final/runtime/tools/lib/Platform.pm - openmp - Git at Google

 #
 # This is not a runnable script, it is a Perl module, a collection of variables, subroutines, etc.
 # to be used in Perl scripts.
 #
 # To get help about exported variables and subroutines, execute the following command:
 #
 #     perldoc Platform.pm
 #
 # or see POD (Plain Old Documentation) imbedded to the source...
 #
 #
 #
 #//===----------------------------------------------------------------------===//
 #//
 #//                     The LLVM Compiler Infrastructure
 #//
 #// This file is dual licensed under the MIT and the University of Illinois Open
 #// Source Licenses. See LICENSE.txt for details.
 #//
 #//===----------------------------------------------------------------------===//
 #

 package Platform;

 use strict;
 use warnings;

 use base "Exporter";

 use Uname;

 my @vars;

 BEGIN {
     @vars = qw{ $host_arch $host_os $host_platform $target_arch $target_mic_arch $target_os $target_platform };
 }

 our $VERSION     = "0.014";
 our @EXPORT      = qw{};
 our @EXPORT_OK   = ( qw{ canon_arch canon_os canon_mic_arch legal_arch arch_opt }, @vars );
 our %EXPORT_TAGS = ( all => [ @EXPORT_OK ], vars => \@vars );

 # Canonize architecture name.
 sub canon_arch($) {
     my ( $arch ) = @_;
     if ( defined( $arch ) ) {
         if ( $arch =~ m{\A\s*(?:32|IA-?32|IA-?32 architecture|i[3456]86|x86)\s*\z}i ) {
             $arch = "32";
         } elsif ( $arch =~ m{\A\s*(?:48|(?:ia)?32e|Intel\s*64|Intel\(R\)\s*64|x86[_-]64|x64|AMD64)\s*\z}i ) {
             $arch = "32e";
         } elsif ( $arch =~ m{\Aarm(?:v7\D*)?\z} ) {
             $arch = "arm";
         } elsif ( $arch =~ m{\Appc64le} ) {
 			$arch = "ppc64le";
         } elsif ( $arch =~ m{\Appc64} ) {
         	$arch = "ppc64";
         } elsif ( $arch =~ m{\Aaarch64} ) {
                 $arch = "aarch64";
         } elsif ( $arch =~ m{\Amic} ) {
             $arch = "mic";
         } else {
             $arch = undef;
         }; # if
     }; # if
     return $arch;
 }; # sub canon_arch

 # Canonize Intel(R) Many Integrated Core Architecture name.
 sub canon_mic_arch($) {
     my ( $mic_arch ) = @_;
     if ( defined( $mic_arch ) ) {
         if ( $mic_arch =~ m{\Aknf} ) {
             $mic_arch = "knf";
         } elsif ( $mic_arch =~ m{\Aknc}) {
             $mic_arch = "knc";
         } elsif ( $mic_arch =~ m{\Aknl} ) {
             $mic_arch = "knl";
         } else {
             $mic_arch = undef;
         }; # if
     }; # if
     return $mic_arch;
 }; # sub canon_mic_arch

 {  # Return legal approved architecture name.
     my %legal = (
         "32"  => "IA-32 architecture",
         "32e" => "Intel(R) 64",
         "arm" => "ARM",
         "aarch64" => "AArch64",
         "mic" => "Intel(R) Many Integrated Core Architecture",
     );

     sub legal_arch($) {
         my ( $arch ) = @_;
         $arch = canon_arch( $arch );
         if ( defined( $arch ) ) {
             $arch = $legal{ $arch };
         }; # if
         return $arch;
     }; # sub legal_arch
 }

 {  # Return architecture name suitable for Intel compiler setup scripts.
     my %option = (
         "32"  => "ia32",
         "32e" => "intel64",
         "64"  => "ia64",
         "arm" => "arm",
         "aarch64" => "aarch",
         "mic" => "intel64",
     );

     sub arch_opt($) {
         my ( $arch ) = @_;
         $arch = canon_arch( $arch );
         if ( defined( $arch ) ) {
             $arch = $option{ $arch };
         }; # if
         return $arch;
     }; # sub arch_opt
 }

