boost_1_45_0/tools/build/v2/util/os.jam - nest-learning-thermostat/5.0/boost - Git at Google

 # Copyright 2001, 2002, 2003, 2005 Dave Abrahams
 # Copyright 2006 Rene Rivera
 # Copyright 2003, 2005 Vladimir Prus
 # 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)

 import modules ;
 import string ;


 # Return the value(s) of the given environment variable(s) at the time bjam was
 # invoked.
 rule environ ( variable-names + )
 {
     return [ modules.peek .ENVIRON : $(variable-names) ] ;
 }

 .name = [ modules.peek : OS ] ;
 .platform = [ modules.peek : OSPLAT ] ;
 .version = [ modules.peek : OSVER ] ;


 local rule constant ( c : os ? )
 {
     os ?= $(.name) ;
     # First look for a platform-specific name, then the general value.
     local variables = .$(c)-$(os) .$(c) ;
     local result = $($(variables)) ;
     return $(result[1]) ;
 }

 rule get-constant ( os ? )
 {
     # Find the name of the constant being accessed, which is equal to the name
     # used to invoke us.
     local bt = [ BACKTRACE 1 ] ;
     local rulename = [ MATCH ([^.]*)$ : $(bt[4]) ] ;
     return [ constant $(rulename) : $(os) ] ;
 }


 # export all the common constants
 .constants = name platform version shared-library-path-variable path-separator executable-path-variable executable-suffix ;
 for local constant in $(.constants)
 {
     IMPORT $(__name__) : get-constant : $(__name__) : $(constant) ;
 }
 EXPORT $(__name__) : $(.constants) ;

 .executable-path-variable-NT = PATH ;
 # On Windows the case and capitalization of PATH is not always predictable, so
 # let's find out what variable name was really set.
 if $(.name) = NT
 {
     for local n in [ VARNAMES .ENVIRON ]
     {
         if $(n:L) = path
         {
             .executable-path-variable-NT = $(n) ;
         }
     }
 }

 # Specific constants for various platforms.  There's no need to define any
 # constant whose value would be the same as the default, below.
 .shared-library-path-variable-NT = $(.executable-path-variable-NT) ;
 .path-separator-NT = ";" ;
 .expand-variable-prefix-NT = % ;
 .expand-variable-suffix-NT = % ;
 .executable-suffix-NT = .exe ;

 .shared-library-path-variable-CYGWIN = PATH ;

 .shared-library-path-variable-MACOSX = DYLD_LIBRARY_PATH ;

 .shared-library-path-variable-AIX = LIBPATH ;

 # Default constants
 .shared-library-path-variable = LD_LIBRARY_PATH ;
 .path-separator = ":" ;
 .expand-variable-prefix = $ ;
 .expand-variable-suffix = "" ;
 .executable-path-variable = PATH ;
 .executable-suffix = "" ;


 # Return a list of the directories in the PATH. Yes, that information is (sort
 # of) available in the global module, but jam code can change those values, and
 # it isn't always clear what case/capitalization to use when looking. This rule
 # is a more reliable way to get there.
 rule executable-path ( )
 {
     return [ string.words [ environ [ constant executable-path-variable ] ]
         : [ constant path-separator ] ] ;
 }


 # Initialize the list of home directories for the current user depending on the
 # OS.
 if $(.name) = NT
 {
     local home = [ environ HOMEDRIVE HOMEPATH ] ;
     .home-directories = $(home[1])$(home[2]) [ environ HOME ] [ environ USERPROFILE ] ;
 }
 else
 {
     .home-directories = [ environ HOME ] ;
 }


 # Can't use 'constant' mechanism because it only returns 1-element values.
 rule home-directories ( )
 {
     return $(.home-directories) ;
 }


 # Return the string needed to represent the expansion of the named shell
 # variable.
 rule expand-variable ( variable )
 {
     local prefix = [ constant expand-variable-prefix ] ;
     local suffix = [ constant expand-variable-suffix ] ;
     return $(prefix)$(variable)$(suffix) ;
 }


 # Returns true if running on windows, whether in cygwin or not.
 rule on-windows ( )
 {
     local result ;
     if [ modules.peek : NT ]
     {
         result = true ;
     }
     else if [ modules.peek : UNIX ]
     {
         switch [ modules.peek : JAMUNAME ]
         {
             case CYGWIN* :
             {
                 result = true ;
             }
         }
     }
     return $(result) ;
 }


 if ! [ on-windows ]
 {
     .on-unix = 1 ;
 }


 rule on-unix
 {
     return $(.on-unix) ;
 }


 rule __test__
 {
     import assert ;
     if ! ( --quiet in [ modules.peek : ARGV ] )
     {
         ECHO os: name= [ name ] ;
         ECHO os: version= [ version ] ;
     }
     assert.true name ;
 }
	# Copyright 2001, 2002, 2003, 2005 Dave Abrahams
	# Copyright 2006 Rene Rivera
	# Copyright 2003, 2005 Vladimir Prus
	# 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)

	import modules ;
	import string ;


