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

 /*
  * /+\
  * +\   Copyright 1993-2002 Christopher Seiwald and Perforce Software, Inc.
  * \+/
  *
  * This file is part of jam.
  *
  * License is hereby granted to use this software and distribute it freely, as
  * long as this copyright notice is retained and modifications are clearly
  * marked.
  *
  * ALL WARRANTIES ARE HEREBY DISCLAIMED.
  */

 /* 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 copy at
  * http://www.boost.org/LICENSE_1_0.txt)
  */

 /*
  * jam.c - make redux
  *
  * See Jam.html for usage information.
  *
  * These comments document the code.
  *
  * The top half of the code is structured such:
  *
  *                       jam
  *                      / | \
  *                 +---+  |  \
  *                /       |   \
  *         jamgram     option  \
  *        /  |   \              \
  *       /   |    \              \
  *      /    |     \             |
  *  scan     |     compile      make
  *   |       |    /  | \       / |  \
  *   |       |   /   |  \     /  |   \
  *   |       |  /    |   \   /   |    \
  * jambase parse     |   rules  search make1
  *                   |           |      |   \
  *                   |           |      |    \
  *                   |           |      |     \
  *               builtins    timestamp command execute
  *                               |
  *                               |
  *                               |
  *                             filesys
  *
  *
  * The support routines are called by all of the above, but themselves are
  * layered thus:
  *
  *                     variable|expand
  *                      /      |   |
  *                     /       |   |
  *                    /        |   |
  *                 lists       |   pathsys
  *                    \        |
  *                     \      hash
  *                      \      |
  *                       \     |
  *                        \    |
  *                         \   |
  *                          \  |
  *                         object
  *
  * Roughly, the modules are:
  *
  *  builtins.c - jam's built-in rules
  *  command.c - maintain lists of commands
  *  compile.c - compile parsed jam statements
  *  exec*.c - execute a shell script on a specific OS
  *  file*.c - scan directories and archives on a specific OS
  *  hash.c - simple in-memory hashing routines
  *  hdrmacro.c - handle header file parsing for filename macro definitions
  *  headers.c - handle #includes in source files
  *  jambase.c - compilable copy of Jambase
  *  jamgram.y - jam grammar
  *  lists.c - maintain lists of strings
  *  make.c - bring a target up to date, once rules are in place
  *  make1.c - execute command to bring targets up to date
  *  object.c - string manipulation routines
  *  option.c - command line option processing
  *  parse.c - make and destroy parse trees as driven by the parser
  *  path*.c - manipulate file names on a specific OS
  *  hash.c - simple in-memory hashing routines
  *  regexp.c - Henry Spencer's regexp
  *  rules.c - access to RULEs, TARGETs, and ACTIONs
  *  scan.c - the jam yacc scanner
  *  search.c - find a target along $(SEARCH) or $(LOCATE)
  *  timestamp.c - get the timestamp of a file or archive member
  *  variable.c - handle jam multi-element variables
  */


 #include "jam.h"
 #include "patchlevel.h"

 #include "builtins.h"
 #include "class.h"
 #include "compile.h"
 #include "constants.h"
 #include "filesys.h"
 #include "function.h"
 #include "hcache.h"
 #include "lists.h"
 #include "make.h"
 #include "object.h"
 #include "option.h"
 #include "output.h"
 #include "parse.h"
 #include "cwd.h"
 #include "rules.h"
 #include "scan.h"
 #include "search.h"
 #include "strings.h"
 #include "timestamp.h"
 #include "variable.h"

 /* Macintosh is "special" */
 #ifdef OS_MAC
 # include <QuickDraw.h>
 #endif

 /* And UNIX for this. */
 #ifdef unix
 # include <sys/utsname.h>
 # include <signal.h>
 #endif

 struct globs globs =
 {
     0,          /* noexec */
     1,          /* jobs */
     0,          /* quitquick */
     0,          /* newestfirst */
     0,          /* pipes action stdout and stderr merged to action output */
 #ifdef OS_MAC
     { 0, 0 },   /* debug - suppress tracing output */
 #else
     { 0, 1 },   /* debug ... */
 #endif
     0,          /* output commands, not run them */
     0,          /* action timeout */
     0           /* maximum buffer size zero is all output */
 };

 /* Symbols to be defined as true for use in Jambase. */
 static char * othersyms[] = { OSMAJOR, OSMINOR, OSPLAT, JAMVERSYM, 0 };


 /* Known for sure:
  *  mac needs arg_enviro
  *  OS2 needs extern environ
  */

 #ifdef OS_MAC
 # define use_environ arg_environ
 # ifdef MPW
     QDGlobals qd;
 # endif
 #endif

 /* on Win32-LCC */
 #if defined( OS_NT ) && defined( __LCC__ )
 # define use_environ _environ
 #endif

 #if defined( __MWERKS__)
 # define use_environ _environ
     extern char * * _environ;
 #endif

 #ifndef use_environ
 # define use_environ environ
 # if !defined( __WATCOM__ ) && !defined( OS_OS2 ) && !defined( OS_NT )
     extern char **environ;
 # endif
 #endif

