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-rw-r--r--src/third-party/CLI/App.hpp3246
-rw-r--r--src/third-party/CLI/CLI.hpp36
-rw-r--r--src/third-party/CLI/Config.hpp396
-rw-r--r--src/third-party/CLI/ConfigFwd.hpp185
-rw-r--r--src/third-party/CLI/Error.hpp355
-rw-r--r--src/third-party/CLI/Formatter.hpp292
-rw-r--r--src/third-party/CLI/FormatterFwd.hpp184
-rw-r--r--src/third-party/CLI/Macros.hpp60
-rw-r--r--src/third-party/CLI/Option.hpp1362
-rw-r--r--src/third-party/CLI/Split.hpp143
-rw-r--r--src/third-party/CLI/StringTools.hpp430
-rw-r--r--src/third-party/CLI/Timer.hpp134
-rw-r--r--src/third-party/CLI/TypeTools.hpp1558
-rw-r--r--src/third-party/CLI/Validators.hpp1175
-rw-r--r--src/third-party/CLI/Version.hpp16
15 files changed, 9572 insertions, 0 deletions
diff --git a/src/third-party/CLI/App.hpp b/src/third-party/CLI/App.hpp
new file mode 100644
index 0000000..0a70bac
--- /dev/null
+++ b/src/third-party/CLI/App.hpp
@@ -0,0 +1,3246 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <cstdint>
+#include <functional>
+#include <iostream>
+#include <iterator>
+#include <memory>
+#include <numeric>
+#include <set>
+#include <sstream>
+#include <string>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+// CLI Library includes
+#include "ConfigFwd.hpp"
+#include "Error.hpp"
+#include "FormatterFwd.hpp"
+#include "Macros.hpp"
+#include "Option.hpp"
+#include "Split.hpp"
+#include "StringTools.hpp"
+#include "TypeTools.hpp"
+
+namespace CLI {
+// [CLI11:app_hpp:verbatim]
+
+#ifndef CLI11_PARSE
+#define CLI11_PARSE(app, argc, argv) \
+ try { \
+ (app).parse((argc), (argv)); \
+ } catch(const CLI::ParseError &e) { \
+ return (app).exit(e); \
+ }
+#endif
+
+namespace detail {
+enum class Classifier { NONE, POSITIONAL_MARK, SHORT, LONG, WINDOWS_STYLE, SUBCOMMAND, SUBCOMMAND_TERMINATOR };
+struct AppFriend;
+} // namespace detail
+
+namespace FailureMessage {
+std::string simple(const App *app, const Error &e);
+std::string help(const App *app, const Error &e);
+} // namespace FailureMessage
+
+/// enumeration of modes of how to deal with extras in config files
+
+enum class config_extras_mode : char { error = 0, ignore, ignore_all, capture };
+
+class App;
+
+using App_p = std::shared_ptr<App>;
+
+namespace detail {
+/// helper functions for adding in appropriate flag modifiers for add_flag
+
+template <typename T, enable_if_t<!std::is_integral<T>::value || (sizeof(T) <= 1U), detail::enabler> = detail::dummy>
+Option *default_flag_modifiers(Option *opt) {
+ return opt->always_capture_default();
+}
+
+/// summing modifiers
+template <typename T, enable_if_t<std::is_integral<T>::value && (sizeof(T) > 1U), detail::enabler> = detail::dummy>
+Option *default_flag_modifiers(Option *opt) {
+ return opt->multi_option_policy(MultiOptionPolicy::Sum)->default_str("0")->force_callback();
+}
+
+} // namespace detail
+
+class Option_group;
+/// Creates a command line program, with very few defaults.
+/** To use, create a new `Program()` instance with `argc`, `argv`, and a help description. The templated
+ * add_option methods make it easy to prepare options. Remember to call `.start` before starting your
+ * program, so that the options can be evaluated and the help option doesn't accidentally run your program. */
+class App {
+ friend Option;
+ friend detail::AppFriend;
+
+ protected:
+ // This library follows the Google style guide for member names ending in underscores
+
+ /// @name Basics
+ ///@{
+
+ /// Subcommand name or program name (from parser if name is empty)
+ std::string name_{};
+
+ /// Description of the current program/subcommand
+ std::string description_{};
+
+ /// If true, allow extra arguments (ie, don't throw an error). INHERITABLE
+ bool allow_extras_{false};
+
+ /// If ignore, allow extra arguments in the ini file (ie, don't throw an error). INHERITABLE
+ /// if error error on an extra argument, and if capture feed it to the app
+ config_extras_mode allow_config_extras_{config_extras_mode::ignore};
+
+ /// If true, return immediately on an unrecognized option (implies allow_extras) INHERITABLE
+ bool prefix_command_{false};
+
+ /// If set to true the name was automatically generated from the command line vs a user set name
+ bool has_automatic_name_{false};
+
+ /// If set to true the subcommand is required to be processed and used, ignored for main app
+ bool required_{false};
+
+ /// If set to true the subcommand is disabled and cannot be used, ignored for main app
+ bool disabled_{false};
+
+ /// Flag indicating that the pre_parse_callback has been triggered
+ bool pre_parse_called_{false};
+
+ /// Flag indicating that the callback for the subcommand should be executed immediately on parse completion which is
+ /// before help or ini files are processed. INHERITABLE
+ bool immediate_callback_{false};
+
+ /// This is a function that runs prior to the start of parsing
+ std::function<void(std::size_t)> pre_parse_callback_{};
+
+ /// This is a function that runs when parsing has finished.
+ std::function<void()> parse_complete_callback_{};
+
+ /// This is a function that runs when all processing has completed
+ std::function<void()> final_callback_{};
+
+ ///@}
+ /// @name Options
+ ///@{
+
+ /// The default values for options, customizable and changeable INHERITABLE
+ OptionDefaults option_defaults_{};
+
+ /// The list of options, stored locally
+ std::vector<Option_p> options_{};
+
+ ///@}
+ /// @name Help
+ ///@{
+
+ /// Footer to put after all options in the help output INHERITABLE
+ std::string footer_{};
+
+ /// This is a function that generates a footer to put after all other options in help output
+ std::function<std::string()> footer_callback_{};
+
+ /// A pointer to the help flag if there is one INHERITABLE
+ Option *help_ptr_{nullptr};
+
+ /// A pointer to the help all flag if there is one INHERITABLE
+ Option *help_all_ptr_{nullptr};
+
+ /// A pointer to a version flag if there is one
+ Option *version_ptr_{nullptr};
+
+ /// This is the formatter for help printing. Default provided. INHERITABLE (same pointer)
+ std::shared_ptr<FormatterBase> formatter_{new Formatter()};
+
+ /// The error message printing function INHERITABLE
+ std::function<std::string(const App *, const Error &e)> failure_message_{FailureMessage::simple};
+
+ ///@}
+ /// @name Parsing
+ ///@{
+
+ using missing_t = std::vector<std::pair<detail::Classifier, std::string>>;
+
+ /// Pair of classifier, string for missing options. (extra detail is removed on returning from parse)
+ ///
+ /// This is faster and cleaner than storing just a list of strings and reparsing. This may contain the -- separator.
+ missing_t missing_{};
+
+ /// This is a list of pointers to options with the original parse order
+ std::vector<Option *> parse_order_{};
+
+ /// This is a list of the subcommands collected, in order
+ std::vector<App *> parsed_subcommands_{};
+
+ /// this is a list of subcommands that are exclusionary to this one
+ std::set<App *> exclude_subcommands_{};
+
+ /// This is a list of options which are exclusionary to this App, if the options were used this subcommand should
+ /// not be
+ std::set<Option *> exclude_options_{};
+
+ /// this is a list of subcommands or option groups that are required by this one, the list is not mutual, the
+ /// listed subcommands do not require this one
+ std::set<App *> need_subcommands_{};
+
+ /// This is a list of options which are required by this app, the list is not mutual, listed options do not need the
+ /// subcommand not be
+ std::set<Option *> need_options_{};
+
+ ///@}
+ /// @name Subcommands
+ ///@{
+
+ /// Storage for subcommand list
+ std::vector<App_p> subcommands_{};
+
+ /// If true, the program name is not case sensitive INHERITABLE
+ bool ignore_case_{false};
+
+ /// If true, the program should ignore underscores INHERITABLE
+ bool ignore_underscore_{false};
+
+ /// Allow subcommand fallthrough, so that parent commands can collect commands after subcommand. INHERITABLE
+ bool fallthrough_{false};
+
+ /// Allow '/' for options for Windows like options. Defaults to true on Windows, false otherwise. INHERITABLE
+ bool allow_windows_style_options_{
+#ifdef _WIN32
+ true
+#else
+ false
+#endif
+ };
+ /// specify that positional arguments come at the end of the argument sequence not inheritable
+ bool positionals_at_end_{false};
+
+ enum class startup_mode : char { stable, enabled, disabled };
+ /// specify the startup mode for the app
+ /// stable=no change, enabled= startup enabled, disabled=startup disabled
+ startup_mode default_startup{startup_mode::stable};
+
+ /// if set to true the subcommand can be triggered via configuration files INHERITABLE
+ bool configurable_{false};
+
+ /// If set to true positional options are validated before assigning INHERITABLE
+ bool validate_positionals_{false};
+
+ /// If set to true optional vector arguments are validated before assigning INHERITABLE
+ bool validate_optional_arguments_{false};
+
+ /// indicator that the subcommand is silent and won't show up in subcommands list
+ /// This is potentially useful as a modifier subcommand
+ bool silent_{false};
+
+ /// Counts the number of times this command/subcommand was parsed
+ std::uint32_t parsed_{0U};
+
+ /// Minimum required subcommands (not inheritable!)
+ std::size_t require_subcommand_min_{0};
+
+ /// Max number of subcommands allowed (parsing stops after this number). 0 is unlimited INHERITABLE
+ std::size_t require_subcommand_max_{0};
+
+ /// Minimum required options (not inheritable!)
+ std::size_t require_option_min_{0};
+
+ /// Max number of options allowed. 0 is unlimited (not inheritable)
+ std::size_t require_option_max_{0};
+
+ /// A pointer to the parent if this is a subcommand
+ App *parent_{nullptr};
+
+ /// The group membership INHERITABLE
+ std::string group_{"Subcommands"};
+
+ /// Alias names for the subcommand
+ std::vector<std::string> aliases_{};
+
+ ///@}
+ /// @name Config
+ ///@{
+
+ /// Pointer to the config option
+ Option *config_ptr_{nullptr};
+
+ /// This is the formatter for help printing. Default provided. INHERITABLE (same pointer)
+ std::shared_ptr<Config> config_formatter_{new ConfigTOML()};
+
+ ///@}
+
+ /// Special private constructor for subcommand
+ App(std::string app_description, std::string app_name, App *parent)
+ : name_(std::move(app_name)), description_(std::move(app_description)), parent_(parent) {
+ // Inherit if not from a nullptr
+ if(parent_ != nullptr) {
+ if(parent_->help_ptr_ != nullptr)
+ set_help_flag(parent_->help_ptr_->get_name(false, true), parent_->help_ptr_->get_description());
+ if(parent_->help_all_ptr_ != nullptr)
+ set_help_all_flag(parent_->help_all_ptr_->get_name(false, true),
+ parent_->help_all_ptr_->get_description());
+
+ /// OptionDefaults
+ option_defaults_ = parent_->option_defaults_;
+
+ // INHERITABLE
+ failure_message_ = parent_->failure_message_;
+ allow_extras_ = parent_->allow_extras_;
+ allow_config_extras_ = parent_->allow_config_extras_;
+ prefix_command_ = parent_->prefix_command_;
+ immediate_callback_ = parent_->immediate_callback_;
+ ignore_case_ = parent_->ignore_case_;
+ ignore_underscore_ = parent_->ignore_underscore_;
+ fallthrough_ = parent_->fallthrough_;
+ validate_positionals_ = parent_->validate_positionals_;
+ validate_optional_arguments_ = parent_->validate_optional_arguments_;
+ configurable_ = parent_->configurable_;
+ allow_windows_style_options_ = parent_->allow_windows_style_options_;
+ group_ = parent_->group_;
+ footer_ = parent_->footer_;
+ formatter_ = parent_->formatter_;
+ config_formatter_ = parent_->config_formatter_;
+ require_subcommand_max_ = parent_->require_subcommand_max_;
+ }
+ }
+
+ public:
+ /// @name Basic
+ ///@{
+
+ /// Create a new program. Pass in the same arguments as main(), along with a help string.
+ explicit App(std::string app_description = "", std::string app_name = "")
+ : App(app_description, app_name, nullptr) {
+ set_help_flag("-h,--help", "Print this help message and exit");
+ }
+
+ App(const App &) = delete;
+ App &operator=(const App &) = delete;
+
+ /// virtual destructor
+ virtual ~App() = default;
+
+ /// Set a callback for execution when all parsing and processing has completed
+ ///
+ /// Due to a bug in c++11,
+ /// it is not possible to overload on std::function (fixed in c++14
+ /// and backported to c++11 on newer compilers). Use capture by reference
+ /// to get a pointer to App if needed.
+ App *callback(std::function<void()> app_callback) {
+ if(immediate_callback_) {
+ parse_complete_callback_ = std::move(app_callback);
+ } else {
+ final_callback_ = std::move(app_callback);
+ }
+ return this;
+ }
+
+ /// Set a callback for execution when all parsing and processing has completed
+ /// aliased as callback
+ App *final_callback(std::function<void()> app_callback) {
+ final_callback_ = std::move(app_callback);
+ return this;
+ }
+
+ /// Set a callback to execute when parsing has completed for the app
+ ///
+ App *parse_complete_callback(std::function<void()> pc_callback) {
+ parse_complete_callback_ = std::move(pc_callback);
+ return this;
+ }
+
+ /// Set a callback to execute prior to parsing.
+ ///
+ App *preparse_callback(std::function<void(std::size_t)> pp_callback) {
+ pre_parse_callback_ = std::move(pp_callback);
+ return this;
+ }
+
+ /// Set a name for the app (empty will use parser to set the name)
+ App *name(std::string app_name = "") {
+
+ if(parent_ != nullptr) {
+ auto oname = name_;
+ name_ = app_name;
+ auto &res = _compare_subcommand_names(*this, *_get_fallthrough_parent());
+ if(!res.empty()) {
+ name_ = oname;
+ throw(OptionAlreadyAdded(app_name + " conflicts with existing subcommand names"));
+ }
+ } else {
+ name_ = app_name;
+ }
+ has_automatic_name_ = false;
+ return this;
+ }
+
+ /// Set an alias for the app
+ App *alias(std::string app_name) {
+ if(app_name.empty() || !detail::valid_alias_name_string(app_name)) {
+ throw IncorrectConstruction("Aliases may not be empty or contain newlines or null characters");
+ }
+ if(parent_ != nullptr) {
+ aliases_.push_back(app_name);
+ auto &res = _compare_subcommand_names(*this, *_get_fallthrough_parent());
+ if(!res.empty()) {
+ aliases_.pop_back();
+ throw(OptionAlreadyAdded("alias already matches an existing subcommand: " + app_name));
+ }
+ } else {
+ aliases_.push_back(app_name);
+ }
+
+ return this;
+ }
+
+ /// Remove the error when extras are left over on the command line.
+ App *allow_extras(bool allow = true) {
+ allow_extras_ = allow;
+ return this;
+ }
+
+ /// Remove the error when extras are left over on the command line.
+ App *required(bool require = true) {
+ required_ = require;
+ return this;
+ }
+
+ /// Disable the subcommand or option group
+ App *disabled(bool disable = true) {
+ disabled_ = disable;
+ return this;
+ }
+
+ /// silence the subcommand from showing up in the processed list
+ App *silent(bool silence = true) {
+ silent_ = silence;
+ return this;
+ }
+
+ /// Set the subcommand to be disabled by default, so on clear(), at the start of each parse it is disabled
+ App *disabled_by_default(bool disable = true) {
+ if(disable) {
+ default_startup = startup_mode::disabled;
+ } else {
+ default_startup = (default_startup == startup_mode::enabled) ? startup_mode::enabled : startup_mode::stable;
+ }
+ return this;
+ }
+
+ /// Set the subcommand to be enabled by default, so on clear(), at the start of each parse it is enabled (not
+ /// disabled)
+ App *enabled_by_default(bool enable = true) {
+ if(enable) {
+ default_startup = startup_mode::enabled;
+ } else {
+ default_startup =
+ (default_startup == startup_mode::disabled) ? startup_mode::disabled : startup_mode::stable;
+ }
+ return this;
+ }
+
+ /// Set the subcommand callback to be executed immediately on subcommand completion
+ App *immediate_callback(bool immediate = true) {
+ immediate_callback_ = immediate;
+ if(immediate_callback_) {
+ if(final_callback_ && !(parse_complete_callback_)) {
+ std::swap(final_callback_, parse_complete_callback_);
+ }
+ } else if(!(final_callback_) && parse_complete_callback_) {
+ std::swap(final_callback_, parse_complete_callback_);
+ }
+ return this;
+ }
+
+ /// Set the subcommand to validate positional arguments before assigning
+ App *validate_positionals(bool validate = true) {
+ validate_positionals_ = validate;
+ return this;
+ }
+
+ /// Set the subcommand to validate optional vector arguments before assigning
+ App *validate_optional_arguments(bool validate = true) {
+ validate_optional_arguments_ = validate;
+ return this;
+ }
+
+ /// ignore extras in config files
+ App *allow_config_extras(bool allow = true) {
+ if(allow) {
+ allow_config_extras_ = config_extras_mode::capture;
+ allow_extras_ = true;
+ } else {
+ allow_config_extras_ = config_extras_mode::error;
+ }
+ return this;
+ }
+
+ /// ignore extras in config files
+ App *allow_config_extras(config_extras_mode mode) {
+ allow_config_extras_ = mode;
+ return this;
+ }
+
+ /// Do not parse anything after the first unrecognized option and return
+ App *prefix_command(bool allow = true) {
+ prefix_command_ = allow;
+ return this;
+ }
+
+ /// Ignore case. Subcommands inherit value.
+ App *ignore_case(bool value = true) {
+ if(value && !ignore_case_) {
+ ignore_case_ = true;
+ auto *p = (parent_ != nullptr) ? _get_fallthrough_parent() : this;
+ auto &match = _compare_subcommand_names(*this, *p);
+ if(!match.empty()) {
+ ignore_case_ = false; // we are throwing so need to be exception invariant
+ throw OptionAlreadyAdded("ignore case would cause subcommand name conflicts: " + match);
+ }
+ }
+ ignore_case_ = value;
+ return this;
+ }
+
+ /// Allow windows style options, such as `/opt`. First matching short or long name used. Subcommands inherit
+ /// value.
+ App *allow_windows_style_options(bool value = true) {
+ allow_windows_style_options_ = value;
+ return this;
+ }
+
+ /// Specify that the positional arguments are only at the end of the sequence
+ App *positionals_at_end(bool value = true) {
+ positionals_at_end_ = value;
+ return this;
+ }
+
+ /// Specify that the subcommand can be triggered by a config file
+ App *configurable(bool value = true) {
+ configurable_ = value;
+ return this;
+ }
+
+ /// Ignore underscore. Subcommands inherit value.
+ App *ignore_underscore(bool value = true) {
+ if(value && !ignore_underscore_) {
+ ignore_underscore_ = true;
+ auto *p = (parent_ != nullptr) ? _get_fallthrough_parent() : this;
+ auto &match = _compare_subcommand_names(*this, *p);
+ if(!match.empty()) {
+ ignore_underscore_ = false;
+ throw OptionAlreadyAdded("ignore underscore would cause subcommand name conflicts: " + match);
+ }
+ }
+ ignore_underscore_ = value;
+ return this;
+ }
+
+ /// Set the help formatter
+ App *formatter(std::shared_ptr<FormatterBase> fmt) {
+ formatter_ = fmt;
+ return this;
+ }
+
+ /// Set the help formatter
+ App *formatter_fn(std::function<std::string(const App *, std::string, AppFormatMode)> fmt) {
+ formatter_ = std::make_shared<FormatterLambda>(fmt);
+ return this;
+ }
+
+ /// Set the config formatter
+ App *config_formatter(std::shared_ptr<Config> fmt) {
+ config_formatter_ = fmt;
+ return this;
+ }
+
+ /// Check to see if this subcommand was parsed, true only if received on command line.
+ bool parsed() const { return parsed_ > 0; }
+
+ /// Get the OptionDefault object, to set option defaults
+ OptionDefaults *option_defaults() { return &option_defaults_; }
+
+ ///@}
+ /// @name Adding options
+ ///@{
+
+ /// Add an option, will automatically understand the type for common types.
+ ///
+ /// To use, create a variable with the expected type, and pass it in after the name.
+ /// After start is called, you can use count to see if the value was passed, and
+ /// the value will be initialized properly. Numbers, vectors, and strings are supported.
+ ///
+ /// ->required(), ->default, and the validators are options,
+ /// The positional options take an optional number of arguments.
+ ///
+ /// For example,
+ ///
+ /// std::string filename;
+ /// program.add_option("filename", filename, "description of filename");
+ ///
+ Option *add_option(std::string option_name,
+ callback_t option_callback,
+ std::string option_description = "",
+ bool defaulted = false,
+ std::function<std::string()> func = {}) {
+ Option myopt{option_name, option_description, option_callback, this};
+
+ if(std::find_if(std::begin(options_), std::end(options_), [&myopt](const Option_p &v) {
+ return *v == myopt;
+ }) == std::end(options_)) {
+ options_.emplace_back();
+ Option_p &option = options_.back();
+ option.reset(new Option(option_name, option_description, option_callback, this));
+
+ // Set the default string capture function
+ option->default_function(func);
+
+ // For compatibility with CLI11 1.7 and before, capture the default string here
+ if(defaulted)
+ option->capture_default_str();
+
+ // Transfer defaults to the new option
+ option_defaults_.copy_to(option.get());
+
+ // Don't bother to capture if we already did
+ if(!defaulted && option->get_always_capture_default())
+ option->capture_default_str();
+
+ return option.get();
+ }
+ // we know something matches now find what it is so we can produce more error information
+ for(auto &opt : options_) {
+ auto &matchname = opt->matching_name(myopt);
+ if(!matchname.empty()) {
+ throw(OptionAlreadyAdded("added option matched existing option name: " + matchname));
+ }
+ }
+ // this line should not be reached the above loop should trigger the throw
+ throw(OptionAlreadyAdded("added option matched existing option name")); // LCOV_EXCL_LINE
+ }
+
+ /// Add option for assigning to a variable
+ template <typename AssignTo,
+ typename ConvertTo = AssignTo,
+ enable_if_t<!std::is_const<ConvertTo>::value, detail::enabler> = detail::dummy>
+ Option *add_option(std::string option_name,
+ AssignTo &variable, ///< The variable to set
+ std::string option_description = "") {
+
+ auto fun = [&variable](const CLI::results_t &res) { // comment for spacing
+ return detail::lexical_conversion<AssignTo, ConvertTo>(res, variable);
+ };
+
+ Option *opt = add_option(option_name, fun, option_description, false, [&variable]() {
+ return CLI::detail::checked_to_string<AssignTo, ConvertTo>(variable);
+ });
+ opt->type_name(detail::type_name<ConvertTo>());
+ // these must be actual lvalues since (std::max) sometimes is defined in terms of references and references
+ // to structs used in the evaluation can be temporary so that would cause issues.
+ auto Tcount = detail::type_count<AssignTo>::value;
+ auto XCcount = detail::type_count<ConvertTo>::value;
+ opt->type_size(detail::type_count_min<ConvertTo>::value, (std::max)(Tcount, XCcount));
+ opt->expected(detail::expected_count<ConvertTo>::value);
+ opt->run_callback_for_default();
+ return opt;
+ }
+
+ /// Add option for assigning to a variable
+ template <typename AssignTo, enable_if_t<!std::is_const<AssignTo>::value, detail::enabler> = detail::dummy>
+ Option *add_option_no_stream(std::string option_name,
+ AssignTo &variable, ///< The variable to set
+ std::string option_description = "") {
+
+ auto fun = [&variable](const CLI::results_t &res) { // comment for spacing
+ return detail::lexical_conversion<AssignTo, AssignTo>(res, variable);
+ };
+
+ Option *opt = add_option(option_name, fun, option_description, false, []() { return std::string{}; });
+ opt->type_name(detail::type_name<AssignTo>());
+ opt->type_size(detail::type_count_min<AssignTo>::value, detail::type_count<AssignTo>::value);
+ opt->expected(detail::expected_count<AssignTo>::value);
+ opt->run_callback_for_default();
+ return opt;
+ }
+
+ /// Add option for a callback of a specific type
+ template <typename ArgType>
+ Option *add_option_function(std::string option_name,
+ const std::function<void(const ArgType &)> &func, ///< the callback to execute
+ std::string option_description = "") {
+
+ auto fun = [func](const CLI::results_t &res) {
+ ArgType variable;
+ bool result = detail::lexical_conversion<ArgType, ArgType>(res, variable);
+ if(result) {
+ func(variable);
+ }
+ return result;
+ };
+
+ Option *opt = add_option(option_name, std::move(fun), option_description, false);
+ opt->type_name(detail::type_name<ArgType>());
+ opt->type_size(detail::type_count_min<ArgType>::value, detail::type_count<ArgType>::value);
+ opt->expected(detail::expected_count<ArgType>::value);
+ return opt;
+ }
+
+ /// Add option with no description or variable assignment
+ Option *add_option(std::string option_name) {
+ return add_option(option_name, CLI::callback_t{}, std::string{}, false);
+ }
+
+ /// Add option with description but with no variable assignment or callback
+ template <typename T,
+ enable_if_t<std::is_const<T>::value && std::is_constructible<std::string, T>::value, detail::enabler> =
+ detail::dummy>
+ Option *add_option(std::string option_name, T &option_description) {
+ return add_option(option_name, CLI::callback_t(), option_description, false);
+ }
+
+ /// Set a help flag, replace the existing one if present
+ Option *set_help_flag(std::string flag_name = "", const std::string &help_description = "") {
+ // take flag_description by const reference otherwise add_flag tries to assign to help_description
+ if(help_ptr_ != nullptr) {
+ remove_option(help_ptr_);
+ help_ptr_ = nullptr;
+ }
+
+ // Empty name will simply remove the help flag
+ if(!flag_name.empty()) {
+ help_ptr_ = add_flag(flag_name, help_description);
+ help_ptr_->configurable(false);
+ }
+
+ return help_ptr_;
+ }
+
+ /// Set a help all flag, replaced the existing one if present
+ Option *set_help_all_flag(std::string help_name = "", const std::string &help_description = "") {
+ // take flag_description by const reference otherwise add_flag tries to assign to flag_description
+ if(help_all_ptr_ != nullptr) {
+ remove_option(help_all_ptr_);
+ help_all_ptr_ = nullptr;
+ }
+
+ // Empty name will simply remove the help all flag
+ if(!help_name.empty()) {
+ help_all_ptr_ = add_flag(help_name, help_description);
+ help_all_ptr_->configurable(false);
+ }
+
+ return help_all_ptr_;
+ }
+
+ /// Set a version flag and version display string, replace the existing one if present
+ Option *set_version_flag(std::string flag_name = "",
+ const std::string &versionString = "",
+ const std::string &version_help = "Display program version information and exit") {
+ // take flag_description by const reference otherwise add_flag tries to assign to version_description
+ if(version_ptr_ != nullptr) {
+ remove_option(version_ptr_);
+ version_ptr_ = nullptr;
+ }
+
+ // Empty name will simply remove the version flag
+ if(!flag_name.empty()) {
+ version_ptr_ = add_flag_callback(
+ flag_name, [versionString]() { throw(CLI::CallForVersion(versionString, 0)); }, version_help);
+ version_ptr_->configurable(false);
+ }
+
+ return version_ptr_;
+ }
+ /// Generate the version string through a callback function
+ Option *set_version_flag(std::string flag_name,
+ std::function<std::string()> vfunc,
+ const std::string &version_help = "Display program version information and exit") {
+ if(version_ptr_ != nullptr) {
+ remove_option(version_ptr_);
+ version_ptr_ = nullptr;
+ }
+
+ // Empty name will simply remove the version flag
+ if(!flag_name.empty()) {
+ version_ptr_ = add_flag_callback(
+ flag_name, [vfunc]() { throw(CLI::CallForVersion(vfunc(), 0)); }, version_help);
+ version_ptr_->configurable(false);
+ }
+
+ return version_ptr_;
+ }
+
+ private:
+ /// Internal function for adding a flag
+ Option *_add_flag_internal(std::string flag_name, CLI::callback_t fun, std::string flag_description) {
+ Option *opt;
+ if(detail::has_default_flag_values(flag_name)) {
+ // check for default values and if it has them
+ auto flag_defaults = detail::get_default_flag_values(flag_name);
+ detail::remove_default_flag_values(flag_name);
+ opt = add_option(std::move(flag_name), std::move(fun), std::move(flag_description), false);
+ for(const auto &fname : flag_defaults)
+ opt->fnames_.push_back(fname.first);
+ opt->default_flag_values_ = std::move(flag_defaults);
+ } else {
+ opt = add_option(std::move(flag_name), std::move(fun), std::move(flag_description), false);
+ }
+ // flags cannot have positional values
+ if(opt->get_positional()) {
+ auto pos_name = opt->get_name(true);
+ remove_option(opt);
+ throw IncorrectConstruction::PositionalFlag(pos_name);
+ }
+ opt->multi_option_policy(MultiOptionPolicy::TakeLast);
+ opt->expected(0);
+ opt->required(false);
+ return opt;
+ }
+
+ public:
+ /// Add a flag with no description or variable assignment
+ Option *add_flag(std::string flag_name) { return _add_flag_internal(flag_name, CLI::callback_t(), std::string{}); }
+
+ /// Add flag with description but with no variable assignment or callback
+ /// takes a constant string, if a variable string is passed that variable will be assigned the results from the
+ /// flag
+ template <typename T,
+ enable_if_t<std::is_const<T>::value && std::is_constructible<std::string, T>::value, detail::enabler> =
+ detail::dummy>
+ Option *add_flag(std::string flag_name, T &flag_description) {
+ return _add_flag_internal(flag_name, CLI::callback_t(), flag_description);
+ }
+
+ /// Other type version accepts all other types that are not vectors such as bool, enum, string or other classes
+ /// that can be converted from a string
+ template <typename T,
+ enable_if_t<!detail::is_mutable_container<T>::value && !std::is_const<T>::value &&
+ !std::is_constructible<std::function<void(int)>, T>::value,
+ detail::enabler> = detail::dummy>
+ Option *add_flag(std::string flag_name,
+ T &flag_result, ///< A variable holding the flag result
+ std::string flag_description = "") {
+
+ CLI::callback_t fun = [&flag_result](const CLI::results_t &res) {
+ return CLI::detail::lexical_cast(res[0], flag_result);
+ };
+ auto *opt = _add_flag_internal(flag_name, std::move(fun), std::move(flag_description));
+ return detail::default_flag_modifiers<T>(opt);
+ }
+
+ /// Vector version to capture multiple flags.
