"));
	return res;
	}


	void menu_get_ext_help(struct menu menu, struct gstr help)
	{
	struct symbol *sym = menu->sym;
	const char *help_text = nohelp_text;

	if (menu_has_help(menu)) {
	if (sym->name)
	str_printf(help, "%s%s:\n\n", CONFIG_, sym->name);
	help_text = menu_get_help(menu);
	}
	str_printf(help, "%s\n", _(help_text));
	if (sym)
	get_symbol_str(help, sym, NULL);
	}