 #if YYDEBUG != 0
     extern int yydebug;
 #endif

 #ifndef NDEBUG
 static void run_unit_tests()
 {
 # if defined( USE_EXECNT )
     extern void execnt_unit_test();
     execnt_unit_test();
 # endif
     string_unit_test();
 }
 #endif

 int anyhow = 0;

 #ifdef HAVE_PYTHON
     extern PyObject * bjam_call         ( PyObject * self, PyObject * args );
     extern PyObject * bjam_import_rule  ( PyObject * self, PyObject * args );
     extern PyObject * bjam_define_action( PyObject * self, PyObject * args );
     extern PyObject * bjam_variable     ( PyObject * self, PyObject * args );
     extern PyObject * bjam_backtrace    ( PyObject * self, PyObject * args );
     extern PyObject * bjam_caller       ( PyObject * self, PyObject * args );
 #endif

 void regex_done();

 char const * saved_argv0;

 int main( int argc, char * * argv, char * * arg_environ )
 {
     int                     n;
     char                  * s;
     struct bjam_option      optv[ N_OPTS ];
     char            const * all = "all";
     int                     status;
     int                     arg_c = argc;
     char          *       * arg_v = argv;
     char            const * progname = argv[ 0 ];
     module_t              * environ_module;

     saved_argv0 = argv[ 0 ];

     BJAM_MEM_INIT();

 #ifdef OS_MAC
     InitGraf( &qd.thePort );
 #endif

     --argc;
     ++argv;

     if ( getoptions( argc, argv, "-:l:m:d:j:p:f:gs:t:ano:qv", optv ) < 0 )
     {
         printf( "\nusage: %s [ options ] targets...\n\n", progname );

         printf( "-a      Build all targets, even if they are current.\n" );
         printf( "-dx     Set the debug level to x (0-9).\n" );
         printf( "-fx     Read x instead of Jambase.\n" );
         /* printf( "-g      Build from newest sources first.\n" ); */
         printf( "-jx     Run up to x shell commands concurrently.\n" );
         printf( "-lx     Limit actions to x number of seconds after which they are stopped.\n" );
         printf( "-mx     Maximum target output saved (kb), default is to save all output.\n" );
         printf( "-n      Don't actually execute the updating actions.\n" );
         printf( "-ox     Write the updating actions to file x.\n" );
         printf( "-px     x=0, pipes action stdout and stderr merged into action output.\n" );
         printf( "-q      Quit quickly as soon as a target fails.\n" );
         printf( "-sx=y   Set variable x=y, overriding environment.\n" );
         printf( "-tx     Rebuild x, even if it is up-to-date.\n" );
         printf( "-v      Print the version of jam and exit.\n" );
         printf( "--x     Option is ignored.\n\n" );

         exit( EXITBAD );
     }

     /* Version info. */
     if ( ( s = getoptval( optv, 'v', 0 ) ) )
     {
         printf( "Boost.Jam  Version %s. %s.\n", VERSION, OSMINOR );
         printf( "   Copyright 1993-2002 Christopher Seiwald and Perforce "
             "Software, Inc.\n" );
         printf( "   Copyright 2001 David Turner.\n" );
         printf( "   Copyright 2001-2004 David Abrahams.\n" );
         printf( "   Copyright 2002-2008 Rene Rivera.\n" );
         printf( "   Copyright 2003-2008 Vladimir Prus.\n" );
         return EXITOK;
     }

     /* Pick up interesting options. */
     if ( ( s = getoptval( optv, 'n', 0 ) ) )
     {
         ++globs.noexec;
         globs.debug[ 2 ] = 1;
     }

     if ( ( s = getoptval( optv, 'p', 0 ) ) )
     {
         /* Undocumented -p3 (acts like both -p1 -p2) means separate pipe action
          * stdout and stderr.
          */
         globs.pipe_action = atoi( s );
         if ( globs.pipe_action < 0 || 3 < globs.pipe_action )
         {
             printf( "Invalid pipe descriptor '%d', valid values are -p[0..3]."
                 "\n", globs.pipe_action );
             exit( EXITBAD );
         }
     }

     if ( ( s = getoptval( optv, 'q', 0 ) ) )
         globs.quitquick = 1;

     if ( ( s = getoptval( optv, 'a', 0 ) ) )
         anyhow++;

     if ( ( s = getoptval( optv, 'j', 0 ) ) )
     {
         globs.jobs = atoi( s );
         if ( globs.jobs < 1 || globs.jobs > MAXJOBS )
         {
             printf( "Invalid value for the '-j' option, valid values are 1 "
                 "through %d.\n", MAXJOBS );
             exit( EXITBAD );
         }
     }

     if ( ( s = getoptval( optv, 'g', 0 ) ) )
         globs.newestfirst = 1;

     if ( ( s = getoptval( optv, 'l', 0 ) ) )
         globs.timeout = atoi( s );

     if ( ( s = getoptval( optv, 'm', 0 ) ) )
         globs.max_buf = atoi( s ) * 1024;  /* convert to kb */