 # Canonize OS name.
 sub canon_os($) {
     my ( $os ) = @_;
     if ( defined( $os ) ) {
         if ( $os =~ m{\A\s*(?:Linux|lin|l)\s*\z}i ) {
             $os = "lin";
         } elsif ( $os =~ m{\A\s*(?:Mac(?:\s*OS(?:\s*X)?)?|mac|m|Darwin)\s*\z}i ) {
             $os = "mac";
         } elsif ( $os =~ m{\A\s*(?:Win(?:dows)?(?:(?:_|\s*)?(?:NT|XP|95|98|2003))?|w)\s*\z}i ) {
             $os = "win";
         } else {
             $os = undef;
         }; # if
     }; # if
     return $os;
 }; # sub canon_os

 my ( $_host_os, $_host_arch, $_target_os, $_target_arch, $_target_mic_arch, $_default_mic_arch);

 # Set the default mic-arch value.
 $_default_mic_arch = "knc";

 sub set_target_arch($) {
     my ( $arch ) = canon_arch( $_[ 0 ] );
     if ( defined( $arch ) ) {
         $_target_arch       = $arch;
         $ENV{ LIBOMP_ARCH } = $arch;
     }; # if
     return $arch;
 }; # sub set_target_arch

 sub set_target_mic_arch($) {
     my ( $mic_arch ) = canon_mic_arch( $_[ 0 ] );
     if ( defined( $mic_arch ) ) {
         $_target_mic_arch       = $mic_arch;
         $ENV{ LIBOMP_MIC_ARCH } = $mic_arch;
     }; # if
     return $mic_arch;
 }; # sub set_target_mic_arch

 sub set_target_os($) {
     my ( $os ) = canon_os( $_[ 0 ] );
     if ( defined( $os ) ) {
         $_target_os       = $os;
         $ENV{ LIBOMP_OS } = $os;
     }; # if
     return $os;
 }; # sub set_target_os

 sub target_options() {
     my @options = (
         "target-os|os=s" =>
             sub {
                 set_target_os( $_[ 1 ] ) or
                     die "Bad value of --target-os option: \"$_[ 1 ]\"\n";
             },
         "target-architecture|targert-arch|architecture|arch=s" =>
            sub {
                set_target_arch( $_[ 1 ] ) or
                    die "Bad value of --target-architecture option: \"$_[ 1 ]\"\n";
            },
         "target-mic-architecture|targert-mic-arch|mic-architecture|mic-arch=s" =>
            sub {
                set_target_mic_arch( $_[ 1 ] ) or
                    die "Bad value of --target-mic-architecture option: \"$_[ 1 ]\"\n";
            },
     );
     return @options;
 }; # sub target_options

 # Detect host arch.
 {
     my $hardware_platform = Uname::hardware_platform();
     if ( 0 ) {
     } elsif ( $hardware_platform eq "i386" ) {
         $_host_arch = "32";
     } elsif ( $hardware_platform eq "ia64" ) {
         $_host_arch = "64";
     } elsif ( $hardware_platform eq "x86_64" ) {
         $_host_arch = "32e";
     } elsif ( $hardware_platform eq "arm" ) {
         $_host_arch = "arm";
     } elsif ( $hardware_platform eq "ppc64le" ) {
         $_host_arch = "ppc64le";
     } elsif ( $hardware_platform eq "ppc64" ) {
         $_host_arch = "ppc64";
     } elsif ( $hardware_platform eq "aarch64" ) {
         $_host_arch = "aarch64";
     } else {
         die "Unsupported host hardware platform: \"$hardware_platform\"; stopped";
     }; # if
 }

