boost_1_45_0/tools/build/v2/engine/src/rules.c - nest-learning-thermostat/5.0/boost - Git at Google

 /*
  * Copyright 1993, 1995 Christopher Seiwald.
  *
  * This file is part of Jam - see jam.c for Copyright information.
  */

 # include "jam.h"
 # include "lists.h"
 # include "parse.h"
 # include "variable.h"
 # include "rules.h"
 # include "newstr.h"
 # include "hash.h"
 # include "modules.h"
 # include "search.h"
 # include "lists.h"
 # include "pathsys.h"
 # include "timestamp.h"

 /*  This file is ALSO:
  *  Copyright 2001-2004 David Abrahams.
  *  Distributed under the Boost Software License, Version 1.0.
  *  (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
  */

 /*
  * rules.c - access to RULEs, TARGETs, and ACTIONs
  *
  * External routines:
  *
  *    bindrule()     - return pointer to RULE, creating it if necessary.
  *    bindtarget()   - return pointer to TARGET, creating it if necessary.
  *    touch_target() - mark a target to simulate being new.
  *    targetlist()   - turn list of target names into a TARGET chain.
  *    targetentry()  - add a TARGET to a chain of TARGETS.
  *    actionlist()   - append to an ACTION chain.
  *    addsettings()  - add a deferred "set" command to a target.
  *    pushsettings() - set all target specific variables.
  *    popsettings()  - reset target specific variables to their pre-push values.
  *    freesettings() - delete a settings list.
  *    rules_done()   - free RULE and TARGET tables.
  *
  * 04/12/94 (seiwald) - actionlist() now just appends a single action.
  * 08/23/94 (seiwald) - Support for '+=' (append to variable)
  */

 static void set_rule_actions( RULE *, rule_actions * );
 static void set_rule_body   ( RULE *, argument_list *, PARSE * procedure );

 static struct hash * targethash = 0;

 struct _located_target
 {
     char   * file_name;
     TARGET * target;
 };
 typedef struct _located_target LOCATED_TARGET ;

 static struct hash * located_targets = 0;


 /*
  * target_include() - adds the 'included' TARGET to the list of targets included
  * by the 'including' TARGET. Such targets are modeled as dependencies of the
  * internal include node belonging to the 'including' TARGET.
  */

 void target_include( TARGET * including, TARGET * included )
 {
     TARGET * internal;
     if ( !including->includes )
     {
         including->includes = copytarget( including );
         including->includes->original_target = including;
     }
     internal = including->includes;
     internal->depends = targetentry( internal->depends, included );
 }


 /*
  * enter_rule() - return pointer to RULE, creating it if necessary in
  * target_module.
  */

 static RULE * enter_rule( char * rulename, module_t * target_module )
 {
     RULE rule;
     RULE * r = &rule;

     r->name = rulename;

     if ( hashenter( demand_rules( target_module ), (HASHDATA * *)&r ) )
     {
         r->name = newstr( rulename );   /* never freed */
         r->procedure = (PARSE *)0;
         r->module = 0;
         r->actions = 0;
         r->arguments = 0;
         r->exported = 0;
         r->module = target_module;
 #ifdef HAVE_PYTHON
         r->python_function = 0;
 #endif
     }
     return r;
 }


 /*
  * define_rule() - return pointer to RULE, creating it if necessary in
  * target_module. Prepare it to accept a body or action originating in
  * src_module.
  */

 static RULE * define_rule
 (
     module_t * src_module,
     char     * rulename,
     module_t * target_module
 )
 {
     RULE * r = enter_rule( rulename, target_module );
     if ( r->module != src_module ) /* if the rule was imported from elsewhere, clear it now */
     {
         set_rule_body( r, 0, 0 );
         set_rule_actions( r, 0 );
         r->module = src_module; /* r will be executed in the source module */
     }
     return r;
 }


 void rule_free( RULE * r )
 {
     freestr( r->name );
     r->name = "";
     parse_free( r->procedure );
     r->procedure = 0;
     if ( r->arguments )
         args_free( r->arguments );
     r->arguments = 0;
     if ( r->actions )
         actions_free( r->actions );
     r->actions = 0;
 }


 /*
  * bindtarget() - return pointer to TARGET, creating it if necessary.
  */

 TARGET * bindtarget( char const * target_name )
 {
     TARGET target;
     TARGET * t = &target;

     if ( !targethash )
         targethash = hashinit( sizeof( TARGET ), "targets" );