     /* Turn on/off debugging */
     for ( n = 0; ( s = getoptval( optv, 'd', n ) ); ++n )
     {
         int i;

         /* First -d, turn off defaults. */
         if ( !n )
             for ( i = 0; i < DEBUG_MAX; ++i )
                 globs.debug[i] = 0;

         i = atoi( s );

         if ( ( i < 0 ) || ( i >= DEBUG_MAX ) )
         {
             printf( "Invalid debug level '%s'.\n", s );
             continue;
         }

         /* n turns on levels 1-n. */
         /* +n turns on level n. */
         if ( *s == '+' )
             globs.debug[ i ] = 1;
         else while ( i )
             globs.debug[ i-- ] = 1;
     }

     constants_init();
     cwd_init();

     {
         PROFILE_ENTER( MAIN );

 #ifdef HAVE_PYTHON
         {
             PROFILE_ENTER( MAIN_PYTHON );
             Py_Initialize();
             {
                 static PyMethodDef BjamMethods[] = {
                     {"call", bjam_call, METH_VARARGS,
                      "Call the specified bjam rule."},
                     {"import_rule", bjam_import_rule, METH_VARARGS,
                      "Imports Python callable to bjam."},
                     {"define_action", bjam_define_action, METH_VARARGS,
                      "Defines a command line action."},
                     {"variable", bjam_variable, METH_VARARGS,
                      "Obtains a variable from bjam's global module."},
                     {"backtrace", bjam_backtrace, METH_VARARGS,
                      "Returns bjam backtrace from the last call into Python."},
                     {"caller", bjam_caller, METH_VARARGS,
                      "Returns the module from which the last call into Python is made."},
                     {NULL, NULL, 0, NULL}
                 };

                 Py_InitModule( "bjam", BjamMethods );
             }
             PROFILE_EXIT( MAIN_PYTHON );
         }
 #endif

 #ifndef NDEBUG
         run_unit_tests();
 #endif
 #if YYDEBUG != 0
         if ( DEBUG_PARSE )
             yydebug = 1;
 #endif

         /* Set JAMDATE. */
         {
             timestamp current;
             timestamp_current( &current );
             var_set( root_module(), constant_JAMDATE, list_new( outf_time(
                 &current ) ), VAR_SET );
         }

         /* Set JAM_VERSION. */
         var_set( root_module(), constant_JAM_VERSION,
                  list_push_back( list_push_back( list_new(
                    object_new( VERSION_MAJOR_SYM ) ),
                    object_new( VERSION_MINOR_SYM ) ),
                    object_new( VERSION_PATCH_SYM ) ),
                    VAR_SET );

         /* Set JAMUNAME. */
 #ifdef unix
         {
             struct utsname u;

             if ( uname( &u ) >= 0 )
             {
                 var_set( root_module(), constant_JAMUNAME,
                          list_push_back(
                              list_push_back(
                                  list_push_back(
                                      list_push_back(
                                          list_new(
                                             object_new( u.sysname ) ),
                                          object_new( u.nodename ) ),
                                      object_new( u.release ) ),
                                  object_new( u.version ) ),
                              object_new( u.machine ) ), VAR_SET );
             }
         }
 #endif  /* unix */

         /* Set JAM_TIMESTAMP_RESOLUTION. */
         {
             timestamp fmt_resolution[ 1 ];
             file_supported_fmt_resolution( fmt_resolution );
             var_set( root_module(), constant_JAM_TIMESTAMP_RESOLUTION, list_new(
                 object_new( timestamp_timestr( fmt_resolution ) ) ), VAR_SET );
         }

         /* Load up environment variables. */

         /* First into the global module, with splitting, for backward
          * compatibility.
          */
         var_defines( root_module(), use_environ, 1 );

         environ_module = bindmodule( constant_ENVIRON );
         /* Then into .ENVIRON, without splitting. */
         var_defines( environ_module, use_environ, 0 );

         /*
          * Jam defined variables OS & OSPLAT. We load them after environment, so
          * that setting OS in environment does not change Jam's notion of the
          * current platform.
          */
         var_defines( root_module(), othersyms, 1 );

         /* Load up variables set on command line. */
         for ( n = 0; ( s = getoptval( optv, 's', n ) ); ++n )
         {
             char * symv[ 2 ];
             symv[ 0 ] = s;
             symv[ 1 ] = 0;
             var_defines( root_module(), symv, 1 );
             var_defines( environ_module, symv, 0 );
         }

         /* Set the ARGV to reflect the complete list of arguments of invocation.
          */
         for ( n = 0; n < arg_c; ++n )
             var_set( root_module(), constant_ARGV, list_new( object_new(
                 arg_v[ n ] ) ), VAR_APPEND );

         /* Initialize built-in rules. */
         load_builtins();