 # Detect host OS.
 {
     my $operating_system = Uname::operating_system();
     if ( 0 ) {
     } elsif ( $operating_system eq "GNU/Linux" ) {
         $_host_os = "lin";
     } elsif ( $operating_system eq "FreeBSD" ) {
         # Host OS resembles Linux.
         $_host_os = "lin";
     } elsif ( $operating_system eq "Darwin" ) {
         $_host_os = "mac";
     } elsif ( $operating_system eq "MS Windows" ) {
         $_host_os = "win";
     } else {
         die "Unsupported host operating system: \"$operating_system\"; stopped";
     }; # if
 }

 # Detect target arch.
 if ( defined( $ENV{ LIBOMP_ARCH } ) ) {
     # Use arch specified in LIBOMP_ARCH.
     $_target_arch = canon_arch( $ENV{ LIBOMP_ARCH } );
     if ( not defined( $_target_arch ) ) {
         die "Unknown architecture specified in LIBOMP_ARCH environment variable: \"$ENV{ LIBOMP_ARCH }\"";
     }; # if
 } else {
     # Otherwise use host architecture.
     $_target_arch = $_host_arch;
 }; # if
 $ENV{ LIBOMP_ARCH } = $_target_arch;

 # Detect target Intel(R) Many Integrated Core Architecture.
 if ( defined( $ENV{ LIBOMP_MIC_ARCH } ) ) {
     # Use mic arch specified in LIBOMP_MIC_ARCH.
     $_target_mic_arch = canon_mic_arch( $ENV{ LIBOMP_MIC_ARCH } );
     if ( not defined( $_target_mic_arch ) ) {
         die "Unknown architecture specified in LIBOMP_MIC_ARCH environment variable: \"$ENV{ LIBOMP_MIC_ARCH }\"";
     }; # if
 } else {
     # Otherwise use default Intel(R) Many Integrated Core Architecture.
     $_target_mic_arch = $_default_mic_arch;
 }; # if
 $ENV{ LIBOMP_MIC_ARCH } = $_target_mic_arch;

 # Detect target OS.
 if ( defined( $ENV{ LIBOMP_OS } ) ) {
     # Use OS specified in LIBOMP_OS.
     $_target_os = canon_os( $ENV{ LIBOMP_OS } );
     if ( not defined( $_target_os ) ) {
         die "Unknown OS specified in LIBOMP_OS environment variable: \"$ENV{ LIBOMP_OS }\"";
     }; # if
 } else {
     # Otherwise use host OS.
     $_target_os = $_host_os;
 }; # if
 $ENV{ LIBOMP_OS } = $_target_os;

 use vars @vars;

 tie( $host_arch,       "Platform::host_arch" );
 tie( $host_os,         "Platform::host_os" );
 tie( $host_platform,   "Platform::host_platform" );
 tie( $target_arch,     "Platform::target_arch" );
 tie( $target_mic_arch, "Platform::target_mic_arch" );
 tie( $target_os,       "Platform::target_os" );
 tie( $target_platform, "Platform::target_platform" );

 { package Platform::base;

     use Carp;

     use Tie::Scalar;
     use base "Tie::StdScalar";

     sub STORE {
         my $self = shift( @_ );
         croak( "Modifying \$" . ref( $self ) . " is not allowed; stopped" );
     }; # sub STORE

 } # package Platform::base

 { package Platform::host_arch;
     use base "Platform::base";
     sub FETCH {
         return $_host_arch;
     }; # sub FETCH
 } # package Platform::host_arch

 { package Platform::host_os;
     use base "Platform::base";
     sub FETCH {
         return $_host_os;
     }; # sub FETCH
 } # package Platform::host_os

 { package Platform::host_platform;
     use base "Platform::base";
     sub FETCH {
         return "${_host_os}_${_host_arch}";
     }; # sub FETCH
 } # package Platform::host_platform

 { package Platform::target_arch;
     use base "Platform::base";
     sub FETCH {
         return $_target_arch;
     }; # sub FETCH
 } # package Platform::target_arch

 { package Platform::target_mic_arch;
     use base "Platform::base";
     sub FETCH {
         return $_target_mic_arch;
     }; # sub FETCH
 } # package Platform::target_mic_arch