     /* Perforce added const everywhere. No time to merge that change. */
 #ifdef NT
     target_name = short_path_to_long_path( (char *)target_name );
 #endif
     t->name = (char *)target_name;

     if ( hashenter( targethash, (HASHDATA * *)&t ) )
     {
         memset( (char *)t, '\0', sizeof( *t ) );
         t->name = newstr( (char *)target_name );  /* never freed */
         t->boundname = t->name;  /* default for T_FLAG_NOTFILE */
     }

     return t;
 }


 static void bind_explicitly_located_target( void * xtarget, void * data )
 {
     TARGET * t = (TARGET *)xtarget;
     if ( !( t->flags & T_FLAG_NOTFILE ) )
     {
         /* Check if there's a setting for LOCATE */
         SETTINGS * s = t->settings;
         for ( ; s ; s = s->next )
         {
             if ( strcmp( s->symbol, "LOCATE" ) == 0 )
             {
                 pushsettings( t->settings );
                 /* We are binding a target with explicit LOCATE. So third
                  * argument is of no use: nothing will be returned through it.
                  */
                 t->boundname = search( t->name, &t->time, 0, 0 );
                 popsettings( t->settings );
                 break;
             }
         }
     }
 }


 void bind_explicitly_located_targets()
 {
     if ( targethash )
         hashenumerate( targethash, bind_explicitly_located_target, (void *)0 );
 }


 /* TODO: It is probably not a good idea to use functions in other modules like
   this. */
 void call_bind_rule( char * target, char * boundname );


 TARGET * search_for_target ( char * name, LIST * search_path )
 {
     PATHNAME f[1];
     string buf[1];
     LOCATED_TARGET lt;
     LOCATED_TARGET * lta = &lt;
     time_t time;
     int found = 0;
     TARGET * result;

     string_new( buf );

     path_parse( name, f );

     f->f_grist.ptr = 0;
     f->f_grist.len = 0;

     while ( search_path )
     {
         f->f_root.ptr = search_path->string;
         f->f_root.len = strlen( search_path->string );

         string_truncate( buf, 0 );
         path_build( f, buf, 1 );

         lt.file_name = buf->value ;

         if ( !located_targets )
             located_targets = hashinit( sizeof(LOCATED_TARGET),
                                         "located targets" );

         if ( hashcheck( located_targets, (HASHDATA * *)&lta ) )
         {
             return lta->target;
         }

         timestamp( buf->value, &time );
         if ( time )
         {
             found = 1;
             break;
         }

         search_path = list_next( search_path );
     }

     if ( !found )
     {
         f->f_root.ptr = 0;
         f->f_root.len = 0;

         string_truncate( buf, 0 );
         path_build( f, buf, 1 );

         timestamp( buf->value, &time );
     }

     result = bindtarget( name );
     result->boundname = newstr( buf->value );
     result->time = time;
     result->binding = time ? T_BIND_EXISTS : T_BIND_MISSING;

     call_bind_rule( result->name, result->boundname );

     string_free( buf );

     return result;
 }


 /*
  * copytarget() - make a new target with the old target's name.
  *
  * Not entered into hash table -- for internal nodes.
  */

 TARGET * copytarget( const TARGET * ot )
 {
     TARGET * t = (TARGET *)BJAM_MALLOC( sizeof( *t ) );
     memset( (char *)t, '\0', sizeof( *t ) );
     t->name = copystr( ot->name );
     t->boundname = t->name;

     t->flags |= T_FLAG_NOTFILE | T_FLAG_INTERNAL;

     return t;
 }


 /*
  * touch_target() - mark a target to simulate being new.
  */

 void touch_target( char * t )
 {
     bindtarget( t )->flags |= T_FLAG_TOUCHED;
 }


 /*
  * targetlist() - turn list of target names into a TARGET chain.
  *
  * Inputs:
  *  chain   existing TARGETS to append to
  *  targets list of target names
  */

 TARGETS * targetlist( TARGETS * chain, LIST * target_names )
 {
     for ( ; target_names; target_names = list_next( target_names ) )
         chain = targetentry( chain, bindtarget( target_names->string ) );
     return chain;
 }


 /*
  * targetentry() - add a TARGET to a chain of TARGETS.
  *
  * Inputs:
  *  chain   existing TARGETS to append to
  *  target  new target to append
  */

 TARGETS * targetentry( TARGETS * chain, TARGET * target )
 {
     TARGETS * c = (TARGETS *)BJAM_MALLOC( sizeof( TARGETS ) );
     c->target = target;

     if ( !chain ) chain = c;
     else chain->tail->next = c;
     chain->tail = c;
     c->next = 0;

     return chain;
 }


 /*
  * targetchain() - append two TARGET chains.
  *
  * Inputs:
  *  chain   exisitng TARGETS to append to
  *  target  new target to append
  */

 TARGETS * targetchain( TARGETS * chain, TARGETS * targets )
 {
     if ( !targets ) return chain;
     if ( !chain   ) return targets;

     chain->tail->next = targets;
     chain->tail = targets->tail;

     return chain;
 }

 /*
  * actionlist() - append to an ACTION chain.
  */

 ACTIONS * actionlist( ACTIONS * chain, ACTION * action )
 {
     ACTIONS * actions = (ACTIONS *)BJAM_MALLOC( sizeof( ACTIONS ) );

     actions->action = action;

     if ( !chain ) chain = actions;
     else chain->tail->next = actions;
     chain->tail = actions;
     actions->next = 0;

     return chain;
 }

 static SETTINGS * settings_freelist;


