src/gn/switches.cc - gn - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "gn/switches.h"

 namespace switches {

 const char kArgs[] = "args";
 const char kArgs_HelpShort[] = "--args: Specifies build arguments overrides.";
 const char kArgs_Help[] =
     R"(--args: Specifies build arguments overrides.

   See "gn help buildargs" for an overview of how build arguments work.

   Most operations take a build directory. The build arguments are taken from
   the previous build done in that directory. If a command specifies --args, it
   will override the previous arguments stored in the build directory, and use
   the specified ones.

   The args specified will be saved to the build directory for subsequent
   commands. Specifying --args="" will clear all build arguments.

 Formatting

   The value of the switch is interpreted in GN syntax. For typical usage of
   string arguments, you will need to be careful about escaping of quotes.

 Examples

   gn gen out/Default --args="foo=\"bar\""

   gn gen out/Default --args='foo="bar" enable=true blah=7'

   gn check out/Default --args=""
     Clears existing build args from the directory.

   gn desc out/Default --args="some_list=[1, false, \"foo\"]"
 )";

 #define COLOR_HELP_LONG                                                       \
   "--[no]color: Forces colored output on or off.\n"                           \
   "\n"                                                                        \
   "  Normally GN will try to detect whether it is outputting to a terminal\n" \
   "  and will enable or disable color accordingly. Use of these switches\n"   \
   "  will override the default.\n"                                            \
   "\n"                                                                        \
   "Examples\n"                                                                \
   "\n"                                                                        \
   "  gn gen out/Default --color\n"                                            \
   "\n"                                                                        \
   "  gn gen out/Default --nocolor\n"
 const char kColor[] = "color";
 const char kColor_HelpShort[] = "--color: Force colored output.";
 const char kColor_Help[] = COLOR_HELP_LONG;

 const char kDotfile[] = "dotfile";
 const char kDotfile_HelpShort[] =
     "--dotfile: Override the name of the \".gn\" file.";
 const char kDotfile_Help[] =
     R"(--dotfile: Override the name of the ".gn" file.

   Normally GN loads the ".gn" file from the source root for some basic
   configuration (see "gn help dotfile"). This flag allows you to
   use a different file.
 )";

 const char kFailOnUnusedArgs[] = "fail-on-unused-args";
 const char kFailOnUnusedArgs_HelpShort[] =
     "--fail-on-unused-args: Treat unused build args as fatal errors.";
 const char kFailOnUnusedArgs_Help[] =
     R"(--fail-on-unused-args: Treat unused build args as fatal errors.

   If you set a value in a build's "gn args" and never use it in the build (in
   a declare_args() block), GN will normally print an error but not fail the
   build.

   In many cases engineers would use build args to enable or disable features
   that would sometimes get removed. It would by annoying to block work for
   typically benign problems. In Chrome in particular, flags might be configured
   for build bots in a separate infrastructure repository, or a declare_args
   block might be changed in a third party repository. Treating these errors as
   blocking forced complex multi- way patches to land what would otherwise be
   simple changes.

   In some cases, such concerns are not as important, and a mismatch in build
   flags between the invoker of the build and the build files represents a
   critical mismatch that should be immediately fixed. Such users can set this
   flag to force GN to fail in that case.
 )";

 const char kMarkdown[] = "markdown";
 const char kMarkdown_HelpShort[] =
     "--markdown: Write help output in the Markdown format.";
 const char kMarkdown_Help[] =
     "--markdown: Write help output in the Markdown format.\n";

 const char kNoColor[] = "nocolor";
 const char kNoColor_HelpShort[] = "--nocolor: Force non-colored output.";
 const char kNoColor_Help[] = COLOR_HELP_LONG;

 const char kNinjaExecutable[] = "ninja-executable";
 const char kNinjaExecutable_HelpShort[] =
     "--ninja-executable: Set the Ninja executable.";
 const char kNinjaExecutable_Help[] =
     R"(--ninja-executable: Set the Ninja executable.

   When set specifies the Ninja executable that will be used to perform some
   post-processing on the generated files for more consistent builds.
 )";

 const char kScriptExecutable[] = "script-executable";
 const char kScriptExecutable_HelpShort[] =
     "--script-executable: Set the executable used to execute scripts.";
 const char kScriptExecutable_Help[] =
     R"(--script-executable: Set the executable used to execute scripts.