 { package Platform::target_os;
     use base "Platform::base";
     sub FETCH {
         return $_target_os;
     }; # sub FETCH
 } # package Platform::target_os

 { package Platform::target_platform;
     use base "Platform::base";
     sub FETCH {
         if ($_target_arch eq "mic") {
             return "${_target_os}_${_target_mic_arch}";
         } else {
         return "${_target_os}_${_target_arch}";
         }
     }; # sub FETCH
 } # package Platform::target_platform


 return 1;

 __END__

 =pod

 =head1 NAME

 B<Platform.pm> -- Few subroutines to get OS, architecture and platform name in form suitable for
 naming files, directories, macros, etc.

 =head1 SYNOPSIS

     use Platform ":all";
     use tools;

     my $arch   = canon_arch( "em64T" );        # Returns "32e".
     my $legal  = legal_arch( "em64t" );        # Returns "Intel(R) 64".
     my $option = arch_opt( "em64t" );          # Returns "intel64".
     my $os     = canon_os( "Windows NT" );     # Returns "win".

     print( $host_arch, $host_os, $host_platform );
     print( $taregt_arch, $target_os, $target_platform );

     tools::get_options(
         Platform::target_options(),
         ...
     );


 =head1 DESCRIPTION

 Environment variable LIBOMP_OS specifies target OS to report. If LIBOMP_OS id not defined,
 the script assumes host OS is target OS.

 Environment variable LIBOMP_ARCH specifies target architecture to report. If LIBOMP_ARCH is not defined,
 the script assumes host architecture is target one.

 =head2 Functions.

 =over

 =item B<canon_arch( $arch )>

 Input string is an architecture name to canonize. The function recognizes many variants, for example:
 C<32e>, C<Intel64>, C<Intel(R) 64>, etc. Returned string is a canononized architecture name,
 one of: C<32>, C<32e>, C<64>, C<arm>, C<ppc64le>, C<ppc64>, C<mic>, or C<undef> is input string is not recognized.

 =item B<legal_arch( $arch )>

 Input string is architecture name. The function recognizes the same variants as C<arch_canon()> does.
 Returned string is a name approved by Intel Legal, one of: C<IA-32 architecture>, C<Intel(R) 64>
 or C<undef> if input string is not recognized.

 =item B<arch_opt( $arch )>

 Input string is architecture name. The function recognizes the same variants as C<arch_canon()> does.
 Returned string is an architecture name suitable for passing to compiler setup scripts
 (e. g. C<iccvars.sh>), one of: C<IA-32 architecture>, C<Intel(R) 64> or C<undef> if input string is not
 recognized.

 =item B<canon_os( $os )>

 Input string is OS name to canonize. The function recognizes many variants, for example: C<mac>, C<OS X>, etc. Returned string is a canonized OS name, one of: C<lin>,
 C<mac>, C<win>, or C<undef> is input string is not recognized.

 =item B<target_options()>

 Returns array suitable for passing to C<tools::get_options()> to let a script recognize
 C<--target-architecture=I<str>> and C<--target-os=I<str>> options. Typical usage is:

     use tools;
     use Platform;

     my ( $os, $arch, $platform );    # Global variables, not initialized.

     ...

     get_options(
         Platform::target_options(),  # Let script recognize --target-os and --target-arch options.
         ...
     );
     # Initialize variabls after parsing command line.
     ( $os, $arch, $platform ) = ( Platform::target_os(), Platform::target_arch(), Platform::target_platform() );

 =back

 =head2 Variables

 =item B<$host_arch>

 Canonized name of host architecture.

 =item B<$host_os>

 Canonized name of host OS.

 =item B<$host_platform>

 Host platform name (concatenated canonized OS name, underscore, and canonized architecture name).

 =item B<$target_arch>

 Canonized name of target architecture.

 =item B<$target_os>

 Canonized name of target OS.

 =item B<$target_platform>

 Target platform name (concatenated canonized OS name, underscore, and canonized architecture name).