 /*
  * addsettings() - add a deferred "set" command to a target.
  *
  * Adds a variable setting (varname=list) onto a chain of settings for a
  * particular target. 'flag' controls the relationship between new and old
  * values in the same way as in var_set() function (see variable.c). Returns
  * the head of the settings chain.
  */

 SETTINGS * addsettings( SETTINGS * head, int flag, char * symbol, LIST * value )
 {
     SETTINGS * v;

     /* Look for previous settings. */
     for ( v = head; v; v = v->next )
         if ( !strcmp( v->symbol, symbol ) )
             break;

     /* If not previously set, alloc a new. */
     /* If appending, do so. */
     /* Else free old and set new. */
     if ( !v )
     {
         v = settings_freelist;

         if ( v )
             settings_freelist = v->next;
         else
             v = (SETTINGS *)BJAM_MALLOC( sizeof( *v ) );

         v->symbol = newstr( symbol );
         v->value = value;
         v->next = head;
         head = v;
     }
     else if ( flag == VAR_APPEND )
     {
         v->value = list_append( v->value, value );
     }
     else if ( flag != VAR_DEFAULT )
     {
         list_free( v->value );
         v->value = value;
     }
     else
         list_free( value );

     /* Return (new) head of list. */
     return head;
 }


 /*
  * pushsettings() - set all target specific variables.
  */

 void pushsettings( SETTINGS * v )
 {
     for ( ; v; v = v->next )
         v->value = var_swap( v->symbol, v->value );
 }


 /*
  * popsettings() - reset target specific variables to their pre-push values.
  */

 void popsettings( SETTINGS * v )
 {
     pushsettings( v );  /* just swap again */
 }


 /*
  * copysettings() - duplicate a settings list, returning the new copy.
  */

 SETTINGS * copysettings( SETTINGS * head )
 {
     SETTINGS * copy = 0;
     SETTINGS * v;
     for ( v = head; v; v = v->next )
         copy = addsettings( copy, VAR_SET, v->symbol, list_copy( 0, v->value ) );
     return copy;
 }


 /*
  * freetargets() - delete a targets list.
  */

 void freetargets( TARGETS * chain )
 {
     while ( chain )
     {
         TARGETS * n = chain->next;
         BJAM_FREE( chain );
         chain = n;
     }
 }


 /*
  * freeactions() - delete an action list.
  */

 void freeactions( ACTIONS * chain )
 {
     while ( chain )
     {
         ACTIONS * n = chain->next;
         BJAM_FREE( chain );
         chain = n;
     }
 }


 /*
  * freesettings() - delete a settings list.
  */

 void freesettings( SETTINGS * v )
 {
     while ( v )
     {
         SETTINGS * n = v->next;
         freestr( v->symbol );
         list_free( v->value );
         v->next = settings_freelist;
         settings_freelist = v;
         v = n;
     }
 }


 static void freetarget( void * xt, void * data )
 {
     TARGET * t = (TARGET *)xt;
     if ( t->settings ) freesettings( t->settings            );
     if ( t->depends  ) freetargets ( t->depends             );
     if ( t->includes ) freetarget  ( t->includes, (void *)0 );
     if ( t->actions  ) freeactions ( t->actions             );
 }


 /*
  * rules_done() - free RULE and TARGET tables.
  */

 void rules_done()
 {
     hashenumerate( targethash, freetarget, 0 );
     hashdone( targethash );
     while ( settings_freelist )
     {
         SETTINGS * n = settings_freelist->next;
         BJAM_FREE( settings_freelist );
         settings_freelist = n;
     }
 }


 /*
  * args_new() - make a new reference-counted argument list.
  */

 argument_list * args_new()
 {
     argument_list * r = (argument_list *)BJAM_MALLOC( sizeof(argument_list) );
     r->reference_count = 0;
     lol_init( r->data );
     return r;
 }


 /*
  * args_refer() - add a new reference to the given argument list.
  */

 void args_refer( argument_list * a )
 {
     ++a->reference_count;
 }


 /*
  * args_free() - release a reference to the given argument list.
  */

 void args_free( argument_list * a )
 {
     if ( --a->reference_count <= 0 )
     {
         lol_free( a->data );
         BJAM_FREE( a );
     }
 }


 /*
  * actions_refer() - add a new reference to the given actions.
  */

 void actions_refer( rule_actions * a )
 {
     ++a->reference_count;
 }


 /*
  * actions_free() - release a reference to the given actions.
  */

 void actions_free( rule_actions * a )
 {
     if ( --a->reference_count <= 0 )
     {
         freestr( a->command );
         list_free( a->bindlist );
         BJAM_FREE( a );
     }
 }


 /*
  * set_rule_body() - set the argument list and procedure of the given rule.
  */

 static void set_rule_body( RULE * rule, argument_list * args, PARSE * procedure )
 {
     if ( args )
         args_refer( args );
     if ( rule->arguments )
         args_free( rule->arguments );
     rule->arguments = args;

     if ( procedure )
         parse_refer( procedure );
     if ( rule->procedure )
         parse_free( rule->procedure );
     rule->procedure = procedure;
 }