         /* Add the targets in the command line to the update list. */
         for ( n = 1; n < arg_c; ++n )
         {
             if ( arg_v[ n ][ 0 ] == '-' )
             {
                 char * f = "-:l:d:j:f:gs:t:ano:qv";
                 for ( ; *f; ++f ) if ( *f == arg_v[ n ][ 1 ] ) break;
                 if ( ( f[ 1 ] == ':' ) && ( arg_v[ n ][ 2 ] == '\0' ) ) ++n;
             }
             else
             {
                 OBJECT * const target = object_new( arg_v[ n ] );
                 mark_target_for_updating( target );
                 object_free( target );
             }
         }

         if ( list_empty( targets_to_update() ) )
             mark_target_for_updating( constant_all );

         /* Parse ruleset. */
         {
             FRAME frame[ 1 ];
             frame_init( frame );
             for ( n = 0; ( s = getoptval( optv, 'f', n ) ); ++n )
             {
                 OBJECT * const filename = object_new( s );
                 parse_file( filename, frame );
                 object_free( filename );
             }

             if ( !n )
                 parse_file( constant_plus, frame );
         }

         status = yyanyerrors();

         /* Manually touch -t targets. */
         for ( n = 0; ( s = getoptval( optv, 't', n ) ); ++n )
         {
             OBJECT * const target = object_new( s );
             touch_target( target );
             object_free( target );
         }

         /* If an output file is specified, set globs.cmdout to that. */
         if ( ( s = getoptval( optv, 'o', 0 ) ) )
         {
             if ( !( globs.cmdout = fopen( s, "w" ) ) )
             {
                 printf( "Failed to write to '%s'\n", s );
                 exit( EXITBAD );
             }
             ++globs.noexec;
         }

         /* The build system may set the PARALLELISM variable to override -j
          * options.
          */
         {
             LIST * const p = var_get( root_module(), constant_PARALLELISM );
             if ( !list_empty( p ) )
             {
                 int const j = atoi( object_str( list_front( p ) ) );
                 if ( j < 1 || j > MAXJOBS )
                     printf( "Invalid value of PARALLELISM: %s. Valid values "
                         "are 1 through %d.\n", object_str( list_front( p ) ),
                         MAXJOBS );
                 else
                     globs.jobs = j;
             }
         }

         /* KEEP_GOING overrides -q option. */
         {
             LIST * const p = var_get( root_module(), constant_KEEP_GOING );
             if ( !list_empty( p ) )
                 globs.quitquick = atoi( object_str( list_front( p ) ) ) ? 0 : 1;
         }

         /* Now make target. */
         {
             PROFILE_ENTER( MAIN_MAKE );
             LIST * const targets = targets_to_update();
             if ( !list_empty( targets ) )
                 status |= make( targets, anyhow );
             else
                 status = last_update_now_status;
             PROFILE_EXIT( MAIN_MAKE );
         }

         PROFILE_EXIT( MAIN );
     }

     if ( DEBUG_PROFILE )
         profile_dump();


 #ifdef OPT_HEADER_CACHE_EXT
     hcache_done();
 #endif

     clear_targets_to_update();

     /* Widely scattered cleanup. */
     property_set_done();
     file_done();
     rules_done();
     timestamp_done();
     search_done();
     class_done();
     modules_done();
     regex_done();
     cwd_done();
     path_done();
     function_done();
     list_done();
     constants_done();
     object_done();

     /* Close cmdout. */
     if ( globs.cmdout )
         fclose( globs.cmdout );

 #ifdef HAVE_PYTHON
     Py_Finalize();
 #endif

     BJAM_MEM_CLOSE();

     return status ? EXITBAD : EXITOK;
 }


 /*
  * executable_path()
  */

 #if defined(_WIN32)
 # define WIN32_LEAN_AND_MEAN
 # include <windows.h>
 char * executable_path( char const * argv0 )
 {
     char buf[ 1024 ];
     DWORD const ret = GetModuleFileName( NULL, buf, sizeof( buf ) );
     return ( !ret || ret == sizeof( buf ) ) ? NULL : strdup( buf );
 }
 #elif defined(__APPLE__)  /* Not tested */
 # include <mach-o/dyld.h>
 char *executable_path( char const * argv0 )
 {
     char buf[ 1024 ];
     uint32_t size = sizeof( buf );
     return _NSGetExecutablePath( buf, &size ) ? NULL : strdup( buf );
 }
 #elif defined(sun) || defined(__sun)  /* Not tested */
 # include <stdlib.h>
 char * executable_path( char const * argv0 )
 {
     const char * execname = getexecname();
     return execname ? strdup( execname ) : NULL;
 }
 #elif defined(__FreeBSD__)
 # include <sys/sysctl.h>
 char * executable_path( char const * argv0 )
 {
     int mib[ 4 ] = { CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1 };
     char buf[ 1024 ];
     size_t size = sizeof( buf );
     sysctl( mib, 4, buf, &size, NULL, 0 );
     return ( !size || size == sizeof( buf ) ) ? NULL : strndup( buf, size );
 }
 #elif defined(__linux__)
 # include <unistd.h>
 char * executable_path( char const * argv0 )
 {
     char buf[ 1024 ];
     ssize_t const ret = readlink( "/proc/self/exe", buf, sizeof( buf ) );
     return ( !ret || ret == sizeof( buf ) ) ? NULL : strndup( buf, ret );
 }
 #else
 char * executable_path( char const * argv0 )
 {
     /* If argv0 is an absolute path, assume it is the right absolute path. */
     return argv0[ 0 ] == '/' ? strdup( argv0 ) : NULL;
 }
 #endif
	/*
	* /+\
	* +\ Copyright 1993-2002 Christopher Seiwald and Perforce Software, Inc.
	* \+/
	*
	* This file is part of jam.
	*
	* License is hereby granted to use this software and distribute it freely, as
	* long as this copyright notice is retained and modifications are clearly
	* marked.
	*
	* ALL WARRANTIES ARE HEREBY DISCLAIMED.
	*/