 =back

 =cut

 # end of file #
	#
	# This is not a runnable script, it is a Perl module, a collection of variables, subroutines, etc.
	# to be used in Perl scripts.
	#
	# To get help about exported variables and subroutines, execute the following command:
	#
	# perldoc Platform.pm
	#
	# or see POD (Plain Old Documentation) imbedded to the source...
	#
	#
	#
	#//===----------------------------------------------------------------------===//
	#//
	#// The LLVM Compiler Infrastructure
	#//
	#// This file is dual licensed under the MIT and the University of Illinois Open
	#// Source Licenses. See LICENSE.txt for details.
	#//
	#//===----------------------------------------------------------------------===//
	#

	package Platform;

	use strict;
	use warnings;

	use base "Exporter";

	use Uname;

	my @vars;

	BEGIN {
	@vars = qw{ $host_arch $host_os $host_platform $target_arch $target_mic_arch $target_os $target_platform };
	}

	our $VERSION = "0.014";
	our @EXPORT = qw{};
	our @EXPORT_OK = ( qw{ canon_arch canon_os canon_mic_arch legal_arch arch_opt }, @vars );
	our %EXPORT_TAGS = ( all => [ @EXPORT_OK ], vars => \@vars );

	# Canonize architecture name.
	sub canon_arch($) {
	my ( $arch ) = @_;
	if ( defined( $arch ) ) {
	if ( $arch =~ m{\A\s(?:32\|IA-?32\|IA-?32 architecture\|i[3456]86\|x86)\s\z}i ) {
	$arch = "32";
	} elsif ( $arch =~ m{\A\s(?:48\|(?:ia)?32e\|Intel\s64\|Intel\(R\)\s64\|x86[_-]64\|x64\|AMD64)\s\z}i ) {
	$arch = "32e";
	} elsif ( $arch =~ m{\Aarm(?:v7\D*)?\z} ) {
	$arch = "arm";
	} elsif ( $arch =~ m{\Appc64le} ) {
	$arch = "ppc64le";
	} elsif ( $arch =~ m{\Appc64} ) {
	$arch = "ppc64";
	} elsif ( $arch =~ m{\Aaarch64} ) {
	$arch = "aarch64";
	} elsif ( $arch =~ m{\Amic} ) {
	$arch = "mic";
	} else {
	$arch = undef;
	}; # if
	}; # if
	return $arch;
	}; # sub canon_arch

	# Canonize Intel(R) Many Integrated Core Architecture name.
	sub canon_mic_arch($) {
	my ( $mic_arch ) = @_;
	if ( defined( $mic_arch ) ) {
	if ( $mic_arch =~ m{\Aknf} ) {
	$mic_arch = "knf";
	} elsif ( $mic_arch =~ m{\Aknc}) {
	$mic_arch = "knc";
	} elsif ( $mic_arch =~ m{\Aknl} ) {
	$mic_arch = "knl";
	} else {
	$mic_arch = undef;
	}; # if
	}; # if
	return $mic_arch;
	}; # sub canon_mic_arch

	{ # Return legal approved architecture name.
	my %legal = (
	"32" => "IA-32 architecture",
	"32e" => "Intel(R) 64",
	"arm" => "ARM",
	"aarch64" => "AArch64",
	"mic" => "Intel(R) Many Integrated Core Architecture",
	);

	sub legal_arch($) {
	my ( $arch ) = @_;
	$arch = canon_arch( $arch );
	if ( defined( $arch ) ) {
	$arch = $legal{ $arch };
	}; # if
	return $arch;
	}; # sub legal_arch
	}

	{ # Return architecture name suitable for Intel compiler setup scripts.
	my %option = (
	"32" => "ia32",
	"32e" => "intel64",
	"64" => "ia64",
	"arm" => "arm",
	"aarch64" => "aarch",
	"mic" => "intel64",
	);

	sub arch_opt($) {
	my ( $arch ) = @_;
	$arch = canon_arch( $arch );
	if ( defined( $arch ) ) {
	$arch = $option{ $arch };
	}; # if
	return $arch;
	}; # sub arch_opt
	}