   Path to specific Python executable or other interpreter to use in
   action targets and exec_script calls. By default GN searches the
   PATH for Python to execute these scripts.

   If set to the empty string, the path specified in action targets
   and exec_script calls will be executed directly.
 )";

 const char kMetaDataKeys[] = "data";
 const char kMetaDataKeys_HelpShort[] =
     "--data: list of data keys to concatenate when collecting metadata.";
 const char kMetaDataKeys_Help[] =
     R"(--data: list of data keys to concatenate when collecting metadata.

   Data keys identify which variables in the given targets' `metadata`
   scopes should be collected. At least one data key must be specified.
 )";

 const char kMetaWalkKeys[] = "walk";
 const char kMetaWalkKeys_HelpShort[] =
     "--walk: list of walk keys to traverse when collecting metadata.";
 const char kMetaWalkKeys_Help[] =
     R"(--walk: list of walk keys to traverse when collecting metadata.

   Walk keys identify which variables in the given targets' `metadata`
   scopes contain the list of dependencies to walk next. Absence of any
   walk keys indicates that all deps and data_deps should be walked.
 )";

 const char kMetaRebaseFiles[] = "rebase-files";
 const char kMetaRebaseFiles_HelpShort[] =
     "--rebase-files (boolean): whether to rebase the paths of the collected "
     "metadata.";
 const char kMetaRebaseFiles_Help[] =
     R"(--rebase-files: whether to rebase the paths of the collected metadata.

   This flag indicates whether or not to rebase the collected results onto their
   declaring source directory path. Note that this requires the data key(s) to
   contain only lists of strings, which will be interpreted as file names.
 )";

 const char kQuiet[] = "q";
 const char kQuiet_HelpShort[] =
     "-q: Quiet mode. Don't print output on success.";
 const char kQuiet_Help[] =
     R"(-q: Quiet mode. Don't print output on success.

   This is useful when running as a part of another script.
 )";

 const char kRoot[] = "root";
 const char kRoot_HelpShort[] = "--root: Explicitly specify source root.";
 const char kRoot_Help[] =
     R"(--root: Explicitly specify source root.

   Normally GN will look up in the directory tree from the current directory to
   find a ".gn" file. The source root directory specifies the meaning of "//"
   beginning with paths, and the BUILD.gn file in that directory will be the
   first thing loaded.

   Specifying --root allows GN to do builds in a specific directory regardless
   of the current directory.

 Examples

   gn gen //out/Default --root=/home/baracko/src

   gn desc //out/Default --root="C:\Users\BObama\My Documents\foo"
 )";

 const char kRootTarget[] = "root-target";
 const char kRootTarget_HelpShort[] =
     "--root-target: Override the root target.";
 const char kRootTarget_Help[] =
     R"(--root-target: Override the root target.

   The root target is the target initially loaded to begin population of the
   build graph. It defaults to "//:" which normally causes the "//BUILD.gn" file
   to be loaded. It can be specified in the .gn file via the "root" variable (see
   "gn help dotfile").

   If specified, the value of this switch will be take precedence over the value
   in ".gn". The target name (after the colon) is ignored, only the directory
   name is required. Relative paths will be resolved relative to the current "//"
   directory.

   Specifying a different initial BUILD.gn file does not change the meaning of
   the source root (the "//" directory) which can be independently set via the
   --root switch. It also does not prevent the build file located at "//BUILD.gn"
   from being loaded if a target in the build references that directory.

   One use-case of this feature is to load a different set of initial targets
   from project that uses GN without modifying any files.

 Examples

   gn gen //out/Default --root-target="//third_party/icu"

   gn gen //out/Default --root-target="//third_party/grpc"
 )";

 const char kRuntimeDepsListFile[] = "runtime-deps-list-file";
 const char kRuntimeDepsListFile_HelpShort[] =
     "--runtime-deps-list-file: Save runtime dependencies for targets in file.";
 const char kRuntimeDepsListFile_Help[] =
     R"(--runtime-deps-list-file: Save runtime dependencies for targets in file.

   --runtime-deps-list-file=<filename>

   Where <filename> is a text file consisting of the labels, one per line, of
   the targets for which runtime dependencies are desired.