 /*
  * global_name() - given a rule, return the name for a corresponding rule in the
  * global module.
  */

 static char * global_rule_name( RULE * r )
 {
     if ( r->module == root_module() )
         return r->name;

     {
         char name[4096] = "";
         strncat( name, r->module->name, sizeof( name ) - 1 );
         strncat( name, r->name, sizeof( name ) - 1 );
         return newstr( name);
     }
 }


 /*
  * global_rule() - given a rule, produce the corresponding entry in the global
  * module.
  */

 static RULE * global_rule( RULE * r )
 {
     if ( r->module == root_module() )
         return r;

     {
         char * name = global_rule_name( r );
         RULE * result = define_rule( r->module, name, root_module() );
         freestr( name );
         return result;
     }
 }


 /*
  * new_rule_body() - make a new rule named rulename in the given module, with
  * the given argument list and procedure. If exported is true, the rule is
  * exported to the global module as modulename.rulename.
  */

 RULE * new_rule_body( module_t * m, char * rulename, argument_list * args, PARSE * procedure, int exported )
 {
     RULE * local = define_rule( m, rulename, m );
     local->exported = exported;
     set_rule_body( local, args, procedure );

     /* Mark the procedure with the global rule name, regardless of whether the
      * rule is exported. That gives us something reasonably identifiable that we
      * can use, e.g. in profiling output. Only do this once, since this could be
      * called multiple times with the same procedure.
      */
     if ( procedure->rulename == 0 )
         procedure->rulename = global_rule_name( local );

     return local;
 }


 static void set_rule_actions( RULE * rule, rule_actions * actions )
 {
     if ( actions )
         actions_refer( actions );
     if ( rule->actions )
         actions_free( rule->actions );
     rule->actions = actions;
 }


 static rule_actions * actions_new( char * command, LIST * bindlist, int flags )
 {
     rule_actions * result = (rule_actions *)BJAM_MALLOC( sizeof( rule_actions ) );
     result->command = copystr( command );
     result->bindlist = bindlist;
     result->flags = flags;
     result->reference_count = 0;
     return result;
 }


 RULE * new_rule_actions( module_t * m, char * rulename, char * command, LIST * bindlist, int flags )
 {
     RULE * local = define_rule( m, rulename, m );
     RULE * global = global_rule( local );
     set_rule_actions( local, actions_new( command, bindlist, flags ) );
     set_rule_actions( global, local->actions );
     return local;
 }


 /*
  * Looks for a rule in the specified module, and returns it, if found. First
  * checks if the rule is present in the module's rule table. Second, if name of
  * the rule is in the form name1.name2 and name1 is in the list of imported
  * modules, look in module 'name1' for rule 'name2'.
  */

 RULE * lookup_rule( char * rulename, module_t * m, int local_only )
 {
     RULE       rule;
     RULE     * r = &rule;
     RULE     * result = 0;
     module_t * original_module = m;

     r->name = rulename;

     if ( m->class_module )
         m = m->class_module;

     if ( m->rules && hashcheck( m->rules, (HASHDATA * *)&r ) )
         result = r;
     else if ( !local_only && m->imported_modules )
     {
         /* Try splitting the name into module and rule. */
         char *p = strchr( r->name, '.' ) ;
         if ( p )
         {
             *p = '\0';
             /* Now, r->name keeps the module name, and p+1 keeps the rule name.
              */
             if ( hashcheck( m->imported_modules, (HASHDATA * *)&r ) )
                 result = lookup_rule( p + 1, bindmodule( rulename ), 1 );
             *p = '.';
         }
     }

     if ( result )
     {
         if ( local_only && !result->exported )
             result = 0;
         else
         {
             /* Lookup started in class module. We have found a rule in class
              * module, which is marked for execution in that module, or in some
              * instances. Mark it for execution in the instance where we started
              * the lookup.
              */
             int execute_in_class = ( result->module == m );
             int execute_in_some_instance = ( result->module->class_module &&
                 ( result->module->class_module == m ) );
             if ( ( original_module != m ) &&
                 ( execute_in_class || execute_in_some_instance ) )
                 result->module = original_module;
         }
     }

     return result;
 }


 RULE * bindrule( char * rulename, module_t * m )
 {
     RULE * result = lookup_rule( rulename, m, 0 );
     if ( !result )
         result = lookup_rule( rulename, root_module(), 0 );
     /* We have only one caller, 'evaluate_rule', which will complain about
      * calling an undefined rule. We could issue the error here, but we do not
      * have the necessary information, such as frame.
      */
     if ( !result )
         result = enter_rule( rulename, m );
     return result;
 }