	# Canonize OS name.
	sub canon_os($) {
	my ( $os ) = @_;
	if ( defined( $os ) ) {
	if ( $os =~ m{\A\s(?:Linux\|lin\|l)\s\z}i ) {
	$os = "lin";
	} elsif ( $os =~ m{\A\s(?:Mac(?:\sOS(?:\sX)?)?\|mac\|m\|Darwin)\s\z}i ) {
	$os = "mac";
	} elsif ( $os =~ m{\A\s(?:Win(?:dows)?(?:(?:_\|\s)?(?:NT\|XP\|95\|98\|2003))?\|w)\s*\z}i ) {
	$os = "win";
	} else {
	$os = undef;
	}; # if
	}; # if
	return $os;
	}; # sub canon_os

	my ( $_host_os, $_host_arch, $_target_os, $_target_arch, $_target_mic_arch, $_default_mic_arch);

	# Set the default mic-arch value.
	$_default_mic_arch = "knc";

	sub set_target_arch($) {
	my ( $arch ) = canon_arch( $_[ 0 ] );
	if ( defined( $arch ) ) {
	$_target_arch = $arch;
	$ENV{ LIBOMP_ARCH } = $arch;
	}; # if
	return $arch;
	}; # sub set_target_arch

	sub set_target_mic_arch($) {
	my ( $mic_arch ) = canon_mic_arch( $_[ 0 ] );
	if ( defined( $mic_arch ) ) {
	$_target_mic_arch = $mic_arch;
	$ENV{ LIBOMP_MIC_ARCH } = $mic_arch;
	}; # if
	return $mic_arch;
	}; # sub set_target_mic_arch

	sub set_target_os($) {
	my ( $os ) = canon_os( $_[ 0 ] );
	if ( defined( $os ) ) {
	$_target_os = $os;
	$ENV{ LIBOMP_OS } = $os;
	}; # if
	return $os;
	}; # sub set_target_os

	sub target_options() {
	my @options = (
	"target-os\|os=s" =>
	sub {
	set_target_os( $_[ 1 ] ) or
	die "Bad value of --target-os option: \"$_[ 1 ]\"\n";
	},
	"target-architecture\|targert-arch\|architecture\|arch=s" =>
	sub {
	set_target_arch( $_[ 1 ] ) or
	die "Bad value of --target-architecture option: \"$_[ 1 ]\"\n";
	},
	"target-mic-architecture\|targert-mic-arch\|mic-architecture\|mic-arch=s" =>
	sub {
	set_target_mic_arch( $_[ 1 ] ) or
	die "Bad value of --target-mic-architecture option: \"$_[ 1 ]\"\n";
	},
	);
	return @options;
	}; # sub target_options

	# Detect host arch.
	{
	my $hardware_platform = Uname::hardware_platform();
	if ( 0 ) {
	} elsif ( $hardware_platform eq "i386" ) {
	$_host_arch = "32";
	} elsif ( $hardware_platform eq "ia64" ) {
	$_host_arch = "64";
	} elsif ( $hardware_platform eq "x86_64" ) {
	$_host_arch = "32e";
	} elsif ( $hardware_platform eq "arm" ) {
	$_host_arch = "arm";
	} elsif ( $hardware_platform eq "ppc64le" ) {
	$_host_arch = "ppc64le";
	} elsif ( $hardware_platform eq "ppc64" ) {
	$_host_arch = "ppc64";
	} elsif ( $hardware_platform eq "aarch64" ) {
	$_host_arch = "aarch64";
	} else {
	die "Unsupported host hardware platform: \"$hardware_platform\"; stopped";
	}; # if
	}