+ template <typename T,
+ enable_if_t<!std::is_assignable<std::function<void(std::int64_t)> &, T>::value, detail::enabler> =
+ detail::dummy>
+ Option *add_flag(std::string flag_name,
+ std::vector<T> &flag_results, ///< A vector of values with the flag results
+ std::string flag_description = "") {
+ CLI::callback_t fun = [&flag_results](const CLI::results_t &res) {
+ bool retval = true;
+ for(const auto &elem : res) {
+ flag_results.emplace_back();
+ retval &= detail::lexical_cast(elem, flag_results.back());
+ }
+ return retval;
+ };
+ return _add_flag_internal(flag_name, std::move(fun), std::move(flag_description))
+ ->multi_option_policy(MultiOptionPolicy::TakeAll)
+ ->run_callback_for_default();
+ }
+
+ /// Add option for callback that is triggered with a true flag and takes no arguments
+ Option *add_flag_callback(std::string flag_name,
+ std::function<void(void)> function, ///< A function to call, void(void)
+ std::string flag_description = "") {
+
+ CLI::callback_t fun = [function](const CLI::results_t &res) {
+ bool trigger{false};
+ auto result = CLI::detail::lexical_cast(res[0], trigger);
+ if(result && trigger) {
+ function();
+ }
+ return result;
+ };
+ return _add_flag_internal(flag_name, std::move(fun), std::move(flag_description));
+ }
+
+ /// Add option for callback with an integer value
+ Option *add_flag_function(std::string flag_name,
+ std::function<void(std::int64_t)> function, ///< A function to call, void(int)
+ std::string flag_description = "") {
+
+ CLI::callback_t fun = [function](const CLI::results_t &res) {
+ std::int64_t flag_count{0};
+ CLI::detail::lexical_cast(res[0], flag_count);
+ function(flag_count);
+ return true;
+ };
+ return _add_flag_internal(flag_name, std::move(fun), std::move(flag_description))
+ ->multi_option_policy(MultiOptionPolicy::Sum);
+ }
+
+#ifdef CLI11_CPP14
+ /// Add option for callback (C++14 or better only)
+ Option *add_flag(std::string flag_name,
+ std::function<void(std::int64_t)> function, ///< A function to call, void(std::int64_t)
+ std::string flag_description = "") {
+ return add_flag_function(std::move(flag_name), std::move(function), std::move(flag_description));
+ }
+#endif
+
+ /// Set a configuration ini file option, or clear it if no name passed
+ Option *set_config(std::string option_name = "",
+ std::string default_filename = "",
+ const std::string &help_message = "Read an ini file",
+ bool config_required = false) {
+
+ // Remove existing config if present
+ if(config_ptr_ != nullptr) {
+ remove_option(config_ptr_);
+ config_ptr_ = nullptr; // need to remove the config_ptr completely
+ }
+
+ // Only add config if option passed
+ if(!option_name.empty()) {
+ config_ptr_ = add_option(option_name, help_message);
+ if(config_required) {
+ config_ptr_->required();
+ }
+ if(!default_filename.empty()) {
+ config_ptr_->default_str(std::move(default_filename));
+ }
+ config_ptr_->configurable(false);
+ }
+
+ return config_ptr_;
+ }
+
+ /// Removes an option from the App. Takes an option pointer. Returns true if found and removed.
+ bool remove_option(Option *opt) {
+ // Make sure no links exist
+ for(Option_p &op : options_) {
+ op->remove_needs(opt);
+ op->remove_excludes(opt);
+ }
+
+ if(help_ptr_ == opt)
+ help_ptr_ = nullptr;
+ if(help_all_ptr_ == opt)
+ help_all_ptr_ = nullptr;
+
+ auto iterator =
+ std::find_if(std::begin(options_), std::end(options_), [opt](const Option_p &v) { return v.get() == opt; });
+ if(iterator != std::end(options_)) {
+ options_.erase(iterator);
+ return true;
+ }
+ return false;
+ }
+
+ /// creates an option group as part of the given app
+ template <typename T = Option_group>
+ T *add_option_group(std::string group_name, std::string group_description = "") {
+ if(!detail::valid_alias_name_string(group_name)) {
+ throw IncorrectConstruction("option group names may not contain newlines or null characters");
+ }
+ auto option_group = std::make_shared<T>(std::move(group_description), group_name, this);
+ auto ptr = option_group.get();
+ // move to App_p for overload resolution on older gcc versions
+ App_p app_ptr = std::dynamic_pointer_cast<App>(option_group);
+ add_subcommand(std::move(app_ptr));
+ return ptr;
+ }
+
+ ///@}
+ /// @name Subcommands
+ ///@{
+
+ /// Add a subcommand. Inherits INHERITABLE and OptionDefaults, and help flag
+ App *add_subcommand(std::string subcommand_name = "", std::string subcommand_description = "") {
+ if(!subcommand_name.empty() && !detail::valid_name_string(subcommand_name)) {
+ if(!detail::valid_first_char(subcommand_name[0])) {
+ throw IncorrectConstruction(
+ "Subcommand name starts with invalid character, '!' and '-' are not allowed");
+ }
+ for(auto c : subcommand_name) {
+ if(!detail::valid_later_char(c)) {
+ throw IncorrectConstruction(std::string("Subcommand name contains invalid character ('") + c +
+ "'), all characters are allowed except"
+ "'=',':','{','}', and ' '");
+ }
+ }
+ }
+ CLI::App_p subcom = std::shared_ptr<App>(new App(std::move(subcommand_description), subcommand_name, this));
+ return add_subcommand(std::move(subcom));
+ }
+
+ /// Add a previously created app as a subcommand
+ App *add_subcommand(CLI::App_p subcom) {
+ if(!subcom)
+ throw IncorrectConstruction("passed App is not valid");
+ auto ckapp = (name_.empty() && parent_ != nullptr) ? _get_fallthrough_parent() : this;
+ auto &mstrg = _compare_subcommand_names(*subcom, *ckapp);
+ if(!mstrg.empty()) {
+ throw(OptionAlreadyAdded("subcommand name or alias matches existing subcommand: " + mstrg));
+ }
+ subcom->parent_ = this;
+ subcommands_.push_back(std::move(subcom));
+ return subcommands_.back().get();
+ }
+
+ /// Removes a subcommand from the App. Takes a subcommand pointer. Returns true if found and removed.
+ bool remove_subcommand(App *subcom) {
+ // Make sure no links exist
+ for(App_p &sub : subcommands_) {
+ sub->remove_excludes(subcom);
+ sub->remove_needs(subcom);
+ }
+
+ auto iterator = std::find_if(
+ std::begin(subcommands_), std::end(subcommands_), [subcom](const App_p &v) { return v.get() == subcom; });
+ if(iterator != std::end(subcommands_)) {
+ subcommands_.erase(iterator);
+ return true;
+ }
+ return false;
+ }
+ /// Check to see if a subcommand is part of this command (doesn't have to be in command line)
+ /// returns the first subcommand if passed a nullptr
+ App *get_subcommand(const App *subcom) const {
+ if(subcom == nullptr)
+ throw OptionNotFound("nullptr passed");
+ for(const App_p &subcomptr : subcommands_)
+ if(subcomptr.get() == subcom)
+ return subcomptr.get();
+ throw OptionNotFound(subcom->get_name());
+ }
+
+ /// Check to see if a subcommand is part of this command (text version)
+ App *get_subcommand(std::string subcom) const {
+ auto subc = _find_subcommand(subcom, false, false);
+ if(subc == nullptr)
+ throw OptionNotFound(subcom);
+ return subc;
+ }
+ /// Get a pointer to subcommand by index
+ App *get_subcommand(int index = 0) const {
+ if(index >= 0) {
+ auto uindex = static_cast<unsigned>(index);
+ if(uindex < subcommands_.size())
+ return subcommands_[uindex].get();
+ }
+ throw OptionNotFound(std::to_string(index));
+ }
+
+ /// Check to see if a subcommand is part of this command and get a shared_ptr to it
+ CLI::App_p get_subcommand_ptr(App *subcom) const {
+ if(subcom == nullptr)
+ throw OptionNotFound("nullptr passed");
+ for(const App_p &subcomptr : subcommands_)
+ if(subcomptr.get() == subcom)
+ return subcomptr;
+ throw OptionNotFound(subcom->get_name());
+ }
+
+ /// Check to see if a subcommand is part of this command (text version)
+ CLI::App_p get_subcommand_ptr(std::string subcom) const {
+ for(const App_p &subcomptr : subcommands_)
+ if(subcomptr->check_name(subcom))
+ return subcomptr;
+ throw OptionNotFound(subcom);
+ }
+
+ /// Get an owning pointer to subcommand by index
+ CLI::App_p get_subcommand_ptr(int index = 0) const {
+ if(index >= 0) {
+ auto uindex = static_cast<unsigned>(index);
+ if(uindex < subcommands_.size())
+ return subcommands_[uindex];
+ }
+ throw OptionNotFound(std::to_string(index));
+ }
+
+ /// Check to see if an option group is part of this App
+ App *get_option_group(std::string group_name) const {
+ for(const App_p &app : subcommands_) {
+ if(app->name_.empty() && app->group_ == group_name) {
+ return app.get();
+ }
+ }
+ throw OptionNotFound(group_name);
+ }
+
+ /// No argument version of count counts the number of times this subcommand was
+ /// passed in. The main app will return 1. Unnamed subcommands will also return 1 unless
+ /// otherwise modified in a callback
+ std::size_t count() const { return parsed_; }
+
+ /// Get a count of all the arguments processed in options and subcommands, this excludes arguments which were
+ /// treated as extras.
+ std::size_t count_all() const {
+ std::size_t cnt{0};
+ for(auto &opt : options_) {
+ cnt += opt->count();
+ }
+ for(auto &sub : subcommands_) {
+ cnt += sub->count_all();
+ }
+ if(!get_name().empty()) { // for named subcommands add the number of times the subcommand was called
+ cnt += parsed_;
+ }
+ return cnt;
+ }
+
+ /// Changes the group membership
+ App *group(std::string group_name) {
+ group_ = group_name;
+ return this;
+ }
+
+ /// The argumentless form of require subcommand requires 1 or more subcommands
+ App *require_subcommand() {
+ require_subcommand_min_ = 1;
+ require_subcommand_max_ = 0;
+ return this;
+ }
+
+ /// Require a subcommand to be given (does not affect help call)
+ /// The number required can be given. Negative values indicate maximum
+ /// number allowed (0 for any number). Max number inheritable.
+ App *require_subcommand(int value) {
+ if(value < 0) {
+ require_subcommand_min_ = 0;
+ require_subcommand_max_ = static_cast<std::size_t>(-value);
+ } else {
+ require_subcommand_min_ = static_cast<std::size_t>(value);
+ require_subcommand_max_ = static_cast<std::size_t>(value);
+ }
+ return this;
+ }
+
+ /// Explicitly control the number of subcommands required. Setting 0
+ /// for the max means unlimited number allowed. Max number inheritable.
+ App *require_subcommand(std::size_t min, std::size_t max) {
+ require_subcommand_min_ = min;
+ require_subcommand_max_ = max;
+ return this;
+ }
+
+ /// The argumentless form of require option requires 1 or more options be used
+ App *require_option() {
+ require_option_min_ = 1;
+ require_option_max_ = 0;
+ return this;
+ }
+
+ /// Require an option to be given (does not affect help call)
+ /// The number required can be given. Negative values indicate maximum
+ /// number allowed (0 for any number).
+ App *require_option(int value) {
+ if(value < 0) {
+ require_option_min_ = 0;
+ require_option_max_ = static_cast<std::size_t>(-value);
+ } else {
+ require_option_min_ = static_cast<std::size_t>(value);
+ require_option_max_ = static_cast<std::size_t>(value);
+ }
+ return this;
+ }
+
+ /// Explicitly control the number of options required. Setting 0
+ /// for the max means unlimited number allowed. Max number inheritable.
+ App *require_option(std::size_t min, std::size_t max) {
+ require_option_min_ = min;
+ require_option_max_ = max;
+ return this;
+ }
+
+ /// Stop subcommand fallthrough, so that parent commands cannot collect commands after subcommand.
+ /// Default from parent, usually set on parent.
+ App *fallthrough(bool value = true) {
+ fallthrough_ = value;
+ return this;
+ }
+
+ /// Check to see if this subcommand was parsed, true only if received on command line.
+ /// This allows the subcommand to be directly checked.
+ explicit operator bool() const { return parsed_ > 0; }
+
+ ///@}
+ /// @name Extras for subclassing
+ ///@{
+
+ /// This allows subclasses to inject code before callbacks but after parse.
+ ///
+ /// This does not run if any errors or help is thrown.
+ virtual void pre_callback() {}
+
+ ///@}
+ /// @name Parsing
+ ///@{
+ //
+ /// Reset the parsed data
+ void clear() {
+
+ parsed_ = 0;
+ pre_parse_called_ = false;
+
+ missing_.clear();
+ parsed_subcommands_.clear();
+ for(const Option_p &opt : options_) {
+ opt->clear();
+ }
+ for(const App_p &subc : subcommands_) {
+ subc->clear();
+ }
+ }
+
+ /// Parses the command line - throws errors.
+ /// This must be called after the options are in but before the rest of the program.
+ void parse(int argc, const char *const *argv) {
+ // If the name is not set, read from command line
+ if(name_.empty() || has_automatic_name_) {
+ has_automatic_name_ = true;
+ name_ = argv[0];
+ }
+
+ std::vector<std::string> args;
+ args.reserve(static_cast<std::size_t>(argc) - 1U);
+ for(auto i = static_cast<std::size_t>(argc) - 1U; i > 0U; --i)
+ args.emplace_back(argv[i]);
+ parse(std::move(args));
+ }
+
+ /// Parse a single string as if it contained command line arguments.
+ /// This function splits the string into arguments then calls parse(std::vector<std::string> &)
+ /// the function takes an optional boolean argument specifying if the programName is included in the string to
+ /// process
+ void parse(std::string commandline, bool program_name_included = false) {
+
+ if(program_name_included) {
+ auto nstr = detail::split_program_name(commandline);
+ if((name_.empty()) || (has_automatic_name_)) {
+ has_automatic_name_ = true;
+ name_ = nstr.first;
+ }
+ commandline = std::move(nstr.second);
+ } else {
+ detail::trim(commandline);
+ }
+ // the next section of code is to deal with quoted arguments after an '=' or ':' for windows like operations
+ if(!commandline.empty()) {
+ commandline = detail::find_and_modify(commandline, "=", detail::escape_detect);
+ if(allow_windows_style_options_)
+ commandline = detail::find_and_modify(commandline, ":", detail::escape_detect);
+ }
+
+ auto args = detail::split_up(std::move(commandline));
+ // remove all empty strings
+ args.erase(std::remove(args.begin(), args.end(), std::string{}), args.end());
+ std::reverse(args.begin(), args.end());
+
+ parse(std::move(args));
+ }
+
+ /// The real work is done here. Expects a reversed vector.
+ /// Changes the vector to the remaining options.
+ void parse(std::vector<std::string> &args) {
+ // Clear if parsed
+ if(parsed_ > 0)
+ clear();
+
+ // parsed_ is incremented in commands/subcommands,
+ // but placed here to make sure this is cleared when
+ // running parse after an error is thrown, even by _validate or _configure.
+ parsed_ = 1;
+ _validate();
+ _configure();
+ // set the parent as nullptr as this object should be the top now
+ parent_ = nullptr;
+ parsed_ = 0;
+
+ _parse(args);
+ run_callback();
+ }
+
+ /// The real work is done here. Expects a reversed vector.
+ void parse(std::vector<std::string> &&args) {
+ // Clear if parsed
+ if(parsed_ > 0)
+ clear();
+
+ // parsed_ is incremented in commands/subcommands,
+ // but placed here to make sure this is cleared when
+ // running parse after an error is thrown, even by _validate or _configure.
+ parsed_ = 1;
+ _validate();
+ _configure();
+ // set the parent as nullptr as this object should be the top now
+ parent_ = nullptr;
+ parsed_ = 0;
+
+ _parse(std::move(args));
+ run_callback();
+ }
+
+ void parse_from_stream(std::istream &input) {
+ if(parsed_ == 0) {
+ _validate();
+ _configure();
+ // set the parent as nullptr as this object should be the top now
+ }
+
+ _parse_stream(input);
+ run_callback();
+ }
+ /// Provide a function to print a help message. The function gets access to the App pointer and error.
+ void failure_message(std::function<std::string(const App *, const Error &e)> function) {
+ failure_message_ = function;
+ }
+
+ /// Print a nice error message and return the exit code
+ int exit(const Error &e, std::ostream &out = std::cout, std::ostream &err = std::cerr) const {
+
+ /// Avoid printing anything if this is a CLI::RuntimeError
+ if(e.get_name() == "RuntimeError")
+ return e.get_exit_code();
+
+ if(e.get_name() == "CallForHelp") {
+ out << help();
+ return e.get_exit_code();
+ }
+
+ if(e.get_name() == "CallForAllHelp") {
+ out << help("", AppFormatMode::All);
+ return e.get_exit_code();
+ }
+
+ if(e.get_name() == "CallForVersion") {
+ out << e.what() << std::endl;
+ return e.get_exit_code();
+ }
+
+ if(e.get_exit_code() != static_cast<int>(ExitCodes::Success)) {
+ if(failure_message_)
+ err << failure_message_(this, e) << std::flush;
+ }
+
+ return e.get_exit_code();
+ }
+
+ ///@}
+ /// @name Post parsing
+ ///@{
+
+ /// Counts the number of times the given option was passed.
+ std::size_t count(std::string option_name) const { return get_option(option_name)->count(); }
+
+ /// Get a subcommand pointer list to the currently selected subcommands (after parsing by default, in command
+ /// line order; use parsed = false to get the original definition list.)
+ std::vector<App *> get_subcommands() const { return parsed_subcommands_; }
+
+ /// Get a filtered subcommand pointer list from the original definition list. An empty function will provide all
+ /// subcommands (const)
+ std::vector<const App *> get_subcommands(const std::function<bool(const App *)> &filter) const {
+ std::vector<const App *> subcomms(subcommands_.size());
+ std::transform(std::begin(subcommands_), std::end(subcommands_), std::begin(subcomms), [](const App_p &v) {
+ return v.get();
+ });
+
+ if(filter) {
+ subcomms.erase(std::remove_if(std::begin(subcomms),
+ std::end(subcomms),
+ [&filter](const App *app) { return !filter(app); }),
+ std::end(subcomms));
+ }
+
+ return subcomms;
+ }
+
+ /// Get a filtered subcommand pointer list from the original definition list. An empty function will provide all
+ /// subcommands
+ std::vector<App *> get_subcommands(const std::function<bool(App *)> &filter) {
+ std::vector<App *> subcomms(subcommands_.size());
+ std::transform(std::begin(subcommands_), std::end(subcommands_), std::begin(subcomms), [](const App_p &v) {
+ return v.get();
+ });
+
+ if(filter) {
+ subcomms.erase(
+ std::remove_if(std::begin(subcomms), std::end(subcomms), [&filter](App *app) { return !filter(app); }),
+ std::end(subcomms));
+ }
+
+ return subcomms;
+ }
+
+ /// Check to see if given subcommand was selected
+ bool got_subcommand(const App *subcom) const {
+ // get subcom needed to verify that this was a real subcommand
+ return get_subcommand(subcom)->parsed_ > 0;
+ }
+
+ /// Check with name instead of pointer to see if subcommand was selected
+ bool got_subcommand(std::string subcommand_name) const { return get_subcommand(subcommand_name)->parsed_ > 0; }
+
+ /// Sets excluded options for the subcommand
+ App *excludes(Option *opt) {
+ if(opt == nullptr) {
+ throw OptionNotFound("nullptr passed");
+ }
+ exclude_options_.insert(opt);
+ return this;
+ }
+
+ /// Sets excluded subcommands for the subcommand
+ App *excludes(App *app) {
+ if(app == nullptr) {
+ throw OptionNotFound("nullptr passed");
+ }
+ if(app == this) {
+ throw OptionNotFound("cannot self reference in needs");
+ }
+ auto res = exclude_subcommands_.insert(app);
+ // subcommand exclusion should be symmetric
+ if(res.second) {
+ app->exclude_subcommands_.insert(this);
+ }
+ return this;
+ }
+
+ App *needs(Option *opt) {
+ if(opt == nullptr) {
+ throw OptionNotFound("nullptr passed");
+ }
+ need_options_.insert(opt);
+ return this;
+ }
+
+ App *needs(App *app) {
+ if(app == nullptr) {
+ throw OptionNotFound("nullptr passed");
+ }
+ if(app == this) {
+ throw OptionNotFound("cannot self reference in needs");
+ }
+ need_subcommands_.insert(app);
+ return this;
+ }
+
+ /// Removes an option from the excludes list of this subcommand
+ bool remove_excludes(Option *opt) {
+ auto iterator = std::find(std::begin(exclude_options_), std::end(exclude_options_), opt);
+ if(iterator == std::end(exclude_options_)) {
+ return false;
+ }
+ exclude_options_.erase(iterator);
+ return true;
+ }
+
+ /// Removes a subcommand from the excludes list of this subcommand
+ bool remove_excludes(App *app) {
+ auto iterator = std::find(std::begin(exclude_subcommands_), std::end(exclude_subcommands_), app);
+ if(iterator == std::end(exclude_subcommands_)) {
+ return false;
+ }
+ auto other_app = *iterator;
+ exclude_subcommands_.erase(iterator);
+ other_app->remove_excludes(this);
+ return true;
+ }
+
+ /// Removes an option from the needs list of this subcommand
+ bool remove_needs(Option *opt) {
+ auto iterator = std::find(std::begin(need_options_), std::end(need_options_), opt);
+ if(iterator == std::end(need_options_)) {
+ return false;
+ }
+ need_options_.erase(iterator);
+ return true;
+ }
+
+ /// Removes a subcommand from the needs list of this subcommand
+ bool remove_needs(App *app) {
+ auto iterator = std::find(std::begin(need_subcommands_), std::end(need_subcommands_), app);
+ if(iterator == std::end(need_subcommands_)) {
+ return false;
+ }
+ need_subcommands_.erase(iterator);
+ return true;
+ }
+
+ ///@}
+ /// @name Help
+ ///@{
+
+ /// Set footer.
+ App *footer(std::string footer_string) {
+ footer_ = std::move(footer_string);
+ return this;
+ }
+ /// Set footer.
+ App *footer(std::function<std::string()> footer_function) {
+ footer_callback_ = std::move(footer_function);
+ return this;
+ }
+ /// Produce a string that could be read in as a config of the current values of the App. Set default_also to
+ /// include default arguments. write_descriptions will print a description for the App and for each option.