   See "gn help runtime_deps" for a description of how runtime dependencies are
   computed.

 Runtime deps output file

   For each target requested, GN will write a separate runtime dependency file.
   The runtime dependency file will be in the output directory alongside the
   output file of the target, with a ".runtime_deps" extension. For example, if
   the target "//foo:bar" is listed in the input file, and that target produces
   an output file "bar.so", GN will create a file "bar.so.runtime_deps" in the
   build directory.

   If a source set, action, copy, or group is listed, the runtime deps file will
   correspond to the .stamp file corresponding to that target. This is probably
   not useful; the use-case for this feature is generally executable targets.

   The runtime dependency file will list one file per line, with no escaping.
   The files will be relative to the root_build_dir. The first line of the file
   will be the main output file of the target itself (in the above example,
   "bar.so").
 )";

 const char kThreads[] = "threads";
 const char kThreads_HelpShort[] =
     "--threads: Specify number of worker threads.";
 const char kThreads_Help[] =
     R"(--threads: Specify number of worker threads.

   GN runs many threads to load and run build files. This can make debugging
   challenging. Or you may want to experiment with different values to see how
   it affects performance.

   The parameter is the number of worker threads. This does not count the main
   thread (so there are always at least two).

 Examples

   gen gen out/Default --threads=1
 )";

 const char kTime[] = "time";
 const char kTime_HelpShort[] =
     "--time: Outputs a summary of how long everything took.";
 const char kTime_Help[] =
     R"(--time: Outputs a summary of how long everything took.

   Hopefully self-explanatory.

 Examples

   gn gen out/Default --time
 )";

 const char kTracelog[] = "tracelog";
 const char kTracelog_HelpShort[] =
     "--tracelog: Writes a Chrome-compatible trace log to the given file.";
 const char kTracelog_Help[] =
     R"(--tracelog: Writes a Chrome-compatible trace log to the given file.

   The trace log will show file loads, executions, scripts, and writes. This
   allows performance analysis of the generation step.

   To view the trace, open Chrome and navigate to "chrome://tracing/", then
   press "Load" and specify the file you passed to this parameter.

 Examples

   gn gen out/Default --tracelog=mytrace.trace
 )";

 const char kVerbose[] = "v";
 const char kVerbose_HelpShort[] = "-v: Verbose logging.";
 const char kVerbose_Help[] =
     R"(-v: Verbose logging.

   This will spew logging events to the console for debugging issues.

   Good luck!
 )";

 const char kVersion[] = "version";
 const char kVersion_HelpShort[] =
     "--version: Prints the GN version number and exits.";
 // It's impossible to see this since gn_main prints the version and exits
 // immediately if this switch is used.
 const char kVersion_Help[] = "";

 const char kDefaultToolchain[] = "default-toolchain";

 const char kRegeneration[] = "regeneration";
 // -----------------------------------------------------------------------------

 SwitchInfo::SwitchInfo() : short_help(""), long_help("") {}

 SwitchInfo::SwitchInfo(const char* short_help, const char* long_help)
     : short_help(short_help), long_help(long_help) {}

 #define INSERT_VARIABLE(var) \
   info_map[k##var] = SwitchInfo(k##var##_HelpShort, k##var##_Help);

 const SwitchInfoMap& GetSwitches() {
   static SwitchInfoMap info_map;
   if (info_map.empty()) {
     INSERT_VARIABLE(Args)
     INSERT_VARIABLE(Color)
     INSERT_VARIABLE(Dotfile)
     INSERT_VARIABLE(FailOnUnusedArgs)
     INSERT_VARIABLE(Markdown)
     INSERT_VARIABLE(NinjaExecutable)
     INSERT_VARIABLE(NoColor)
     INSERT_VARIABLE(Root)
     INSERT_VARIABLE(RootTarget)
     INSERT_VARIABLE(Quiet)
     INSERT_VARIABLE(RuntimeDepsListFile)
     INSERT_VARIABLE(ScriptExecutable)
     INSERT_VARIABLE(Threads)
     INSERT_VARIABLE(Time)
     INSERT_VARIABLE(Tracelog)
     INSERT_VARIABLE(Verbose)
     INSERT_VARIABLE(Version)
   }
   return info_map;
 }

 #undef INSERT_VARIABLE

 }  // namespace switches
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "gn/switches.h"

	namespace switches {

	const char kArgs[] = "args";
	const char kArgs_HelpShort[] = "--args: Specifies build arguments overrides.";
	const char kArgs_Help[] =
	R"(--args: Specifies build arguments overrides.

