boost/tools/build/src/engine/compile.c - nest-cam/4320010/boost - Git at Google

 /*
  * Copyright 1993, 2000 Christopher Seiwald.
  *
  * This file is part of Jam - see jam.c for Copyright information.
  */

 /*  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)
  */

 /*
  * compile.c - compile parsed jam statements
  *
  * External routines:
  *  evaluate_rule() - execute a rule invocation
  *
  * Internal routines:
  *  debug_compile() - printf with indent to show rule expansion
  */

 #include "jam.h"
 #include "compile.h"

 #include "builtins.h"
 #include "class.h"
 #include "constants.h"
 #include "hash.h"
 #include "hdrmacro.h"
 #include "make.h"
 #include "modules.h"
 #include "parse.h"
 #include "rules.h"
 #include "search.h"
 #include "strings.h"
 #include "variable.h"

 #include <assert.h>
 #include <stdarg.h>
 #include <string.h>


 static void debug_compile( int which, char const * s, FRAME * );

 /* Internal functions from builtins.c */
 void backtrace( FRAME * );
 void backtrace_line( FRAME * );
 void print_source_line( FRAME * );
 void unknown_rule( FRAME *, char const * key, module_t *, OBJECT * rule_name );


 /*
  * evaluate_rule() - execute a rule invocation
  */

 LIST * evaluate_rule( RULE * rule, OBJECT * rulename, FRAME * frame )
 {
     LIST          * result = L0;
     profile_frame   prof[ 1 ];
     module_t      * prev_module = frame->module;

     if ( DEBUG_COMPILE )
     {
         /* Try hard to indicate in which module the rule is going to execute. */
         char buf[ 256 ] = "";
         if ( rule->module->name )
         {
             strncat( buf, object_str( rule->module->name ), sizeof( buf ) -
                 1 );
             strncat( buf, ".", sizeof( buf ) - 1 );
             if ( strncmp( buf, object_str( rule->name ), strlen( buf ) ) == 0 )
             {
                 buf[ 0 ] = 0;
             }
         }
         strncat( buf, object_str( rule->name ), sizeof( buf ) - 1 );
         debug_compile( 1, buf, frame );

         lol_print( frame->args );
         printf( "\n" );
     }

     if ( rule->procedure && rule->module != prev_module )
     {
         /* Propagate current module to nested rule invocations. */
         frame->module = rule->module;
     }

     /* Record current rule name in frame. */
     if ( rule->procedure )
     {
         frame->rulename = object_str( rulename );
         /* And enter record profile info. */
         if ( DEBUG_PROFILE )
             profile_enter( function_rulename( rule->procedure ), prof );
     }

     /* Check traditional targets $(<) and sources $(>). */
     if ( !rule->actions && !rule->procedure )
         unknown_rule( frame, NULL, frame->module, rule->name );

     /* If this rule will be executed for updating the targets then construct the
      * action for make().
      */
     if ( rule->actions )
     {
         TARGETS * t;

         /* The action is associated with this instance of this rule. */
         ACTION * const action = (ACTION *)BJAM_MALLOC( sizeof( ACTION ) );
         memset( (char *)action, '\0', sizeof( *action ) );

         action->rule = rule;
         action->targets = targetlist( (TARGETS *)0, lol_get( frame->args, 0 ) );
         action->sources = targetlist( (TARGETS *)0, lol_get( frame->args, 1 ) );
         action->refs = 1;

         /* If we have a group of targets all being built using the same action
          * and any of these targets is updated, then we have to consider them
          * all to be out-dated.  We do this by adding a REBUILDS in both directions
          * between the first target and all the other targets.
          */
         if ( action->targets )
         {
             TARGET * const t0 = action->targets->target;
             for ( t = action->targets->next; t; t = t->next )
             {
                 t->target->rebuilds = targetentry( t->target->rebuilds, t0 );
                 t0->rebuilds = targetentry( t0->rebuilds, t->target );
             }
         }