+ std::string config_to_str(bool default_also = false, bool write_description = false) const {
+ return config_formatter_->to_config(this, default_also, write_description, "");
+ }
+
+ /// Makes a help message, using the currently configured formatter
+ /// Will only do one subcommand at a time
+ std::string help(std::string prev = "", AppFormatMode mode = AppFormatMode::Normal) const {
+ if(prev.empty())
+ prev = get_name();
+ else
+ prev += " " + get_name();
+
+ // Delegate to subcommand if needed
+ auto selected_subcommands = get_subcommands();
+ if(!selected_subcommands.empty()) {
+ return selected_subcommands.at(0)->help(prev, mode);
+ }
+ return formatter_->make_help(this, prev, mode);
+ }
+
+ /// Displays a version string
+ std::string version() const {
+ std::string val;
+ if(version_ptr_ != nullptr) {
+ auto rv = version_ptr_->results();
+ version_ptr_->clear();
+ version_ptr_->add_result("true");
+ try {
+ version_ptr_->run_callback();
+ } catch(const CLI::CallForVersion &cfv) {
+ val = cfv.what();
+ }
+ version_ptr_->clear();
+ version_ptr_->add_result(rv);
+ }
+ return val;
+ }
+ ///@}
+ /// @name Getters
+ ///@{
+
+ /// Access the formatter
+ std::shared_ptr<FormatterBase> get_formatter() const { return formatter_; }
+
+ /// Access the config formatter
+ std::shared_ptr<Config> get_config_formatter() const { return config_formatter_; }
+
+ /// Access the config formatter as a configBase pointer
+ std::shared_ptr<ConfigBase> get_config_formatter_base() const {
+ // This is safer as a dynamic_cast if we have RTTI, as Config -> ConfigBase
+#if CLI11_USE_STATIC_RTTI == 0
+ return std::dynamic_pointer_cast<ConfigBase>(config_formatter_);
+#else
+ return std::static_pointer_cast<ConfigBase>(config_formatter_);
+#endif
+ }
+
+ /// Get the app or subcommand description
+ std::string get_description() const { return description_; }
+
+ /// Set the description of the app
+ App *description(std::string app_description) {
+ description_ = std::move(app_description);
+ return this;
+ }
+
+ /// Get the list of options (user facing function, so returns raw pointers), has optional filter function
+ std::vector<const Option *> get_options(const std::function<bool(const Option *)> filter = {}) const {
+ std::vector<const Option *> options(options_.size());
+ std::transform(std::begin(options_), std::end(options_), std::begin(options), [](const Option_p &val) {
+ return val.get();
+ });
+
+ if(filter) {
+ options.erase(std::remove_if(std::begin(options),
+ std::end(options),
+ [&filter](const Option *opt) { return !filter(opt); }),
+ std::end(options));
+ }
+
+ return options;
+ }
+
+ /// Non-const version of the above
+ std::vector<Option *> get_options(const std::function<bool(Option *)> filter = {}) {
+ std::vector<Option *> options(options_.size());
+ std::transform(std::begin(options_), std::end(options_), std::begin(options), [](const Option_p &val) {
+ return val.get();
+ });
+
+ if(filter) {
+ options.erase(
+ std::remove_if(std::begin(options), std::end(options), [&filter](Option *opt) { return !filter(opt); }),
+ std::end(options));
+ }
+
+ return options;
+ }
+
+ /// Get an option by name (noexcept non-const version)
+ Option *get_option_no_throw(std::string option_name) noexcept {
+ for(Option_p &opt : options_) {
+ if(opt->check_name(option_name)) {
+ return opt.get();
+ }
+ }
+ for(auto &subc : subcommands_) {
+ // also check down into nameless subcommands
+ if(subc->get_name().empty()) {
+ auto opt = subc->get_option_no_throw(option_name);
+ if(opt != nullptr) {
+ return opt;
+ }
+ }
+ }
+ return nullptr;
+ }
+
+ /// Get an option by name (noexcept const version)
+ const Option *get_option_no_throw(std::string option_name) const noexcept {
+ for(const Option_p &opt : options_) {
+ if(opt->check_name(option_name)) {
+ return opt.get();
+ }
+ }
+ for(const auto &subc : subcommands_) {
+ // also check down into nameless subcommands
+ if(subc->get_name().empty()) {
+ auto opt = subc->get_option_no_throw(option_name);
+ if(opt != nullptr) {
+ return opt;
+ }
+ }
+ }
+ return nullptr;
+ }
+
+ /// Get an option by name
+ const Option *get_option(std::string option_name) const {
+ auto opt = get_option_no_throw(option_name);
+ if(opt == nullptr) {
+ throw OptionNotFound(option_name);
+ }
+ return opt;
+ }
+
+ /// Get an option by name (non-const version)
+ Option *get_option(std::string option_name) {
+ auto opt = get_option_no_throw(option_name);
+ if(opt == nullptr) {
+ throw OptionNotFound(option_name);
+ }
+ return opt;
+ }
+
+ /// Shortcut bracket operator for getting a pointer to an option
+ const Option *operator[](const std::string &option_name) const { return get_option(option_name); }
+
+ /// Shortcut bracket operator for getting a pointer to an option
+ const Option *operator[](const char *option_name) const { return get_option(option_name); }
+
+ /// Check the status of ignore_case
+ bool get_ignore_case() const { return ignore_case_; }
+
+ /// Check the status of ignore_underscore
+ bool get_ignore_underscore() const { return ignore_underscore_; }
+
+ /// Check the status of fallthrough
+ bool get_fallthrough() const { return fallthrough_; }
+
+ /// Check the status of the allow windows style options
+ bool get_allow_windows_style_options() const { return allow_windows_style_options_; }
+
+ /// Check the status of the allow windows style options
+ bool get_positionals_at_end() const { return positionals_at_end_; }
+
+ /// Check the status of the allow windows style options
+ bool get_configurable() const { return configurable_; }
+
+ /// Get the group of this subcommand
+ const std::string &get_group() const { return group_; }
+
+ /// Generate and return the footer.
+ std::string get_footer() const { return (footer_callback_) ? footer_callback_() + '\n' + footer_ : footer_; }
+
+ /// Get the required min subcommand value
+ std::size_t get_require_subcommand_min() const { return require_subcommand_min_; }
+
+ /// Get the required max subcommand value
+ std::size_t get_require_subcommand_max() const { return require_subcommand_max_; }
+
+ /// Get the required min option value
+ std::size_t get_require_option_min() const { return require_option_min_; }
+
+ /// Get the required max option value
+ std::size_t get_require_option_max() const { return require_option_max_; }
+
+ /// Get the prefix command status
+ bool get_prefix_command() const { return prefix_command_; }
+
+ /// Get the status of allow extras
+ bool get_allow_extras() const { return allow_extras_; }
+
+ /// Get the status of required
+ bool get_required() const { return required_; }
+
+ /// Get the status of disabled
+ bool get_disabled() const { return disabled_; }
+
+ /// Get the status of silence
+ bool get_silent() const { return silent_; }
+
+ /// Get the status of disabled
+ bool get_immediate_callback() const { return immediate_callback_; }
+
+ /// Get the status of disabled by default
+ bool get_disabled_by_default() const { return (default_startup == startup_mode::disabled); }
+
+ /// Get the status of disabled by default
+ bool get_enabled_by_default() const { return (default_startup == startup_mode::enabled); }
+ /// Get the status of validating positionals
+ bool get_validate_positionals() const { return validate_positionals_; }
+ /// Get the status of validating optional vector arguments
+ bool get_validate_optional_arguments() const { return validate_optional_arguments_; }
+
+ /// Get the status of allow extras
+ config_extras_mode get_allow_config_extras() const { return allow_config_extras_; }
+
+ /// Get a pointer to the help flag.
+ Option *get_help_ptr() { return help_ptr_; }
+
+ /// Get a pointer to the help flag. (const)
+ const Option *get_help_ptr() const { return help_ptr_; }
+
+ /// Get a pointer to the help all flag. (const)
+ const Option *get_help_all_ptr() const { return help_all_ptr_; }
+
+ /// Get a pointer to the config option.
+ Option *get_config_ptr() { return config_ptr_; }
+
+ /// Get a pointer to the config option. (const)
+ const Option *get_config_ptr() const { return config_ptr_; }
+
+ /// Get a pointer to the version option.
+ Option *get_version_ptr() { return version_ptr_; }
+
+ /// Get a pointer to the version option. (const)
+ const Option *get_version_ptr() const { return version_ptr_; }
+
+ /// Get the parent of this subcommand (or nullptr if main app)
+ App *get_parent() { return parent_; }
+
+ /// Get the parent of this subcommand (or nullptr if main app) (const version)
+ const App *get_parent() const { return parent_; }
+
+ /// Get the name of the current app
+ const std::string &get_name() const { return name_; }
+
+ /// Get the aliases of the current app
+ const std::vector<std::string> &get_aliases() const { return aliases_; }
+
+ /// clear all the aliases of the current App
+ App *clear_aliases() {
+ aliases_.clear();
+ return this;
+ }
+
+ /// Get a display name for an app
+ std::string get_display_name(bool with_aliases = false) const {
+ if(name_.empty()) {
+ return std::string("[Option Group: ") + get_group() + "]";
+ }
+ if(aliases_.empty() || !with_aliases) {
+ return name_;
+ }
+ std::string dispname = name_;
+ for(const auto &lalias : aliases_) {
+ dispname.push_back(',');
+ dispname.push_back(' ');
+ dispname.append(lalias);
+ }
+ return dispname;
+ }
+
+ /// Check the name, case insensitive and underscore insensitive if set
+ bool check_name(std::string name_to_check) const {
+ std::string local_name = name_;
+ if(ignore_underscore_) {
+ local_name = detail::remove_underscore(name_);
+ name_to_check = detail::remove_underscore(name_to_check);
+ }
+ if(ignore_case_) {
+ local_name = detail::to_lower(name_);
+ name_to_check = detail::to_lower(name_to_check);
+ }
+
+ if(local_name == name_to_check) {
+ return true;
+ }
+ for(auto les : aliases_) {
+ if(ignore_underscore_) {
+ les = detail::remove_underscore(les);
+ }
+ if(ignore_case_) {
+ les = detail::to_lower(les);
+ }
+ if(les == name_to_check) {
+ return true;
+ }
+ }
+ return false;
+ }
+
+ /// Get the groups available directly from this option (in order)
+ std::vector<std::string> get_groups() const {
+ std::vector<std::string> groups;
+
+ for(const Option_p &opt : options_) {
+ // Add group if it is not already in there
+ if(std::find(groups.begin(), groups.end(), opt->get_group()) == groups.end()) {
+ groups.push_back(opt->get_group());
+ }
+ }
+
+ return groups;
+ }
+
+ /// This gets a vector of pointers with the original parse order
+ const std::vector<Option *> &parse_order() const { return parse_order_; }
+
+ /// This returns the missing options from the current subcommand
+ std::vector<std::string> remaining(bool recurse = false) const {
+ std::vector<std::string> miss_list;
+ for(const std::pair<detail::Classifier, std::string> &miss : missing_) {
+ miss_list.push_back(std::get<1>(miss));
+ }
+ // Get from a subcommand that may allow extras
+ if(recurse) {
+ if(!allow_extras_) {
+ for(const auto &sub : subcommands_) {
+ if(sub->name_.empty() && !sub->missing_.empty()) {
+ for(const std::pair<detail::Classifier, std::string> &miss : sub->missing_) {
+ miss_list.push_back(std::get<1>(miss));
+ }
+ }
+ }
+ }
+ // Recurse into subcommands
+
+ for(const App *sub : parsed_subcommands_) {
+ std::vector<std::string> output = sub->remaining(recurse);
+ std::copy(std::begin(output), std::end(output), std::back_inserter(miss_list));
+ }
+ }
+ return miss_list;
+ }
+
+ /// This returns the missing options in a form ready for processing by another command line program
+ std::vector<std::string> remaining_for_passthrough(bool recurse = false) const {
+ std::vector<std::string> miss_list = remaining(recurse);
+ std::reverse(std::begin(miss_list), std::end(miss_list));
+ return miss_list;
+ }
+
+ /// This returns the number of remaining options, minus the -- separator
+ std::size_t remaining_size(bool recurse = false) const {
+ auto remaining_options = static_cast<std::size_t>(std::count_if(
+ std::begin(missing_), std::end(missing_), [](const std::pair<detail::Classifier, std::string> &val) {
+ return val.first != detail::Classifier::POSITIONAL_MARK;
+ }));
+
+ if(recurse) {
+ for(const App_p &sub : subcommands_) {
+ remaining_options += sub->remaining_size(recurse);
+ }
+ }
+ return remaining_options;
+ }
+
+ ///@}
+
+ protected:
+ /// Check the options to make sure there are no conflicts.
+ ///
+ /// Currently checks to see if multiple positionals exist with unlimited args and checks if the min and max options
+ /// are feasible
+ void _validate() const {
+ // count the number of positional only args
+ auto pcount = std::count_if(std::begin(options_), std::end(options_), [](const Option_p &opt) {
+ return opt->get_items_expected_max() >= detail::expected_max_vector_size && !opt->nonpositional();
+ });
+ if(pcount > 1) {
+ auto pcount_req = std::count_if(std::begin(options_), std::end(options_), [](const Option_p &opt) {
+ return opt->get_items_expected_max() >= detail::expected_max_vector_size && !opt->nonpositional() &&
+ opt->get_required();
+ });
+ if(pcount - pcount_req > 1) {
+ throw InvalidError(name_);
+ }
+ }
+
+ std::size_t nameless_subs{0};
+ for(const App_p &app : subcommands_) {
+ app->_validate();
+ if(app->get_name().empty())
+ ++nameless_subs;
+ }
+
+ if(require_option_min_ > 0) {
+ if(require_option_max_ > 0) {
+ if(require_option_max_ < require_option_min_) {
+ throw(InvalidError("Required min options greater than required max options",
+ ExitCodes::InvalidError));
+ }
+ }
+ if(require_option_min_ > (options_.size() + nameless_subs)) {
+ throw(InvalidError("Required min options greater than number of available options",
+ ExitCodes::InvalidError));
+ }
+ }
+ }
+
+ /// configure subcommands to enable parsing through the current object
+ /// set the correct fallthrough and prefix for nameless subcommands and manage the automatic enable or disable
+ /// makes sure parent is set correctly
+ void _configure() {
+ if(default_startup == startup_mode::enabled) {
+ disabled_ = false;
+ } else if(default_startup == startup_mode::disabled) {
+ disabled_ = true;
+ }
+ for(const App_p &app : subcommands_) {
+ if(app->has_automatic_name_) {
+ app->name_.clear();
+ }
+ if(app->name_.empty()) {
+ app->fallthrough_ = false; // make sure fallthrough_ is false to prevent infinite loop
+ app->prefix_command_ = false;
+ }
+ // make sure the parent is set to be this object in preparation for parse
+ app->parent_ = this;
+ app->_configure();
+ }
+ }
+
+ /// Internal function to run (App) callback, bottom up
+ void run_callback(bool final_mode = false, bool suppress_final_callback = false) {
+ pre_callback();
+ // in the main app if immediate_callback_ is set it runs the main callback before the used subcommands
+ if(!final_mode && parse_complete_callback_) {
+ parse_complete_callback_();
+ }
+ // run the callbacks for the received subcommands
+ for(App *subc : get_subcommands()) {
+ if(subc->parent_ == this) {
+ subc->run_callback(true, suppress_final_callback);
+ }
+ }
+ // now run callbacks for option_groups
+ for(auto &subc : subcommands_) {
+ if(subc->name_.empty() && subc->count_all() > 0) {
+ subc->run_callback(true, suppress_final_callback);
+ }
+ }
+
+ // finally run the main callback
+ if(final_callback_ && (parsed_ > 0) && (!suppress_final_callback)) {
+ if(!name_.empty() || count_all() > 0 || parent_ == nullptr) {
+ final_callback_();
+ }
+ }
+ }
+
+ /// Check to see if a subcommand is valid. Give up immediately if subcommand max has been reached.
+ bool _valid_subcommand(const std::string &current, bool ignore_used = true) const {
+ // Don't match if max has been reached - but still check parents
+ if(require_subcommand_max_ != 0 && parsed_subcommands_.size() >= require_subcommand_max_) {
+ return parent_ != nullptr && parent_->_valid_subcommand(current, ignore_used);
+ }
+ auto com = _find_subcommand(current, true, ignore_used);
+ if(com != nullptr) {
+ return true;
+ }
+ // Check parent if exists, else return false
+ return parent_ != nullptr && parent_->_valid_subcommand(current, ignore_used);
+ }
+
+ /// Selects a Classifier enum based on the type of the current argument
+ detail::Classifier _recognize(const std::string &current, bool ignore_used_subcommands = true) const {
+ std::string dummy1, dummy2;
+
+ if(current == "--")
+ return detail::Classifier::POSITIONAL_MARK;
+ if(_valid_subcommand(current, ignore_used_subcommands))
+ return detail::Classifier::SUBCOMMAND;
+ if(detail::split_long(current, dummy1, dummy2))
+ return detail::Classifier::LONG;
+ if(detail::split_short(current, dummy1, dummy2)) {
+ if(dummy1[0] >= '0' && dummy1[0] <= '9') {
+ if(get_option_no_throw(std::string{'-', dummy1[0]}) == nullptr) {
+ return detail::Classifier::NONE;
+ }
+ }
+ return detail::Classifier::SHORT;
+ }
+ if((allow_windows_style_options_) && (detail::split_windows_style(current, dummy1, dummy2)))
+ return detail::Classifier::WINDOWS_STYLE;
+ if((current == "++") && !name_.empty() && parent_ != nullptr)
+ return detail::Classifier::SUBCOMMAND_TERMINATOR;
+ return detail::Classifier::NONE;
+ }
+
+ // The parse function is now broken into several parts, and part of process
+
+ /// Read and process a configuration file (main app only)
+ void _process_config_file() {
+ if(config_ptr_ != nullptr) {
+ bool config_required = config_ptr_->get_required();
+ auto file_given = config_ptr_->count() > 0;
+ auto config_files = config_ptr_->as<std::vector<std::string>>();
+ if(config_files.empty() || config_files.front().empty()) {
+ if(config_required) {
+ throw FileError::Missing("no specified config file");
+ }
+ return;
+ }
+ for(auto rit = config_files.rbegin(); rit != config_files.rend(); ++rit) {
+ const auto &config_file = *rit;
+ auto path_result = detail::check_path(config_file.c_str());
+ if(path_result == detail::path_type::file) {
+ try {
+ std::vector<ConfigItem> values = config_formatter_->from_file(config_file);
+ _parse_config(values);
+ if(!file_given) {
+ config_ptr_->add_result(config_file);
+ }
+ } catch(const FileError &) {
+ if(config_required || file_given)
+ throw;
+ }
+ } else if(config_required || file_given) {
+ throw FileError::Missing(config_file);
+ }
+ }
+ }
+ }
+
+ /// Get envname options if not yet passed. Runs on *all* subcommands.
+ void _process_env() {
+ for(const Option_p &opt : options_) {
+ if(opt->count() == 0 && !opt->envname_.empty()) {
+ char *buffer = nullptr;
+ std::string ename_string;
+
+#ifdef _MSC_VER
+ // Windows version
+ std::size_t sz = 0;
+ if(_dupenv_s(&buffer, &sz, opt->envname_.c_str()) == 0 && buffer != nullptr) {
+ ename_string = std::string(buffer);
+ free(buffer);
+ }
+#else
+ // This also works on Windows, but gives a warning
+ buffer = std::getenv(opt->envname_.c_str());
+ if(buffer != nullptr)
+ ename_string = std::string(buffer);
+#endif
+
+ if(!ename_string.empty()) {
+ opt->add_result(ename_string);
+ }
+ }
+ }
+
+ for(App_p &sub : subcommands_) {
+ if(sub->get_name().empty() || !sub->parse_complete_callback_)
+ sub->_process_env();
+ }
+ }
+
+ /// Process callbacks. Runs on *all* subcommands.
+ void _process_callbacks() {
+
+ for(App_p &sub : subcommands_) {
+ // process the priority option_groups first
+ if(sub->get_name().empty() && sub->parse_complete_callback_) {
+ if(sub->count_all() > 0) {
+ sub->_process_callbacks();
+ sub->run_callback();
+ }
+ }
+ }
+
+ for(const Option_p &opt : options_) {
+ if((*opt) && !opt->get_callback_run()) {
+ opt->run_callback();
+ }
+ }
+ for(App_p &sub : subcommands_) {
+ if(!sub->parse_complete_callback_) {
+ sub->_process_callbacks();
+ }
+ }
+ }
+
+ /// Run help flag processing if any are found.
+ ///
+ /// The flags allow recursive calls to remember if there was a help flag on a parent.
+ void _process_help_flags(bool trigger_help = false, bool trigger_all_help = false) const {
+ const Option *help_ptr = get_help_ptr();
+ const Option *help_all_ptr = get_help_all_ptr();
+
+ if(help_ptr != nullptr && help_ptr->count() > 0)
+ trigger_help = true;
+ if(help_all_ptr != nullptr && help_all_ptr->count() > 0)
+ trigger_all_help = true;
+
+ // If there were parsed subcommands, call those. First subcommand wins if there are multiple ones.
+ if(!parsed_subcommands_.empty()) {
+ for(const App *sub : parsed_subcommands_)
+ sub->_process_help_flags(trigger_help, trigger_all_help);
+
+ // Only the final subcommand should call for help. All help wins over help.
+ } else if(trigger_all_help) {
+ throw CallForAllHelp();
+ } else if(trigger_help) {
+ throw CallForHelp();
+ }
+ }
+
+ /// Verify required options and cross requirements. Subcommands too (only if selected).
+ void _process_requirements() {
+ // check excludes
+ bool excluded{false};
+ std::string excluder;
+ for(auto &opt : exclude_options_) {
+ if(opt->count() > 0) {
+ excluded = true;
+ excluder = opt->get_name();
+ }
+ }
+ for(auto &subc : exclude_subcommands_) {
+ if(subc->count_all() > 0) {
+ excluded = true;
+ excluder = subc->get_display_name();
+ }
+ }
+ if(excluded) {
+ if(count_all() > 0) {
+ throw ExcludesError(get_display_name(), excluder);
+ }
+ // if we are excluded but didn't receive anything, just return
+ return;
+ }
+
+ // check excludes
+ bool missing_needed{false};
+ std::string missing_need;
+ for(auto &opt : need_options_) {
+ if(opt->count() == 0) {
+ missing_needed = true;
+ missing_need = opt->get_name();
+ }
+ }
+ for(auto &subc : need_subcommands_) {
+ if(subc->count_all() == 0) {
+ missing_needed = true;
+ missing_need = subc->get_display_name();
+ }
+ }
+ if(missing_needed) {
+ if(count_all() > 0) {
+ throw RequiresError(get_display_name(), missing_need);
+ }
+ // if we missing something but didn't have any options, just return
+ return;
+ }
+
+ std::size_t used_options = 0;
+ for(const Option_p &opt : options_) {
+
+ if(opt->count() != 0) {
+ ++used_options;
+ }
+ // Required but empty
+ if(opt->get_required() && opt->count() == 0) {
+ throw RequiredError(opt->get_name());
+ }
+ // Requires
+ for(const Option *opt_req : opt->needs_)
+ if(opt->count() > 0 && opt_req->count() == 0)
+ throw RequiresError(opt->get_name(), opt_req->get_name());
+ // Excludes
+ for(const Option *opt_ex : opt->excludes_)
+ if(opt->count() > 0 && opt_ex->count() != 0)
+ throw ExcludesError(opt->get_name(), opt_ex->get_name());
+ }
+ // check for the required number of subcommands
+ if(require_subcommand_min_ > 0) {
+ auto selected_subcommands = get_subcommands();
+ if(require_subcommand_min_ > selected_subcommands.size())
+ throw RequiredError::Subcommand(require_subcommand_min_);
+ }
+
+ // Max error cannot occur, the extra subcommand will parse as an ExtrasError or a remaining item.
+
+ // run this loop to check how many unnamed subcommands were actually used since they are considered options
+ // from the perspective of an App
+ for(App_p &sub : subcommands_) {
+ if(sub->disabled_)
+ continue;
+ if(sub->name_.empty() && sub->count_all() > 0) {
+ ++used_options;
+ }
+ }
+
+ if(require_option_min_ > used_options || (require_option_max_ > 0 && require_option_max_ < used_options)) {
+ auto option_list = detail::join(options_, [this](const Option_p &ptr) {
+ if(ptr.get() == help_ptr_ || ptr.get() == help_all_ptr_) {
+ return std::string{};
+ }
+ return ptr->get_name(false, true);
+ });
+
+ auto subc_list = get_subcommands([](App *app) { return ((app->get_name().empty()) && (!app->disabled_)); });
+ if(!subc_list.empty()) {
+ option_list += "," + detail::join(subc_list, [](const App *app) { return app->get_display_name(); });
+ }
+ throw RequiredError::Option(require_option_min_, require_option_max_, used_options, option_list);
+ }
+
+ // now process the requirements for subcommands if needed
+ for(App_p &sub : subcommands_) {
+ if(sub->disabled_)
+ continue;
+ if(sub->name_.empty() && sub->required_ == false) {
+ if(sub->count_all() == 0) {
+ if(require_option_min_ > 0 && require_option_min_ <= used_options) {
+ continue;
+ // if we have met the requirement and there is nothing in this option group skip checking
+ // requirements
+ }
+ if(require_option_max_ > 0 && used_options >= require_option_min_) {
+ continue;
+ // if we have met the requirement and there is nothing in this option group skip checking
+ // requirements
+ }
+ }
+ }
+ if(sub->count() > 0 || sub->name_.empty()) {
+ sub->_process_requirements();
+ }
+
+ if(sub->required_ && sub->count_all() == 0) {
+ throw(CLI::RequiredError(sub->get_display_name()));
+ }
+ }
+ }
+
+ /// Process callbacks and such.
+ void _process() {
+ try {
+ // the config file might generate a FileError but that should not be processed until later in the process
+ // to allow for help, version and other errors to generate first.
+ _process_config_file();
+
+ // process env shouldn't throw but no reason to process it if config generated an error
+ _process_env();
+ } catch(const CLI::FileError &) {
+ // callbacks and help_flags can generate exceptions which should take priority
+ // over the config file error if one exists.
+ _process_callbacks();
+ _process_help_flags();
+ throw;
+ }
+
+ _process_callbacks();
+ _process_help_flags();
+
+ _process_requirements();
+ }
+
+ /// Throw an error if anything is left over and should not be.
+ void _process_extras() {
+ if(!(allow_extras_ || prefix_command_)) {
+ std::size_t num_left_over = remaining_size();
+ if(num_left_over > 0) {
+ throw ExtrasError(name_, remaining(false));
+ }
+ }
+
+ for(App_p &sub : subcommands_) {
+ if(sub->count() > 0)
+ sub->_process_extras();
+ }
+ }
+
+ /// Throw an error if anything is left over and should not be.
+ /// Modifies the args to fill in the missing items before throwing.
+ void _process_extras(std::vector<std::string> &args) {
+ if(!(allow_extras_ || prefix_command_)) {
+ std::size_t num_left_over = remaining_size();
+ if(num_left_over > 0) {
+ args = remaining(false);
+ throw ExtrasError(name_, args);
+ }
+ }
+
+ for(App_p &sub : subcommands_) {
+ if(sub->count() > 0)
+ sub->_process_extras(args);
+ }
+ }
+
+ /// Internal function to recursively increment the parsed counter on the current app as well unnamed subcommands
+ void increment_parsed() {
+ ++parsed_;
+ for(App_p &sub : subcommands_) {
+ if(sub->get_name().empty())
+ sub->increment_parsed();
+ }
+ }
+ /// Internal parse function
+ void _parse(std::vector<std::string> &args) {
+ increment_parsed();
+ _trigger_pre_parse(args.size());
+ bool positional_only = false;
+
+ while(!args.empty()) {
+ if(!_parse_single(args, positional_only)) {
+ break;
+ }
+ }
+
+ if(parent_ == nullptr) {
+ _process();
+
+ // Throw error if any items are left over (depending on settings)
+ _process_extras(args);
+
+ // Convert missing (pairs) to extras (string only) ready for processing in another app
+ args = remaining_for_passthrough(false);
+ } else if(parse_complete_callback_) {
+ _process_env();
+ _process_callbacks();
+ _process_help_flags();
+ _process_requirements();
+ run_callback(false, true);
+ }
+ }
+
+ /// Internal parse function
+ void _parse(std::vector<std::string> &&args) {
+ // this can only be called by the top level in which case parent == nullptr by definition
+ // operation is simplified
+ increment_parsed();
+ _trigger_pre_parse(args.size());
+ bool positional_only = false;
+
+ while(!args.empty()) {
+ _parse_single(args, positional_only);
+ }
+ _process();
+
+ // Throw error if any items are left over (depending on settings)
+ _process_extras();
+ }
+
+ /// Internal function to parse a stream
+ void _parse_stream(std::istream &input) {
+ auto values = config_formatter_->from_config(input);
+ _parse_config(values);
+ increment_parsed();
+ _trigger_pre_parse(values.size());
+ _process();
+
+ // Throw error if any items are left over (depending on settings)
+ _process_extras();
+ }
+
+ /// Parse one config param, return false if not found in any subcommand, remove if it is
+ ///
+ /// If this has more than one dot.separated.name, go into the subcommand matching it
+ /// Returns true if it managed to find the option, if false you'll need to remove the arg manually.