	# Detect host OS.
	{
	my $operating_system = Uname::operating_system();
	if ( 0 ) {
	} elsif ( $operating_system eq "GNU/Linux" ) {
	$_host_os = "lin";
	} elsif ( $operating_system eq "FreeBSD" ) {
	# Host OS resembles Linux.
	$_host_os = "lin";
	} elsif ( $operating_system eq "Darwin" ) {
	$_host_os = "mac";
	} elsif ( $operating_system eq "MS Windows" ) {
	$_host_os = "win";
	} else {
	die "Unsupported host operating system: \"$operating_system\"; stopped";
	}; # if
	}

	# Detect target arch.
	if ( defined( $ENV{ LIBOMP_ARCH } ) ) {
	# Use arch specified in LIBOMP_ARCH.
	$_target_arch = canon_arch( $ENV{ LIBOMP_ARCH } );
	if ( not defined( $_target_arch ) ) {
	die "Unknown architecture specified in LIBOMP_ARCH environment variable: \"$ENV{ LIBOMP_ARCH }\"";
	}; # if
	} else {
	# Otherwise use host architecture.
	$_target_arch = $_host_arch;
	}; # if
	$ENV{ LIBOMP_ARCH } = $_target_arch;

	# Detect target Intel(R) Many Integrated Core Architecture.
	if ( defined( $ENV{ LIBOMP_MIC_ARCH } ) ) {
	# Use mic arch specified in LIBOMP_MIC_ARCH.
	$_target_mic_arch = canon_mic_arch( $ENV{ LIBOMP_MIC_ARCH } );
	if ( not defined( $_target_mic_arch ) ) {
	die "Unknown architecture specified in LIBOMP_MIC_ARCH environment variable: \"$ENV{ LIBOMP_MIC_ARCH }\"";
	}; # if
	} else {
	# Otherwise use default Intel(R) Many Integrated Core Architecture.
	$_target_mic_arch = $_default_mic_arch;
	}; # if
	$ENV{ LIBOMP_MIC_ARCH } = $_target_mic_arch;

	# Detect target OS.
	if ( defined( $ENV{ LIBOMP_OS } ) ) {
	# Use OS specified in LIBOMP_OS.
	$_target_os = canon_os( $ENV{ LIBOMP_OS } );
	if ( not defined( $_target_os ) ) {
	die "Unknown OS specified in LIBOMP_OS environment variable: \"$ENV{ LIBOMP_OS }\"";
	}; # if
	} else {
	# Otherwise use host OS.
	$_target_os = $_host_os;
	}; # if
	$ENV{ LIBOMP_OS } = $_target_os;

	use vars @vars;

	tie( $host_arch, "Platform::host_arch" );
	tie( $host_os, "Platform::host_os" );
	tie( $host_platform, "Platform::host_platform" );
	tie( $target_arch, "Platform::target_arch" );
	tie( $target_mic_arch, "Platform::target_mic_arch" );
	tie( $target_os, "Platform::target_os" );
	tie( $target_platform, "Platform::target_platform" );

	{ package Platform::base;

	use Carp;

	use Tie::Scalar;
	use base "Tie::StdScalar";

	sub STORE {
	my $self = shift( @_ );
	croak( "Modifying \$" . ref( $self ) . " is not allowed; stopped" );
	}; # sub STORE

	} # package Platform::base

	{ package Platform::host_arch;
	use base "Platform::base";
	sub FETCH {
	return $_host_arch;
	}; # sub FETCH
	} # package Platform::host_arch

	{ package Platform::host_os;
	use base "Platform::base";
	sub FETCH {
	return $_host_os;
	}; # sub FETCH
	} # package Platform::host_os

	{ package Platform::host_platform;
	use base "Platform::base";
	sub FETCH {
	return "${_host_os}_${_host_arch}";
	}; # sub FETCH
	} # package Platform::host_platform

	{ package Platform::target_arch;
	use base "Platform::base";
	sub FETCH {
	return $_target_arch;
	}; # sub FETCH
	} # package Platform::target_arch

	{ package Platform::target_mic_arch;
	use base "Platform::base";
	sub FETCH {
	return $_target_mic_arch;
	}; # sub FETCH
	} # package Platform::target_mic_arch

