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// file      : odb/options.cli
// copyright : Copyright (c) 2009-2015 Code Synthesis Tools CC
// license   : GNU GPL v3; see accompanying LICENSE file

include <set>;
include <vector>;
include <string>;
include <cstddef>;

include <odb/option-types.hxx>;

class options
{
  //
  // Wrapper options. These are not passed to the plugin.
  //

  bool --help {"Print usage information and exit."};
  bool --version {"Print version and exit."};

  //
  // C++ preprocessor options. Also not passed to the plugin.
  //
  std::vector<std::string> -I
  {
    "<dir>",
    "Add <dir> to the beginning of the list of directories to be searched
     for included header files."
  };

  std::vector<std::string> -D
  {
    "<name>[=<def>]",
    "Define macro <name> with definition <def>. If definition is omitted,
     define <name> to be 1."
  };

  std::vector<std::string> -U
  {
    "<name>",
    "Cancel any previous definitions of macro <name>, either built-in or
     provided with the \cb{-D} option."
  };

  //
  // Plugin options.
  //
  std::vector< ::database> --database | -d
  {
    "<db>",
    "Generate code for the <db> database. Valid values are \cb{mssql},
     \cb{mysql}, \cb{oracle}, \cb{pgsql}, \cb{sqlite}, and \cb{common}
     (multi-database mode only)."
  };

  ::multi_database --multi-database | -m = ::multi_database::disabled
  {
    "<type>",
    "Enable multi-database support and specify its type. Valid values
     for this option are \cb{static} and \cb{dynamic}.

     In the multi-database mode, options that determine the kind (for
     example, \cb{--schema-format}), names (for example,
     \cb{--odb-file-suffix}), or content (for example, prologue and
     epilogue options) of the output files can be prefixed with the
     database name followed by a colon, for example, \cb{mysql:value}.
     This restricts the value of such an option to only apply to
     generated files corresponding to this database."
  };

  ::database --default-database
  {
    "<db>",
    "When static multi-database support is used, specify the database that
     should be made the default. When dynamic multi-database support is used,
     \cb{common} is always made the default database."
  };

  bool --generate-query | -q
  {
    "Generate query support code. Without this support you cannot use views
     and can only load objects via their ids."
  };

  bool --generate-prepared
  {
    "Generate prepared query execution support code."
  };

  bool --omit-unprepared
  {
    "Omit un-prepared (once-off) query execution support code."
  };

  bool --generate-session | -e
  {
    "Generate session support code. With this option session support will
     be enabled by default for all the persistent classes except those for
     which it was explicitly disabled using the \cb{db session} pragma."
  };

  bool --generate-schema | -s
  {
    "Generate the database schema. The database schema contains SQL
     statements that create database tables necessary to store persistent
     classes defined in the file being compiled. Note that by applying
     this schema, all the existing information stored in such tables will
     be lost.

     Depending on the database being used (\cb{--database} option), the
     schema is generated either as a standalone SQL file or embedded into
     the generated C++ code. By default the SQL file is generated for
     the MySQL, PostgreSQL, Oracle, and Microsoft SQL Server databases
     and the schema is embedded into the C++ code for the SQLite database.
     Use the \cb{--schema-format} option to alter the default schema format.

     If database schema evolution support is enabled (that is, the object
     model version is specified), then this option also triggers the
     generation of database schema migration statements, again either as
     standalong SQL files or embedded into the generated C++ code. You can
     suppress the generation of schema migration statements by specifying
     the \cb{--suppress-migration} option."
  };

  bool --generate-schema-only
  {
    "Generate only the database schema. Note that this option is only valid
     when generating schema as a standalone SQL file (see \cb{--schema-format}
     for details)."
  };

  bool --suppress-migration
  {
    "Suppress the generation of database schema migration statements."
  };

  bool --suppress-schema-version
  {
    "Suppress the generation of schema version table. If you specify this
     option then you are also expected to manually specify the database
     schema version and migration state at runtime using the
     \cb{odb::database::schema_version()} function."
  };

  database_map<qname> --schema-version-table
  {
    "<name>",
    "Specify the alternative schema version table name instead of the default
     \cb{schema_version}. If you specify this option then you are also
     expected to manually specify the schema version table name at runtime
     using the \cb{odb::database::schema_version_table()} function. The table
     name can be qualified."
  };