+ void _parse_config(const std::vector<ConfigItem> &args) {
+ for(const ConfigItem &item : args) {
+ if(!_parse_single_config(item) && allow_config_extras_ == config_extras_mode::error)
+ throw ConfigError::Extras(item.fullname());
+ }
+ }
+
+ /// Fill in a single config option
+ bool _parse_single_config(const ConfigItem &item, std::size_t level = 0) {
+ if(level < item.parents.size()) {
+ try {
+ auto subcom = get_subcommand(item.parents.at(level));
+ auto result = subcom->_parse_single_config(item, level + 1);
+
+ return result;
+ } catch(const OptionNotFound &) {
+ return false;
+ }
+ }
+ // check for section open
+ if(item.name == "++") {
+ if(configurable_) {
+ increment_parsed();
+ _trigger_pre_parse(2);
+ if(parent_ != nullptr) {
+ parent_->parsed_subcommands_.push_back(this);
+ }
+ }
+ return true;
+ }
+ // check for section close
+ if(item.name == "--") {
+ if(configurable_) {
+ _process_callbacks();
+ _process_requirements();
+ run_callback();
+ }
+ return true;
+ }
+ Option *op = get_option_no_throw("--" + item.name);
+ if(op == nullptr) {
+ if(item.name.size() == 1) {
+ op = get_option_no_throw("-" + item.name);
+ }
+ }
+ if(op == nullptr) {
+ op = get_option_no_throw(item.name);
+ }
+ if(op == nullptr) {
+ // If the option was not present
+ if(get_allow_config_extras() == config_extras_mode::capture)
+ // Should we worry about classifying the extras properly?
+ missing_.emplace_back(detail::Classifier::NONE, item.fullname());
+ return false;
+ }
+
+ if(!op->get_configurable()) {
+ if(get_allow_config_extras() == config_extras_mode::ignore_all) {
+ return false;
+ }
+ throw ConfigError::NotConfigurable(item.fullname());
+ }
+
+ if(op->empty()) {
+
+ if(op->get_expected_min() == 0) {
+ // Flag parsing
+ auto res = config_formatter_->to_flag(item);
+ res = op->get_flag_value(item.name, res);
+
+ op->add_result(res);
+
+ } else {
+ op->add_result(item.inputs);
+ op->run_callback();
+ }
+ }
+
+ return true;
+ }
+
+ /// Parse "one" argument (some may eat more than one), delegate to parent if fails, add to missing if missing
+ /// from main return false if the parse has failed and needs to return to parent
+ bool _parse_single(std::vector<std::string> &args, bool &positional_only) {
+ bool retval = true;
+ detail::Classifier classifier = positional_only ? detail::Classifier::NONE : _recognize(args.back());
+ switch(classifier) {
+ case detail::Classifier::POSITIONAL_MARK:
+ args.pop_back();
+ positional_only = true;
+ if((!_has_remaining_positionals()) && (parent_ != nullptr)) {
+ retval = false;
+ } else {
+ _move_to_missing(classifier, "--");
+ }
+ break;
+ case detail::Classifier::SUBCOMMAND_TERMINATOR:
+ // treat this like a positional mark if in the parent app
+ args.pop_back();
+ retval = false;
+ break;
+ case detail::Classifier::SUBCOMMAND:
+ retval = _parse_subcommand(args);
+ break;
+ case detail::Classifier::LONG:
+ case detail::Classifier::SHORT:
+ case detail::Classifier::WINDOWS_STYLE:
+ // If already parsed a subcommand, don't accept options_
+ _parse_arg(args, classifier);
+ break;
+ case detail::Classifier::NONE:
+ // Probably a positional or something for a parent (sub)command
+ retval = _parse_positional(args, false);
+ if(retval && positionals_at_end_) {
+ positional_only = true;
+ }
+ break;
+ // LCOV_EXCL_START
+ default:
+ throw HorribleError("unrecognized classifier (you should not see this!)");
+ // LCOV_EXCL_STOP
+ }
+ return retval;
+ }
+
+ /// Count the required remaining positional arguments
+ std::size_t _count_remaining_positionals(bool required_only = false) const {
+ std::size_t retval = 0;
+ for(const Option_p &opt : options_) {
+ if(opt->get_positional() && (!required_only || opt->get_required())) {
+ if(opt->get_items_expected_min() > 0 &&
+ static_cast<int>(opt->count()) < opt->get_items_expected_min()) {
+ retval += static_cast<std::size_t>(opt->get_items_expected_min()) - opt->count();
+ }
+ }
+ }
+ return retval;
+ }
+
+ /// Count the required remaining positional arguments
+ bool _has_remaining_positionals() const {
+ for(const Option_p &opt : options_) {
+ if(opt->get_positional() && ((static_cast<int>(opt->count()) < opt->get_items_expected_min()))) {
+ return true;
+ }
+ }
+
+ return false;
+ }
+
+ /// Parse a positional, go up the tree to check
+ /// @param haltOnSubcommand if set to true the operation will not process subcommands merely return false
+ /// Return true if the positional was used false otherwise
+ bool _parse_positional(std::vector<std::string> &args, bool haltOnSubcommand) {
+
+ const std::string &positional = args.back();
+
+ if(positionals_at_end_) {
+ // deal with the case of required arguments at the end which should take precedence over other arguments
+ auto arg_rem = args.size();
+ auto remreq = _count_remaining_positionals(true);
+ if(arg_rem <= remreq) {
+ for(const Option_p &opt : options_) {
+ if(opt->get_positional() && opt->required_) {
+ if(static_cast<int>(opt->count()) < opt->get_items_expected_min()) {
+ if(validate_positionals_) {
+ std::string pos = positional;
+ pos = opt->_validate(pos, 0);
+ if(!pos.empty()) {
+ continue;
+ }
+ }
+
+ parse_order_.push_back(opt.get());
+ /// if we require a separator add it here
+ if(opt->get_inject_separator()) {
+ if(!opt->results().empty() && !opt->results().back().empty()) {
+ opt->add_result(std::string{});
+ }
+ }
+ if(opt->get_trigger_on_parse() &&
+ opt->current_option_state_ == Option::option_state::callback_run) {
+ opt->clear();
+ }
+ opt->add_result(positional);
+ if(opt->get_trigger_on_parse()) {
+ opt->run_callback();
+ }
+ args.pop_back();
+ return true;
+ }
+ }
+ }
+ }
+ }
+ for(const Option_p &opt : options_) {
+ // Eat options, one by one, until done
+ if(opt->get_positional() &&
+ (static_cast<int>(opt->count()) < opt->get_items_expected_min() || opt->get_allow_extra_args())) {
+ if(validate_positionals_) {
+ std::string pos = positional;
+ pos = opt->_validate(pos, 0);
+ if(!pos.empty()) {
+ continue;
+ }
+ }
+ if(opt->get_inject_separator()) {
+ if(!opt->results().empty() && !opt->results().back().empty()) {
+ opt->add_result(std::string{});
+ }
+ }
+ if(opt->get_trigger_on_parse() && opt->current_option_state_ == Option::option_state::callback_run) {
+ opt->clear();
+ }
+ opt->add_result(positional);
+ if(opt->get_trigger_on_parse()) {
+ opt->run_callback();
+ }
+ parse_order_.push_back(opt.get());
+ args.pop_back();
+ return true;
+ }
+ }
+
+ for(auto &subc : subcommands_) {
+ if((subc->name_.empty()) && (!subc->disabled_)) {
+ if(subc->_parse_positional(args, false)) {
+ if(!subc->pre_parse_called_) {
+ subc->_trigger_pre_parse(args.size());
+ }
+ return true;
+ }
+ }
+ }
+ // let the parent deal with it if possible
+ if(parent_ != nullptr && fallthrough_)
+ return _get_fallthrough_parent()->_parse_positional(args, static_cast<bool>(parse_complete_callback_));
+
+ /// Try to find a local subcommand that is repeated
+ auto com = _find_subcommand(args.back(), true, false);
+ if(com != nullptr && (require_subcommand_max_ == 0 || require_subcommand_max_ > parsed_subcommands_.size())) {
+ if(haltOnSubcommand) {
+ return false;
+ }
+ args.pop_back();
+ com->_parse(args);
+ return true;
+ }
+ /// now try one last gasp at subcommands that have been executed before, go to root app and try to find a
+ /// subcommand in a broader way, if one exists let the parent deal with it
+ auto parent_app = (parent_ != nullptr) ? _get_fallthrough_parent() : this;
+ com = parent_app->_find_subcommand(args.back(), true, false);
+ if(com != nullptr && (com->parent_->require_subcommand_max_ == 0 ||
+ com->parent_->require_subcommand_max_ > com->parent_->parsed_subcommands_.size())) {
+ return false;
+ }
+
+ if(positionals_at_end_) {
+ throw CLI::ExtrasError(name_, args);
+ }
+ /// If this is an option group don't deal with it
+ if(parent_ != nullptr && name_.empty()) {
+ return false;
+ }
+ /// We are out of other options this goes to missing
+ _move_to_missing(detail::Classifier::NONE, positional);
+ args.pop_back();
+ if(prefix_command_) {
+ while(!args.empty()) {
+ _move_to_missing(detail::Classifier::NONE, args.back());
+ args.pop_back();
+ }
+ }
+
+ return true;
+ }
+
+ /// Locate a subcommand by name with two conditions, should disabled subcommands be ignored, and should used
+ /// subcommands be ignored
+ App *_find_subcommand(const std::string &subc_name, bool ignore_disabled, bool ignore_used) const noexcept {
+ for(const App_p &com : subcommands_) {
+ if(com->disabled_ && ignore_disabled)
+ continue;
+ if(com->get_name().empty()) {
+ auto subc = com->_find_subcommand(subc_name, ignore_disabled, ignore_used);
+ if(subc != nullptr) {
+ return subc;
+ }
+ }
+ if(com->check_name(subc_name)) {
+ if((!*com) || !ignore_used)
+ return com.get();
+ }
+ }
+ return nullptr;
+ }
+
+ /// Parse a subcommand, modify args and continue
+ ///
+ /// Unlike the others, this one will always allow fallthrough
+ /// return true if the subcommand was processed false otherwise
+ bool _parse_subcommand(std::vector<std::string> &args) {
+ if(_count_remaining_positionals(/* required */ true) > 0) {
+ _parse_positional(args, false);
+ return true;
+ }
+ auto com = _find_subcommand(args.back(), true, true);
+ if(com != nullptr) {
+ args.pop_back();
+ if(!com->silent_) {
+ parsed_subcommands_.push_back(com);
+ }
+ com->_parse(args);
+ auto parent_app = com->parent_;
+ while(parent_app != this) {
+ parent_app->_trigger_pre_parse(args.size());
+ if(!com->silent_) {
+ parent_app->parsed_subcommands_.push_back(com);
+ }
+ parent_app = parent_app->parent_;
+ }
+ return true;
+ }
+
+ if(parent_ == nullptr)
+ throw HorribleError("Subcommand " + args.back() + " missing");
+ return false;
+ }
+
+ /// Parse a short (false) or long (true) argument, must be at the top of the list
+ /// return true if the argument was processed or false if nothing was done
+ bool _parse_arg(std::vector<std::string> &args, detail::Classifier current_type) {
+
+ std::string current = args.back();
+
+ std::string arg_name;
+ std::string value;
+ std::string rest;
+
+ switch(current_type) {
+ case detail::Classifier::LONG:
+ if(!detail::split_long(current, arg_name, value))
+ throw HorribleError("Long parsed but missing (you should not see this):" + args.back());
+ break;
+ case detail::Classifier::SHORT:
+ if(!detail::split_short(current, arg_name, rest))
+ throw HorribleError("Short parsed but missing! You should not see this");
+ break;
+ case detail::Classifier::WINDOWS_STYLE:
+ if(!detail::split_windows_style(current, arg_name, value))
+ throw HorribleError("windows option parsed but missing! You should not see this");
+ break;
+ case detail::Classifier::SUBCOMMAND:
+ case detail::Classifier::SUBCOMMAND_TERMINATOR:
+ case detail::Classifier::POSITIONAL_MARK:
+ case detail::Classifier::NONE:
+ default:
+ throw HorribleError("parsing got called with invalid option! You should not see this");
+ }
+
+ auto op_ptr =
+ std::find_if(std::begin(options_), std::end(options_), [arg_name, current_type](const Option_p &opt) {
+ if(current_type == detail::Classifier::LONG)
+ return opt->check_lname(arg_name);
+ if(current_type == detail::Classifier::SHORT)
+ return opt->check_sname(arg_name);
+ // this will only get called for detail::Classifier::WINDOWS_STYLE
+ return opt->check_lname(arg_name) || opt->check_sname(arg_name);
+ });
+
+ // Option not found
+ if(op_ptr == std::end(options_)) {
+ for(auto &subc : subcommands_) {
+ if(subc->name_.empty() && !subc->disabled_) {
+ if(subc->_parse_arg(args, current_type)) {
+ if(!subc->pre_parse_called_) {
+ subc->_trigger_pre_parse(args.size());
+ }
+ return true;
+ }
+ }
+ }
+
+ // don't capture missing if this is a nameless subcommand and nameless subcommands can't fallthrough
+ if(parent_ != nullptr && name_.empty()) {
+ return false;
+ }
+
+ // If a subcommand, try the main command
+ if(parent_ != nullptr && fallthrough_)
+ return _get_fallthrough_parent()->_parse_arg(args, current_type);
+
+ // Otherwise, add to missing
+ args.pop_back();
+ _move_to_missing(current_type, current);
+ return true;
+ }
+
+ args.pop_back();
+
+ // Get a reference to the pointer to make syntax bearable
+ Option_p &op = *op_ptr;
+ /// if we require a separator add it here
+ if(op->get_inject_separator()) {
+ if(!op->results().empty() && !op->results().back().empty()) {
+ op->add_result(std::string{});
+ }
+ }
+ if(op->get_trigger_on_parse() && op->current_option_state_ == Option::option_state::callback_run) {
+ op->clear();
+ }
+ int min_num = (std::min)(op->get_type_size_min(), op->get_items_expected_min());
+ int max_num = op->get_items_expected_max();
+ // check container like options to limit the argument size to a single type if the allow_extra_flags argument is
+ // set. 16 is somewhat arbitrary (needs to be at least 4)
+ if(max_num >= detail::expected_max_vector_size / 16 && !op->get_allow_extra_args()) {
+ auto tmax = op->get_type_size_max();
+ max_num = detail::checked_multiply(tmax, op->get_expected_min()) ? tmax : detail::expected_max_vector_size;
+ }
+ // Make sure we always eat the minimum for unlimited vectors
+ int collected = 0; // total number of arguments collected
+ int result_count = 0; // local variable for number of results in a single arg string
+ // deal with purely flag like things
+ if(max_num == 0) {
+ auto res = op->get_flag_value(arg_name, value);
+ op->add_result(res);
+ parse_order_.push_back(op.get());
+ } else if(!value.empty()) { // --this=value
+ op->add_result(value, result_count);
+ parse_order_.push_back(op.get());
+ collected += result_count;
+ // -Trest
+ } else if(!rest.empty()) {
+ op->add_result(rest, result_count);
+ parse_order_.push_back(op.get());
+ rest = "";
+ collected += result_count;
+ }
+
+ // gather the minimum number of arguments
+ while(min_num > collected && !args.empty()) {
+ std::string current_ = args.back();
+ args.pop_back();
+ op->add_result(current_, result_count);
+ parse_order_.push_back(op.get());
+ collected += result_count;
+ }
+
+ if(min_num > collected) { // if we have run out of arguments and the minimum was not met
+ throw ArgumentMismatch::TypedAtLeast(op->get_name(), min_num, op->get_type_name());
+ }
+
+ // now check for optional arguments
+ if(max_num > collected || op->get_allow_extra_args()) { // we allow optional arguments
+ auto remreqpos = _count_remaining_positionals(true);
+ // we have met the minimum now optionally check up to the maximum
+ while((collected < max_num || op->get_allow_extra_args()) && !args.empty() &&
+ _recognize(args.back(), false) == detail::Classifier::NONE) {
+ // If any required positionals remain, don't keep eating
+ if(remreqpos >= args.size()) {
+ break;
+ }
+ if(validate_optional_arguments_) {
+ std::string optarg = args.back();
+ optarg = op->_validate(optarg, 0);
+ if(!optarg.empty()) {
+ break;
+ }
+ }
+ op->add_result(args.back(), result_count);
+ parse_order_.push_back(op.get());
+ args.pop_back();
+ collected += result_count;
+ }
+
+ // Allow -- to end an unlimited list and "eat" it
+ if(!args.empty() && _recognize(args.back()) == detail::Classifier::POSITIONAL_MARK)
+ args.pop_back();
+ // optional flag that didn't receive anything now get the default value
+ if(min_num == 0 && max_num > 0 && collected == 0) {
+ auto res = op->get_flag_value(arg_name, std::string{});
+ op->add_result(res);
+ parse_order_.push_back(op.get());
+ }
+ }
+ // if we only partially completed a type then add an empty string if allowed for later processing
+ if(min_num > 0 && (collected % op->get_type_size_max()) != 0) {
+ if(op->get_type_size_max() != op->get_type_size_min()) {
+ op->add_result(std::string{});
+ } else {
+ throw ArgumentMismatch::PartialType(op->get_name(), op->get_type_size_min(), op->get_type_name());
+ }
+ }
+ if(op->get_trigger_on_parse()) {
+ op->run_callback();
+ }
+ if(!rest.empty()) {
+ rest = "-" + rest;
+ args.push_back(rest);
+ }
+ return true;
+ }
+
+ /// Trigger the pre_parse callback if needed
+ void _trigger_pre_parse(std::size_t remaining_args) {
+ if(!pre_parse_called_) {
+ pre_parse_called_ = true;
+ if(pre_parse_callback_) {
+ pre_parse_callback_(remaining_args);
+ }
+ } else if(immediate_callback_) {
+ if(!name_.empty()) {
+ auto pcnt = parsed_;
+ auto extras = std::move(missing_);
+ clear();
+ parsed_ = pcnt;
+ pre_parse_called_ = true;
+ missing_ = std::move(extras);
+ }
+ }
+ }
+
+ /// Get the appropriate parent to fallthrough to which is the first one that has a name or the main app
+ App *_get_fallthrough_parent() {
+ if(parent_ == nullptr) {
+ throw(HorribleError("No Valid parent"));
+ }
+ auto fallthrough_parent = parent_;
+ while((fallthrough_parent->parent_ != nullptr) && (fallthrough_parent->get_name().empty())) {
+ fallthrough_parent = fallthrough_parent->parent_;
+ }
+ return fallthrough_parent;
+ }
+
+ /// Helper function to run through all possible comparisons of subcommand names to check there is no overlap
+ const std::string &_compare_subcommand_names(const App &subcom, const App &base) const {
+ static const std::string estring;
+ if(subcom.disabled_) {
+ return estring;
+ }
+ for(auto &subc : base.subcommands_) {
+ if(subc.get() != &subcom) {
+ if(subc->disabled_) {
+ continue;
+ }
+ if(!subcom.get_name().empty()) {
+ if(subc->check_name(subcom.get_name())) {
+ return subcom.get_name();
+ }
+ }
+ if(!subc->get_name().empty()) {
+ if(subcom.check_name(subc->get_name())) {
+ return subc->get_name();
+ }
+ }
+ for(const auto &les : subcom.aliases_) {
+ if(subc->check_name(les)) {
+ return les;
+ }
+ }
+ // this loop is needed in case of ignore_underscore or ignore_case on one but not the other
+ for(const auto &les : subc->aliases_) {
+ if(subcom.check_name(les)) {
+ return les;
+ }
+ }
+ // if the subcommand is an option group we need to check deeper
+ if(subc->get_name().empty()) {
+ auto &cmpres = _compare_subcommand_names(subcom, *subc);
+ if(!cmpres.empty()) {
+ return cmpres;
+ }
+ }
+ // if the test subcommand is an option group we need to check deeper
+ if(subcom.get_name().empty()) {
+ auto &cmpres = _compare_subcommand_names(*subc, subcom);
+ if(!cmpres.empty()) {
+ return cmpres;
+ }
+ }
+ }
+ }
+ return estring;
+ }
+ /// Helper function to place extra values in the most appropriate position
+ void _move_to_missing(detail::Classifier val_type, const std::string &val) {
+ if(allow_extras_ || subcommands_.empty()) {
+ missing_.emplace_back(val_type, val);
+ return;
+ }
+ // allow extra arguments to be places in an option group if it is allowed there
+ for(auto &subc : subcommands_) {
+ if(subc->name_.empty() && subc->allow_extras_) {
+ subc->missing_.emplace_back(val_type, val);
+ return;
+ }
+ }
+ // if we haven't found any place to put them yet put them in missing
+ missing_.emplace_back(val_type, val);
+ }
+
+ public:
+ /// function that could be used by subclasses of App to shift options around into subcommands
+ void _move_option(Option *opt, App *app) {
+ if(opt == nullptr) {
+ throw OptionNotFound("the option is NULL");
+ }
+ // verify that the give app is actually a subcommand
+ bool found = false;
+ for(auto &subc : subcommands_) {
+ if(app == subc.get()) {
+ found = true;
+ }
+ }
+ if(!found) {
+ throw OptionNotFound("The Given app is not a subcommand");
+ }
+
+ if((help_ptr_ == opt) || (help_all_ptr_ == opt))
+ throw OptionAlreadyAdded("cannot move help options");
+
+ if(config_ptr_ == opt)
+ throw OptionAlreadyAdded("cannot move config file options");
+
+ auto iterator =
+ std::find_if(std::begin(options_), std::end(options_), [opt](const Option_p &v) { return v.get() == opt; });
+ if(iterator != std::end(options_)) {
+ const auto &opt_p = *iterator;
+ if(std::find_if(std::begin(app->options_), std::end(app->options_), [&opt_p](const Option_p &v) {
+ return (*v == *opt_p);
+ }) == std::end(app->options_)) {
+ // only erase after the insertion was successful
+ app->options_.push_back(std::move(*iterator));
+ options_.erase(iterator);
+ } else {
+ throw OptionAlreadyAdded("option was not located: " + opt->get_name());
+ }
+ } else {
+ throw OptionNotFound("could not locate the given Option");
+ }
+ }
+}; // namespace CLI
+
+/// Extension of App to better manage groups of options
+class Option_group : public App {
+ public:
+ Option_group(std::string group_description, std::string group_name, App *parent)
+ : App(std::move(group_description), "", parent) {
+ group(group_name);
+ // option groups should have automatic fallthrough
+ }
+ using App::add_option;
+ /// Add an existing option to the Option_group
+ Option *add_option(Option *opt) {
+ if(get_parent() == nullptr) {
+ throw OptionNotFound("Unable to locate the specified option");
+ }
+ get_parent()->_move_option(opt, this);
+ return opt;
+ }
+ /// Add an existing option to the Option_group
+ void add_options(Option *opt) { add_option(opt); }
+ /// Add a bunch of options to the group
+ template <typename... Args> void add_options(Option *opt, Args... args) {
+ add_option(opt);
+ add_options(args...);
+ }
+ using App::add_subcommand;
+ /// Add an existing subcommand to be a member of an option_group
+ App *add_subcommand(App *subcom) {
+ App_p subc = subcom->get_parent()->get_subcommand_ptr(subcom);
+ subc->get_parent()->remove_subcommand(subcom);
+ add_subcommand(std::move(subc));
+ return subcom;
+ }
+};
+/// Helper function to enable one option group/subcommand when another is used
+inline void TriggerOn(App *trigger_app, App *app_to_enable) {
+ app_to_enable->enabled_by_default(false);
+ app_to_enable->disabled_by_default();
+ trigger_app->preparse_callback([app_to_enable](std::size_t) { app_to_enable->disabled(false); });
+}
+
+/// Helper function to enable one option group/subcommand when another is used
+inline void TriggerOn(App *trigger_app, std::vector<App *> apps_to_enable) {
+ for(auto &app : apps_to_enable) {
+ app->enabled_by_default(false);
+ app->disabled_by_default();
+ }
+
+ trigger_app->preparse_callback([apps_to_enable](std::size_t) {
+ for(auto &app : apps_to_enable) {
+ app->disabled(false);
+ }
+ });
+}
+
+/// Helper function to disable one option group/subcommand when another is used
+inline void TriggerOff(App *trigger_app, App *app_to_enable) {
+ app_to_enable->disabled_by_default(false);
+ app_to_enable->enabled_by_default();
+ trigger_app->preparse_callback([app_to_enable](std::size_t) { app_to_enable->disabled(); });
+}
+
+/// Helper function to disable one option group/subcommand when another is used
+inline void TriggerOff(App *trigger_app, std::vector<App *> apps_to_enable) {
+ for(auto &app : apps_to_enable) {
+ app->disabled_by_default(false);
+ app->enabled_by_default();
+ }
+
+ trigger_app->preparse_callback([apps_to_enable](std::size_t) {
+ for(auto &app : apps_to_enable) {
+ app->disabled();
+ }
+ });
+}
+
+/// Helper function to mark an option as deprecated
+inline void deprecate_option(Option *opt, const std::string &replacement = "") {
+ Validator deprecate_warning{[opt, replacement](std::string &) {
+ std::cout << opt->get_name() << " is deprecated please use '" << replacement
+ << "' instead\n";
+ return std::string();
+ },
+ "DEPRECATED"};
+ deprecate_warning.application_index(0);
+ opt->check(deprecate_warning);
+ if(!replacement.empty()) {
+ opt->description(opt->get_description() + " DEPRECATED: please use '" + replacement + "' instead");
+ }
+}
+
+/// Helper function to mark an option as deprecated
+inline void deprecate_option(App *app, const std::string &option_name, const std::string &replacement = "") {
+ auto opt = app->get_option(option_name);
+ deprecate_option(opt, replacement);
+}
+
+/// Helper function to mark an option as deprecated
+inline void deprecate_option(App &app, const std::string &option_name, const std::string &replacement = "") {
+ auto opt = app.get_option(option_name);
+ deprecate_option(opt, replacement);
+}
+
+/// Helper function to mark an option as retired
+inline void retire_option(App *app, Option *opt) {
+ App temp;
+ auto option_copy = temp.add_option(opt->get_name(false, true))
+ ->type_size(opt->get_type_size_min(), opt->get_type_size_max())
+ ->expected(opt->get_expected_min(), opt->get_expected_max())
+ ->allow_extra_args(opt->get_allow_extra_args());
+
+ app->remove_option(opt);
+ auto opt2 = app->add_option(option_copy->get_name(false, true), "option has been retired and has no effect")
+ ->type_name("RETIRED")
+ ->default_str("RETIRED")
+ ->type_size(option_copy->get_type_size_min(), option_copy->get_type_size_max())
+ ->expected(option_copy->get_expected_min(), option_copy->get_expected_max())
+ ->allow_extra_args(option_copy->get_allow_extra_args());
+
+ Validator retired_warning{[opt2](std::string &) {
+ std::cout << "WARNING " << opt2->get_name() << " is retired and has no effect\n";
+ return std::string();
+ },
+ ""};
+ retired_warning.application_index(0);
+ opt2->check(retired_warning);
+}
+
+/// Helper function to mark an option as retired
+inline void retire_option(App &app, Option *opt) { retire_option(&app, opt); }
+
+/// Helper function to mark an option as retired
+inline void retire_option(App *app, const std::string &option_name) {
+
+ auto opt = app->get_option_no_throw(option_name);
+ if(opt != nullptr) {
+ retire_option(app, opt);
+ return;
+ }
+ auto opt2 = app->add_option(option_name, "option has been retired and has no effect")
+ ->type_name("RETIRED")
+ ->expected(0, 1)
+ ->default_str("RETIRED");
+ Validator retired_warning{[opt2](std::string &) {
+ std::cout << "WARNING " << opt2->get_name() << " is retired and has no effect\n";
+ return std::string();
+ },
+ ""};
+ retired_warning.application_index(0);
+ opt2->check(retired_warning);
+}
+
+/// Helper function to mark an option as retired
+inline void retire_option(App &app, const std::string &option_name) { retire_option(&app, option_name); }
+
+namespace FailureMessage {
+
+/// Printout a clean, simple message on error (the default in CLI11 1.5+)
+inline std::string simple(const App *app, const Error &e) {
+ std::string header = std::string(e.what()) + "\n";
+ std::vector<std::string> names;
+
+ // Collect names
+ if(app->get_help_ptr() != nullptr)
+ names.push_back(app->get_help_ptr()->get_name());
+
+ if(app->get_help_all_ptr() != nullptr)
+ names.push_back(app->get_help_all_ptr()->get_name());
+
+ // If any names found, suggest those
+ if(!names.empty())
+ header += "Run with " + detail::join(names, " or ") + " for more information.\n";
+
+ return header;
+}
+
+/// Printout the full help string on error (if this fn is set, the old default for CLI11)
+inline std::string help(const App *app, const Error &e) {
+ std::string header = std::string("ERROR: ") + e.get_name() + ": " + e.what() + "\n";
+ header += app->help();
+ return header;
+}
+
+} // namespace FailureMessage
+