 RULE * import_rule( RULE * source, module_t * m, char * name )
 {
     RULE * dest = define_rule( source->module, name, m );
     set_rule_body( dest, source->arguments, source->procedure );
     set_rule_actions( dest, source->actions );
     return dest;
 }
	/*
	* Copyright 1993, 1995 Christopher Seiwald.
	*
	* This file is part of Jam - see jam.c for Copyright information.
	*/

	# include "jam.h"
	# include "lists.h"
	# include "parse.h"
	# include "variable.h"
	# include "rules.h"
	# include "newstr.h"
	# include "hash.h"
	# include "modules.h"
	# include "search.h"
	# include "lists.h"
	# include "pathsys.h"
	# include "timestamp.h"

	/* This file is ALSO:
	* Copyright 2001-2004 David Abrahams.
	* Distributed under the Boost Software License, Version 1.0.
	* (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
	*/

	/*
	* rules.c - access to RULEs, TARGETs, and ACTIONs
	*
	* External routines:
	*
	* bindrule() - return pointer to RULE, creating it if necessary.
	* bindtarget() - return pointer to TARGET, creating it if necessary.
	* touch_target() - mark a target to simulate being new.
	* targetlist() - turn list of target names into a TARGET chain.
	* targetentry() - add a TARGET to a chain of TARGETS.
	* actionlist() - append to an ACTION chain.
	* addsettings() - add a deferred "set" command to a target.
	* pushsettings() - set all target specific variables.
	* popsettings() - reset target specific variables to their pre-push values.
	* freesettings() - delete a settings list.
	* rules_done() - free RULE and TARGET tables.
	*
	* 04/12/94 (seiwald) - actionlist() now just appends a single action.
	* 08/23/94 (seiwald) - Support for '+=' (append to variable)
	*/

	static void set_rule_actions( RULE , rule_actions );
	static void set_rule_body ( RULE , argument_list , PARSE * procedure );

	static struct hash * targethash = 0;

	struct _located_target
	{
	char * file_name;
	TARGET * target;
	};
	typedef struct _located_target LOCATED_TARGET ;

	static struct hash * located_targets = 0;


	/*
	* target_include() - adds the 'included' TARGET to the list of targets included
	* by the 'including' TARGET. Such targets are modeled as dependencies of the
	* internal include node belonging to the 'including' TARGET.
	*/

	void target_include( TARGET * including, TARGET * included )
	{
	TARGET * internal;
	if ( !including->includes )
	{
	including->includes = copytarget( including );
	including->includes->original_target = including;
	}
	internal = including->includes;
	internal->depends = targetentry( internal->depends, included );
	}


	/*
	* enter_rule() - return pointer to RULE, creating it if necessary in
	* target_module.
	*/

	static RULE * enter_rule( char * rulename, module_t * target_module )
	{
	RULE rule;
	RULE * r = &rule;

	r->name = rulename;

	if ( hashenter( demand_rules( target_module ), (HASHDATA * *)&r ) )
	{
	r->name = newstr( rulename ); /* never freed */
	r->procedure = (PARSE *)0;
	r->module = 0;
	r->actions = 0;
	r->arguments = 0;
	r->exported = 0;
	r->module = target_module;
	#ifdef HAVE_PYTHON
	r->python_function = 0;
	#endif
	}
	return r;
	}


	/*
	* define_rule() - return pointer to RULE, creating it if necessary in
	* target_module. Prepare it to accept a body or action originating in
	* src_module.
	*/

	static RULE * define_rule
	(
	module_t * src_module,
	char * rulename,
	module_t * target_module
	)
	{
	RULE * r = enter_rule( rulename, target_module );
	if ( r->module != src_module ) /* if the rule was imported from elsewhere, clear it now */
	{
	set_rule_body( r, 0, 0 );
	set_rule_actions( r, 0 );
	r->module = src_module; /* r will be executed in the source module */
	}
	return r;
	}


	void rule_free( RULE * r )
	{
	freestr( r->name );
	r->name = "";
	parse_free( r->procedure );
	r->procedure = 0;
	if ( r->arguments )
	args_free( r->arguments );
	r->arguments = 0;
	if ( r->actions )
	actions_free( r->actions );
	r->actions = 0;
	}


	/*
	* bindtarget() - return pointer to TARGET, creating it if necessary.
	*/

	TARGET * bindtarget( char const * target_name )
	{
	TARGET target;
	TARGET * t = &target;

	if ( !targethash )
	targethash = hashinit( sizeof( TARGET ), "targets" );