	/* 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 copy at
	* http://www.boost.org/LICENSE_1_0.txt)
	*/

	/*
	* jam.c - make redux
	*
	* See Jam.html for usage information.
	*
	* These comments document the code.
	*
	* The top half of the code is structured such:
	*
	* jam
	* / \| \
	* +---+ \| \
	* / \| \
	* jamgram option \
	* / \| \ \
	* / \| \ \
	* / \| \ \|
	* scan \| compile make
	* \| \| / \| \ / \| \
	* \| \| / \| \ / \| \
	* \| \| / \| \ / \| \
	* jambase parse \| rules search make1
	* \| \| \| \
	* \| \| \| \
	* \| \| \| \
	* builtins timestamp command execute
	* \|
	* \|
	* \|
	* filesys
	*
	*
	* The support routines are called by all of the above, but themselves are
	* layered thus:
	*
	* variable\|expand
	* / \| \|
	* / \| \|
	* / \| \|
	* lists \| pathsys
	* \ \|
	* \ hash
	* \ \|
	* \ \|
	* \ \|
	* \ \|
	* \ \|
	* object
	*
	* Roughly, the modules are:
	*
	* builtins.c - jam's built-in rules
	* command.c - maintain lists of commands
	* compile.c - compile parsed jam statements
	* exec*.c - execute a shell script on a specific OS
	* file*.c - scan directories and archives on a specific OS
	* hash.c - simple in-memory hashing routines
	* hdrmacro.c - handle header file parsing for filename macro definitions
	* headers.c - handle #includes in source files
	* jambase.c - compilable copy of Jambase
	* jamgram.y - jam grammar
	* lists.c - maintain lists of strings
	* make.c - bring a target up to date, once rules are in place
	* make1.c - execute command to bring targets up to date
	* object.c - string manipulation routines
	* option.c - command line option processing
	* parse.c - make and destroy parse trees as driven by the parser
	* path*.c - manipulate file names on a specific OS
	* hash.c - simple in-memory hashing routines
	* regexp.c - Henry Spencer's regexp
	* rules.c - access to RULEs, TARGETs, and ACTIONs
	* scan.c - the jam yacc scanner
	* search.c - find a target along $(SEARCH) or $(LOCATE)
	* timestamp.c - get the timestamp of a file or archive member
	* variable.c - handle jam multi-element variables
	*/


	#include "jam.h"
	#include "patchlevel.h"

	#include "builtins.h"
	#include "class.h"
	#include "compile.h"
	#include "constants.h"
	#include "filesys.h"
	#include "function.h"
	#include "hcache.h"
	#include "lists.h"
	#include "make.h"
	#include "object.h"
	#include "option.h"
	#include "output.h"
	#include "parse.h"
	#include "cwd.h"
	#include "rules.h"
	#include "scan.h"
	#include "search.h"
	#include "strings.h"
	#include "timestamp.h"
	#include "variable.h"

	/* Macintosh is "special" */
	#ifdef OS_MAC
	# include <QuickDraw.h>
	#endif

	/* And UNIX for this. */
	#ifdef unix
	# include <sys/utsname.h>
	# include <signal.h>
	#endif

	struct globs globs =
	{
	0, /* noexec */
	1, /* jobs */
	0, /* quitquick */
	0, /* newestfirst */
	0, /* pipes action stdout and stderr merged to action output */
	#ifdef OS_MAC
	{ 0, 0 }, /* debug - suppress tracing output */
	#else
	{ 0, 1 }, /* debug ... */
	#endif
	0, /* output commands, not run them */
	0, /* action timeout */
	0 /* maximum buffer size zero is all output */
	};

	/* Symbols to be defined as true for use in Jambase. */
	static char * othersyms[] = { OSMAJOR, OSMINOR, OSPLAT, JAMVERSYM, 0 };


	/* Known for sure:
	* mac needs arg_enviro
	* OS2 needs extern environ
	*/

	#ifdef OS_MAC
	# define use_environ arg_environ
	# ifdef MPW
	QDGlobals qd;
	# endif
	#endif

	/* on Win32-LCC */
	#if defined( OS_NT ) && defined( __LCC__ )
	# define use_environ _environ
	#endif

	#if defined( __MWERKS__)
	# define use_environ _environ
	extern char * * _environ;
	#endif

	#ifndef use_environ
	# define use_environ environ
	# if !defined( __WATCOM__ ) && !defined( OS_OS2 ) && !defined( OS_NT )
	extern char **environ;
	# endif
	#endif