  database_map<std::set< ::schema_format> > --schema-format
  {
    "<format>",
    "Generate the database schema in the specified format. Pass \cb{sql} as
     <format> to generate the database schema as a standalone SQL file or
     pass \cb{embedded} to embed the schema into the generated C++ code.
     The \cb{separate} value is similar to \cb{embedded} except the schema
     creation code is generated into a separate C++ file (\cb{name-schema.cxx}
     by default). This value is primarily useful if you want to place the
     schema creation functionality into a separate program or library.
     Repeat this option to generate the same database schema in multiple
     formats."
  };

  bool --omit-drop
  {
    "Omit \cb{DROP} statements from the generated database schema."
  };

  bool --omit-create
  {
    "Omit \cb{CREATE} statements from the generated database schema."
  };

  database_map<std::string> --schema-name
  {
    "<name>",
    "Use <name> as the database schema name. Schema names are primarily
     used to distinguish between multiple embedded schemas in the schema
     catalog. They are not to be confused with database schemas (database
     namespaces) which are specified with the \cb{--schema} option. If
     this option is not specified, the empty name, which is the default
     schema name, is used."
  };

  database_map<deferrable> --fkeys-deferrable-mode
  {
    "<m>",
    "Use constraint checking mode <m> in foreign keys generated for object
     relationships. Valid values for this option are \cb{not_deferrable},
     \cb{immediate}, and \cb{deferred} (default). MySQL and SQL Server do
     not support deferrable foreign keys and for these databases such keys
     are generated commented out. Other foreign keys generated by the ODB
     compiler (such as the ones used to support containers and polymorphic
     hierarchies) are always generated as not deferrable.

     Note also that if you use either \cb{not_deferrable} or \cb{immediate}
     mode, then the order in which you persist, update, and erase objects
     within a transaction becomes important."
  };

  std::string --default-pointer = "*"
  {
    "<ptr>",
    "Use <ptr> as the default pointer for persistent objects and views.
     Objects and views that do not have a pointer assigned with the
     \cb{db pointer} pragma will use this pointer by default. The value
     of this option can be \cb{*} which denotes the raw pointer and is
     the default, or qualified name of a smart pointer class template,
     for example, \cb{std::auto_ptr}. In the latter case, the ODB compiler
     constructs the object or view pointer by adding a single template
     argument of the object or view type to the qualified name, for example
     \cb{std::auto_ptr<object>}. The ODB runtime uses object and view
     pointers to return, and, in case of objects, pass and cache
     dynamically allocated instances of object and view types.

     Except for the raw pointer and the standard smart pointers defined
     in the \cb{<memory>} header file, you are expected to include the
     definition of the default pointer at the beginning of the generated
     header file. There are two common ways to achieve this: you can either
     include the necessary header in the file being compiled or you can use
     the \cb{--hxx-prologue} option to add the necessary \cb{#include}
     directive to the generated code."
  };

  std::string --session-type = "odb::session"
  {
    "<type>",
    "Use <type> as the alternative session type instead of the default
     \cb{odb::session}. This option can be used to specify a custom
     session implementation to be use by the persistent classes. Note
     that you will also need to include the definition of the custom
     session type into the generated header file. This is normally
     achieved with the \cb{--hxx-prologue*} options."
  };

  // The following option is "fake" in that it is actually handled by
  // argv_file_scanner. We have it here to get the documentation.
  //
  std::string --profile | -p
  {
    "<name>",
    "Specify a profile that should be used during compilation. A
     profile is an options file. The ODB compiler first looks for
     a database-specific version with the name constructed by appending
     the \cb{-}\ci{database}\cb{.options} suffix to <name>, where
     \ci{database} is the database name as specified with the
     \cb{--database} option. If this file is not found, then the
     ODB compiler looks for a database-independant version with the
     name constructed by appending just the \cb{.options} suffix.

     The profile options files are searched for in the same set of
     directories as C++ headers included with the \cb{#include <...>}
     directive (built-in paths plus those specified with the \cb{-I}
     options). The options file is first searched for in the directory
     itself and then in its \cb{odb/} subdirectory.