	{ package Platform::target_os;
	use base "Platform::base";
	sub FETCH {
	return $_target_os;
	}; # sub FETCH
	} # package Platform::target_os

	{ package Platform::target_platform;
	use base "Platform::base";
	sub FETCH {
	if ($_target_arch eq "mic") {
	return "${_target_os}_${_target_mic_arch}";
	} else {
	return "${_target_os}_${_target_arch}";
	}
	}; # sub FETCH
	} # package Platform::target_platform


	return 1;

	__END__

	=pod

	=head1 NAME

	B<Platform.pm> -- Few subroutines to get OS, architecture and platform name in form suitable for
	naming files, directories, macros, etc.

	=head1 SYNOPSIS

	use Platform ":all";
	use tools;

	my $arch = canon_arch( "em64T" ); # Returns "32e".
	my $legal = legal_arch( "em64t" ); # Returns "Intel(R) 64".
	my $option = arch_opt( "em64t" ); # Returns "intel64".
	my $os = canon_os( "Windows NT" ); # Returns "win".

	print( $host_arch, $host_os, $host_platform );
	print( $taregt_arch, $target_os, $target_platform );

	tools::get_options(
	Platform::target_options(),
	...
	);


	=head1 DESCRIPTION

	Environment variable LIBOMP_OS specifies target OS to report. If LIBOMP_OS id not defined,
	the script assumes host OS is target OS.

	Environment variable LIBOMP_ARCH specifies target architecture to report. If LIBOMP_ARCH is not defined,
	the script assumes host architecture is target one.

	=head2 Functions.

	=over

	=item B<canon_arch( $arch )>

	Input string is an architecture name to canonize. The function recognizes many variants, for example:
	C<32e>, C<Intel64>, C<Intel(R) 64>, etc. Returned string is a canononized architecture name,
	one of: C<32>, C<32e>, C<64>, C<arm>, C<ppc64le>, C<ppc64>, C<mic>, or C<undef> is input string is not recognized.

	=item B<legal_arch( $arch )>

	Input string is architecture name. The function recognizes the same variants as C<arch_canon()> does.
	Returned string is a name approved by Intel Legal, one of: C<IA-32 architecture>, C<Intel(R) 64>
	or C<undef> if input string is not recognized.

	=item B<arch_opt( $arch )>

	Input string is architecture name. The function recognizes the same variants as C<arch_canon()> does.
	Returned string is an architecture name suitable for passing to compiler setup scripts
	(e. g. C<iccvars.sh>), one of: C<IA-32 architecture>, C<Intel(R) 64> or C<undef> if input string is not
	recognized.

	=item B<canon_os( $os )>

	Input string is OS name to canonize. The function recognizes many variants, for example: C<mac>, C<OS X>, etc. Returned string is a canonized OS name, one of: C<lin>,
	C<mac>, C<win>, or C<undef> is input string is not recognized.

	=item B<target_options()>

	Returns array suitable for passing to C<tools::get_options()> to let a script recognize
	C<--target-architecture=I<str>> and C<--target-os=I<str>> options. Typical usage is:

	use tools;
	use Platform;

	my ( $os, $arch, $platform ); # Global variables, not initialized.

	...

	get_options(
	Platform::target_options(), # Let script recognize --target-os and --target-arch options.
	...
	);
	# Initialize variabls after parsing command line.
	( $os, $arch, $platform ) = ( Platform::target_os(), Platform::target_arch(), Platform::target_platform() );

	=back

	=head2 Variables

	=item B<$host_arch>

	Canonized name of host architecture.

	=item B<$host_os>

	Canonized name of host OS.

	=item B<$host_platform>

	Host platform name (concatenated canonized OS name, underscore, and canonized architecture name).

	=item B<$target_arch>

	Canonized name of target architecture.

	=item B<$target_os>

	Canonized name of target OS.

	=item B<$target_platform>

	Target platform name (concatenated canonized OS name, underscore, and canonized architecture name).

	=back

	=cut

	# end of file #