	#if YYDEBUG != 0
	extern int yydebug;
	#endif

	#ifndef NDEBUG
	static void run_unit_tests()
	{
	# if defined( USE_EXECNT )
	extern void execnt_unit_test();
	execnt_unit_test();
	# endif
	string_unit_test();
	}
	#endif

	int anyhow = 0;

	#ifdef HAVE_PYTHON
	extern PyObject * bjam_call ( PyObject * self, PyObject * args );
	extern PyObject * bjam_import_rule ( PyObject * self, PyObject * args );
	extern PyObject * bjam_define_action( PyObject * self, PyObject * args );
	extern PyObject * bjam_variable ( PyObject * self, PyObject * args );
	extern PyObject * bjam_backtrace ( PyObject * self, PyObject * args );
	extern PyObject * bjam_caller ( PyObject * self, PyObject * args );
	#endif

	void regex_done();

	char const * saved_argv0;

	int main( int argc, char * * argv, char * * arg_environ )
	{
	int n;
	char * s;
	struct bjam_option optv[ N_OPTS ];
	char const * all = "all";
	int status;
	int arg_c = argc;
	char * * arg_v = argv;
	char const * progname = argv[ 0 ];
	module_t * environ_module;

	saved_argv0 = argv[ 0 ];

	BJAM_MEM_INIT();

	#ifdef OS_MAC
	InitGraf( &qd.thePort );
	#endif

	--argc;
	++argv;

	if ( getoptions( argc, argv, "-:l:m:d:j:p:f:gs:t:ano:qv", optv ) < 0 )
	{
	printf( "\nusage: %s [ options ] targets...\n\n", progname );

	printf( "-a Build all targets, even if they are current.\n" );
	printf( "-dx Set the debug level to x (0-9).\n" );
	printf( "-fx Read x instead of Jambase.\n" );
	/* printf( "-g Build from newest sources first.\n" ); */
	printf( "-jx Run up to x shell commands concurrently.\n" );
	printf( "-lx Limit actions to x number of seconds after which they are stopped.\n" );
	printf( "-mx Maximum target output saved (kb), default is to save all output.\n" );
	printf( "-n Don't actually execute the updating actions.\n" );
	printf( "-ox Write the updating actions to file x.\n" );
	printf( "-px x=0, pipes action stdout and stderr merged into action output.\n" );
	printf( "-q Quit quickly as soon as a target fails.\n" );
	printf( "-sx=y Set variable x=y, overriding environment.\n" );
	printf( "-tx Rebuild x, even if it is up-to-date.\n" );
	printf( "-v Print the version of jam and exit.\n" );
	printf( "--x Option is ignored.\n\n" );

	exit( EXITBAD );
	}

	/* Version info. */
	if ( ( s = getoptval( optv, 'v', 0 ) ) )
	{
	printf( "Boost.Jam Version %s. %s.\n", VERSION, OSMINOR );
	printf( " Copyright 1993-2002 Christopher Seiwald and Perforce "
	"Software, Inc.\n" );
	printf( " Copyright 2001 David Turner.\n" );
	printf( " Copyright 2001-2004 David Abrahams.\n" );
	printf( " Copyright 2002-2008 Rene Rivera.\n" );
	printf( " Copyright 2003-2008 Vladimir Prus.\n" );
	return EXITOK;
	}

	/* Pick up interesting options. */
	if ( ( s = getoptval( optv, 'n', 0 ) ) )
	{
	++globs.noexec;
	globs.debug[ 2 ] = 1;
	}

	if ( ( s = getoptval( optv, 'p', 0 ) ) )
	{
	/* Undocumented -p3 (acts like both -p1 -p2) means separate pipe action
	* stdout and stderr.
	*/
	globs.pipe_action = atoi( s );
	if ( globs.pipe_action < 0 \|\| 3 < globs.pipe_action )
	{
	printf( "Invalid pipe descriptor '%d', valid values are -p[0..3]."
	"\n", globs.pipe_action );
	exit( EXITBAD );
	}
	}

	if ( ( s = getoptval( optv, 'q', 0 ) ) )
	globs.quitquick = 1;

	if ( ( s = getoptval( optv, 'a', 0 ) ) )
	anyhow++;

	if ( ( s = getoptval( optv, 'j', 0 ) ) )
	{
	globs.jobs = atoi( s );
	if ( globs.jobs < 1 \|\| globs.jobs > MAXJOBS )
	{
	printf( "Invalid value for the '-j' option, valid values are 1 "
	"through %d.\n", MAXJOBS );
	exit( EXITBAD );
	}
	}

	if ( ( s = getoptval( optv, 'g', 0 ) ) )
	globs.newestfirst = 1;

	if ( ( s = getoptval( optv, 'l', 0 ) ) )
	globs.timeout = atoi( s );

	if ( ( s = getoptval( optv, 'm', 0 ) ) )
	globs.max_buf = atoi( s ) * 1024; /* convert to kb */

	/* Turn on/off debugging */
	for ( n = 0; ( s = getoptval( optv, 'd', n ) ); ++n )
	{
	int i;