	/* Perforce added const everywhere. No time to merge that change. */
	#ifdef NT
	target_name = short_path_to_long_path( (char *)target_name );
	#endif
	t->name = (char *)target_name;

	if ( hashenter( targethash, (HASHDATA * *)&t ) )
	{
	memset( (char )t, '\0', sizeof( t ) );
	t->name = newstr( (char )target_name ); / never freed */
	t->boundname = t->name; /* default for T_FLAG_NOTFILE */
	}

	return t;
	}


	static void bind_explicitly_located_target( void * xtarget, void * data )
	{
	TARGET * t = (TARGET *)xtarget;
	if ( !( t->flags & T_FLAG_NOTFILE ) )
	{
	/* Check if there's a setting for LOCATE */
	SETTINGS * s = t->settings;
	for ( ; s ; s = s->next )
	{
	if ( strcmp( s->symbol, "LOCATE" ) == 0 )
	{
	pushsettings( t->settings );
	/* We are binding a target with explicit LOCATE. So third
	* argument is of no use: nothing will be returned through it.
	*/
	t->boundname = search( t->name, &t->time, 0, 0 );
	popsettings( t->settings );
	break;
	}
	}
	}
	}


	void bind_explicitly_located_targets()
	{
	if ( targethash )
	hashenumerate( targethash, bind_explicitly_located_target, (void *)0 );
	}


	/* TODO: It is probably not a good idea to use functions in other modules like
	this. */
	void call_bind_rule( char * target, char * boundname );


	TARGET * search_for_target ( char * name, LIST * search_path )
	{
	PATHNAME f[1];
	string buf[1];
	LOCATED_TARGET lt;
	LOCATED_TARGET * lta = <
	time_t time;
	int found = 0;
	TARGET * result;

	string_new( buf );

	path_parse( name, f );

	f->f_grist.ptr = 0;
	f->f_grist.len = 0;

	while ( search_path )
	{
	f->f_root.ptr = search_path->string;
	f->f_root.len = strlen( search_path->string );

	string_truncate( buf, 0 );
	path_build( f, buf, 1 );

	lt.file_name = buf->value ;

	if ( !located_targets )
	located_targets = hashinit( sizeof(LOCATED_TARGET),
	"located targets" );

	if ( hashcheck( located_targets, (HASHDATA * *)&lta ) )
	{
	return lta->target;
	}

	timestamp( buf->value, &time );
	if ( time )
	{
	found = 1;
	break;
	}

	search_path = list_next( search_path );
	}

	if ( !found )
	{
	f->f_root.ptr = 0;
	f->f_root.len = 0;

	string_truncate( buf, 0 );
	path_build( f, buf, 1 );

	timestamp( buf->value, &time );
	}

	result = bindtarget( name );
	result->boundname = newstr( buf->value );
	result->time = time;
	result->binding = time ? T_BIND_EXISTS : T_BIND_MISSING;

	call_bind_rule( result->name, result->boundname );

	string_free( buf );

	return result;
	}


	/*
	* copytarget() - make a new target with the old target's name.
	*
	* Not entered into hash table -- for internal nodes.
	*/

	TARGET * copytarget( const TARGET * ot )
	{
	TARGET * t = (TARGET )BJAM_MALLOC( sizeof( t ) );
	memset( (char )t, '\0', sizeof( t ) );
	t->name = copystr( ot->name );
	t->boundname = t->name;

	t->flags \|= T_FLAG_NOTFILE \| T_FLAG_INTERNAL;

	return t;
	}


	/*
	* touch_target() - mark a target to simulate being new.
	*/

	void touch_target( char * t )
	{
	bindtarget( t )->flags \|= T_FLAG_TOUCHED;
	}


	/*
	* targetlist() - turn list of target names into a TARGET chain.
	*
	* Inputs:
	* chain existing TARGETS to append to
	* targets list of target names
	*/

	TARGETS * targetlist( TARGETS * chain, LIST * target_names )
	{
	for ( ; target_names; target_names = list_next( target_names ) )
	chain = targetentry( chain, bindtarget( target_names->string ) );
	return chain;
	}


	/*
	* targetentry() - add a TARGET to a chain of TARGETS.
	*
	* Inputs:
	* chain existing TARGETS to append to
	* target new target to append
	*/

	TARGETS * targetentry( TARGETS * chain, TARGET * target )
	{
	TARGETS * c = (TARGETS *)BJAM_MALLOC( sizeof( TARGETS ) );
	c->target = target;

	if ( !chain ) chain = c;
	else chain->tail->next = c;
	chain->tail = c;
	c->next = 0;

	return chain;
	}


	/*
	* targetchain() - append two TARGET chains.
	*
	* Inputs:
	* chain exisitng TARGETS to append to
	* target new target to append
	*/

	TARGETS * targetchain( TARGETS * chain, TARGETS * targets )
	{
	if ( !targets ) return chain;
	if ( !chain ) return targets;

	chain->tail->next = targets;
	chain->tail = targets->tail;

	return chain;
	}

	/*
	* actionlist() - append to an ACTION chain.
	*/

	ACTIONS * actionlist( ACTIONS * chain, ACTION * action )
	{
	ACTIONS * actions = (ACTIONS *)BJAM_MALLOC( sizeof( ACTIONS ) );

	actions->action = action;

	if ( !chain ) chain = actions;
	else chain->tail->next = actions;
	chain->tail = actions;
	actions->next = 0;

	return chain;
	}

	static SETTINGS * settings_freelist;