+namespace detail {
+/// This class is simply to allow tests access to App's protected functions
+struct AppFriend {
+#ifdef CLI11_CPP14
+
+ /// Wrap _parse_short, perfectly forward arguments and return
+ template <typename... Args> static decltype(auto) parse_arg(App *app, Args &&...args) {
+ return app->_parse_arg(std::forward<Args>(args)...);
+ }
+
+ /// Wrap _parse_subcommand, perfectly forward arguments and return
+ template <typename... Args> static decltype(auto) parse_subcommand(App *app, Args &&...args) {
+ return app->_parse_subcommand(std::forward<Args>(args)...);
+ }
+#else
+ /// Wrap _parse_short, perfectly forward arguments and return
+ template <typename... Args>
+ static auto parse_arg(App *app, Args &&...args) ->
+ typename std::result_of<decltype (&App::_parse_arg)(App, Args...)>::type {
+ return app->_parse_arg(std::forward<Args>(args)...);
+ }
+
+ /// Wrap _parse_subcommand, perfectly forward arguments and return
+ template <typename... Args>
+ static auto parse_subcommand(App *app, Args &&...args) ->
+ typename std::result_of<decltype (&App::_parse_subcommand)(App, Args...)>::type {
+ return app->_parse_subcommand(std::forward<Args>(args)...);
+ }
+#endif
+ /// Wrap the fallthrough parent function to make sure that is working correctly
+ static App *get_fallthrough_parent(App *app) { return app->_get_fallthrough_parent(); }
+};
+} // namespace detail
+
+// [CLI11:app_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/CLI.hpp b/src/third-party/CLI/CLI.hpp
new file mode 100644
index 0000000..0b6c344
--- /dev/null
+++ b/src/third-party/CLI/CLI.hpp
@@ -0,0 +1,36 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// CLI Library includes
+// Order is important for combiner script
+
+#include "Version.hpp"
+
+#include "Macros.hpp"
+
+#include "StringTools.hpp"
+
+#include "Error.hpp"
+
+#include "TypeTools.hpp"
+
+#include "Split.hpp"
+
+#include "ConfigFwd.hpp"
+
+#include "Validators.hpp"
+
+#include "FormatterFwd.hpp"
+
+#include "Option.hpp"
+
+#include "App.hpp"
+
+#include "Config.hpp"
+
+#include "Formatter.hpp"
diff --git a/src/third-party/CLI/Config.hpp b/src/third-party/CLI/Config.hpp
new file mode 100644
index 0000000..9555173
--- /dev/null
+++ b/src/third-party/CLI/Config.hpp
@@ -0,0 +1,396 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <fstream>
+#include <iostream>
+#include <string>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:set]
+
+#include "App.hpp"
+#include "ConfigFwd.hpp"
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:config_hpp:verbatim]
+namespace detail {
+
+inline std::string convert_arg_for_ini(const std::string &arg, char stringQuote = '"', char characterQuote = '\'') {
+ if(arg.empty()) {
+ return std::string(2, stringQuote);
+ }
+ // some specifically supported strings
+ if(arg == "true" || arg == "false" || arg == "nan" || arg == "inf") {
+ return arg;
+ }
+ // floating point conversion can convert some hex codes, but don't try that here
+ if(arg.compare(0, 2, "0x") != 0 && arg.compare(0, 2, "0X") != 0) {
+ double val;
+ if(detail::lexical_cast(arg, val)) {
+ return arg;
+ }
+ }
+ // just quote a single non numeric character
+ if(arg.size() == 1) {
+ return std::string(1, characterQuote) + arg + characterQuote;
+ }
+ // handle hex, binary or octal arguments
+ if(arg.front() == '0') {
+ if(arg[1] == 'x') {
+ if(std::all_of(arg.begin() + 2, arg.end(), [](char x) {
+ return (x >= '0' && x <= '9') || (x >= 'A' && x <= 'F') || (x >= 'a' && x <= 'f');
+ })) {
+ return arg;
+ }
+ } else if(arg[1] == 'o') {
+ if(std::all_of(arg.begin() + 2, arg.end(), [](char x) { return (x >= '0' && x <= '7'); })) {
+ return arg;
+ }
+ } else if(arg[1] == 'b') {
+ if(std::all_of(arg.begin() + 2, arg.end(), [](char x) { return (x == '0' || x == '1'); })) {
+ return arg;
+ }
+ }
+ }
+ if(arg.find_first_of(stringQuote) == std::string::npos) {
+ return std::string(1, stringQuote) + arg + stringQuote;
+ } else {
+ return characterQuote + arg + characterQuote;
+ }
+}
+
+/// Comma separated join, adds quotes if needed
+inline std::string ini_join(const std::vector<std::string> &args,
+ char sepChar = ',',
+ char arrayStart = '[',
+ char arrayEnd = ']',
+ char stringQuote = '"',
+ char characterQuote = '\'') {
+ std::string joined;
+ if(args.size() > 1 && arrayStart != '\0') {
+ joined.push_back(arrayStart);
+ }
+ std::size_t start = 0;
+ for(const auto &arg : args) {
+ if(start++ > 0) {
+ joined.push_back(sepChar);
+ if(isspace(sepChar) == 0) {
+ joined.push_back(' ');
+ }
+ }
+ joined.append(convert_arg_for_ini(arg, stringQuote, characterQuote));
+ }
+ if(args.size() > 1 && arrayEnd != '\0') {
+ joined.push_back(arrayEnd);
+ }
+ return joined;
+}
+
+inline std::vector<std::string> generate_parents(const std::string &section, std::string &name, char parentSeparator) {
+ std::vector<std::string> parents;
+ if(detail::to_lower(section) != "default") {
+ if(section.find(parentSeparator) != std::string::npos) {
+ parents = detail::split(section, parentSeparator);
+ } else {
+ parents = {section};
+ }
+ }
+ if(name.find(parentSeparator) != std::string::npos) {
+ std::vector<std::string> plist = detail::split(name, parentSeparator);
+ name = plist.back();
+ detail::remove_quotes(name);
+ plist.pop_back();
+ parents.insert(parents.end(), plist.begin(), plist.end());
+ }
+
+ // clean up quotes on the parents
+ for(auto &parent : parents) {
+ detail::remove_quotes(parent);
+ }
+ return parents;
+}
+
+/// assuming non default segments do a check on the close and open of the segments in a configItem structure
+inline void
+checkParentSegments(std::vector<ConfigItem> &output, const std::string &currentSection, char parentSeparator) {
+
+ std::string estring;
+ auto parents = detail::generate_parents(currentSection, estring, parentSeparator);
+ if(!output.empty() && output.back().name == "--") {
+ std::size_t msize = (parents.size() > 1U) ? parents.size() : 2;
+ while(output.back().parents.size() >= msize) {
+ output.push_back(output.back());
+ output.back().parents.pop_back();
+ }
+
+ if(parents.size() > 1) {
+ std::size_t common = 0;
+ std::size_t mpair = (std::min)(output.back().parents.size(), parents.size() - 1);
+ for(std::size_t ii = 0; ii < mpair; ++ii) {
+ if(output.back().parents[ii] != parents[ii]) {
+ break;
+ }
+ ++common;
+ }
+ if(common == mpair) {
+ output.pop_back();
+ } else {
+ while(output.back().parents.size() > common + 1) {
+ output.push_back(output.back());
+ output.back().parents.pop_back();
+ }
+ }
+ for(std::size_t ii = common; ii < parents.size() - 1; ++ii) {
+ output.emplace_back();
+ output.back().parents.assign(parents.begin(), parents.begin() + static_cast<std::ptrdiff_t>(ii) + 1);
+ output.back().name = "++";
+ }
+ }
+ } else if(parents.size() > 1) {
+ for(std::size_t ii = 0; ii < parents.size() - 1; ++ii) {
+ output.emplace_back();
+ output.back().parents.assign(parents.begin(), parents.begin() + static_cast<std::ptrdiff_t>(ii) + 1);
+ output.back().name = "++";
+ }
+ }
+
+ // insert a section end which is just an empty items_buffer
+ output.emplace_back();
+ output.back().parents = std::move(parents);
+ output.back().name = "++";
+}
+} // namespace detail
+
+inline std::vector<ConfigItem> ConfigBase::from_config(std::istream &input) const {
+ std::string line;
+ std::string currentSection = "default";
+ std::string previousSection = "default";
+ std::vector<ConfigItem> output;
+ bool isDefaultArray = (arrayStart == '[' && arrayEnd == ']' && arraySeparator == ',');
+ bool isINIArray = (arrayStart == '\0' || arrayStart == ' ') && arrayStart == arrayEnd;
+ bool inSection{false};
+ char aStart = (isINIArray) ? '[' : arrayStart;
+ char aEnd = (isINIArray) ? ']' : arrayEnd;
+ char aSep = (isINIArray && arraySeparator == ' ') ? ',' : arraySeparator;
+ int currentSectionIndex{0};
+ while(getline(input, line)) {
+ std::vector<std::string> items_buffer;
+ std::string name;
+
+ detail::trim(line);
+ std::size_t len = line.length();
+ // lines have to be at least 3 characters to have any meaning to CLI just skip the rest
+ if(len < 3) {
+ continue;
+ }
+ if(line.front() == '[' && line.back() == ']') {
+ if(currentSection != "default") {
+ // insert a section end which is just an empty items_buffer
+ output.emplace_back();
+ output.back().parents = detail::generate_parents(currentSection, name, parentSeparatorChar);
+ output.back().name = "--";
+ }
+ currentSection = line.substr(1, len - 2);
+ // deal with double brackets for TOML
+ if(currentSection.size() > 1 && currentSection.front() == '[' && currentSection.back() == ']') {
+ currentSection = currentSection.substr(1, currentSection.size() - 2);
+ }
+ if(detail::to_lower(currentSection) == "default") {
+ currentSection = "default";
+ } else {
+ detail::checkParentSegments(output, currentSection, parentSeparatorChar);
+ }
+ inSection = false;
+ if(currentSection == previousSection) {
+ ++currentSectionIndex;
+ } else {
+ currentSectionIndex = 0;
+ previousSection = currentSection;
+ }
+ continue;
+ }
+
+ // comment lines
+ if(line.front() == ';' || line.front() == '#' || line.front() == commentChar) {
+ continue;
+ }
+
+ // Find = in string, split and recombine
+ auto pos = line.find(valueDelimiter);
+ if(pos != std::string::npos) {
+ name = detail::trim_copy(line.substr(0, pos));
+ std::string item = detail::trim_copy(line.substr(pos + 1));
+ auto cloc = item.find(commentChar);
+ if(cloc != std::string::npos) {
+ item.erase(cloc, std::string::npos);
+ detail::trim(item);
+ }
+ if(item.size() > 1 && item.front() == aStart) {
+ for(std::string multiline; item.back() != aEnd && std::getline(input, multiline);) {
+ detail::trim(multiline);
+ item += multiline;
+ }
+ items_buffer = detail::split_up(item.substr(1, item.length() - 2), aSep);
+ } else if((isDefaultArray || isINIArray) && item.find_first_of(aSep) != std::string::npos) {
+ items_buffer = detail::split_up(item, aSep);
+ } else if((isDefaultArray || isINIArray) && item.find_first_of(' ') != std::string::npos) {
+ items_buffer = detail::split_up(item);
+ } else {
+ items_buffer = {item};
+ }
+ } else {
+ name = detail::trim_copy(line);
+ auto cloc = name.find(commentChar);
+ if(cloc != std::string::npos) {
+ name.erase(cloc, std::string::npos);
+ detail::trim(name);
+ }
+
+ items_buffer = {"true"};
+ }
+ if(name.find(parentSeparatorChar) == std::string::npos) {
+ detail::remove_quotes(name);
+ }
+ // clean up quotes on the items
+ for(auto &it : items_buffer) {
+ detail::remove_quotes(it);
+ }
+
+ std::vector<std::string> parents = detail::generate_parents(currentSection, name, parentSeparatorChar);
+ if(parents.size() > maximumLayers) {
+ continue;
+ }
+ if(!configSection.empty() && !inSection) {
+ if(parents.empty() || parents.front() != configSection) {
+ continue;
+ }
+ if(configIndex >= 0 && currentSectionIndex != configIndex) {
+ continue;
+ }
+ parents.erase(parents.begin());
+ inSection = true;
+ }
+ if(!output.empty() && name == output.back().name && parents == output.back().parents) {
+ output.back().inputs.insert(output.back().inputs.end(), items_buffer.begin(), items_buffer.end());
+ } else {
+ output.emplace_back();
+ output.back().parents = std::move(parents);
+ output.back().name = std::move(name);
+ output.back().inputs = std::move(items_buffer);
+ }
+ }
+ if(currentSection != "default") {
+ // insert a section end which is just an empty items_buffer
+ std::string ename;
+ output.emplace_back();
+ output.back().parents = detail::generate_parents(currentSection, ename, parentSeparatorChar);
+ output.back().name = "--";
+ while(output.back().parents.size() > 1) {
+ output.push_back(output.back());
+ output.back().parents.pop_back();
+ }
+ }
+ return output;
+}
+
+inline std::string
+ConfigBase::to_config(const App *app, bool default_also, bool write_description, std::string prefix) const {
+ std::stringstream out;
+ std::string commentLead;
+ commentLead.push_back(commentChar);
+ commentLead.push_back(' ');
+
+ std::vector<std::string> groups = app->get_groups();
+ bool defaultUsed = false;
+ groups.insert(groups.begin(), std::string("Options"));
+ if(write_description && (app->get_configurable() || app->get_parent() == nullptr || app->get_name().empty())) {
+ out << commentLead << detail::fix_newlines(commentLead, app->get_description()) << '\n';
+ }
+ for(auto &group : groups) {
+ if(group == "Options" || group.empty()) {
+ if(defaultUsed) {
+ continue;
+ }
+ defaultUsed = true;
+ }
+ if(write_description && group != "Options" && !group.empty()) {
+ out << '\n' << commentLead << group << " Options\n";
+ }
+ for(const Option *opt : app->get_options({})) {
+
+ // Only process options that are configurable
+ if(opt->get_configurable()) {
+ if(opt->get_group() != group) {
+ if(!(group == "Options" && opt->get_group().empty())) {
+ continue;
+ }
+ }
+ std::string name = prefix + opt->get_single_name();
+ std::string value = detail::ini_join(
+ opt->reduced_results(), arraySeparator, arrayStart, arrayEnd, stringQuote, characterQuote);
+
+ if(value.empty() && default_also) {
+ if(!opt->get_default_str().empty()) {
+ value = detail::convert_arg_for_ini(opt->get_default_str(), stringQuote, characterQuote);
+ } else if(opt->get_expected_min() == 0) {
+ value = "false";
+ } else if(opt->get_run_callback_for_default()) {
+ value = "\"\""; // empty string default value
+ }
+ }
+
+ if(!value.empty()) {
+ if(write_description && opt->has_description()) {
+ out << '\n';
+ out << commentLead << detail::fix_newlines(commentLead, opt->get_description()) << '\n';
+ }
+ out << name << valueDelimiter << value << '\n';
+ }
+ }
+ }
+ }
+ auto subcommands = app->get_subcommands({});
+ for(const App *subcom : subcommands) {
+ if(subcom->get_name().empty()) {
+ if(write_description && !subcom->get_group().empty()) {
+ out << '\n' << commentLead << subcom->get_group() << " Options\n";
+ }
+ out << to_config(subcom, default_also, write_description, prefix);
+ }
+ }
+
+ for(const App *subcom : subcommands) {
+ if(!subcom->get_name().empty()) {
+ if(subcom->get_configurable() && app->got_subcommand(subcom)) {
+ if(!prefix.empty() || app->get_parent() == nullptr) {
+ out << '[' << prefix << subcom->get_name() << "]\n";
+ } else {
+ std::string subname = app->get_name() + parentSeparatorChar + subcom->get_name();
+ auto p = app->get_parent();
+ while(p->get_parent() != nullptr) {
+ subname = p->get_name() + parentSeparatorChar + subname;
+ p = p->get_parent();
+ }
+ out << '[' << subname << "]\n";
+ }
+ out << to_config(subcom, default_also, write_description, "");
+ } else {
+ out << to_config(
+ subcom, default_also, write_description, prefix + subcom->get_name() + parentSeparatorChar);
+ }
+ }
+ }
+
+ return out.str();
+}
+
+// [CLI11:config_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/ConfigFwd.hpp b/src/third-party/CLI/ConfigFwd.hpp
new file mode 100644
index 0000000..b47133c
--- /dev/null
+++ b/src/third-party/CLI/ConfigFwd.hpp
@@ -0,0 +1,185 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <fstream>
+#include <iostream>
+#include <string>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "Error.hpp"
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:config_fwd_hpp:verbatim]
+
+class App;
+
+/// Holds values to load into Options
+struct ConfigItem {
+ /// This is the list of parents
+ std::vector<std::string> parents{};
+
+ /// This is the name
+ std::string name{};
+
+ /// Listing of inputs
+ std::vector<std::string> inputs{};
+
+ /// The list of parents and name joined by "."
+ std::string fullname() const {
+ std::vector<std::string> tmp = parents;
+ tmp.emplace_back(name);
+ return detail::join(tmp, ".");
+ }
+};
+
+/// This class provides a converter for configuration files.
+class Config {
+ protected:
+ std::vector<ConfigItem> items{};
+
+ public:
+ /// Convert an app into a configuration
+ virtual std::string to_config(const App *, bool, bool, std::string) const = 0;
+
+ /// Convert a configuration into an app
+ virtual std::vector<ConfigItem> from_config(std::istream &) const = 0;
+
+ /// Get a flag value
+ virtual std::string to_flag(const ConfigItem &item) const {
+ if(item.inputs.size() == 1) {
+ return item.inputs.at(0);
+ }
+ if(item.inputs.empty()) {
+ return "{}";
+ }
+ throw ConversionError::TooManyInputsFlag(item.fullname());
+ }
+
+ /// Parse a config file, throw an error (ParseError:ConfigParseError or FileError) on failure
+ std::vector<ConfigItem> from_file(const std::string &name) {
+ std::ifstream input{name};
+ if(!input.good())
+ throw FileError::Missing(name);
+
+ return from_config(input);
+ }
+
+ /// Virtual destructor
+ virtual ~Config() = default;
+};
+
+/// This converter works with INI/TOML files; to write INI files use ConfigINI
+class ConfigBase : public Config {
+ protected:
+ /// the character used for comments
+ char commentChar = '#';
+ /// the character used to start an array '\0' is a default to not use
+ char arrayStart = '[';
+ /// the character used to end an array '\0' is a default to not use
+ char arrayEnd = ']';
+ /// the character used to separate elements in an array
+ char arraySeparator = ',';
+ /// the character used separate the name from the value
+ char valueDelimiter = '=';
+ /// the character to use around strings
+ char stringQuote = '"';
+ /// the character to use around single characters
+ char characterQuote = '\'';
+ /// the maximum number of layers to allow
+ uint8_t maximumLayers{255};
+ /// the separator used to separator parent layers
+ char parentSeparatorChar{'.'};
+ /// Specify the configuration index to use for arrayed sections
+ int16_t configIndex{-1};
+ /// Specify the configuration section that should be used
+ std::string configSection{};
+
+ public:
+ std::string
+ to_config(const App * /*app*/, bool default_also, bool write_description, std::string prefix) const override;
+
+ std::vector<ConfigItem> from_config(std::istream &input) const override;
+ /// Specify the configuration for comment characters
+ ConfigBase *comment(char cchar) {
+ commentChar = cchar;
+ return this;
+ }
+ /// Specify the start and end characters for an array
+ ConfigBase *arrayBounds(char aStart, char aEnd) {
+ arrayStart = aStart;
+ arrayEnd = aEnd;
+ return this;
+ }
+ /// Specify the delimiter character for an array
+ ConfigBase *arrayDelimiter(char aSep) {
+ arraySeparator = aSep;
+ return this;
+ }
+ /// Specify the delimiter between a name and value
+ ConfigBase *valueSeparator(char vSep) {
+ valueDelimiter = vSep;
+ return this;
+ }
+ /// Specify the quote characters used around strings and characters
+ ConfigBase *quoteCharacter(char qString, char qChar) {
+ stringQuote = qString;
+ characterQuote = qChar;
+ return this;
+ }
+ /// Specify the maximum number of parents
+ ConfigBase *maxLayers(uint8_t layers) {
+ maximumLayers = layers;
+ return this;
+ }
+ /// Specify the separator to use for parent layers
+ ConfigBase *parentSeparator(char sep) {
+ parentSeparatorChar = sep;
+ return this;
+ }
+ /// get a reference to the configuration section
+ std::string &sectionRef() { return configSection; }
+ /// get the section
+ const std::string &section() const { return configSection; }
+ /// specify a particular section of the configuration file to use
+ ConfigBase *section(const std::string &sectionName) {
+ configSection = sectionName;
+ return this;
+ }
+
+ /// get a reference to the configuration index
+ int16_t &indexRef() { return configIndex; }
+ /// get the section index
+ int16_t index() const { return configIndex; }
+ /// specify a particular index in the section to use (-1) for all sections to use
+ ConfigBase *index(int16_t sectionIndex) {
+ configIndex = sectionIndex;
+ return this;
+ }
+};
+
+/// the default Config is the TOML file format
+using ConfigTOML = ConfigBase;
+
+/// ConfigINI generates a "standard" INI compliant output
+class ConfigINI : public ConfigTOML {
+
+ public:
+ ConfigINI() {
+ commentChar = ';';
+ arrayStart = '\0';
+ arrayEnd = '\0';
+ arraySeparator = ' ';
+ valueDelimiter = '=';
+ }
+};
+// [CLI11:config_fwd_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Error.hpp b/src/third-party/CLI/Error.hpp
new file mode 100644
index 0000000..b2c078d
--- /dev/null
+++ b/src/third-party/CLI/Error.hpp
@@ -0,0 +1,355 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <exception>
+#include <stdexcept>
+#include <string>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+// CLI library includes
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:error_hpp:verbatim]
+
+// Use one of these on all error classes.
+// These are temporary and are undef'd at the end of this file.
+#define CLI11_ERROR_DEF(parent, name) \
+ protected: \
+ name(std::string ename, std::string msg, int exit_code) : parent(std::move(ename), std::move(msg), exit_code) {} \
+ name(std::string ename, std::string msg, ExitCodes exit_code) \
+ : parent(std::move(ename), std::move(msg), exit_code) {} \
+ \
+ public: \
+ name(std::string msg, ExitCodes exit_code) : parent(#name, std::move(msg), exit_code) {} \
+ name(std::string msg, int exit_code) : parent(#name, std::move(msg), exit_code) {}
+
+// This is added after the one above if a class is used directly and builds its own message
+#define CLI11_ERROR_SIMPLE(name) \
+ explicit name(std::string msg) : name(#name, msg, ExitCodes::name) {}
+
+/// These codes are part of every error in CLI. They can be obtained from e using e.exit_code or as a quick shortcut,
+/// int values from e.get_error_code().
+enum class ExitCodes {
+ Success = 0,
+ IncorrectConstruction = 100,
+ BadNameString,
+ OptionAlreadyAdded,
+ FileError,
+ ConversionError,
+ ValidationError,
+ RequiredError,
+ RequiresError,
+ ExcludesError,
+ ExtrasError,
+ ConfigError,
+ InvalidError,
+ HorribleError,
+ OptionNotFound,
+ ArgumentMismatch,
+ BaseClass = 127
+};
+
+// Error definitions
+
+/// @defgroup error_group Errors
+/// @brief Errors thrown by CLI11
+///
+/// These are the errors that can be thrown. Some of them, like CLI::Success, are not really errors.
+/// @{
+
+/// All errors derive from this one
+class Error : public std::runtime_error {
+ int actual_exit_code;
+ std::string error_name{"Error"};
+
+ public:
+ int get_exit_code() const { return actual_exit_code; }
+
+ std::string get_name() const { return error_name; }
+
+ Error(std::string name, std::string msg, int exit_code = static_cast<int>(ExitCodes::BaseClass))
+ : runtime_error(msg), actual_exit_code(exit_code), error_name(std::move(name)) {}
+
+ Error(std::string name, std::string msg, ExitCodes exit_code) : Error(name, msg, static_cast<int>(exit_code)) {}
+};
+
+// Note: Using Error::Error constructors does not work on GCC 4.7
+
+/// Construction errors (not in parsing)
+class ConstructionError : public Error {
+ CLI11_ERROR_DEF(Error, ConstructionError)
+};
+
+/// Thrown when an option is set to conflicting values (non-vector and multi args, for example)
+class IncorrectConstruction : public ConstructionError {
+ CLI11_ERROR_DEF(ConstructionError, IncorrectConstruction)
+ CLI11_ERROR_SIMPLE(IncorrectConstruction)
+ static IncorrectConstruction PositionalFlag(std::string name) {
+ return IncorrectConstruction(name + ": Flags cannot be positional");
+ }
+ static IncorrectConstruction Set0Opt(std::string name) {
+ return IncorrectConstruction(name + ": Cannot set 0 expected, use a flag instead");
+ }
+ static IncorrectConstruction SetFlag(std::string name) {
+ return IncorrectConstruction(name + ": Cannot set an expected number for flags");
+ }
+ static IncorrectConstruction ChangeNotVector(std::string name) {
+ return IncorrectConstruction(name + ": You can only change the expected arguments for vectors");
+ }
+ static IncorrectConstruction AfterMultiOpt(std::string name) {
+ return IncorrectConstruction(
+ name + ": You can't change expected arguments after you've changed the multi option policy!");
+ }
+ static IncorrectConstruction MissingOption(std::string name) {
+ return IncorrectConstruction("Option " + name + " is not defined");
+ }
+ static IncorrectConstruction MultiOptionPolicy(std::string name) {
+ return IncorrectConstruction(name + ": multi_option_policy only works for flags and exact value options");
+ }
+};
+
+/// Thrown on construction of a bad name
+class BadNameString : public ConstructionError {
+ CLI11_ERROR_DEF(ConstructionError, BadNameString)
+ CLI11_ERROR_SIMPLE(BadNameString)
+ static BadNameString OneCharName(std::string name) { return BadNameString("Invalid one char name: " + name); }
+ static BadNameString BadLongName(std::string name) { return BadNameString("Bad long name: " + name); }
+ static BadNameString DashesOnly(std::string name) {
+ return BadNameString("Must have a name, not just dashes: " + name);
+ }
+ static BadNameString MultiPositionalNames(std::string name) {
+ return BadNameString("Only one positional name allowed, remove: " + name);
+ }
+};
+
+/// Thrown when an option already exists
+class OptionAlreadyAdded : public ConstructionError {
+ CLI11_ERROR_DEF(ConstructionError, OptionAlreadyAdded)
+ explicit OptionAlreadyAdded(std::string name)
+ : OptionAlreadyAdded(name + " is already added", ExitCodes::OptionAlreadyAdded) {}
+ static OptionAlreadyAdded Requires(std::string name, std::string other) {
+ return OptionAlreadyAdded(name + " requires " + other, ExitCodes::OptionAlreadyAdded);
+ }
+ static OptionAlreadyAdded Excludes(std::string name, std::string other) {
+ return OptionAlreadyAdded(name + " excludes " + other, ExitCodes::OptionAlreadyAdded);
+ }
+};
+
+// Parsing errors
+
+/// Anything that can error in Parse
+class ParseError : public Error {
+ CLI11_ERROR_DEF(Error, ParseError)
+};
+
+// Not really "errors"
+
+/// This is a successful completion on parsing, supposed to exit
+class Success : public ParseError {
+ CLI11_ERROR_DEF(ParseError, Success)
+ Success() : Success("Successfully completed, should be caught and quit", ExitCodes::Success) {}
+};
+
+/// -h or --help on command line
+class CallForHelp : public Success {
+ CLI11_ERROR_DEF(Success, CallForHelp)
+ CallForHelp() : CallForHelp("This should be caught in your main function, see examples", ExitCodes::Success) {}
+};
+
+/// Usually something like --help-all on command line
+class CallForAllHelp : public Success {
+ CLI11_ERROR_DEF(Success, CallForAllHelp)
+ CallForAllHelp()
+ : CallForAllHelp("This should be caught in your main function, see examples", ExitCodes::Success) {}
+};
+
+/// -v or --version on command line
+class CallForVersion : public Success {
+ CLI11_ERROR_DEF(Success, CallForVersion)
+ CallForVersion()
+ : CallForVersion("This should be caught in your main function, see examples", ExitCodes::Success) {}
+};
+
+/// Does not output a diagnostic in CLI11_PARSE, but allows main() to return with a specific error code.