         /* Append this action to the actions of each target. */
         for ( t = action->targets; t; t = t->next )
             t->target->actions = actionlist( t->target->actions, action );

         action_free( action );
     }

     /* Now recursively compile any parse tree associated with this rule.
      * function_refer()/function_free() call pair added to ensure the rule does
      * not get freed while in use.
      */
     if ( rule->procedure )
     {
         FUNCTION * const function = rule->procedure;
         function_refer( function );
         result = function_run( function, frame, stack_global() );
         function_free( function );
     }

     if ( DEBUG_PROFILE && rule->procedure )
         profile_exit( prof );

     if ( DEBUG_COMPILE )
         debug_compile( -1, 0, frame );

     return result;
 }


 /*
  * Call the given rule with the specified parameters. The parameters should be
  * of type LIST* and end with a NULL pointer. This differs from 'evaluate_rule'
  * in that frame for the called rule is prepared inside 'call_rule'.
  *
  * This function is useful when a builtin rule (in C) wants to call another rule
  * which might be implemented in Jam.
  */

 LIST * call_rule( OBJECT * rulename, FRAME * caller_frame, ... )
 {
     va_list va;
     LIST * result;

     FRAME inner[ 1 ];
     frame_init( inner );
     inner->prev = caller_frame;
     inner->prev_user = caller_frame->module->user_module
         ? caller_frame
         : caller_frame->prev_user;
     inner->module = caller_frame->module;

     va_start( va, caller_frame );
     for ( ; ; )
     {
         LIST * const l = va_arg( va, LIST * );
         if ( !l )
             break;
         lol_add( inner->args, l );
     }
     va_end( va );

     result = evaluate_rule( bindrule( rulename, inner->module ), rulename, inner );

     frame_free( inner );

     return result;
 }


 /*
  * debug_compile() - printf with indent to show rule expansion
  */

 static void debug_compile( int which, char const * s, FRAME * frame )
 {
     static int level = 0;
     static char indent[ 36 ] = ">>>>|>>>>|>>>>|>>>>|>>>>|>>>>|>>>>|";

     if ( which >= 0 )
     {
         int i;

         print_source_line( frame );

         i = ( level + 1 ) * 2;
         while ( i > 35 )
         {
             fputs( indent, stdout );
             i -= 35;
         }

         printf( "%*.*s ", i, i, indent );
     }

     if ( s )
         printf( "%s ", s );

     level += which;
 }
	/*
	* Copyright 1993, 2000 Christopher Seiwald.
	*
	* This file is part of Jam - see jam.c for Copyright information.
	*/

	/* 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)
	*/

	/*
	* compile.c - compile parsed jam statements
	*
	* External routines:
	* evaluate_rule() - execute a rule invocation
	*
	* Internal routines:
	* debug_compile() - printf with indent to show rule expansion
	*/

	#include "jam.h"
	#include "compile.h"

	#include "builtins.h"
	#include "class.h"
	#include "constants.h"
	#include "hash.h"
	#include "hdrmacro.h"
	#include "make.h"
	#include "modules.h"
	#include "parse.h"
	#include "rules.h"
	#include "search.h"
	#include "strings.h"
	#include "variable.h"

	#include <assert.h>
	#include <stdarg.h>
	#include <string.h>


	static void debug_compile( int which, char const * s, FRAME * );

	/* Internal functions from builtins.c */
	void backtrace( FRAME * );
	void backtrace_line( FRAME * );
	void print_source_line( FRAME * );
	void unknown_rule( FRAME , char const key, module_t , OBJECT rule_name );


	/*
	* evaluate_rule() - execute a rule invocation
	*/

	LIST * evaluate_rule( RULE * rule, OBJECT * rulename, FRAME * frame )
	{
	LIST * result = L0;
	profile_frame prof[ 1 ];
	module_t * prev_module = frame->module;

	if ( DEBUG_COMPILE )
	{
	/* Try hard to indicate in which module the rule is going to execute. */
	char buf[ 256 ] = "";
	if ( rule->module->name )
	{
	strncat( buf, object_str( rule->module->name ), sizeof( buf ) -
	1 );
	strncat( buf, ".", sizeof( buf ) - 1 );
	if ( strncmp( buf, object_str( rule->name ), strlen( buf ) ) == 0 )
	{
	buf[ 0 ] = 0;
	}
	}
	strncat( buf, object_str( rule->name ), sizeof( buf ) - 1 );
	debug_compile( 1, buf, frame );

	lol_print( frame->args );
	printf( "\n" );
	}

	if ( rule->procedure && rule->module != prev_module )
	{
	/* Propagate current module to nested rule invocations. */
	frame->module = rule->module;
	}