	/*
	* addsettings() - add a deferred "set" command to a target.
	*
	* Adds a variable setting (varname=list) onto a chain of settings for a
	* particular target. 'flag' controls the relationship between new and old
	* values in the same way as in var_set() function (see variable.c). Returns
	* the head of the settings chain.
	*/

	SETTINGS * addsettings( SETTINGS * head, int flag, char * symbol, LIST * value )
	{
	SETTINGS * v;

	/* Look for previous settings. */
	for ( v = head; v; v = v->next )
	if ( !strcmp( v->symbol, symbol ) )
	break;

	/* If not previously set, alloc a new. */
	/* If appending, do so. */
	/* Else free old and set new. */
	if ( !v )
	{
	v = settings_freelist;

	if ( v )
	settings_freelist = v->next;
	else
	v = (SETTINGS )BJAM_MALLOC( sizeof( v ) );

	v->symbol = newstr( symbol );
	v->value = value;
	v->next = head;
	head = v;
	}
	else if ( flag == VAR_APPEND )
	{
	v->value = list_append( v->value, value );
	}
	else if ( flag != VAR_DEFAULT )
	{
	list_free( v->value );
	v->value = value;
	}
	else
	list_free( value );

	/* Return (new) head of list. */
	return head;
	}


	/*
	* pushsettings() - set all target specific variables.
	*/

	void pushsettings( SETTINGS * v )
	{
	for ( ; v; v = v->next )
	v->value = var_swap( v->symbol, v->value );
	}


	/*
	* popsettings() - reset target specific variables to their pre-push values.
	*/

	void popsettings( SETTINGS * v )
	{
	pushsettings( v ); /* just swap again */
	}


	/*
	* copysettings() - duplicate a settings list, returning the new copy.
	*/

	SETTINGS * copysettings( SETTINGS * head )
	{
	SETTINGS * copy = 0;
	SETTINGS * v;
	for ( v = head; v; v = v->next )
	copy = addsettings( copy, VAR_SET, v->symbol, list_copy( 0, v->value ) );
	return copy;
	}


	/*
	* freetargets() - delete a targets list.
	*/

	void freetargets( TARGETS * chain )
	{
	while ( chain )
	{
	TARGETS * n = chain->next;
	BJAM_FREE( chain );
	chain = n;
	}
	}


	/*
	* freeactions() - delete an action list.
	*/

	void freeactions( ACTIONS * chain )
	{
	while ( chain )
	{
	ACTIONS * n = chain->next;
	BJAM_FREE( chain );
	chain = n;
	}
	}


	/*
	* freesettings() - delete a settings list.
	*/

	void freesettings( SETTINGS * v )
	{
	while ( v )
	{
	SETTINGS * n = v->next;
	freestr( v->symbol );
	list_free( v->value );
	v->next = settings_freelist;
	settings_freelist = v;
	v = n;
	}
	}


	static void freetarget( void * xt, void * data )
	{
	TARGET * t = (TARGET *)xt;
	if ( t->settings ) freesettings( t->settings );
	if ( t->depends ) freetargets ( t->depends );
	if ( t->includes ) freetarget ( t->includes, (void *)0 );
	if ( t->actions ) freeactions ( t->actions );
	}


	/*
	* rules_done() - free RULE and TARGET tables.
	*/

	void rules_done()
	{
	hashenumerate( targethash, freetarget, 0 );
	hashdone( targethash );
	while ( settings_freelist )
	{
	SETTINGS * n = settings_freelist->next;
	BJAM_FREE( settings_freelist );
	settings_freelist = n;
	}
	}


	/*
	* args_new() - make a new reference-counted argument list.
	*/

	argument_list * args_new()
	{
	argument_list * r = (argument_list *)BJAM_MALLOC( sizeof(argument_list) );
	r->reference_count = 0;
	lol_init( r->data );
	return r;
	}


	/*
	* args_refer() - add a new reference to the given argument list.
	*/

	void args_refer( argument_list * a )
	{
	++a->reference_count;
	}


	/*
	* args_free() - release a reference to the given argument list.
	*/

	void args_free( argument_list * a )
	{
	if ( --a->reference_count <= 0 )
	{
	lol_free( a->data );
	BJAM_FREE( a );
	}
	}


	/*
	* actions_refer() - add a new reference to the given actions.
	*/

	void actions_refer( rule_actions * a )
	{
	++a->reference_count;
	}


	/*
	* actions_free() - release a reference to the given actions.
	*/

	void actions_free( rule_actions * a )
	{
	if ( --a->reference_count <= 0 )
	{
	freestr( a->command );
	list_free( a->bindlist );
	BJAM_FREE( a );
	}
	}


	/*
	* set_rule_body() - set the argument list and procedure of the given rule.
	*/

	static void set_rule_body( RULE * rule, argument_list * args, PARSE * procedure )
	{
	if ( args )
	args_refer( args );
	if ( rule->arguments )
	args_free( rule->arguments );
	rule->arguments = args;

	if ( procedure )
	parse_refer( procedure );
	if ( rule->procedure )
	parse_free( rule->procedure );
	rule->procedure = procedure;
	}