+class RuntimeError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, RuntimeError)
+ explicit RuntimeError(int exit_code = 1) : RuntimeError("Runtime error", exit_code) {}
+};
+
+/// Thrown when parsing an INI file and it is missing
+class FileError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, FileError)
+ CLI11_ERROR_SIMPLE(FileError)
+ static FileError Missing(std::string name) { return FileError(name + " was not readable (missing?)"); }
+};
+
+/// Thrown when conversion call back fails, such as when an int fails to coerce to a string
+class ConversionError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ConversionError)
+ CLI11_ERROR_SIMPLE(ConversionError)
+ ConversionError(std::string member, std::string name)
+ : ConversionError("The value " + member + " is not an allowed value for " + name) {}
+ ConversionError(std::string name, std::vector<std::string> results)
+ : ConversionError("Could not convert: " + name + " = " + detail::join(results)) {}
+ static ConversionError TooManyInputsFlag(std::string name) {
+ return ConversionError(name + ": too many inputs for a flag");
+ }
+ static ConversionError TrueFalse(std::string name) {
+ return ConversionError(name + ": Should be true/false or a number");
+ }
+};
+
+/// Thrown when validation of results fails
+class ValidationError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ValidationError)
+ CLI11_ERROR_SIMPLE(ValidationError)
+ explicit ValidationError(std::string name, std::string msg) : ValidationError(name + ": " + msg) {}
+};
+
+/// Thrown when a required option is missing
+class RequiredError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, RequiredError)
+ explicit RequiredError(std::string name) : RequiredError(name + " is required", ExitCodes::RequiredError) {}
+ static RequiredError Subcommand(std::size_t min_subcom) {
+ if(min_subcom == 1) {
+ return RequiredError("A subcommand");
+ }
+ return RequiredError("Requires at least " + std::to_string(min_subcom) + " subcommands",
+ ExitCodes::RequiredError);
+ }
+ static RequiredError
+ Option(std::size_t min_option, std::size_t max_option, std::size_t used, const std::string &option_list) {
+ if((min_option == 1) && (max_option == 1) && (used == 0))
+ return RequiredError("Exactly 1 option from [" + option_list + "]");
+ if((min_option == 1) && (max_option == 1) && (used > 1)) {
+ return RequiredError("Exactly 1 option from [" + option_list + "] is required and " + std::to_string(used) +
+ " were given",
+ ExitCodes::RequiredError);
+ }
+ if((min_option == 1) && (used == 0))
+ return RequiredError("At least 1 option from [" + option_list + "]");
+ if(used < min_option) {
+ return RequiredError("Requires at least " + std::to_string(min_option) + " options used and only " +
+ std::to_string(used) + "were given from [" + option_list + "]",
+ ExitCodes::RequiredError);
+ }
+ if(max_option == 1)
+ return RequiredError("Requires at most 1 options be given from [" + option_list + "]",
+ ExitCodes::RequiredError);
+
+ return RequiredError("Requires at most " + std::to_string(max_option) + " options be used and " +
+ std::to_string(used) + "were given from [" + option_list + "]",
+ ExitCodes::RequiredError);
+ }
+};
+
+/// Thrown when the wrong number of arguments has been received
+class ArgumentMismatch : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ArgumentMismatch)
+ CLI11_ERROR_SIMPLE(ArgumentMismatch)
+ ArgumentMismatch(std::string name, int expected, std::size_t received)
+ : ArgumentMismatch(expected > 0 ? ("Expected exactly " + std::to_string(expected) + " arguments to " + name +
+ ", got " + std::to_string(received))
+ : ("Expected at least " + std::to_string(-expected) + " arguments to " + name +
+ ", got " + std::to_string(received)),
+ ExitCodes::ArgumentMismatch) {}
+
+ static ArgumentMismatch AtLeast(std::string name, int num, std::size_t received) {
+ return ArgumentMismatch(name + ": At least " + std::to_string(num) + " required but received " +
+ std::to_string(received));
+ }
+ static ArgumentMismatch AtMost(std::string name, int num, std::size_t received) {
+ return ArgumentMismatch(name + ": At Most " + std::to_string(num) + " required but received " +
+ std::to_string(received));
+ }
+ static ArgumentMismatch TypedAtLeast(std::string name, int num, std::string type) {
+ return ArgumentMismatch(name + ": " + std::to_string(num) + " required " + type + " missing");
+ }
+ static ArgumentMismatch FlagOverride(std::string name) {
+ return ArgumentMismatch(name + " was given a disallowed flag override");
+ }
+ static ArgumentMismatch PartialType(std::string name, int num, std::string type) {
+ return ArgumentMismatch(name + ": " + type + " only partially specified: " + std::to_string(num) +
+ " required for each element");
+ }
+};
+
+/// Thrown when a requires option is missing
+class RequiresError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, RequiresError)
+ RequiresError(std::string curname, std::string subname)
+ : RequiresError(curname + " requires " + subname, ExitCodes::RequiresError) {}
+};
+
+/// Thrown when an excludes option is present
+class ExcludesError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ExcludesError)
+ ExcludesError(std::string curname, std::string subname)
+ : ExcludesError(curname + " excludes " + subname, ExitCodes::ExcludesError) {}
+};
+
+/// Thrown when too many positionals or options are found
+class ExtrasError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ExtrasError)
+ explicit ExtrasError(std::vector<std::string> args)
+ : ExtrasError((args.size() > 1 ? "The following arguments were not expected: "
+ : "The following argument was not expected: ") +
+ detail::rjoin(args, " "),
+ ExitCodes::ExtrasError) {}
+ ExtrasError(const std::string &name, std::vector<std::string> args)
+ : ExtrasError(name,
+ (args.size() > 1 ? "The following arguments were not expected: "
+ : "The following argument was not expected: ") +
+ detail::rjoin(args, " "),
+ ExitCodes::ExtrasError) {}
+};
+
+/// Thrown when extra values are found in an INI file
+class ConfigError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, ConfigError)
+ CLI11_ERROR_SIMPLE(ConfigError)
+ static ConfigError Extras(std::string item) { return ConfigError("INI was not able to parse " + item); }
+ static ConfigError NotConfigurable(std::string item) {
+ return ConfigError(item + ": This option is not allowed in a configuration file");
+ }
+};
+
+/// Thrown when validation fails before parsing
+class InvalidError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, InvalidError)
+ explicit InvalidError(std::string name)
+ : InvalidError(name + ": Too many positional arguments with unlimited expected args", ExitCodes::InvalidError) {
+ }
+};
+
+/// This is just a safety check to verify selection and parsing match - you should not ever see it
+/// Strings are directly added to this error, but again, it should never be seen.
+class HorribleError : public ParseError {
+ CLI11_ERROR_DEF(ParseError, HorribleError)
+ CLI11_ERROR_SIMPLE(HorribleError)
+};
+
+// After parsing
+
+/// Thrown when counting a non-existent option
+class OptionNotFound : public Error {
+ CLI11_ERROR_DEF(Error, OptionNotFound)
+ explicit OptionNotFound(std::string name) : OptionNotFound(name + " not found", ExitCodes::OptionNotFound) {}
+};
+
+#undef CLI11_ERROR_DEF
+#undef CLI11_ERROR_SIMPLE
+
+/// @}
+
+// [CLI11:error_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Formatter.hpp b/src/third-party/CLI/Formatter.hpp
new file mode 100644
index 0000000..4d2b5fa
--- /dev/null
+++ b/src/third-party/CLI/Formatter.hpp
@@ -0,0 +1,292 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <string>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "App.hpp"
+#include "FormatterFwd.hpp"
+
+namespace CLI {
+// [CLI11:formatter_hpp:verbatim]
+
+inline std::string
+Formatter::make_group(std::string group, bool is_positional, std::vector<const Option *> opts) const {
+ std::stringstream out;
+
+ out << "\n" << group << ":\n";
+ for(const Option *opt : opts) {
+ out << make_option(opt, is_positional);
+ }
+
+ return out.str();
+}
+
+inline std::string Formatter::make_positionals(const App *app) const {
+ std::vector<const Option *> opts =
+ app->get_options([](const Option *opt) { return !opt->get_group().empty() && opt->get_positional(); });
+
+ if(opts.empty())
+ return std::string();
+
+ return make_group(get_label("Positionals"), true, opts);
+}
+
+inline std::string Formatter::make_groups(const App *app, AppFormatMode mode) const {
+ std::stringstream out;
+ std::vector<std::string> groups = app->get_groups();
+
+ // Options
+ for(const std::string &group : groups) {
+ std::vector<const Option *> opts = app->get_options([app, mode, &group](const Option *opt) {
+ return opt->get_group() == group // Must be in the right group
+ && opt->nonpositional() // Must not be a positional
+ && (mode != AppFormatMode::Sub // If mode is Sub, then
+ || (app->get_help_ptr() != opt // Ignore help pointer
+ && app->get_help_all_ptr() != opt)); // Ignore help all pointer
+ });
+ if(!group.empty() && !opts.empty()) {
+ out << make_group(group, false, opts);
+
+ if(group != groups.back())
+ out << "\n";
+ }
+ }
+
+ return out.str();
+}
+
+inline std::string Formatter::make_description(const App *app) const {
+ std::string desc = app->get_description();
+ auto min_options = app->get_require_option_min();
+ auto max_options = app->get_require_option_max();
+ if(app->get_required()) {
+ desc += " REQUIRED ";
+ }
+ if((max_options == min_options) && (min_options > 0)) {
+ if(min_options == 1) {
+ desc += " \n[Exactly 1 of the following options is required]";
+ } else {
+ desc += " \n[Exactly " + std::to_string(min_options) + "options from the following list are required]";
+ }
+ } else if(max_options > 0) {
+ if(min_options > 0) {
+ desc += " \n[Between " + std::to_string(min_options) + " and " + std::to_string(max_options) +
+ " of the follow options are required]";
+ } else {
+ desc += " \n[At most " + std::to_string(max_options) + " of the following options are allowed]";
+ }
+ } else if(min_options > 0) {
+ desc += " \n[At least " + std::to_string(min_options) + " of the following options are required]";
+ }
+ return (!desc.empty()) ? desc + "\n" : std::string{};
+}
+
+inline std::string Formatter::make_usage(const App *app, std::string name) const {
+ std::stringstream out;
+
+ out << get_label("Usage") << ":" << (name.empty() ? "" : " ") << name;
+
+ std::vector<std::string> groups = app->get_groups();
+
+ // Print an Options badge if any options exist
+ std::vector<const Option *> non_pos_options =
+ app->get_options([](const Option *opt) { return opt->nonpositional(); });
+ if(!non_pos_options.empty())
+ out << " [" << get_label("OPTIONS") << "]";
+
+ // Positionals need to be listed here
+ std::vector<const Option *> positionals = app->get_options([](const Option *opt) { return opt->get_positional(); });
+
+ // Print out positionals if any are left
+ if(!positionals.empty()) {
+ // Convert to help names
+ std::vector<std::string> positional_names(positionals.size());
+ std::transform(positionals.begin(), positionals.end(), positional_names.begin(), [this](const Option *opt) {
+ return make_option_usage(opt);
+ });
+
+ out << " " << detail::join(positional_names, " ");
+ }
+
+ // Add a marker if subcommands are expected or optional
+ if(!app->get_subcommands(
+ [](const CLI::App *subc) { return ((!subc->get_disabled()) && (!subc->get_name().empty())); })
+ .empty()) {
+ out << " " << (app->get_require_subcommand_min() == 0 ? "[" : "")
+ << get_label(app->get_require_subcommand_max() < 2 || app->get_require_subcommand_min() > 1 ? "SUBCOMMAND"
+ : "SUBCOMMANDS")
+ << (app->get_require_subcommand_min() == 0 ? "]" : "");
+ }
+
+ out << std::endl;
+
+ return out.str();
+}
+
+inline std::string Formatter::make_footer(const App *app) const {
+ std::string footer = app->get_footer();
+ if(footer.empty()) {
+ return std::string{};
+ }
+ return footer + "\n";
+}
+
+inline std::string Formatter::make_help(const App *app, std::string name, AppFormatMode mode) const {
+
+ // This immediately forwards to the make_expanded method. This is done this way so that subcommands can
+ // have overridden formatters
+ if(mode == AppFormatMode::Sub)
+ return make_expanded(app);
+
+ std::stringstream out;
+ if((app->get_name().empty()) && (app->get_parent() != nullptr)) {
+ if(app->get_group() != "Subcommands") {
+ out << app->get_group() << ':';
+ }
+ }
+
+ out << make_description(app);
+ out << make_usage(app, name);
+ out << make_positionals(app);
+ out << make_groups(app, mode);
+ out << make_subcommands(app, mode);
+ out << '\n' << make_footer(app);
+
+ return out.str();
+}
+
+inline std::string Formatter::make_subcommands(const App *app, AppFormatMode mode) const {
+ std::stringstream out;
+
+ std::vector<const App *> subcommands = app->get_subcommands({});
+
+ // Make a list in definition order of the groups seen
+ std::vector<std::string> subcmd_groups_seen;
+ for(const App *com : subcommands) {
+ if(com->get_name().empty()) {
+ if(!com->get_group().empty()) {
+ out << make_expanded(com);
+ }
+ continue;
+ }
+ std::string group_key = com->get_group();
+ if(!group_key.empty() &&
+ std::find_if(subcmd_groups_seen.begin(), subcmd_groups_seen.end(), [&group_key](std::string a) {
+ return detail::to_lower(a) == detail::to_lower(group_key);
+ }) == subcmd_groups_seen.end())
+ subcmd_groups_seen.push_back(group_key);
+ }
+
+ // For each group, filter out and print subcommands
+ for(const std::string &group : subcmd_groups_seen) {
+ out << "\n" << group << ":\n";
+ std::vector<const App *> subcommands_group = app->get_subcommands(
+ [&group](const App *sub_app) { return detail::to_lower(sub_app->get_group()) == detail::to_lower(group); });
+ for(const App *new_com : subcommands_group) {
+ if(new_com->get_name().empty())
+ continue;
+ if(mode != AppFormatMode::All) {
+ out << make_subcommand(new_com);
+ } else {
+ out << new_com->help(new_com->get_name(), AppFormatMode::Sub);
+ out << "\n";
+ }
+ }
+ }
+
+ return out.str();
+}
+
+inline std::string Formatter::make_subcommand(const App *sub) const {
+ std::stringstream out;
+ detail::format_help(out, sub->get_display_name(true), sub->get_description(), column_width_);
+ return out.str();
+}
+
+inline std::string Formatter::make_expanded(const App *sub) const {
+ std::stringstream out;
+ out << sub->get_display_name(true) << "\n";
+
+ out << make_description(sub);
+ if(sub->get_name().empty() && !sub->get_aliases().empty()) {
+ detail::format_aliases(out, sub->get_aliases(), column_width_ + 2);
+ }
+ out << make_positionals(sub);
+ out << make_groups(sub, AppFormatMode::Sub);
+ out << make_subcommands(sub, AppFormatMode::Sub);
+
+ // Drop blank spaces
+ std::string tmp = detail::find_and_replace(out.str(), "\n\n", "\n");
+ tmp = tmp.substr(0, tmp.size() - 1); // Remove the final '\n'
+
+ // Indent all but the first line (the name)
+ return detail::find_and_replace(tmp, "\n", "\n ") + "\n";
+}
+
+inline std::string Formatter::make_option_name(const Option *opt, bool is_positional) const {
+ if(is_positional)
+ return opt->get_name(true, false);
+
+ return opt->get_name(false, true);
+}
+
+inline std::string Formatter::make_option_opts(const Option *opt) const {
+ std::stringstream out;
+
+ if(!opt->get_option_text().empty()) {
+ out << " " << opt->get_option_text();
+ } else {
+ if(opt->get_type_size() != 0) {
+ if(!opt->get_type_name().empty())
+ out << " " << get_label(opt->get_type_name());
+ if(!opt->get_default_str().empty())
+ out << " [" << opt->get_default_str() << "] ";
+ if(opt->get_expected_max() == detail::expected_max_vector_size)
+ out << " ...";
+ else if(opt->get_expected_min() > 1)
+ out << " x " << opt->get_expected();
+
+ if(opt->get_required())
+ out << " " << get_label("REQUIRED");
+ }
+ if(!opt->get_envname().empty())
+ out << " (" << get_label("Env") << ":" << opt->get_envname() << ")";
+ if(!opt->get_needs().empty()) {
+ out << " " << get_label("Needs") << ":";
+ for(const Option *op : opt->get_needs())
+ out << " " << op->get_name();
+ }
+ if(!opt->get_excludes().empty()) {
+ out << " " << get_label("Excludes") << ":";
+ for(const Option *op : opt->get_excludes())
+ out << " " << op->get_name();
+ }
+ }
+ return out.str();
+}
+
+inline std::string Formatter::make_option_desc(const Option *opt) const { return opt->get_description(); }
+
+inline std::string Formatter::make_option_usage(const Option *opt) const {
+ // Note that these are positionals usages
+ std::stringstream out;
+ out << make_option_name(opt, true);
+ if(opt->get_expected_max() >= detail::expected_max_vector_size)
+ out << "...";
+ else if(opt->get_expected_max() > 1)
+ out << "(" << opt->get_expected() << "x)";
+
+ return opt->get_required() ? out.str() : "[" + out.str() + "]";
+}
+
+// [CLI11:formatter_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/FormatterFwd.hpp b/src/third-party/CLI/FormatterFwd.hpp
new file mode 100644
index 0000000..f71b3bb
--- /dev/null
+++ b/src/third-party/CLI/FormatterFwd.hpp
@@ -0,0 +1,184 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <map>
+#include <string>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:formatter_fwd_hpp:verbatim]
+
+class Option;
+class App;
+
+/// This enum signifies the type of help requested
+///
+/// This is passed in by App; all user classes must accept this as
+/// the second argument.
+
+enum class AppFormatMode {
+ Normal, ///< The normal, detailed help
+ All, ///< A fully expanded help
+ Sub, ///< Used when printed as part of expanded subcommand
+};
+
+/// This is the minimum requirements to run a formatter.
+///
+/// A user can subclass this is if they do not care at all
+/// about the structure in CLI::Formatter.
+class FormatterBase {
+ protected:
+ /// @name Options
+ ///@{
+
+ /// The width of the first column
+ std::size_t column_width_{30};
+
+ /// @brief The required help printout labels (user changeable)
+ /// Values are Needs, Excludes, etc.
+ std::map<std::string, std::string> labels_{};
+
+ ///@}
+ /// @name Basic
+ ///@{
+
+ public:
+ FormatterBase() = default;
+ FormatterBase(const FormatterBase &) = default;
+ FormatterBase(FormatterBase &&) = default;
+
+ /// Adding a destructor in this form to work around bug in GCC 4.7
+ virtual ~FormatterBase() noexcept {} // NOLINT(modernize-use-equals-default)
+
+ /// This is the key method that puts together help
+ virtual std::string make_help(const App *, std::string, AppFormatMode) const = 0;
+
+ ///@}
+ /// @name Setters
+ ///@{
+
+ /// Set the "REQUIRED" label
+ void label(std::string key, std::string val) { labels_[key] = val; }
+
+ /// Set the column width
+ void column_width(std::size_t val) { column_width_ = val; }
+
+ ///@}
+ /// @name Getters
+ ///@{
+
+ /// Get the current value of a name (REQUIRED, etc.)
+ std::string get_label(std::string key) const {
+ if(labels_.find(key) == labels_.end())
+ return key;
+ else
+ return labels_.at(key);
+ }
+
+ /// Get the current column width
+ std::size_t get_column_width() const { return column_width_; }
+
+ ///@}
+};
+
+/// This is a specialty override for lambda functions
+class FormatterLambda final : public FormatterBase {
+ using funct_t = std::function<std::string(const App *, std::string, AppFormatMode)>;
+
+ /// The lambda to hold and run
+ funct_t lambda_;
+
+ public:
+ /// Create a FormatterLambda with a lambda function
+ explicit FormatterLambda(funct_t funct) : lambda_(std::move(funct)) {}
+
+ /// Adding a destructor (mostly to make GCC 4.7 happy)
+ ~FormatterLambda() noexcept override {} // NOLINT(modernize-use-equals-default)
+
+ /// This will simply call the lambda function
+ std::string make_help(const App *app, std::string name, AppFormatMode mode) const override {
+ return lambda_(app, name, mode);
+ }
+};
+
+/// This is the default Formatter for CLI11. It pretty prints help output, and is broken into quite a few
+/// overridable methods, to be highly customizable with minimal effort.
+class Formatter : public FormatterBase {
+ public:
+ Formatter() = default;
+ Formatter(const Formatter &) = default;
+ Formatter(Formatter &&) = default;
+
+ /// @name Overridables
+ ///@{
+
+ /// This prints out a group of options with title
+ ///
+ virtual std::string make_group(std::string group, bool is_positional, std::vector<const Option *> opts) const;
+
+ /// This prints out just the positionals "group"
+ virtual std::string make_positionals(const App *app) const;
+
+ /// This prints out all the groups of options
+ std::string make_groups(const App *app, AppFormatMode mode) const;
+
+ /// This prints out all the subcommands
+ virtual std::string make_subcommands(const App *app, AppFormatMode mode) const;
+
+ /// This prints out a subcommand
+ virtual std::string make_subcommand(const App *sub) const;
+
+ /// This prints out a subcommand in help-all
+ virtual std::string make_expanded(const App *sub) const;
+
+ /// This prints out all the groups of options
+ virtual std::string make_footer(const App *app) const;
+
+ /// This displays the description line
+ virtual std::string make_description(const App *app) const;
+
+ /// This displays the usage line
+ virtual std::string make_usage(const App *app, std::string name) const;
+
+ /// This puts everything together
+ std::string make_help(const App * /*app*/, std::string, AppFormatMode) const override;
+
+ ///@}
+ /// @name Options
+ ///@{
+
+ /// This prints out an option help line, either positional or optional form
+ virtual std::string make_option(const Option *opt, bool is_positional) const {
+ std::stringstream out;
+ detail::format_help(
+ out, make_option_name(opt, is_positional) + make_option_opts(opt), make_option_desc(opt), column_width_);
+ return out.str();
+ }
+
+ /// @brief This is the name part of an option, Default: left column
+ virtual std::string make_option_name(const Option *, bool) const;
+
+ /// @brief This is the options part of the name, Default: combined into left column
+ virtual std::string make_option_opts(const Option *) const;
+
+ /// @brief This is the description. Default: Right column, on new line if left column too large
+ virtual std::string make_option_desc(const Option *) const;
+
+ /// @brief This is used to print the name on the USAGE line
+ virtual std::string make_option_usage(const Option *opt) const;
+
+ ///@}
+};
+
+// [CLI11:formatter_fwd_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Macros.hpp b/src/third-party/CLI/Macros.hpp
new file mode 100644
index 0000000..8d7663b
--- /dev/null
+++ b/src/third-party/CLI/Macros.hpp
@@ -0,0 +1,60 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:macros_hpp:verbatim]
+
+// The following version macro is very similar to the one in pybind11
+#if !(defined(_MSC_VER) && __cplusplus == 199711L) && !defined(__INTEL_COMPILER)
+#if __cplusplus >= 201402L
+#define CLI11_CPP14
+#if __cplusplus >= 201703L
+#define CLI11_CPP17
+#if __cplusplus > 201703L
+#define CLI11_CPP20
+#endif
+#endif
+#endif
+#elif defined(_MSC_VER) && __cplusplus == 199711L
+// MSVC sets _MSVC_LANG rather than __cplusplus (supposedly until the standard is fully implemented)
+// Unless you use the /Zc:__cplusplus flag on Visual Studio 2017 15.7 Preview 3 or newer
+#if _MSVC_LANG >= 201402L
+#define CLI11_CPP14
+#if _MSVC_LANG > 201402L && _MSC_VER >= 1910
+#define CLI11_CPP17
+#if _MSVC_LANG > 201703L && _MSC_VER >= 1910
+#define CLI11_CPP20
+#endif
+#endif
+#endif
+#endif
+
+#if defined(CLI11_CPP14)
+#define CLI11_DEPRECATED(reason) [[deprecated(reason)]]
+#elif defined(_MSC_VER)
+#define CLI11_DEPRECATED(reason) __declspec(deprecated(reason))
+#else
+#define CLI11_DEPRECATED(reason) __attribute__((deprecated(reason)))
+#endif
+
+/** detection of rtti */
+#ifndef CLI11_USE_STATIC_RTTI
+#if(defined(_HAS_STATIC_RTTI) && _HAS_STATIC_RTTI)
+#define CLI11_USE_STATIC_RTTI 1
+#elif defined(__cpp_rtti)
+#if(defined(_CPPRTTI) && _CPPRTTI == 0)
+#define CLI11_USE_STATIC_RTTI 1
+#else
+#define CLI11_USE_STATIC_RTTI 0
+#endif
+#elif(defined(__GCC_RTTI) && __GXX_RTTI)
+#define CLI11_USE_STATIC_RTTI 0
+#else
+#define CLI11_USE_STATIC_RTTI 1
+#endif
+#endif
+// [CLI11:macros_hpp:end]
diff --git a/src/third-party/CLI/Option.hpp b/src/third-party/CLI/Option.hpp
new file mode 100644
index 0000000..b075bbc
--- /dev/null
+++ b/src/third-party/CLI/Option.hpp
@@ -0,0 +1,1362 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <functional>
+#include <memory>
+#include <set>
+#include <string>
+#include <tuple>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "Error.hpp"
+#include "Macros.hpp"
+#include "Split.hpp"
+#include "StringTools.hpp"
+#include "Validators.hpp"
+
+namespace CLI {
+// [CLI11:option_hpp:verbatim]
+
+using results_t = std::vector<std::string>;
+/// callback function definition
+using callback_t = std::function<bool(const results_t &)>;
+
+class Option;
+class App;
+
+using Option_p = std::unique_ptr<Option>;
+/// Enumeration of the multiOption Policy selection
+enum class MultiOptionPolicy : char {
+ Throw, //!< Throw an error if any extra arguments were given
+ TakeLast, //!< take only the last Expected number of arguments
+ TakeFirst, //!< take only the first Expected number of arguments
+ Join, //!< merge all the arguments together into a single string via the delimiter character default('\n')
+ TakeAll, //!< just get all the passed argument regardless
+ Sum //!< sum all the arguments together if numerical or concatenate directly without delimiter
+};
+
+/// This is the CRTP base class for Option and OptionDefaults. It was designed this way
+/// to share parts of the class; an OptionDefaults can copy to an Option.