     For the format of the options file refer to the \cb{--options-file}
     option below. You can repeat this option to specify more than one
     profile."
  };

  bool --at-once
  {
    "Generate code for all the input files as well as for all the files that
     they include at once. The result is a single set of source/schema files
     that contain all the generated code. If more than one input file is
     specified together with this option, then the \cb{--input-name} option
     must also be specified in order to provide the base name for the output
     files. In this case, the directory part of such a base name is used as
     the location of the combined file. This can be important for the
     \cb{#include} directive resolution."
  };

  database_map<qname> --schema
  {
    "<schema>",
    "Specify a database schema (database namespace) that should be
     assigned to the persistent classes in the file being compiled.
     Database schemas are not to be confused with database schema
     names (schema catalog names) which are specified with the
     \cb{--schema-name} option."
  };

  // Export control.
  //
  database_map<std::string> --export-symbol
  {
    "<symbol>",
    "Insert <symbol> in places where DLL export/import control statements
     (\cb{__declspec(dllexport/dllimport)}) are necessary. See also the
     \cb{--extern-symbol} option below."
  };

  database_map<std::string> --extern-symbol
  {
    "<symbol>",
    "If <symbol> is defined, insert it in places where a template
     instantiation must be declared \cb{extern}. This option is normally
     used together with \cb{--export-symbol} when both multi-database
     support and queries are enabled."
  };

  // Language.
  //
  cxx_version --std = cxx_version::cxx98
  {
    "<version>",
    "Specify the C++ standard that should be used during compilation.
     Valid values are \cb{c++98} (default), \cb{c++11}, and \cb{c++14}."
  };

  // Diagnostics.
  //
  bool --warn-hard-add
  {
    "Warn about hard-added data members."
  };

  bool --warn-hard-delete
  {
    "Warn about hard-deleted data members and persistent classes."
  };

  bool --warn-hard
  {
    "Warn about both hard-added and hard-deleted data members and
     persistent classes."
  };

  // Output.
  //
  std::string --output-dir | -o
  {
    "<dir>",
    "Write the generated files to <dir> instead of the current directory."
  };

  std::string --input-name
  {
    "<name>",
    "Use <name> instead of the input file to derive the names of the
     generated files. If the \cb{--at-once} option is specified, then
     the directory part of <name> is used as the location of the
     combined file. Refer to the \cb{--at-once} option for details."
  };

  database_map<std::string> --changelog
  {
    "<file>",
    "Read/write changelog from/to <file> instead of the default changelog
     file. The default changelog file name is derived from the input file
     name and it is placed into the same directory as the input file. Note
     that the \cb{--output-dir} option does not affect the changelog file
     location. In other words, by default, the changelog file is treated
     as another input rather than output even though the ODB compiler may
     modify it. Use the \cb{--changelog-in} and \cb{--changelog-out}
     options to specify different input and output chaneglog files."
  };

  database_map<std::string> --changelog-in
  {
    "<file>",
    "Read changelog from <file> instead of the default changelog file. If
     this option is specified, then you must also specify the output
     chanegelog file with \cb{--changelog-out}."
  };

  database_map<std::string> --changelog-out
  {
    "<file>",
    "Write changelog to <file> instead of the default changelog file. If
     this option is specified, then you must also specify the input
     chanegelog file with \cb{--changelog-in}."
  };

  database_map<std::string> --changelog-dir
  {
    "<dir>",
    "Use <dir> instead of the input file directory as the changelog file
     directory. This directory is also added to changelog files specified
     with the \cb{--changelog}, \cb{--changelog-in}, and \cb{--changelog-in}
     options unless they are absolute paths."
  };

  bool --init-changelog
  {
    "Force re-initialization of the changelog even if one exists (all the
     existing change history will be lost). This option is primarily useful
     for automated testing."
  };

  database_map<std::string> --odb-file-suffix
  {
    "<suffix>",
    "Use <suffix> to construct the names of the generated C++ files. In
     the single-database mode the default value for this option is \cb{-odb}.
     In the multi-database mode it is \cb{-odb} for the files corresponding
     to the \cb{common} database and \c{\b{-odb-}\i{db}} (where \ci{db} is
     the database name) for other databases."
  };

  database_map<std::string> --sql-file-suffix
  {
    "<suffix>",
    "Use <suffix> to construct the name of the generated schema SQL file.
     In the single-database mode by default no suffix is used. In the
     multi-database mode the default value for this option is
     \c{\b{-}\i{db}} (where \ci{db} is the database name)."
  };

  database_map<std::string> --schema-file-suffix
  {
    "<suffix>",
    "Use <suffix> to construct the name of the generated schema C++ source
     file. In the single-database mode the default value for this option is
     \cb{-schema}. In the multi-database mode it is \c{\b{-schema-}\i{db}}
     (where \ci{db} is the database name). See the \cb{--schema-format}
     option for details."
  };