	/*
	* global_name() - given a rule, return the name for a corresponding rule in the
	* global module.
	*/

	static char * global_rule_name( RULE * r )
	{
	if ( r->module == root_module() )
	return r->name;

	{
	char name[4096] = "";
	strncat( name, r->module->name, sizeof( name ) - 1 );
	strncat( name, r->name, sizeof( name ) - 1 );
	return newstr( name);
	}
	}


	/*
	* global_rule() - given a rule, produce the corresponding entry in the global
	* module.
	*/

	static RULE * global_rule( RULE * r )
	{
	if ( r->module == root_module() )
	return r;

	{
	char * name = global_rule_name( r );
	RULE * result = define_rule( r->module, name, root_module() );
	freestr( name );
	return result;
	}
	}


	/*
	* new_rule_body() - make a new rule named rulename in the given module, with
	* the given argument list and procedure. If exported is true, the rule is
	* exported to the global module as modulename.rulename.
	*/

	RULE * new_rule_body( module_t * m, char * rulename, argument_list * args, PARSE * procedure, int exported )
	{
	RULE * local = define_rule( m, rulename, m );
	local->exported = exported;
	set_rule_body( local, args, procedure );

	/* Mark the procedure with the global rule name, regardless of whether the
	* rule is exported. That gives us something reasonably identifiable that we
	* can use, e.g. in profiling output. Only do this once, since this could be
	* called multiple times with the same procedure.
	*/
	if ( procedure->rulename == 0 )
	procedure->rulename = global_rule_name( local );

	return local;
	}


	static void set_rule_actions( RULE * rule, rule_actions * actions )
	{
	if ( actions )
	actions_refer( actions );
	if ( rule->actions )
	actions_free( rule->actions );
	rule->actions = actions;
	}


	static rule_actions * actions_new( char * command, LIST * bindlist, int flags )
	{
	rule_actions * result = (rule_actions *)BJAM_MALLOC( sizeof( rule_actions ) );
	result->command = copystr( command );
	result->bindlist = bindlist;
	result->flags = flags;
	result->reference_count = 0;
	return result;
	}


	RULE * new_rule_actions( module_t * m, char * rulename, char * command, LIST * bindlist, int flags )
	{
	RULE * local = define_rule( m, rulename, m );
	RULE * global = global_rule( local );
	set_rule_actions( local, actions_new( command, bindlist, flags ) );
	set_rule_actions( global, local->actions );
	return local;
	}


	/*
	* Looks for a rule in the specified module, and returns it, if found. First
	* checks if the rule is present in the module's rule table. Second, if name of
	* the rule is in the form name1.name2 and name1 is in the list of imported
	* modules, look in module 'name1' for rule 'name2'.
	*/

	RULE * lookup_rule( char * rulename, module_t * m, int local_only )
	{
	RULE rule;
	RULE * r = &rule;
	RULE * result = 0;
	module_t * original_module = m;

	r->name = rulename;

	if ( m->class_module )
	m = m->class_module;

	if ( m->rules && hashcheck( m->rules, (HASHDATA * *)&r ) )
	result = r;
	else if ( !local_only && m->imported_modules )
	{
	/* Try splitting the name into module and rule. */
	char *p = strchr( r->name, '.' ) ;
	if ( p )
	{
	*p = '\0';
	/* Now, r->name keeps the module name, and p+1 keeps the rule name.
	*/
	if ( hashcheck( m->imported_modules, (HASHDATA * *)&r ) )
	result = lookup_rule( p + 1, bindmodule( rulename ), 1 );
	*p = '.';
	}
	}

	if ( result )
	{
	if ( local_only && !result->exported )
	result = 0;
	else
	{
	/* Lookup started in class module. We have found a rule in class
	* module, which is marked for execution in that module, or in some
	* instances. Mark it for execution in the instance where we started
	* the lookup.
	*/
	int execute_in_class = ( result->module == m );
	int execute_in_some_instance = ( result->module->class_module &&
	( result->module->class_module == m ) );
	if ( ( original_module != m ) &&
	( execute_in_class \|\| execute_in_some_instance ) )
	result->module = original_module;
	}
	}

	return result;
	}


	RULE * bindrule( char * rulename, module_t * m )
	{
	RULE * result = lookup_rule( rulename, m, 0 );
	if ( !result )
	result = lookup_rule( rulename, root_module(), 0 );
	/* We have only one caller, 'evaluate_rule', which will complain about
	* calling an undefined rule. We could issue the error here, but we do not
	* have the necessary information, such as frame.
	*/
	if ( !result )
	result = enter_rule( rulename, m );
	return result;
	}


	RULE * import_rule( RULE * source, module_t * m, char * name )
	{
	RULE * dest = define_rule( source->module, name, m );
	set_rule_body( dest, source->arguments, source->procedure );
	set_rule_actions( dest, source->actions );
	return dest;
	}