	# Return the value(s) of the given environment variable(s) at the time bjam was
	# invoked.
	rule environ ( variable-names + )
	{
	return [ modules.peek .ENVIRON : $(variable-names) ] ;
	}

	.name = [ modules.peek : OS ] ;
	.platform = [ modules.peek : OSPLAT ] ;
	.version = [ modules.peek : OSVER ] ;


	local rule constant ( c : os ? )
	{
	os ?= $(.name) ;
	# First look for a platform-specific name, then the general value.
	local variables = .$(c)-$(os) .$(c) ;
	local result = $($(variables)) ;
	return $(result[1]) ;
	}

	rule get-constant ( os ? )
	{
	# Find the name of the constant being accessed, which is equal to the name
	# used to invoke us.
	local bt = [ BACKTRACE 1 ] ;
	local rulename = [ MATCH ([^.]*)$ : $(bt[4]) ] ;
	return [ constant $(rulename) : $(os) ] ;
	}


	# export all the common constants
	.constants = name platform version shared-library-path-variable path-separator executable-path-variable executable-suffix ;
	for local constant in $(.constants)
	{
	IMPORT $(__name__) : get-constant : $(__name__) : $(constant) ;
	}
	EXPORT $(__name__) : $(.constants) ;

	.executable-path-variable-NT = PATH ;
	# On Windows the case and capitalization of PATH is not always predictable, so
	# let's find out what variable name was really set.
	if $(.name) = NT
	{
	for local n in [ VARNAMES .ENVIRON ]
	{
	if $(n:L) = path
	{
	.executable-path-variable-NT = $(n) ;
	}
	}
	}

	# Specific constants for various platforms. There's no need to define any
	# constant whose value would be the same as the default, below.
	.shared-library-path-variable-NT = $(.executable-path-variable-NT) ;
	.path-separator-NT = ";" ;
	.expand-variable-prefix-NT = % ;
	.expand-variable-suffix-NT = % ;
	.executable-suffix-NT = .exe ;

	.shared-library-path-variable-CYGWIN = PATH ;

	.shared-library-path-variable-MACOSX = DYLD_LIBRARY_PATH ;

	.shared-library-path-variable-AIX = LIBPATH ;

	# Default constants
	.shared-library-path-variable = LD_LIBRARY_PATH ;
	.path-separator = ":" ;
	.expand-variable-prefix = $ ;
	.expand-variable-suffix = "" ;
	.executable-path-variable = PATH ;
	.executable-suffix = "" ;


	# Return a list of the directories in the PATH. Yes, that information is (sort
	# of) available in the global module, but jam code can change those values, and
	# it isn't always clear what case/capitalization to use when looking. This rule
	# is a more reliable way to get there.
	rule executable-path ( )
	{
	return [ string.words [ environ [ constant executable-path-variable ] ]
	: [ constant path-separator ] ] ;
	}


	# Initialize the list of home directories for the current user depending on the
	# OS.
	if $(.name) = NT
	{
	local home = [ environ HOMEDRIVE HOMEPATH ] ;
	.home-directories = $(home[1])$(home[2]) [ environ HOME ] [ environ USERPROFILE ] ;
	}
	else
	{
	.home-directories = [ environ HOME ] ;
	}


	# Can't use 'constant' mechanism because it only returns 1-element values.
	rule home-directories ( )
	{
	return $(.home-directories) ;
	}


	# Return the string needed to represent the expansion of the named shell
	# variable.
	rule expand-variable ( variable )
	{
	local prefix = [ constant expand-variable-prefix ] ;
	local suffix = [ constant expand-variable-suffix ] ;
	return $(prefix)$(variable)$(suffix) ;
	}


	# Returns true if running on windows, whether in cygwin or not.
	rule on-windows ( )
	{
	local result ;
	if [ modules.peek : NT ]
	{
	result = true ;
	}
	else if [ modules.peek : UNIX ]
	{
	switch [ modules.peek : JAMUNAME ]
	{
	case CYGWIN* :
	{
	result = true ;
	}
	}
	}
	return $(result) ;
	}


	if ! [ on-windows ]
	{
	.on-unix = 1 ;
	}


	rule on-unix
	{
	return $(.on-unix) ;
	}


	rule __test__
	{
	import assert ;
	if ! ( --quiet in [ modules.peek : ARGV ] )
	{
	ECHO os: name= [ name ] ;
	ECHO os: version= [ version ] ;
	}
	assert.true name ;
	}