	See "gn help buildargs" for an overview of how build arguments work.

	Most operations take a build directory. The build arguments are taken from
	the previous build done in that directory. If a command specifies --args, it
	will override the previous arguments stored in the build directory, and use
	the specified ones.

	The args specified will be saved to the build directory for subsequent
	commands. Specifying --args="" will clear all build arguments.

	Formatting

	The value of the switch is interpreted in GN syntax. For typical usage of
	string arguments, you will need to be careful about escaping of quotes.

	Examples

	gn gen out/Default --args="foo=\"bar\""

	gn gen out/Default --args='foo="bar" enable=true blah=7'

	gn check out/Default --args=""
	Clears existing build args from the directory.

	gn desc out/Default --args="some_list=[1, false, \"foo\"]"
	)";

	#define COLOR_HELP_LONG \
	"--[no]color: Forces colored output on or off.\n" \
	"\n" \
	" Normally GN will try to detect whether it is outputting to a terminal\n" \
	" and will enable or disable color accordingly. Use of these switches\n" \
	" will override the default.\n" \
	"\n" \
	"Examples\n" \
	"\n" \
	" gn gen out/Default --color\n" \
	"\n" \
	" gn gen out/Default --nocolor\n"
	const char kColor[] = "color";
	const char kColor_HelpShort[] = "--color: Force colored output.";
	const char kColor_Help[] = COLOR_HELP_LONG;

	const char kDotfile[] = "dotfile";
	const char kDotfile_HelpShort[] =
	"--dotfile: Override the name of the \".gn\" file.";
	const char kDotfile_Help[] =
	R"(--dotfile: Override the name of the ".gn" file.

	Normally GN loads the ".gn" file from the source root for some basic
	configuration (see "gn help dotfile"). This flag allows you to
	use a different file.
	)";

	const char kFailOnUnusedArgs[] = "fail-on-unused-args";
	const char kFailOnUnusedArgs_HelpShort[] =
	"--fail-on-unused-args: Treat unused build args as fatal errors.";
	const char kFailOnUnusedArgs_Help[] =
	R"(--fail-on-unused-args: Treat unused build args as fatal errors.

	If you set a value in a build's "gn args" and never use it in the build (in
	a declare_args() block), GN will normally print an error but not fail the
	build.

	In many cases engineers would use build args to enable or disable features
	that would sometimes get removed. It would by annoying to block work for
	typically benign problems. In Chrome in particular, flags might be configured
	for build bots in a separate infrastructure repository, or a declare_args
	block might be changed in a third party repository. Treating these errors as
	blocking forced complex multi- way patches to land what would otherwise be
	simple changes.

	In some cases, such concerns are not as important, and a mismatch in build
	flags between the invoker of the build and the build files represents a
	critical mismatch that should be immediately fixed. Such users can set this
	flag to force GN to fail in that case.
	)";

	const char kMarkdown[] = "markdown";
	const char kMarkdown_HelpShort[] =
	"--markdown: Write help output in the Markdown format.";
	const char kMarkdown_Help[] =
	"--markdown: Write help output in the Markdown format.\n";

	const char kNoColor[] = "nocolor";
	const char kNoColor_HelpShort[] = "--nocolor: Force non-colored output.";
	const char kNoColor_Help[] = COLOR_HELP_LONG;

	const char kNinjaExecutable[] = "ninja-executable";
	const char kNinjaExecutable_HelpShort[] =
	"--ninja-executable: Set the Ninja executable.";
	const char kNinjaExecutable_Help[] =
	R"(--ninja-executable: Set the Ninja executable.

	When set specifies the Ninja executable that will be used to perform some
	post-processing on the generated files for more consistent builds.
	)";

	const char kScriptExecutable[] = "script-executable";
	const char kScriptExecutable_HelpShort[] =
	"--script-executable: Set the executable used to execute scripts.";
	const char kScriptExecutable_Help[] =
	R"(--script-executable: Set the executable used to execute scripts.