  database_map<std::string> --changelog-file-suffix
  {
    "<sfx>",
    "Use <sfx> to construct the name of the changelog file. In the
     single-database mode by default no suffix is used. In the
     multi-database mode the default value for this option is
     \c{\b{-}\i{db}} (where \ci{db} is the database name)."
  };

  std::string --hxx-suffix = ".hxx"
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{.hxx} to construct the name of
     the generated C++ header file."
  };

  std::string --ixx-suffix = ".ixx"
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{.ixx} to construct the name of
     the generated C++ inline file."
  };

  std::string --cxx-suffix = ".cxx"
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{.cxx} to construct the name of
     the generated C++ source file."
  };

  std::string --sql-suffix = ".sql"
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{.sql} to construct the name of
     the generated database schema file."
  };

  std::string --changelog-suffix = ".xml"
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{.xml} to construct the name of
     the changelog file."
  };

  // Prologues.
  //
  database_map<std::vector<std::string> > --hxx-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated C++ header file."
  };

  database_map<std::vector<std::string> > --ixx-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated C++ inline file."
  };

  database_map<std::vector<std::string> > --cxx-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated C++ source file."
  };

  database_map<std::vector<std::string> > --schema-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated schema C++ source file."
  };

  database_map<std::vector<std::string> > --sql-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated database schema file."
  };

  database_map<std::vector<std::string> > --migration-prologue
  {
    "<text>",
    "Insert <text> at the beginning of the generated database migration file."
  };

  // Interludes.
  //
  database_map<std::vector<std::string> > --sql-interlude
  {
    "<text>",
    "Insert <text> after all the \cb{DROP} and before any \cb{CREATE}
     statements in the generated database schema file."
  };

  // Epilogues.
  //
  database_map<std::vector<std::string> > --hxx-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated C++ header file."
  };

  database_map<std::vector<std::string> > --ixx-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated C++ inline file."
  };

  database_map<std::vector<std::string> > --cxx-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated C++ source file."
  };

  database_map<std::vector<std::string> > --schema-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated schema C++ source file."
  };

  database_map<std::vector<std::string> > --sql-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated database schema file."
  };

  database_map<std::vector<std::string> > --migration-epilogue
  {
    "<text>",
    "Insert <text> at the end of the generated database migration file."
  };

  // Prologue files.
  //
  database_map<std::string> --hxx-prologue-file
  {
    "<file>",
    "Insert the content of <file> at the beginning of the generated C++
     header file."
  };

  database_map<std::string> --ixx-prologue-file
  {
    "<file>",
    "Insert the content of <file> at the beginning of the generated C++
     inline file."
  };

  database_map<std::string> --cxx-prologue-file
  {
    "<file>",
    "Insert the content of <file> at the beginning of the generated C++
     source file."
  };

  database_map<std::string> --schema-prologue-file
  {
    "<file>",
    "Insert the content of <file> at the beginning of the generated schema
     C++ source file."
  };

  database_map<std::string> --sql-prologue-file
  {
    "<file>",
    "Insert the content of <file> at the beginning of the generated
     database schema file."
  };

  database_map<std::string> --migration-prologue-file
  {
    "<f>",
    "Insert the content of file <f> at the beginning of the generated database
     migration file."
  };

  // Interlude files.
  //
  database_map<std::string> --sql-interlude-file
  {
    "<file>",
    "Insert the content of <file> after all the \cb{DROP} and before any
     \cb{CREATE} statements in the generated database schema file."
  };

  // Epilogue files.
  //
  database_map<std::string> --hxx-epilogue-file
  {
    "<file>",
    "Insert the content of <file> at the end of the generated C++ header
     file."
  };

  database_map<std::string> --ixx-epilogue-file
  {
    "<file>",
    "Insert the content of <file> at the end of the generated C++ inline
     file."
  };

  database_map<std::string> --cxx-epilogue-file
  {
    "<file>",
    "Insert the content of <file> at the end of the generated C++ source
     file."
  };

  database_map<std::string> --schema-epilogue-file
  {
    "<file>",
    "Insert the content of <file> at the end of the generated schema C++
     source file."
  };

  database_map<std::string> --sql-epilogue-file
  {
    "<file>",
    "Insert the content of <file> at the end of the generated database
     schema file."
  };

  database_map<std::string> --migration-epilogue-file
  {
    "<f>",
    "Insert the content of file <f> at the end of the generated database
     migration file."
  };