+template <typename CRTP> class OptionBase {
+ friend App;
+
+ protected:
+ /// The group membership
+ std::string group_ = std::string("Options");
+
+ /// True if this is a required option
+ bool required_{false};
+
+ /// Ignore the case when matching (option, not value)
+ bool ignore_case_{false};
+
+ /// Ignore underscores when matching (option, not value)
+ bool ignore_underscore_{false};
+
+ /// Allow this option to be given in a configuration file
+ bool configurable_{true};
+
+ /// Disable overriding flag values with '=value'
+ bool disable_flag_override_{false};
+
+ /// Specify a delimiter character for vector arguments
+ char delimiter_{'\0'};
+
+ /// Automatically capture default value
+ bool always_capture_default_{false};
+
+ /// Policy for handling multiple arguments beyond the expected Max
+ MultiOptionPolicy multi_option_policy_{MultiOptionPolicy::Throw};
+
+ /// Copy the contents to another similar class (one based on OptionBase)
+ template <typename T> void copy_to(T *other) const {
+ other->group(group_);
+ other->required(required_);
+ other->ignore_case(ignore_case_);
+ other->ignore_underscore(ignore_underscore_);
+ other->configurable(configurable_);
+ other->disable_flag_override(disable_flag_override_);
+ other->delimiter(delimiter_);
+ other->always_capture_default(always_capture_default_);
+ other->multi_option_policy(multi_option_policy_);
+ }
+
+ public:
+ // setters
+
+ /// Changes the group membership
+ CRTP *group(const std::string &name) {
+ if(!detail::valid_alias_name_string(name)) {
+ throw IncorrectConstruction("Group names may not contain newlines or null characters");
+ }
+ group_ = name;
+ return static_cast<CRTP *>(this);
+ }
+
+ /// Set the option as required
+ CRTP *required(bool value = true) {
+ required_ = value;
+ return static_cast<CRTP *>(this);
+ }
+
+ /// Support Plumbum term
+ CRTP *mandatory(bool value = true) { return required(value); }
+
+ CRTP *always_capture_default(bool value = true) {
+ always_capture_default_ = value;
+ return static_cast<CRTP *>(this);
+ }
+
+ // Getters
+
+ /// Get the group of this option
+ const std::string &get_group() const { return group_; }
+
+ /// True if this is a required option
+ bool get_required() const { return required_; }
+
+ /// The status of ignore case
+ bool get_ignore_case() const { return ignore_case_; }
+
+ /// The status of ignore_underscore
+ bool get_ignore_underscore() const { return ignore_underscore_; }
+
+ /// The status of configurable
+ bool get_configurable() const { return configurable_; }
+
+ /// The status of configurable
+ bool get_disable_flag_override() const { return disable_flag_override_; }
+
+ /// Get the current delimiter char
+ char get_delimiter() const { return delimiter_; }
+
+ /// Return true if this will automatically capture the default value for help printing
+ bool get_always_capture_default() const { return always_capture_default_; }
+
+ /// The status of the multi option policy
+ MultiOptionPolicy get_multi_option_policy() const { return multi_option_policy_; }
+
+ // Shortcuts for multi option policy
+
+ /// Set the multi option policy to take last
+ CRTP *take_last() {
+ auto self = static_cast<CRTP *>(this);
+ self->multi_option_policy(MultiOptionPolicy::TakeLast);
+ return self;
+ }
+
+ /// Set the multi option policy to take last
+ CRTP *take_first() {
+ auto self = static_cast<CRTP *>(this);
+ self->multi_option_policy(MultiOptionPolicy::TakeFirst);
+ return self;
+ }
+
+ /// Set the multi option policy to take all arguments
+ CRTP *take_all() {
+ auto self = static_cast<CRTP *>(this);
+ self->multi_option_policy(MultiOptionPolicy::TakeAll);
+ return self;
+ }
+
+ /// Set the multi option policy to join
+ CRTP *join() {
+ auto self = static_cast<CRTP *>(this);
+ self->multi_option_policy(MultiOptionPolicy::Join);
+ return self;
+ }
+
+ /// Set the multi option policy to join with a specific delimiter
+ CRTP *join(char delim) {
+ auto self = static_cast<CRTP *>(this);
+ self->delimiter_ = delim;
+ self->multi_option_policy(MultiOptionPolicy::Join);
+ return self;
+ }
+
+ /// Allow in a configuration file
+ CRTP *configurable(bool value = true) {
+ configurable_ = value;
+ return static_cast<CRTP *>(this);
+ }
+
+ /// Allow in a configuration file
+ CRTP *delimiter(char value = '\0') {
+ delimiter_ = value;
+ return static_cast<CRTP *>(this);
+ }
+};
+
+/// This is a version of OptionBase that only supports setting values,
+/// for defaults. It is stored as the default option in an App.
+class OptionDefaults : public OptionBase<OptionDefaults> {
+ public:
+ OptionDefaults() = default;
+
+ // Methods here need a different implementation if they are Option vs. OptionDefault
+
+ /// Take the last argument if given multiple times
+ OptionDefaults *multi_option_policy(MultiOptionPolicy value = MultiOptionPolicy::Throw) {
+ multi_option_policy_ = value;
+ return this;
+ }
+
+ /// Ignore the case of the option name
+ OptionDefaults *ignore_case(bool value = true) {
+ ignore_case_ = value;
+ return this;
+ }
+
+ /// Ignore underscores in the option name
+ OptionDefaults *ignore_underscore(bool value = true) {
+ ignore_underscore_ = value;
+ return this;
+ }
+
+ /// Disable overriding flag values with an '=<value>' segment
+ OptionDefaults *disable_flag_override(bool value = true) {
+ disable_flag_override_ = value;
+ return this;
+ }
+
+ /// set a delimiter character to split up single arguments to treat as multiple inputs
+ OptionDefaults *delimiter(char value = '\0') {
+ delimiter_ = value;
+ return this;
+ }
+};
+
+class Option : public OptionBase<Option> {
+ friend App;
+
+ protected:
+ /// @name Names
+ ///@{
+
+ /// A list of the short names (`-a`) without the leading dashes
+ std::vector<std::string> snames_{};
+
+ /// A list of the long names (`--long`) without the leading dashes
+ std::vector<std::string> lnames_{};
+
+ /// A list of the flag names with the appropriate default value, the first part of the pair should be duplicates of
+ /// what is in snames or lnames but will trigger a particular response on a flag
+ std::vector<std::pair<std::string, std::string>> default_flag_values_{};
+
+ /// a list of flag names with specified default values;
+ std::vector<std::string> fnames_{};
+
+ /// A positional name
+ std::string pname_{};
+
+ /// If given, check the environment for this option
+ std::string envname_{};
+
+ ///@}
+ /// @name Help
+ ///@{
+
+ /// The description for help strings
+ std::string description_{};
+
+ /// A human readable default value, either manually set, captured, or captured by default
+ std::string default_str_{};
+
+ /// If given, replace the text that describes the option type and usage in the help text
+ std::string option_text_{};
+
+ /// A human readable type value, set when App creates this
+ ///
+ /// This is a lambda function so "types" can be dynamic, such as when a set prints its contents.
+ std::function<std::string()> type_name_{[]() { return std::string(); }};
+
+ /// Run this function to capture a default (ignore if empty)
+ std::function<std::string()> default_function_{};
+
+ ///@}
+ /// @name Configuration
+ ///@{
+
+ /// The number of arguments that make up one option. max is the nominal type size, min is the minimum number of
+ /// strings
+ int type_size_max_{1};
+ /// The minimum number of arguments an option should be expecting
+ int type_size_min_{1};
+
+ /// The minimum number of expected values
+ int expected_min_{1};
+ /// The maximum number of expected values
+ int expected_max_{1};
+
+ /// A list of Validators to run on each value parsed
+ std::vector<Validator> validators_{};
+
+ /// A list of options that are required with this option
+ std::set<Option *> needs_{};
+
+ /// A list of options that are excluded with this option
+ std::set<Option *> excludes_{};
+
+ ///@}
+ /// @name Other
+ ///@{
+
+ /// link back up to the parent App for fallthrough
+ App *parent_{nullptr};
+
+ /// Options store a callback to do all the work
+ callback_t callback_{};
+
+ ///@}
+ /// @name Parsing results
+ ///@{
+
+ /// complete Results of parsing
+ results_t results_{};
+ /// results after reduction
+ results_t proc_results_{};
+ /// enumeration for the option state machine
+ enum class option_state : char {
+ parsing = 0, //!< The option is currently collecting parsed results
+ validated = 2, //!< the results have been validated
+ reduced = 4, //!< a subset of results has been generated
+ callback_run = 6, //!< the callback has been executed
+ };
+ /// Whether the callback has run (needed for INI parsing)
+ option_state current_option_state_{option_state::parsing};
+ /// Specify that extra args beyond type_size_max should be allowed
+ bool allow_extra_args_{false};
+ /// Specify that the option should act like a flag vs regular option
+ bool flag_like_{false};
+ /// Control option to run the callback to set the default
+ bool run_callback_for_default_{false};
+ /// flag indicating a separator needs to be injected after each argument call
+ bool inject_separator_{false};
+ /// flag indicating that the option should trigger the validation and callback chain on each result when loaded
+ bool trigger_on_result_{false};
+ /// flag indicating that the option should force the callback regardless if any results present
+ bool force_callback_{false};
+ ///@}
+
+ /// Making an option by hand is not defined, it must be made by the App class
+ Option(std::string option_name, std::string option_description, callback_t callback, App *parent)
+ : description_(std::move(option_description)), parent_(parent), callback_(std::move(callback)) {
+ std::tie(snames_, lnames_, pname_) = detail::get_names(detail::split_names(option_name));
+ }
+
+ public:
+ /// @name Basic
+ ///@{
+
+ Option(const Option &) = delete;
+ Option &operator=(const Option &) = delete;
+
+ /// Count the total number of times an option was passed
+ std::size_t count() const { return results_.size(); }
+
+ /// True if the option was not passed
+ bool empty() const { return results_.empty(); }
+
+ /// This bool operator returns true if any arguments were passed or the option callback is forced
+ explicit operator bool() const { return !empty() || force_callback_; }
+
+ /// Clear the parsed results (mostly for testing)
+ void clear() {
+ results_.clear();
+ current_option_state_ = option_state::parsing;
+ }
+
+ ///@}
+ /// @name Setting options
+ ///@{
+
+ /// Set the number of expected arguments
+ Option *expected(int value) {
+ if(value < 0) {
+ expected_min_ = -value;
+ if(expected_max_ < expected_min_) {
+ expected_max_ = expected_min_;
+ }
+ allow_extra_args_ = true;
+ flag_like_ = false;
+ } else if(value == detail::expected_max_vector_size) {
+ expected_min_ = 1;
+ expected_max_ = detail::expected_max_vector_size;
+ allow_extra_args_ = true;
+ flag_like_ = false;
+ } else {
+ expected_min_ = value;
+ expected_max_ = value;
+ flag_like_ = (expected_min_ == 0);
+ }
+ return this;
+ }
+
+ /// Set the range of expected arguments
+ Option *expected(int value_min, int value_max) {
+ if(value_min < 0) {
+ value_min = -value_min;
+ }
+
+ if(value_max < 0) {
+ value_max = detail::expected_max_vector_size;
+ }
+ if(value_max < value_min) {
+ expected_min_ = value_max;
+ expected_max_ = value_min;
+ } else {
+ expected_max_ = value_max;
+ expected_min_ = value_min;
+ }
+
+ return this;
+ }
+ /// Set the value of allow_extra_args which allows extra value arguments on the flag or option to be included
+ /// with each instance
+ Option *allow_extra_args(bool value = true) {
+ allow_extra_args_ = value;
+ return this;
+ }
+ /// Get the current value of allow extra args
+ bool get_allow_extra_args() const { return allow_extra_args_; }
+ /// Set the value of trigger_on_parse which specifies that the option callback should be triggered on every parse
+ Option *trigger_on_parse(bool value = true) {
+ trigger_on_result_ = value;
+ return this;
+ }
+ /// The status of trigger on parse
+ bool get_trigger_on_parse() const { return trigger_on_result_; }
+
+ /// Set the value of force_callback
+ Option *force_callback(bool value = true) {
+ force_callback_ = value;
+ return this;
+ }
+ /// The status of force_callback
+ bool get_force_callback() const { return force_callback_; }
+
+ /// Set the value of run_callback_for_default which controls whether the callback function should be called to set
+ /// the default This is controlled automatically but could be manipulated by the user.
+ Option *run_callback_for_default(bool value = true) {
+ run_callback_for_default_ = value;
+ return this;
+ }
+ /// Get the current value of run_callback_for_default
+ bool get_run_callback_for_default() const { return run_callback_for_default_; }
+
+ /// Adds a Validator with a built in type name
+ Option *check(Validator validator, const std::string &validator_name = "") {
+ validator.non_modifying();
+ validators_.push_back(std::move(validator));
+ if(!validator_name.empty())
+ validators_.back().name(validator_name);
+ return this;
+ }
+
+ /// Adds a Validator. Takes a const string& and returns an error message (empty if conversion/check is okay).
+ Option *check(std::function<std::string(const std::string &)> Validator,
+ std::string Validator_description = "",
+ std::string Validator_name = "") {
+ validators_.emplace_back(Validator, std::move(Validator_description), std::move(Validator_name));
+ validators_.back().non_modifying();
+ return this;
+ }
+
+ /// Adds a transforming Validator with a built in type name
+ Option *transform(Validator Validator, const std::string &Validator_name = "") {
+ validators_.insert(validators_.begin(), std::move(Validator));
+ if(!Validator_name.empty())
+ validators_.front().name(Validator_name);
+ return this;
+ }
+
+ /// Adds a Validator-like function that can change result
+ Option *transform(const std::function<std::string(std::string)> &func,
+ std::string transform_description = "",
+ std::string transform_name = "") {
+ validators_.insert(validators_.begin(),
+ Validator(
+ [func](std::string &val) {
+ val = func(val);
+ return std::string{};
+ },
+ std::move(transform_description),
+ std::move(transform_name)));
+
+ return this;
+ }
+
+ /// Adds a user supplied function to run on each item passed in (communicate though lambda capture)
+ Option *each(const std::function<void(std::string)> &func) {
+ validators_.emplace_back(
+ [func](std::string &inout) {
+ func(inout);
+ return std::string{};
+ },
+ std::string{});
+ return this;
+ }
+ /// Get a named Validator
+ Validator *get_validator(const std::string &Validator_name = "") {
+ for(auto &Validator : validators_) {
+ if(Validator_name == Validator.get_name()) {
+ return &Validator;
+ }
+ }
+ if((Validator_name.empty()) && (!validators_.empty())) {
+ return &(validators_.front());
+ }
+ throw OptionNotFound(std::string{"Validator "} + Validator_name + " Not Found");
+ }
+
+ /// Get a Validator by index NOTE: this may not be the order of definition
+ Validator *get_validator(int index) {
+ // This is an signed int so that it is not equivalent to a pointer.
+ if(index >= 0 && index < static_cast<int>(validators_.size())) {
+ return &(validators_[static_cast<decltype(validators_)::size_type>(index)]);
+ }
+ throw OptionNotFound("Validator index is not valid");
+ }
+
+ /// Sets required options
+ Option *needs(Option *opt) {
+ if(opt != this) {
+ needs_.insert(opt);
+ }
+ return this;
+ }
+
+ /// Can find a string if needed
+ template <typename T = App> Option *needs(std::string opt_name) {
+ auto opt = static_cast<T *>(parent_)->get_option_no_throw(opt_name);
+ if(opt == nullptr) {
+ throw IncorrectConstruction::MissingOption(opt_name);
+ }
+ return needs(opt);
+ }
+
+ /// Any number supported, any mix of string and Opt
+ template <typename A, typename B, typename... ARG> Option *needs(A opt, B opt1, ARG... args) {
+ needs(opt);
+ return needs(opt1, args...);
+ }
+
+ /// Remove needs link from an option. Returns true if the option really was in the needs list.
+ bool remove_needs(Option *opt) {
+ auto iterator = std::find(std::begin(needs_), std::end(needs_), opt);
+
+ if(iterator == std::end(needs_)) {
+ return false;
+ }
+ needs_.erase(iterator);
+ return true;
+ }
+
+ /// Sets excluded options
+ Option *excludes(Option *opt) {
+ if(opt == this) {
+ throw(IncorrectConstruction("and option cannot exclude itself"));
+ }
+ excludes_.insert(opt);
+
+ // Help text should be symmetric - excluding a should exclude b
+ opt->excludes_.insert(this);
+
+ // Ignoring the insert return value, excluding twice is now allowed.
+ // (Mostly to allow both directions to be excluded by user, even though the library does it for you.)
+
+ return this;
+ }
+
+ /// Can find a string if needed
+ template <typename T = App> Option *excludes(std::string opt_name) {
+ auto opt = static_cast<T *>(parent_)->get_option_no_throw(opt_name);
+ if(opt == nullptr) {
+ throw IncorrectConstruction::MissingOption(opt_name);
+ }
+ return excludes(opt);
+ }
+
+ /// Any number supported, any mix of string and Opt
+ template <typename A, typename B, typename... ARG> Option *excludes(A opt, B opt1, ARG... args) {
+ excludes(opt);
+ return excludes(opt1, args...);
+ }
+
+ /// Remove needs link from an option. Returns true if the option really was in the needs list.
+ bool remove_excludes(Option *opt) {
+ auto iterator = std::find(std::begin(excludes_), std::end(excludes_), opt);
+
+ if(iterator == std::end(excludes_)) {
+ return false;
+ }
+ excludes_.erase(iterator);
+ return true;
+ }
+
+ /// Sets environment variable to read if no option given
+ Option *envname(std::string name) {
+ envname_ = std::move(name);
+ return this;
+ }
+
+ /// Ignore case
+ ///
+ /// The template hides the fact that we don't have the definition of App yet.
+ /// You are never expected to add an argument to the template here.
+ template <typename T = App> Option *ignore_case(bool value = true) {
+ if(!ignore_case_ && value) {
+ ignore_case_ = value;
+ auto *parent = static_cast<T *>(parent_);
+ for(const Option_p &opt : parent->options_) {
+ if(opt.get() == this) {
+ continue;
+ }
+ auto &omatch = opt->matching_name(*this);
+ if(!omatch.empty()) {
+ ignore_case_ = false;
+ throw OptionAlreadyAdded("adding ignore case caused a name conflict with " + omatch);
+ }
+ }
+ } else {
+ ignore_case_ = value;
+ }
+ return this;
+ }
+
+ /// Ignore underscores in the option names
+ ///
+ /// The template hides the fact that we don't have the definition of App yet.
+ /// You are never expected to add an argument to the template here.
+ template <typename T = App> Option *ignore_underscore(bool value = true) {
+
+ if(!ignore_underscore_ && value) {
+ ignore_underscore_ = value;
+ auto *parent = static_cast<T *>(parent_);
+ for(const Option_p &opt : parent->options_) {
+ if(opt.get() == this) {
+ continue;
+ }
+ auto &omatch = opt->matching_name(*this);
+ if(!omatch.empty()) {
+ ignore_underscore_ = false;
+ throw OptionAlreadyAdded("adding ignore underscore caused a name conflict with " + omatch);
+ }
+ }
+ } else {
+ ignore_underscore_ = value;
+ }
+ return this;
+ }
+
+ /// Take the last argument if given multiple times (or another policy)
+ Option *multi_option_policy(MultiOptionPolicy value = MultiOptionPolicy::Throw) {
+ if(value != multi_option_policy_) {
+ if(multi_option_policy_ == MultiOptionPolicy::Throw && expected_max_ == detail::expected_max_vector_size &&
+ expected_min_ > 1) { // this bizarre condition is to maintain backwards compatibility
+ // with the previous behavior of expected_ with vectors
+ expected_max_ = expected_min_;
+ }
+ multi_option_policy_ = value;
+ current_option_state_ = option_state::parsing;
+ }
+ return this;
+ }
+
+ /// Disable flag overrides values, e.g. --flag=<value> is not allowed
+ Option *disable_flag_override(bool value = true) {
+ disable_flag_override_ = value;
+ return this;
+ }
+ ///@}
+ /// @name Accessors
+ ///@{
+
+ /// The number of arguments the option expects
+ int get_type_size() const { return type_size_min_; }
+
+ /// The minimum number of arguments the option expects
+ int get_type_size_min() const { return type_size_min_; }
+ /// The maximum number of arguments the option expects
+ int get_type_size_max() const { return type_size_max_; }
+
+ /// Return the inject_separator flag
+ int get_inject_separator() const { return inject_separator_; }
+
+ /// The environment variable associated to this value
+ std::string get_envname() const { return envname_; }
+
+ /// The set of options needed
+ std::set<Option *> get_needs() const { return needs_; }
+
+ /// The set of options excluded
+ std::set<Option *> get_excludes() const { return excludes_; }
+
+ /// The default value (for help printing)
+ std::string get_default_str() const { return default_str_; }
+
+ /// Get the callback function
+ callback_t get_callback() const { return callback_; }
+
+ /// Get the long names
+ const std::vector<std::string> &get_lnames() const { return lnames_; }
+
+ /// Get the short names
+ const std::vector<std::string> &get_snames() const { return snames_; }
+
+ /// Get the flag names with specified default values
+ const std::vector<std::string> &get_fnames() const { return fnames_; }
+ /// Get a single name for the option, first of lname, pname, sname, envname
+ const std::string &get_single_name() const {
+ if(!lnames_.empty()) {
+ return lnames_[0];
+ }
+ if(!pname_.empty()) {
+ return pname_;
+ }
+ if(!snames_.empty()) {
+ return snames_[0];
+ }
+ return envname_;
+ }
+ /// The number of times the option expects to be included
+ int get_expected() const { return expected_min_; }
+
+ /// The number of times the option expects to be included
+ int get_expected_min() const { return expected_min_; }
+ /// The max number of times the option expects to be included
+ int get_expected_max() const { return expected_max_; }
+
+ /// The total min number of expected string values to be used
+ int get_items_expected_min() const { return type_size_min_ * expected_min_; }
+
+ /// Get the maximum number of items expected to be returned and used for the callback
+ int get_items_expected_max() const {
+ int t = type_size_max_;
+ return detail::checked_multiply(t, expected_max_) ? t : detail::expected_max_vector_size;
+ }
+ /// The total min number of expected string values to be used
+ int get_items_expected() const { return get_items_expected_min(); }
+
+ /// True if the argument can be given directly
+ bool get_positional() const { return pname_.length() > 0; }
+
+ /// True if option has at least one non-positional name
+ bool nonpositional() const { return (snames_.size() + lnames_.size()) > 0; }
+
+ /// True if option has description
+ bool has_description() const { return description_.length() > 0; }
+
+ /// Get the description
+ const std::string &get_description() const { return description_; }
+
+ /// Set the description
+ Option *description(std::string option_description) {
+ description_ = std::move(option_description);
+ return this;
+ }
+
+ Option *option_text(std::string text) {
+ option_text_ = std::move(text);
+ return this;
+ }
+
+ const std::string &get_option_text() const { return option_text_; }
+
+ ///@}
+ /// @name Help tools
+ ///@{
+
+ /// \brief Gets a comma separated list of names.
+ /// Will include / prefer the positional name if positional is true.
+ /// If all_options is false, pick just the most descriptive name to show.
+ /// Use `get_name(true)` to get the positional name (replaces `get_pname`)
+ std::string get_name(bool positional = false, ///< Show the positional name
+ bool all_options = false ///< Show every option
+ ) const {
+ if(get_group().empty())
+ return {}; // Hidden
+
+ if(all_options) {
+
+ std::vector<std::string> name_list;
+
+ /// The all list will never include a positional unless asked or that's the only name.