	Path to specific Python executable or other interpreter to use in
	action targets and exec_script calls. By default GN searches the
	PATH for Python to execute these scripts.

	If set to the empty string, the path specified in action targets
	and exec_script calls will be executed directly.
	)";

	const char kMetaDataKeys[] = "data";
	const char kMetaDataKeys_HelpShort[] =
	"--data: list of data keys to concatenate when collecting metadata.";
	const char kMetaDataKeys_Help[] =
	R"(--data: list of data keys to concatenate when collecting metadata.

	Data keys identify which variables in the given targets' `metadata`
	scopes should be collected. At least one data key must be specified.
	)";

	const char kMetaWalkKeys[] = "walk";
	const char kMetaWalkKeys_HelpShort[] =
	"--walk: list of walk keys to traverse when collecting metadata.";
	const char kMetaWalkKeys_Help[] =
	R"(--walk: list of walk keys to traverse when collecting metadata.

	Walk keys identify which variables in the given targets' `metadata`
	scopes contain the list of dependencies to walk next. Absence of any
	walk keys indicates that all deps and data_deps should be walked.
	)";

	const char kMetaRebaseFiles[] = "rebase-files";
	const char kMetaRebaseFiles_HelpShort[] =
	"--rebase-files (boolean): whether to rebase the paths of the collected "
	"metadata.";
	const char kMetaRebaseFiles_Help[] =
	R"(--rebase-files: whether to rebase the paths of the collected metadata.

	This flag indicates whether or not to rebase the collected results onto their
	declaring source directory path. Note that this requires the data key(s) to
	contain only lists of strings, which will be interpreted as file names.
	)";

	const char kQuiet[] = "q";
	const char kQuiet_HelpShort[] =
	"-q: Quiet mode. Don't print output on success.";
	const char kQuiet_Help[] =
	R"(-q: Quiet mode. Don't print output on success.

	This is useful when running as a part of another script.
	)";

	const char kRoot[] = "root";
	const char kRoot_HelpShort[] = "--root: Explicitly specify source root.";
	const char kRoot_Help[] =
	R"(--root: Explicitly specify source root.

	Normally GN will look up in the directory tree from the current directory to
	find a ".gn" file. The source root directory specifies the meaning of "//"
	beginning with paths, and the BUILD.gn file in that directory will be the
	first thing loaded.

	Specifying --root allows GN to do builds in a specific directory regardless
	of the current directory.

	Examples

	gn gen //out/Default --root=/home/baracko/src

	gn desc //out/Default --root="C:\Users\BObama\My Documents\foo"
	)";

	const char kRootTarget[] = "root-target";
	const char kRootTarget_HelpShort[] =
	"--root-target: Override the root target.";
	const char kRootTarget_Help[] =
	R"(--root-target: Override the root target.

	The root target is the target initially loaded to begin population of the
	build graph. It defaults to "//:" which normally causes the "//BUILD.gn" file
	to be loaded. It can be specified in the .gn file via the "root" variable (see
	"gn help dotfile").

	If specified, the value of this switch will be take precedence over the value
	in ".gn". The target name (after the colon) is ignored, only the directory
	name is required. Relative paths will be resolved relative to the current "//"
	directory.

	Specifying a different initial BUILD.gn file does not change the meaning of
	the source root (the "//" directory) which can be independently set via the
	--root switch. It also does not prevent the build file located at "//BUILD.gn"
	from being loaded if a target in the build references that directory.

	One use-case of this feature is to load a different set of initial targets
	from project that uses GN without modifying any files.

	Examples

	gn gen //out/Default --root-target="//third_party/icu"

	gn gen //out/Default --root-target="//third_party/grpc"
	)";

	const char kRuntimeDepsListFile[] = "runtime-deps-list-file";
	const char kRuntimeDepsListFile_HelpShort[] =
	"--runtime-deps-list-file: Save runtime dependencies for targets in file.";
	const char kRuntimeDepsListFile_Help[] =
	R"(--runtime-deps-list-file: Save runtime dependencies for targets in file.

	--runtime-deps-list-file=<filename>

	Where <filename> is a text file consisting of the labels, one per line, of
	the targets for which runtime dependencies are desired.