  // ODB compilation prologue/epilogue.
  //
  database_map<std::vector<std::string> > --odb-prologue
  {
    "<text>",
    "Compile <text> before the input header file. This option allows you
     to add additional declarations, such as custom traits specializations,
     to the ODB compilation process."
  };

  database_map<std::vector<std::string> > --odb-prologue-file
  {
    "<file>",
    "Compile <file> contents before the input header file. Prologue files
     are compiled after all the prologue text fragments (\cb{--odb-prologue}
     option)."
  };

  database_map<std::vector<std::string> > --odb-epilogue
  {
    "<text>",
    "Compile <text> after the input header file. This option allows you
     to add additional declarations, such as custom traits specializations,
     to the ODB compilation process."
  };

  database_map<std::vector<std::string> > --odb-epilogue-file
  {
    "<file>",
    "Compile <file> contents after the input header file. Epilogue files
     are compiled after all the epilogue text fragments (\cb{--odb-epilogue}
     option)."
  };

  // SQL names.
  //
  database_map<std::string> --table-prefix
  {
    "<prefix>",
    "Add <prefix> to table names and, for databases that have global index
     and/or foreign key names, to those names as well. The prefix is added to
     both names that were specified with the \cb{db table} and \cb{db index}
     pragmas and those that were automatically derived from class and data
     member names. If you require a separator, such as an underscore,
     between the prefix and the name, then you should include it into the
     prefix value."
  };

  database_map<std::string> --index-suffix
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{_i} to construct index names.
     The suffix is only added to names that were automatically derived from
     data member names. If you require a separator, such as an underscore,
     between the name and the suffix, then you should include it into the
     suffix value."
  };

  database_map<std::string> --fkey-suffix
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{_fk} to construct foreign key
     names. If you require a separator, such as an underscore, between the
     name and the suffix, then you should include it into the suffix value."
  };

  database_map<std::string> --sequence-suffix
  {
    "<suffix>",
    "Use <suffix> instead of the default \cb{_seq} to construct sequence
     names. If you require a separator, such as an underscore, between the
     name and the suffix, then you should include it into the suffix value."
  };

  database_map<name_case> --sql-name-case
  {
    "<case>",
    "Convert all automatically-derived SQL names to upper or lower case.
     Valid values for this option are  \cb{upper} and \cb{lower}."
  };

  database_map<std::vector<std::string> > --table-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived table names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --column-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived column names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --index-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived index names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --fkey-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived foreign key names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --sequence-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived sequence names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --statement-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform automatically-derived prepared statement names. See
     the SQL NAME TRANSFORMATIONS section below for details."
  };

  database_map<std::vector<std::string> > --sql-name-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions that is used to
     transform all automatically-derived SQL names. See the SQL NAME
     TRANSFORMATIONS section below for details."
  };

  bool --sql-name-regex-trace
  {
    "Trace the process of applying regular expressions specified with the
     SQL name \cb{--*-regex} options. Use this option to find out why your
     regular expressions don't do what you expected them to do."
  };

  // Accessor/modifier options.
  //
  std::vector<std::string> --accessor-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions used to transform
     data member names to function names when searching for a suitable
     accessor function. The argument to this option is a Perl-like regular
     expression in the form \c{\b{/}\i{pattern}\b{/}\i{replacement}\b{/}}.
     Any character can be used as a delimiter instead of \cb{/} and the
     delimiter can be escaped inside \ci{pattern} and \ci{replacement}
     with a backslash (\cb{\\}). You can specify multiple regular
     expressions by repeating this option.

     All the regular expressions are tried in the order specified and
     the first expression that produces a suitable accessor function is
     used. Each expression is tried twice: first with the actual member
     name and then with the member's \i{public name} which is obtained by
     removing the common member name decorations, such as leading and
     trailing underscores, the \cb{m_} prefix, etc. The ODB compiler also
     includes a number of built-in expressions for commonly used accessor
     names, such as \cb{get_foo}, \cb{getFoo}, \cb{getfoo}, and just
     \cb{foo}. The built-in expressions are tried last.