	/* First -d, turn off defaults. */
	if ( !n )
	for ( i = 0; i < DEBUG_MAX; ++i )
	globs.debug[i] = 0;

	i = atoi( s );

	if ( ( i < 0 ) \|\| ( i >= DEBUG_MAX ) )
	{
	printf( "Invalid debug level '%s'.\n", s );
	continue;
	}

	/* n turns on levels 1-n. */
	/* +n turns on level n. */
	if ( *s == '+' )
	globs.debug[ i ] = 1;
	else while ( i )
	globs.debug[ i-- ] = 1;
	}

	constants_init();
	cwd_init();

	{
	PROFILE_ENTER( MAIN );

	#ifdef HAVE_PYTHON
	{
	PROFILE_ENTER( MAIN_PYTHON );
	Py_Initialize();
	{
	static PyMethodDef BjamMethods[] = {
	{"call", bjam_call, METH_VARARGS,
	"Call the specified bjam rule."},
	{"import_rule", bjam_import_rule, METH_VARARGS,
	"Imports Python callable to bjam."},
	{"define_action", bjam_define_action, METH_VARARGS,
	"Defines a command line action."},
	{"variable", bjam_variable, METH_VARARGS,
	"Obtains a variable from bjam's global module."},
	{"backtrace", bjam_backtrace, METH_VARARGS,
	"Returns bjam backtrace from the last call into Python."},
	{"caller", bjam_caller, METH_VARARGS,
	"Returns the module from which the last call into Python is made."},
	{NULL, NULL, 0, NULL}
	};

	Py_InitModule( "bjam", BjamMethods );
	}
	PROFILE_EXIT( MAIN_PYTHON );
	}
	#endif

	#ifndef NDEBUG
	run_unit_tests();
	#endif
	#if YYDEBUG != 0
	if ( DEBUG_PARSE )
	yydebug = 1;
	#endif

	/* Set JAMDATE. */
	{
	timestamp current;
	timestamp_current( &current );
	var_set( root_module(), constant_JAMDATE, list_new( outf_time(
	&current ) ), VAR_SET );
	}

	/* Set JAM_VERSION. */
	var_set( root_module(), constant_JAM_VERSION,
	list_push_back( list_push_back( list_new(
	object_new( VERSION_MAJOR_SYM ) ),
	object_new( VERSION_MINOR_SYM ) ),
	object_new( VERSION_PATCH_SYM ) ),
	VAR_SET );

	/* Set JAMUNAME. */
	#ifdef unix
	{
	struct utsname u;

	if ( uname( &u ) >= 0 )
	{
	var_set( root_module(), constant_JAMUNAME,
	list_push_back(
	list_push_back(
	list_push_back(
	list_push_back(
	list_new(
	object_new( u.sysname ) ),
	object_new( u.nodename ) ),
	object_new( u.release ) ),
	object_new( u.version ) ),
	object_new( u.machine ) ), VAR_SET );
	}
	}
	#endif /* unix */

	/* Set JAM_TIMESTAMP_RESOLUTION. */
	{
	timestamp fmt_resolution[ 1 ];
	file_supported_fmt_resolution( fmt_resolution );
	var_set( root_module(), constant_JAM_TIMESTAMP_RESOLUTION, list_new(
	object_new( timestamp_timestr( fmt_resolution ) ) ), VAR_SET );
	}

	/* Load up environment variables. */

	/* First into the global module, with splitting, for backward
	* compatibility.
	*/
	var_defines( root_module(), use_environ, 1 );

	environ_module = bindmodule( constant_ENVIRON );
	/* Then into .ENVIRON, without splitting. */
	var_defines( environ_module, use_environ, 0 );

	/*
	* Jam defined variables OS & OSPLAT. We load them after environment, so
	* that setting OS in environment does not change Jam's notion of the
	* current platform.
	*/
	var_defines( root_module(), othersyms, 1 );

	/* Load up variables set on command line. */
	for ( n = 0; ( s = getoptval( optv, 's', n ) ); ++n )
	{
	char * symv[ 2 ];
	symv[ 0 ] = s;
	symv[ 1 ] = 0;
	var_defines( root_module(), symv, 1 );
	var_defines( environ_module, symv, 0 );
	}

	/* Set the ARGV to reflect the complete list of arguments of invocation.
	*/
	for ( n = 0; n < arg_c; ++n )
	var_set( root_module(), constant_ARGV, list_new( object_new(
	arg_v[ n ] ) ), VAR_APPEND );

	/* Initialize built-in rules. */
	load_builtins();

	/* Add the targets in the command line to the update list. */
	for ( n = 1; n < arg_c; ++n )
	{
	if ( arg_v[ n ][ 0 ] == '-' )
	{
	char * f = "-:l:d:j:f:gs:t:ano:qv";
	for ( ; f; ++f ) if ( f == arg_v[ n ][ 1 ] ) break;
	if ( ( f[ 1 ] == ':' ) && ( arg_v[ n ][ 2 ] == '\0' ) ) ++n;
	}
	else
	{
	OBJECT * const target = object_new( arg_v[ n ] );
	mark_target_for_updating( target );
	object_free( target );
	}
	}

	if ( list_empty( targets_to_update() ) )
	mark_target_for_updating( constant_all );