	See "gn help runtime_deps" for a description of how runtime dependencies are
	computed.

	Runtime deps output file

	For each target requested, GN will write a separate runtime dependency file.
	The runtime dependency file will be in the output directory alongside the
	output file of the target, with a ".runtime_deps" extension. For example, if
	the target "//foo:bar" is listed in the input file, and that target produces
	an output file "bar.so", GN will create a file "bar.so.runtime_deps" in the
	build directory.

	If a source set, action, copy, or group is listed, the runtime deps file will
	correspond to the .stamp file corresponding to that target. This is probably
	not useful; the use-case for this feature is generally executable targets.

	The runtime dependency file will list one file per line, with no escaping.
	The files will be relative to the root_build_dir. The first line of the file
	will be the main output file of the target itself (in the above example,
	"bar.so").
	)";

	const char kThreads[] = "threads";
	const char kThreads_HelpShort[] =
	"--threads: Specify number of worker threads.";
	const char kThreads_Help[] =
	R"(--threads: Specify number of worker threads.

	GN runs many threads to load and run build files. This can make debugging
	challenging. Or you may want to experiment with different values to see how
	it affects performance.

	The parameter is the number of worker threads. This does not count the main
	thread (so there are always at least two).

	Examples

	gen gen out/Default --threads=1
	)";

	const char kTime[] = "time";
	const char kTime_HelpShort[] =
	"--time: Outputs a summary of how long everything took.";
	const char kTime_Help[] =
	R"(--time: Outputs a summary of how long everything took.

	Hopefully self-explanatory.

	Examples

	gn gen out/Default --time
	)";

	const char kTracelog[] = "tracelog";
	const char kTracelog_HelpShort[] =
	"--tracelog: Writes a Chrome-compatible trace log to the given file.";
	const char kTracelog_Help[] =
	R"(--tracelog: Writes a Chrome-compatible trace log to the given file.

	The trace log will show file loads, executions, scripts, and writes. This
	allows performance analysis of the generation step.

	To view the trace, open Chrome and navigate to "chrome://tracing/", then
	press "Load" and specify the file you passed to this parameter.

	Examples

	gn gen out/Default --tracelog=mytrace.trace
	)";

	const char kVerbose[] = "v";
	const char kVerbose_HelpShort[] = "-v: Verbose logging.";
	const char kVerbose_Help[] =
	R"(-v: Verbose logging.

	This will spew logging events to the console for debugging issues.

	Good luck!
	)";

	const char kVersion[] = "version";
	const char kVersion_HelpShort[] =
	"--version: Prints the GN version number and exits.";
	// It's impossible to see this since gn_main prints the version and exits
	// immediately if this switch is used.
	const char kVersion_Help[] = "";

	const char kDefaultToolchain[] = "default-toolchain";

	const char kRegeneration[] = "regeneration";
	// -----------------------------------------------------------------------------

	SwitchInfo::SwitchInfo() : short_help(""), long_help("") {}

	SwitchInfo::SwitchInfo(const char* short_help, const char* long_help)
	: short_help(short_help), long_help(long_help) {}

	#define INSERT_VARIABLE(var) \
	info_map[k##var] = SwitchInfo(k##var##_HelpShort, k##var##_Help);

	const SwitchInfoMap& GetSwitches() {
	static SwitchInfoMap info_map;
	if (info_map.empty()) {
	INSERT_VARIABLE(Args)
	INSERT_VARIABLE(Color)
	INSERT_VARIABLE(Dotfile)
	INSERT_VARIABLE(FailOnUnusedArgs)
	INSERT_VARIABLE(Markdown)
	INSERT_VARIABLE(NinjaExecutable)
	INSERT_VARIABLE(NoColor)
	INSERT_VARIABLE(Root)
	INSERT_VARIABLE(RootTarget)
	INSERT_VARIABLE(Quiet)
	INSERT_VARIABLE(RuntimeDepsListFile)
	INSERT_VARIABLE(ScriptExecutable)
	INSERT_VARIABLE(Threads)
	INSERT_VARIABLE(Time)
	INSERT_VARIABLE(Tracelog)
	INSERT_VARIABLE(Verbose)
	INSERT_VARIABLE(Version)
	}
	return info_map;
	}

	#undef INSERT_VARIABLE

	} // namespace switches