     As an example, the following expression transforms data members with
     public names in the form \cb{foo} to accessor names in the form
     \cb{GetFoo}:

     \cb{/(.+)/Get\\u$1/}

     See also the REGEX AND SHELL QUOTING section below."
  };

  bool --accessor-regex-trace
  {
    "Trace the process of applying regular expressions specified with the
     \cb{--accessor-regex} option. Use this option to find out why your
     regular expressions don't do what you expected them to do."
  };

  std::vector<std::string> --modifier-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions used to transform
     data member names to function names when searching for a suitable
     modifier function. The argument to this option is a Perl-like regular
     expression in the form \c{\b{/}\i{pattern}\b{/}\i{replacement}\b{/}}.
     Any character can be used as a delimiter instead of \cb{/} and the
     delimiter can be escaped inside \ci{pattern} and \ci{replacement}
     with a backslash (\cb{\\}). You can specify multiple regular
     expressions by repeating this option.

     All the regular expressions are tried in the order specified and
     the first expression that produces a suitable modifier function is
     used. Each expression is tried twice: first with the actual member
     name and then with the member's \i{public name} which is obtained by
     removing the common member name decorations, such as leading and
     trailing underscores, the \cb{m_} prefix, etc. The ODB compiler also
     includes a number of built-in expressions for commonly used modifier
     names, such as \cb{set_foo}, \cb{setFoo}, \cb{setfoo}, and just
     \cb{foo}. The built-in expressions are tried last.

     As an example, the following expression transforms data members with
     public names in the form \cb{foo} to modifier names in the form
     \cb{SetFoo}:

     \cb{/(.+)/Set\\u$1/}

     See also the REGEX AND SHELL QUOTING section below."
  };

  bool --modifier-regex-trace
  {
    "Trace the process of applying regular expressions specified with the
     \cb{--modifier-regex} option. Use this option to find out why your
     regular expressions don't do what you expected them to do."
  };

  // Include options.
  //
  bool --include-with-brackets
  {
    "Use angle brackets (<>) instead of quotes (\"\") in the generated
     \cb{#include} directives."
  };

  std::string --include-prefix
  {
    "<prefix>",
    "Add <prefix> to the generated \cb{#include} directive paths."
  };

  std::vector<std::string> --include-regex
  {
    "<regex>",
    "Add <regex> to the list of regular expressions used to transform
     generated \cb{#include} directive paths. The argument to this option
     is a Perl-like regular expression in the form
     \c{\b{/}\i{pattern}\b{/}\i{replacement}\b{/}}. Any character can be
     used as a delimiter instead of \cb{/} and the delimiter can be escaped
     inside \ci{pattern} and \ci{replacement} with a backslash (\cb{\\}).
     You can specify multiple regular expressions by repeating this option.
     All the regular expressions are tried in the order specified and the
     first expression that matches is used.

     As an example, the following expression transforms include paths in
     the form \cb{foo/bar-odb.h} to paths in the form
     \cb{foo/generated/bar-odb.h}:

     \cb{%foo/(.+)-odb.h%foo/generated/$1-odb.h%}

     See also the REGEX AND SHELL QUOTING section below."
  };

  bool --include-regex-trace
  {
    "Trace the process of applying regular expressions specified with the
     \cb{--include-regex} option. Use this option to find out why your
     regular expressions don't do what you expected them to do."
  };

  std::string --guard-prefix
  {
    "<prefix>",
    "Add <prefix> to the generated header inclusion guards. The prefix is
     transformed to upper case and characters that are illegal in a
     preprocessor macro name are replaced with underscores."
  };

  bool --show-sloc
  {
    "Print the number of generated physical source lines of code (SLOC)."
  };

  std::size_t --sloc-limit
  {
    "<num>",
    "Check that the number of generated physical source lines of code (SLOC)
     does not exceed <num>."
  };

  // The following option is "fake" in that it is actually handled by
  // argv_file_scanner. We have it here to get the documentation.
  //
  std::string --options-file
  {
    "<file>",
    "Read additional options from <file> with each option appearing on a
     separate line optionally followed by space and an option value. Empty
     lines and lines starting with \cb{#} are ignored. Option values can
     be enclosed in double (\cb{\"}) or single (\cb{'}) quotes  to preserve
     leading and trailing whitespaces as well as to specify empty values.
     If the value itself contains trailing or leading quotes, enclose it
     with an extra pair of quotes, for example \cb{'\"x\"'}. Non-leading
     and non-trailing quotes are interpreted as being part of the option
     value.