	/* Record current rule name in frame. */
	if ( rule->procedure )
	{
	frame->rulename = object_str( rulename );
	/* And enter record profile info. */
	if ( DEBUG_PROFILE )
	profile_enter( function_rulename( rule->procedure ), prof );
	}

	/* Check traditional targets $(<) and sources $(>). */
	if ( !rule->actions && !rule->procedure )
	unknown_rule( frame, NULL, frame->module, rule->name );

	/* If this rule will be executed for updating the targets then construct the
	* action for make().
	*/
	if ( rule->actions )
	{
	TARGETS * t;

	/* The action is associated with this instance of this rule. */
	ACTION * const action = (ACTION *)BJAM_MALLOC( sizeof( ACTION ) );
	memset( (char )action, '\0', sizeof( action ) );

	action->rule = rule;
	action->targets = targetlist( (TARGETS *)0, lol_get( frame->args, 0 ) );
	action->sources = targetlist( (TARGETS *)0, lol_get( frame->args, 1 ) );
	action->refs = 1;

	/* If we have a group of targets all being built using the same action
	* and any of these targets is updated, then we have to consider them
	* all to be out-dated. We do this by adding a REBUILDS in both directions
	* between the first target and all the other targets.
	*/
	if ( action->targets )
	{
	TARGET * const t0 = action->targets->target;
	for ( t = action->targets->next; t; t = t->next )
	{
	t->target->rebuilds = targetentry( t->target->rebuilds, t0 );
	t0->rebuilds = targetentry( t0->rebuilds, t->target );
	}
	}

	/* Append this action to the actions of each target. */
	for ( t = action->targets; t; t = t->next )
	t->target->actions = actionlist( t->target->actions, action );

	action_free( action );
	}

	/* Now recursively compile any parse tree associated with this rule.
	* function_refer()/function_free() call pair added to ensure the rule does
	* not get freed while in use.
	*/
	if ( rule->procedure )
	{
	FUNCTION * const function = rule->procedure;
	function_refer( function );
	result = function_run( function, frame, stack_global() );
	function_free( function );
	}

	if ( DEBUG_PROFILE && rule->procedure )
	profile_exit( prof );

	if ( DEBUG_COMPILE )
	debug_compile( -1, 0, frame );

	return result;
	}


	/*
	* Call the given rule with the specified parameters. The parameters should be
	* of type LIST* and end with a NULL pointer. This differs from 'evaluate_rule'
	* in that frame for the called rule is prepared inside 'call_rule'.
	*
	* This function is useful when a builtin rule (in C) wants to call another rule
	* which might be implemented in Jam.
	*/

	LIST * call_rule( OBJECT * rulename, FRAME * caller_frame, ... )
	{
	va_list va;
	LIST * result;

	FRAME inner[ 1 ];
	frame_init( inner );
	inner->prev = caller_frame;
	inner->prev_user = caller_frame->module->user_module
	? caller_frame
	: caller_frame->prev_user;
	inner->module = caller_frame->module;

	va_start( va, caller_frame );
	for ( ; ; )
	{
	LIST * const l = va_arg( va, LIST * );
	if ( !l )
	break;
	lol_add( inner->args, l );
	}
	va_end( va );

	result = evaluate_rule( bindrule( rulename, inner->module ), rulename, inner );

	frame_free( inner );

	return result;
	}


	/*
	* debug_compile() - printf with indent to show rule expansion
	*/

	static void debug_compile( int which, char const * s, FRAME * frame )
	{
	static int level = 0;
	static char indent[ 36 ] = ">>>>\|>>>>\|>>>>\|>>>>\|>>>>\|>>>>\|>>>>\|";

	if ( which >= 0 )
	{
	int i;

	print_source_line( frame );

	i = ( level + 1 ) * 2;
	while ( i > 35 )
	{
	fputs( indent, stdout );
	i -= 35;
	}

	printf( "%.s ", i, i, indent );
	}

	if ( s )
	printf( "%s ", s );

	level += which;
	}