	/* Parse ruleset. */
	{
	FRAME frame[ 1 ];
	frame_init( frame );
	for ( n = 0; ( s = getoptval( optv, 'f', n ) ); ++n )
	{
	OBJECT * const filename = object_new( s );
	parse_file( filename, frame );
	object_free( filename );
	}

	if ( !n )
	parse_file( constant_plus, frame );
	}

	status = yyanyerrors();

	/* Manually touch -t targets. */
	for ( n = 0; ( s = getoptval( optv, 't', n ) ); ++n )
	{
	OBJECT * const target = object_new( s );
	touch_target( target );
	object_free( target );
	}

	/* If an output file is specified, set globs.cmdout to that. */
	if ( ( s = getoptval( optv, 'o', 0 ) ) )
	{
	if ( !( globs.cmdout = fopen( s, "w" ) ) )
	{
	printf( "Failed to write to '%s'\n", s );
	exit( EXITBAD );
	}
	++globs.noexec;
	}

	/* The build system may set the PARALLELISM variable to override -j
	* options.
	*/
	{
	LIST * const p = var_get( root_module(), constant_PARALLELISM );
	if ( !list_empty( p ) )
	{
	int const j = atoi( object_str( list_front( p ) ) );
	if ( j < 1 \|\| j > MAXJOBS )
	printf( "Invalid value of PARALLELISM: %s. Valid values "
	"are 1 through %d.\n", object_str( list_front( p ) ),
	MAXJOBS );
	else
	globs.jobs = j;
	}
	}

	/* KEEP_GOING overrides -q option. */
	{
	LIST * const p = var_get( root_module(), constant_KEEP_GOING );
	if ( !list_empty( p ) )
	globs.quitquick = atoi( object_str( list_front( p ) ) ) ? 0 : 1;
	}

	/* Now make target. */
	{
	PROFILE_ENTER( MAIN_MAKE );
	LIST * const targets = targets_to_update();
	if ( !list_empty( targets ) )
	status \|= make( targets, anyhow );
	else
	status = last_update_now_status;
	PROFILE_EXIT( MAIN_MAKE );
	}

	PROFILE_EXIT( MAIN );
	}

	if ( DEBUG_PROFILE )
	profile_dump();


	#ifdef OPT_HEADER_CACHE_EXT
	hcache_done();
	#endif

	clear_targets_to_update();

	/* Widely scattered cleanup. */
	property_set_done();
	file_done();
	rules_done();
	timestamp_done();
	search_done();
	class_done();
	modules_done();
	regex_done();
	cwd_done();
	path_done();
	function_done();
	list_done();
	constants_done();
	object_done();

	/* Close cmdout. */
	if ( globs.cmdout )
	fclose( globs.cmdout );

	#ifdef HAVE_PYTHON
	Py_Finalize();
	#endif

	BJAM_MEM_CLOSE();

	return status ? EXITBAD : EXITOK;
	}


	/*
	* executable_path()
	*/

	#if defined(_WIN32)
	# define WIN32_LEAN_AND_MEAN
	# include <windows.h>
	char * executable_path( char const * argv0 )
	{
	char buf[ 1024 ];
	DWORD const ret = GetModuleFileName( NULL, buf, sizeof( buf ) );
	return ( !ret \|\| ret == sizeof( buf ) ) ? NULL : strdup( buf );
	}
	#elif defined(__APPLE__) /* Not tested */
	# include <mach-o/dyld.h>
	char executable_path( char const argv0 )
	{
	char buf[ 1024 ];
	uint32_t size = sizeof( buf );
	return _NSGetExecutablePath( buf, &size ) ? NULL : strdup( buf );
	}
	#elif defined(sun) \|\| defined(__sun) /* Not tested */
	# include <stdlib.h>
	char * executable_path( char const * argv0 )
	{
	const char * execname = getexecname();
	return execname ? strdup( execname ) : NULL;
	}
	#elif defined(__FreeBSD__)
	# include <sys/sysctl.h>
	char * executable_path( char const * argv0 )
	{
	int mib[ 4 ] = { CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1 };
	char buf[ 1024 ];
	size_t size = sizeof( buf );
	sysctl( mib, 4, buf, &size, NULL, 0 );
	return ( !size \|\| size == sizeof( buf ) ) ? NULL : strndup( buf, size );
	}
	#elif defined(__linux__)
	# include <unistd.h>
	char * executable_path( char const * argv0 )
	{
	char buf[ 1024 ];
	ssize_t const ret = readlink( "/proc/self/exe", buf, sizeof( buf ) );
	return ( !ret \|\| ret == sizeof( buf ) ) ? NULL : strndup( buf, ret );
	}
	#else
	char * executable_path( char const * argv0 )
	{
	/* If argv0 is an absolute path, assume it is the right absolute path. */
	return argv0[ 0 ] == '/' ? strdup( argv0 ) : NULL;
	}
	#endif