     The semantics of providing options in a file is equivalent to providing
     the same set of options in the same order on the command line at the
     point where the \cb{--options-file} option is specified except that
     the shell escaping and quoting is not required. You can repeat this
     option to specify more than one options file."
  };

  std::vector<std::string> -x
  {
    "<option>",
    "Pass <option> to the underlying C++ compiler (\cb{g++}). The <option>
     value that doesn't start with \cb{-} is considered the \cb{g++}
     executable name."
  };

  bool -v {"Print the commands executed to run the stages of compilation."};

  bool --trace {"Trace the compilation process."};

  //
  // MySQL-specific options.
  //

  std::string --mysql-engine = "InnoDB"
  {
    "<engine>",
    "Use <engine> instead of the default \cb{InnoDB} in the generated
     database schema file. For more information on the storage engine
     options see the MySQL documentation. If you would like to use the
     database-default engine, pass \cb{default} as the value for this
     option."
  };

  //
  // SQLite-specific options.
  //

  bool --sqlite-override-null
  {
    "Make all columns in the generated database schema allow \cb{NULL}
     values. This is primarily useful in schema migration since SQLite
     does not support dropping of columns. By making all columns \cb{NULL}
     we can later \"delete\" them by setting their values to \cb{NULL}.
     Note that this option overrides even the \cb{not_null} pragma."
  };

  bool --sqlite-lax-auto-id
  {
    "Do not force monotonically increasing automatically-assigned
     object ids. In this mode the generated database schema omits the
     \cb{AUTOINCREMENT} keyword which results in faster object persistence
     but may lead to automatically-assigned ids not being in a strictly
     ascending order. Refer to the SQLite documentation for details."
  };

  //
  // PostgreSQL-specific options.
  //

  ::pgsql_version --pgsql-server-version (7, 4)
  {
    "<ver>",
    "Specify the minimum PostgreSQL server version with which the generated
     C++ code and schema will be used. This information is used to enable
     version-specific optimizations and workarounds in the generated C++
     code and schema. The version must be in the \c{\i{major}\b{.}\i{minor}}
     form, for example, \cb{9.1}. If this option is not specified, then
     \cb{7.4} or later is assumed."
  };

  //
  // Oracle-specific options.
  //

  ::oracle_version --oracle-client-version (10, 1)
  {
    "<ver>",
    "Specify the minimum Oracle client library (OCI) version with which the
     generated C++ code will be linked. This information is used to enable
     version-specific optimizations and workarounds in the generated C++
     code. The version must be in the \c{\i{major}\b{.}\i{minor}} form,
     for example, \cb{11.2}. If this option is not specified, then
     \cb{10.1} or later is assumed."
  };

  bool --oracle-warn-truncation
  {
    "Warn about SQL names that are longer than 30 characters and are
     therefore truncated. Note that during database schema generation
     (\cb{--generate-schema}) ODB detects when such truncations lead
     to name conflicts and issues diagnostics even without this option
     specified."
  };

  //
  // SQL Server-specific options.
  //

  ::mssql_version --mssql-server-version (10, 0)
  {
    "<ver>",
    "Specify the minimum SQL Server server version with which the generated
     C++ code and schema will be used. This information is used to enable
     version-specific optimizations and workarounds in the generated C++
     code and schema. The version must be in the \c{\i{major}\b{.}\i{minor}}
     form, for example, \cb{9.0} (SQL Server 2005), \cb{10.5} (2008R2), or
     \cb{11.0} (2012). If this option is not specified, then \cb{10.0} (SQL
     Server 2008) or later is assumed."
  };

  unsigned int --mssql-short-limit = 1024
  {
    "<size>",
    "Specify the short data size limit. If a character, national character, or
     binary data type has a maximum length (in bytes) less than or equal to
     this limit, then it is treated as \i{short data}, otherwise it is \i{long
     data}. For short data ODB pre-allocates an intermediate buffer of
     the maximum size and binds it directly to a parameter or result
     column. This way the underlying API (ODBC) can read/write directly
     from/to this buffer. In the case of long data, the data is read/written
     in chunks using the \cb{SQLGetData()}/\cb{SQLPutData()} ODBC functions.
     While the long data approach reduces the amount of memory used by the
     application, it may require greater CPU resources. The default short
     data limit is 1024 bytes. When setting a custom short data limit, make
     sure that it is sufficiently large so that no object id in the
     application is treated as long data."
  };
};