+ if((positional && (!pname_.empty())) || (snames_.empty() && lnames_.empty())) {
+ name_list.push_back(pname_);
+ }
+ if((get_items_expected() == 0) && (!fnames_.empty())) {
+ for(const std::string &sname : snames_) {
+ name_list.push_back("-" + sname);
+ if(check_fname(sname)) {
+ name_list.back() += "{" + get_flag_value(sname, "") + "}";
+ }
+ }
+
+ for(const std::string &lname : lnames_) {
+ name_list.push_back("--" + lname);
+ if(check_fname(lname)) {
+ name_list.back() += "{" + get_flag_value(lname, "") + "}";
+ }
+ }
+ } else {
+ for(const std::string &sname : snames_)
+ name_list.push_back("-" + sname);
+
+ for(const std::string &lname : lnames_)
+ name_list.push_back("--" + lname);
+ }
+
+ return detail::join(name_list);
+ }
+
+ // This returns the positional name no matter what
+ if(positional)
+ return pname_;
+
+ // Prefer long name
+ if(!lnames_.empty())
+ return std::string(2, '-') + lnames_[0];
+
+ // Or short name if no long name
+ if(!snames_.empty())
+ return std::string(1, '-') + snames_[0];
+
+ // If positional is the only name, it's okay to use that
+ return pname_;
+ }
+
+ ///@}
+ /// @name Parser tools
+ ///@{
+
+ /// Process the callback
+ void run_callback() {
+ if(force_callback_ && results_.empty()) {
+ add_result(default_str_);
+ }
+ if(current_option_state_ == option_state::parsing) {
+ _validate_results(results_);
+ current_option_state_ = option_state::validated;
+ }
+
+ if(current_option_state_ < option_state::reduced) {
+ _reduce_results(proc_results_, results_);
+ current_option_state_ = option_state::reduced;
+ }
+ if(current_option_state_ >= option_state::reduced) {
+ current_option_state_ = option_state::callback_run;
+ if(!(callback_)) {
+ return;
+ }
+ const results_t &send_results = proc_results_.empty() ? results_ : proc_results_;
+ bool local_result = callback_(send_results);
+
+ if(!local_result)
+ throw ConversionError(get_name(), results_);
+ }
+ }
+
+ /// If options share any of the same names, find it
+ const std::string &matching_name(const Option &other) const {
+ static const std::string estring;
+ for(const std::string &sname : snames_)
+ if(other.check_sname(sname))
+ return sname;
+ for(const std::string &lname : lnames_)
+ if(other.check_lname(lname))
+ return lname;
+
+ if(ignore_case_ ||
+ ignore_underscore_) { // We need to do the inverse, in case we are ignore_case or ignore underscore
+ for(const std::string &sname : other.snames_)
+ if(check_sname(sname))
+ return sname;
+ for(const std::string &lname : other.lnames_)
+ if(check_lname(lname))
+ return lname;
+ }
+ return estring;
+ }
+ /// If options share any of the same names, they are equal (not counting positional)
+ bool operator==(const Option &other) const { return !matching_name(other).empty(); }
+
+ /// Check a name. Requires "-" or "--" for short / long, supports positional name
+ bool check_name(const std::string &name) const {
+
+ if(name.length() > 2 && name[0] == '-' && name[1] == '-')
+ return check_lname(name.substr(2));
+ if(name.length() > 1 && name.front() == '-')
+ return check_sname(name.substr(1));
+ if(!pname_.empty()) {
+ std::string local_pname = pname_;
+ std::string local_name = name;
+ if(ignore_underscore_) {
+ local_pname = detail::remove_underscore(local_pname);
+ local_name = detail::remove_underscore(local_name);
+ }
+ if(ignore_case_) {
+ local_pname = detail::to_lower(local_pname);
+ local_name = detail::to_lower(local_name);
+ }
+ if(local_name == local_pname) {
+ return true;
+ }
+ }
+
+ if(!envname_.empty()) {
+ // this needs to be the original since envname_ shouldn't match on case insensitivity
+ return (name == envname_);
+ }
+ return false;
+ }
+
+ /// Requires "-" to be removed from string
+ bool check_sname(std::string name) const {
+ return (detail::find_member(std::move(name), snames_, ignore_case_) >= 0);
+ }
+
+ /// Requires "--" to be removed from string
+ bool check_lname(std::string name) const {
+ return (detail::find_member(std::move(name), lnames_, ignore_case_, ignore_underscore_) >= 0);
+ }
+
+ /// Requires "--" to be removed from string
+ bool check_fname(std::string name) const {
+ if(fnames_.empty()) {
+ return false;
+ }
+ return (detail::find_member(std::move(name), fnames_, ignore_case_, ignore_underscore_) >= 0);
+ }
+
+ /// Get the value that goes for a flag, nominally gets the default value but allows for overrides if not
+ /// disabled
+ std::string get_flag_value(const std::string &name, std::string input_value) const {
+ static const std::string trueString{"true"};
+ static const std::string falseString{"false"};
+ static const std::string emptyString{"{}"};
+ // check for disable flag override_
+ if(disable_flag_override_) {
+ if(!((input_value.empty()) || (input_value == emptyString))) {
+ auto default_ind = detail::find_member(name, fnames_, ignore_case_, ignore_underscore_);
+ if(default_ind >= 0) {
+ // We can static cast this to std::size_t because it is more than 0 in this block
+ if(default_flag_values_[static_cast<std::size_t>(default_ind)].second != input_value) {
+ throw(ArgumentMismatch::FlagOverride(name));
+ }
+ } else {
+ if(input_value != trueString) {
+ throw(ArgumentMismatch::FlagOverride(name));
+ }
+ }
+ }
+ }
+ auto ind = detail::find_member(name, fnames_, ignore_case_, ignore_underscore_);
+ if((input_value.empty()) || (input_value == emptyString)) {
+ if(flag_like_) {
+ return (ind < 0) ? trueString : default_flag_values_[static_cast<std::size_t>(ind)].second;
+ } else {
+ return (ind < 0) ? default_str_ : default_flag_values_[static_cast<std::size_t>(ind)].second;
+ }
+ }
+ if(ind < 0) {
+ return input_value;
+ }
+ if(default_flag_values_[static_cast<std::size_t>(ind)].second == falseString) {
+ try {
+ auto val = detail::to_flag_value(input_value);
+ return (val == 1) ? falseString : (val == (-1) ? trueString : std::to_string(-val));
+ } catch(const std::invalid_argument &) {
+ return input_value;
+ }
+ } else {
+ return input_value;
+ }
+ }
+
+ /// Puts a result at the end
+ Option *add_result(std::string s) {
+ _add_result(std::move(s), results_);
+ current_option_state_ = option_state::parsing;
+ return this;
+ }
+
+ /// Puts a result at the end and get a count of the number of arguments actually added
+ Option *add_result(std::string s, int &results_added) {
+ results_added = _add_result(std::move(s), results_);
+ current_option_state_ = option_state::parsing;
+ return this;
+ }
+
+ /// Puts a result at the end
+ Option *add_result(std::vector<std::string> s) {
+ current_option_state_ = option_state::parsing;
+ for(auto &str : s) {
+ _add_result(std::move(str), results_);
+ }
+ return this;
+ }
+
+ /// Get the current complete results set
+ const results_t &results() const { return results_; }
+
+ /// Get a copy of the results
+ results_t reduced_results() const {
+ results_t res = proc_results_.empty() ? results_ : proc_results_;
+ if(current_option_state_ < option_state::reduced) {
+ if(current_option_state_ == option_state::parsing) {
+ res = results_;
+ _validate_results(res);
+ }
+ if(!res.empty()) {
+ results_t extra;
+ _reduce_results(extra, res);
+ if(!extra.empty()) {
+ res = std::move(extra);
+ }
+ }
+ }
+ return res;
+ }
+
+ /// Get the results as a specified type
+ template <typename T> void results(T &output) const {
+ bool retval;
+ if(current_option_state_ >= option_state::reduced || (results_.size() == 1 && validators_.empty())) {
+ const results_t &res = (proc_results_.empty()) ? results_ : proc_results_;
+ retval = detail::lexical_conversion<T, T>(res, output);
+ } else {
+ results_t res;
+ if(results_.empty()) {
+ if(!default_str_.empty()) {
+ // _add_results takes an rvalue only
+ _add_result(std::string(default_str_), res);
+ _validate_results(res);
+ results_t extra;
+ _reduce_results(extra, res);
+ if(!extra.empty()) {
+ res = std::move(extra);
+ }
+ } else {
+ res.emplace_back();
+ }
+ } else {
+ res = reduced_results();
+ }
+ retval = detail::lexical_conversion<T, T>(res, output);
+ }
+ if(!retval) {
+ throw ConversionError(get_name(), results_);
+ }
+ }
+
+ /// Return the results as the specified type
+ template <typename T> T as() const {
+ T output;
+ results(output);
+ return output;
+ }
+
+ /// See if the callback has been run already
+ bool get_callback_run() const { return (current_option_state_ == option_state::callback_run); }
+
+ ///@}
+ /// @name Custom options
+ ///@{
+
+ /// Set the type function to run when displayed on this option
+ Option *type_name_fn(std::function<std::string()> typefun) {
+ type_name_ = std::move(typefun);
+ return this;
+ }
+
+ /// Set a custom option typestring
+ Option *type_name(std::string typeval) {
+ type_name_fn([typeval]() { return typeval; });
+ return this;
+ }
+
+ /// Set a custom option size
+ Option *type_size(int option_type_size) {
+ if(option_type_size < 0) {
+ // this section is included for backwards compatibility
+ type_size_max_ = -option_type_size;
+ type_size_min_ = -option_type_size;
+ expected_max_ = detail::expected_max_vector_size;
+ } else {
+ type_size_max_ = option_type_size;
+ if(type_size_max_ < detail::expected_max_vector_size) {
+ type_size_min_ = option_type_size;
+ } else {
+ inject_separator_ = true;
+ }
+ if(type_size_max_ == 0)
+ required_ = false;
+ }
+ return this;
+ }
+ /// Set a custom option type size range
+ Option *type_size(int option_type_size_min, int option_type_size_max) {
+ if(option_type_size_min < 0 || option_type_size_max < 0) {
+ // this section is included for backwards compatibility
+ expected_max_ = detail::expected_max_vector_size;
+ option_type_size_min = (std::abs)(option_type_size_min);
+ option_type_size_max = (std::abs)(option_type_size_max);
+ }
+
+ if(option_type_size_min > option_type_size_max) {
+ type_size_max_ = option_type_size_min;
+ type_size_min_ = option_type_size_max;
+ } else {
+ type_size_min_ = option_type_size_min;
+ type_size_max_ = option_type_size_max;
+ }
+ if(type_size_max_ == 0) {
+ required_ = false;
+ }
+ if(type_size_max_ >= detail::expected_max_vector_size) {
+ inject_separator_ = true;
+ }
+ return this;
+ }
+
+ /// Set the value of the separator injection flag
+ void inject_separator(bool value = true) { inject_separator_ = value; }
+
+ /// Set a capture function for the default. Mostly used by App.
+ Option *default_function(const std::function<std::string()> &func) {
+ default_function_ = func;
+ return this;
+ }
+
+ /// Capture the default value from the original value (if it can be captured)
+ Option *capture_default_str() {
+ if(default_function_) {
+ default_str_ = default_function_();
+ }
+ return this;
+ }
+
+ /// Set the default value string representation (does not change the contained value)
+ Option *default_str(std::string val) {
+ default_str_ = std::move(val);
+ return this;
+ }
+
+ /// Set the default value and validate the results and run the callback if appropriate to set the value into the
+ /// bound value only available for types that can be converted to a string
+ template <typename X> Option *default_val(const X &val) {
+ std::string val_str = detail::to_string(val);
+ auto old_option_state = current_option_state_;
+ results_t old_results{std::move(results_)};
+ results_.clear();
+ try {
+ add_result(val_str);
+ // if trigger_on_result_ is set the callback already ran
+ if(run_callback_for_default_ && !trigger_on_result_) {
+ run_callback(); // run callback sets the state, we need to reset it again
+ current_option_state_ = option_state::parsing;
+ } else {
+ _validate_results(results_);
+ current_option_state_ = old_option_state;
+ }
+ } catch(const CLI::Error &) {
+ // this should be done
+ results_ = std::move(old_results);
+ current_option_state_ = old_option_state;
+ throw;
+ }
+ results_ = std::move(old_results);
+ default_str_ = std::move(val_str);
+ return this;
+ }
+
+ /// Get the full typename for this option
+ std::string get_type_name() const {
+ std::string full_type_name = type_name_();
+ if(!validators_.empty()) {
+ for(auto &Validator : validators_) {
+ std::string vtype = Validator.get_description();
+ if(!vtype.empty()) {
+ full_type_name += ":" + vtype;
+ }
+ }
+ }
+ return full_type_name;
+ }
+
+ private:
+ /// Run the results through the Validators
+ void _validate_results(results_t &res) const {
+ // Run the Validators (can change the string)
+ if(!validators_.empty()) {
+ if(type_size_max_ > 1) { // in this context index refers to the index in the type
+ int index = 0;
+ if(get_items_expected_max() < static_cast<int>(res.size()) &&
+ multi_option_policy_ == CLI::MultiOptionPolicy::TakeLast) {
+ // create a negative index for the earliest ones
+ index = get_items_expected_max() - static_cast<int>(res.size());
+ }
+
+ for(std::string &result : res) {
+ if(detail::is_separator(result) && type_size_max_ != type_size_min_ && index >= 0) {
+ index = 0; // reset index for variable size chunks
+ continue;
+ }
+ auto err_msg = _validate(result, (index >= 0) ? (index % type_size_max_) : index);
+ if(!err_msg.empty())
+ throw ValidationError(get_name(), err_msg);
+ ++index;
+ }
+ } else {
+ int index = 0;
+ if(expected_max_ < static_cast<int>(res.size()) &&
+ multi_option_policy_ == CLI::MultiOptionPolicy::TakeLast) {
+ // create a negative index for the earliest ones
+ index = expected_max_ - static_cast<int>(res.size());
+ }
+ for(std::string &result : res) {
+ auto err_msg = _validate(result, index);
+ ++index;
+ if(!err_msg.empty())
+ throw ValidationError(get_name(), err_msg);
+ }
+ }
+ }
+ }
+
+ /** reduce the results in accordance with the MultiOptionPolicy
+ @param[out] res results are assigned to res if there if they are different
+ */
+ void _reduce_results(results_t &res, const results_t &original) const {
+
+ // max num items expected or length of vector, always at least 1
+ // Only valid for a trimming policy
+
+ res.clear();
+ // Operation depends on the policy setting
+ switch(multi_option_policy_) {
+ case MultiOptionPolicy::TakeAll:
+ break;
+ case MultiOptionPolicy::TakeLast: {
+ // Allow multi-option sizes (including 0)
+ std::size_t trim_size = std::min<std::size_t>(
+ static_cast<std::size_t>(std::max<int>(get_items_expected_max(), 1)), original.size());
+ if(original.size() != trim_size) {
+ res.assign(original.end() - static_cast<results_t::difference_type>(trim_size), original.end());
+ }
+ } break;
+ case MultiOptionPolicy::TakeFirst: {
+ std::size_t trim_size = std::min<std::size_t>(
+ static_cast<std::size_t>(std::max<int>(get_items_expected_max(), 1)), original.size());
+ if(original.size() != trim_size) {
+ res.assign(original.begin(), original.begin() + static_cast<results_t::difference_type>(trim_size));
+ }
+ } break;
+ case MultiOptionPolicy::Join:
+ if(results_.size() > 1) {
+ res.push_back(detail::join(original, std::string(1, (delimiter_ == '\0') ? '\n' : delimiter_)));
+ }
+ break;
+ case MultiOptionPolicy::Sum:
+ res.push_back(detail::sum_string_vector(original));
+ break;
+ case MultiOptionPolicy::Throw:
+ default: {
+ auto num_min = static_cast<std::size_t>(get_items_expected_min());
+ auto num_max = static_cast<std::size_t>(get_items_expected_max());
+ if(num_min == 0) {
+ num_min = 1;
+ }
+ if(num_max == 0) {
+ num_max = 1;
+ }
+ if(original.size() < num_min) {
+ throw ArgumentMismatch::AtLeast(get_name(), static_cast<int>(num_min), original.size());
+ }
+ if(original.size() > num_max) {
+ throw ArgumentMismatch::AtMost(get_name(), static_cast<int>(num_max), original.size());
+ }
+ break;
+ }
+ }
+ // this check is to allow an empty vector in certain circumstances but not if expected is not zero.
+ // {} is the indicator for a an empty container
+ if(res.empty()) {
+ if(original.size() == 1 && original[0] == "{}" && get_items_expected_min() > 0) {
+ res.push_back("{}");
+ res.push_back("%%");
+ }
+ } else if(res.size() == 1 && res[0] == "{}" && get_items_expected_min() > 0) {
+ res.push_back("%%");
+ }
+ }
+
+ // Run a result through the Validators
+ std::string _validate(std::string &result, int index) const {
+ std::string err_msg;
+ if(result.empty() && expected_min_ == 0) {
+ // an empty with nothing expected is allowed
+ return err_msg;
+ }
+ for(const auto &vali : validators_) {
+ auto v = vali.get_application_index();
+ if(v == -1 || v == index) {
+ try {
+ err_msg = vali(result);
+ } catch(const ValidationError &err) {
+ err_msg = err.what();
+ }
+ if(!err_msg.empty())
+ break;
+ }
+ }
+
+ return err_msg;
+ }
+
+ /// Add a single result to the result set, taking into account delimiters
+ int _add_result(std::string &&result, std::vector<std::string> &res) const {
+ int result_count = 0;
+ if(allow_extra_args_ && !result.empty() && result.front() == '[' &&
+ result.back() == ']') { // this is now a vector string likely from the default or user entry
+ result.pop_back();
+
+ for(auto &var : CLI::detail::split(result.substr(1), ',')) {
+ if(!var.empty()) {
+ result_count += _add_result(std::move(var), res);
+ }
+ }
+ return result_count;
+ }
+ if(delimiter_ == '\0') {
+ res.push_back(std::move(result));
+ ++result_count;
+ } else {
+ if((result.find_first_of(delimiter_) != std::string::npos)) {
+ for(const auto &var : CLI::detail::split(result, delimiter_)) {
+ if(!var.empty()) {
+ res.push_back(var);
+ ++result_count;
+ }
+ }
+ } else {
+ res.push_back(std::move(result));
+ ++result_count;
+ }
+ }
+ return result_count;
+ }
+};
+
+// [CLI11:option_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Split.hpp b/src/third-party/CLI/Split.hpp
new file mode 100644
index 0000000..0ccfb57
--- /dev/null
+++ b/src/third-party/CLI/Split.hpp
@@ -0,0 +1,143 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <string>
+#include <tuple>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "Error.hpp"
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:split_hpp:verbatim]
+
+namespace detail {
+
+// Returns false if not a short option. Otherwise, sets opt name and rest and returns true
+inline bool split_short(const std::string &current, std::string &name, std::string &rest) {
+ if(current.size() > 1 && current[0] == '-' && valid_first_char(current[1])) {
+ name = current.substr(1, 1);
+ rest = current.substr(2);
+ return true;
+ }
+ return false;
+}
+
+// Returns false if not a long option. Otherwise, sets opt name and other side of = and returns true
+inline bool split_long(const std::string &current, std::string &name, std::string &value) {
+ if(current.size() > 2 && current.substr(0, 2) == "--" && valid_first_char(current[2])) {
+ auto loc = current.find_first_of('=');
+ if(loc != std::string::npos) {
+ name = current.substr(2, loc - 2);
+ value = current.substr(loc + 1);
+ } else {
+ name = current.substr(2);
+ value = "";
+ }
+ return true;
+ }
+ return false;
+}
+
+// Returns false if not a windows style option. Otherwise, sets opt name and value and returns true
+inline bool split_windows_style(const std::string &current, std::string &name, std::string &value) {
+ if(current.size() > 1 && current[0] == '/' && valid_first_char(current[1])) {
+ auto loc = current.find_first_of(':');
+ if(loc != std::string::npos) {
+ name = current.substr(1, loc - 1);
+ value = current.substr(loc + 1);
+ } else {
+ name = current.substr(1);
+ value = "";
+ }
+ return true;
+ }
+ return false;
+}
+
+// Splits a string into multiple long and short names
+inline std::vector<std::string> split_names(std::string current) {
+ std::vector<std::string> output;
+ std::size_t val;
+ while((val = current.find(",")) != std::string::npos) {
+ output.push_back(trim_copy(current.substr(0, val)));
+ current = current.substr(val + 1);
+ }
+ output.push_back(trim_copy(current));
+ return output;
+}
+
+/// extract default flag values either {def} or starting with a !
+inline std::vector<std::pair<std::string, std::string>> get_default_flag_values(const std::string &str) {
+ std::vector<std::string> flags = split_names(str);
+ flags.erase(std::remove_if(flags.begin(),
+ flags.end(),
+ [](const std::string &name) {
+ return ((name.empty()) || (!(((name.find_first_of('{') != std::string::npos) &&
+ (name.back() == '}')) ||
+ (name[0] == '!'))));
+ }),
+ flags.end());
+ std::vector<std::pair<std::string, std::string>> output;
+ output.reserve(flags.size());
+ for(auto &flag : flags) {
+ auto def_start = flag.find_first_of('{');
+ std::string defval = "false";
+ if((def_start != std::string::npos) && (flag.back() == '}')) {
+ defval = flag.substr(def_start + 1);
+ defval.pop_back();
+ flag.erase(def_start, std::string::npos);
+ }
+ flag.erase(0, flag.find_first_not_of("-!"));
+ output.emplace_back(flag, defval);
+ }
+ return output;
+}
+
+/// Get a vector of short names, one of long names, and a single name
+inline std::tuple<std::vector<std::string>, std::vector<std::string>, std::string>
+get_names(const std::vector<std::string> &input) {
+
+ std::vector<std::string> short_names;
+ std::vector<std::string> long_names;
+ std::string pos_name;
+
+ for(std::string name : input) {
+ if(name.length() == 0) {
+ continue;
+ }
+ if(name.length() > 1 && name[0] == '-' && name[1] != '-') {
+ if(name.length() == 2 && valid_first_char(name[1]))
+ short_names.emplace_back(1, name[1]);
+ else
+ throw BadNameString::OneCharName(name);
+ } else if(name.length() > 2 && name.substr(0, 2) == "--") {
+ name = name.substr(2);
+ if(valid_name_string(name))
+ long_names.push_back(name);
+ else
+ throw BadNameString::BadLongName(name);
+ } else if(name == "-" || name == "--") {
+ throw BadNameString::DashesOnly(name);
+ } else {
+ if(pos_name.length() > 0)
+ throw BadNameString::MultiPositionalNames(name);
+ pos_name = name;
+ }
+ }
+
+ return std::tuple<std::vector<std::string>, std::vector<std::string>, std::string>(
+ short_names, long_names, pos_name);
+}
+
+} // namespace detail
+// [CLI11:split_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/StringTools.hpp b/src/third-party/CLI/StringTools.hpp
new file mode 100644
index 0000000..5126645
--- /dev/null
+++ b/src/third-party/CLI/StringTools.hpp
@@ -0,0 +1,430 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <algorithm>
+#include <iomanip>
+#include <locale>
+#include <sstream>
+#include <stdexcept>
+#include <string>
+#include <type_traits>
+#include <vector>
+// [CLI11:public_includes:end]
+
+namespace CLI {
+
+// [CLI11:string_tools_hpp:verbatim]
+
+/// Include the items in this namespace to get free conversion of enums to/from streams.
+/// (This is available inside CLI as well, so CLI11 will use this without a using statement).
+namespace enums {
+
+/// output streaming for enumerations
+template <typename T, typename = typename std::enable_if<std::is_enum<T>::value>::type>
+std::ostream &operator<<(std::ostream &in, const T &item) {
+ // make sure this is out of the detail namespace otherwise it won't be found when needed
+ return in << static_cast<typename std::underlying_type<T>::type>(item);
+}
+
+} // namespace enums
+
+/// Export to CLI namespace
+using enums::operator<<;
+
+namespace detail {
+/// a constant defining an expected max vector size defined to be a big number that could be multiplied by 4 and not
+/// produce overflow for some expected uses
+constexpr int expected_max_vector_size{1 << 29};
+// Based on http://stackoverflow.com/questions/236129/split-a-string-in-c
+/// Split a string by a delim
+inline std::vector<std::string> split(const std::string &s, char delim) {
+ std::vector<std::string> elems;
+ // Check to see if empty string, give consistent result
+ if(s.empty()) {
+ elems.emplace_back();
+ } else {
+ std::stringstream ss;
+ ss.str(s);
+ std::string item;
+ while(std::getline(ss, item, delim)) {
+ elems.push_back(item);
+ }
+ }
+ return elems;
+}
+
+/// Simple function to join a string
+template <typename T> std::string join(const T &v, std::string delim = ",") {
+ std::ostringstream s;
+ auto beg = std::begin(v);
+ auto end = std::end(v);
+ if(beg != end)
+ s << *beg++;
+ while(beg != end) {
+ s << delim << *beg++;
+ }
+ return s.str();
+}
+
+/// Simple function to join a string from processed elements
+template <typename T,
+ typename Callable,
+ typename = typename std::enable_if<!std::is_constructible<std::string, Callable>::value>::type>
+std::string join(const T &v, Callable func, std::string delim = ",") {
+ std::ostringstream s;
+ auto beg = std::begin(v);
+ auto end = std::end(v);
+ auto loc = s.tellp();
+ while(beg != end) {
+ auto nloc = s.tellp();
+ if(nloc > loc) {
+ s << delim;
+ loc = nloc;
+ }
+ s << func(*beg++);
+ }
+ return s.str();
+}
+
+/// Join a string in reverse order
+template <typename T> std::string rjoin(const T &v, std::string delim = ",") {
+ std::ostringstream s;
+ for(std::size_t start = 0; start < v.size(); start++) {
+ if(start > 0)
+ s << delim;
+ s << v[v.size() - start - 1];
+ }
+ return s.str();
+}
+
+// Based roughly on http://stackoverflow.com/questions/25829143/c-trim-whitespace-from-a-string
+
+/// Trim whitespace from left of string
+inline std::string &ltrim(std::string &str) {
+ auto it = std::find_if(str.begin(), str.end(), [](char ch) { return !std::isspace<char>(ch, std::locale()); });
+ str.erase(str.begin(), it);
+ return str;
+}
+
+/// Trim anything from left of string
+inline std::string &ltrim(std::string &str, const std::string &filter) {
+ auto it = std::find_if(str.begin(), str.end(), [&filter](char ch) { return filter.find(ch) == std::string::npos; });
+ str.erase(str.begin(), it);
+ return str;
+}
+
+/// Trim whitespace from right of string
+inline std::string &rtrim(std::string &str) {
+ auto it = std::find_if(str.rbegin(), str.rend(), [](char ch) { return !std::isspace<char>(ch, std::locale()); });
+ str.erase(it.base(), str.end());
+ return str;
+}
+
+/// Trim anything from right of string
+inline std::string &rtrim(std::string &str, const std::string &filter) {
+ auto it =
+ std::find_if(str.rbegin(), str.rend(), [&filter](char ch) { return filter.find(ch) == std::string::npos; });
+ str.erase(it.base(), str.end());
+ return str;
+}
+
+/// Trim whitespace from string
+inline std::string &trim(std::string &str) { return ltrim(rtrim(str)); }
+
+/// Trim anything from string
+inline std::string &trim(std::string &str, const std::string filter) { return ltrim(rtrim(str, filter), filter); }
+
+/// Make a copy of the string and then trim it
+inline std::string trim_copy(const std::string &str) {
+ std::string s = str;
+ return trim(s);
+}
+
+/// remove quotes at the front and back of a string either '"' or '\''
+inline std::string &remove_quotes(std::string &str) {
+ if(str.length() > 1 && (str.front() == '"' || str.front() == '\'')) {
+ if(str.front() == str.back()) {
+ str.pop_back();
+ str.erase(str.begin(), str.begin() + 1);
+ }
+ }
+ return str;
+}
+
+/// Add a leader to the beginning of all new lines (nothing is added
+/// at the start of the first line). `"; "` would be for ini files
+///
+/// Can't use Regex, or this would be a subs.
+inline std::string fix_newlines(const std::string &leader, std::string input) {
+ std::string::size_type n = 0;
+ while(n != std::string::npos && n < input.size()) {
+ n = input.find('\n', n);
+ if(n != std::string::npos) {
+ input = input.substr(0, n + 1) + leader + input.substr(n + 1);
+ n += leader.size();
+ }
+ }
+ return input;
+}
+
+/// Make a copy of the string and then trim it, any filter string can be used (any char in string is filtered)
+inline std::string trim_copy(const std::string &str, const std::string &filter) {
+ std::string s = str;
+ return trim(s, filter);
+}
+/// Print a two part "help" string
+inline std::ostream &format_help(std::ostream &out, std::string name, const std::string &description, std::size_t wid) {
+ name = " " + name;
+ out << std::setw(static_cast<int>(wid)) << std::left << name;
+ if(!description.empty()) {
+ if(name.length() >= wid)
+ out << "\n" << std::setw(static_cast<int>(wid)) << "";
+ for(const char c : description) {
+ out.put(c);
+ if(c == '\n') {
+ out << std::setw(static_cast<int>(wid)) << "";
+ }
+ }
+ }
+ out << "\n";
+ return out;
+}
+
+/// Print subcommand aliases
+inline std::ostream &format_aliases(std::ostream &out, const std::vector<std::string> &aliases, std::size_t wid) {
+ if(!aliases.empty()) {
+ out << std::setw(static_cast<int>(wid)) << " aliases: ";
+ bool front = true;
+ for(const auto &alias : aliases) {
+ if(!front) {
+ out << ", ";
+ } else {
+ front = false;
+ }
+ out << detail::fix_newlines(" ", alias);
+ }
+ out << "\n";
+ }
+ return out;
+}
+
+/// Verify the first character of an option
+/// - is a trigger character, ! has special meaning and new lines would just be annoying to deal with
+template <typename T> bool valid_first_char(T c) { return ((c != '-') && (c != '!') && (c != ' ') && c != '\n'); }
+
+/// Verify following characters of an option
+template <typename T> bool valid_later_char(T c) {
+ // = and : are value separators, { has special meaning for option defaults,
+ // and \n would just be annoying to deal with in many places allowing space here has too much potential for
+ // inadvertent entry errors and bugs
+ return ((c != '=') && (c != ':') && (c != '{') && (c != ' ') && c != '\n');
+}
+
+/// Verify an option/subcommand name
+inline bool valid_name_string(const std::string &str) {
+ if(str.empty() || !valid_first_char(str[0])) {
+ return false;
+ }
+ auto e = str.end();
+ for(auto c = str.begin() + 1; c != e; ++c)
+ if(!valid_later_char(*c))
+ return false;
+ return true;
+}
+
+/// Verify an app name
+inline bool valid_alias_name_string(const std::string &str) {
+ static const std::string badChars(std::string("\n") + '\0');
+ return (str.find_first_of(badChars) == std::string::npos);
+}
+
+/// check if a string is a container segment separator (empty or "%%")
+inline bool is_separator(const std::string &str) {
+ static const std::string sep("%%");
+ return (str.empty() || str == sep);
+}
+
+/// Verify that str consists of letters only
+inline bool isalpha(const std::string &str) {
+ return std::all_of(str.begin(), str.end(), [](char c) { return std::isalpha(c, std::locale()); });
+}
+
+/// Return a lower case version of a string
+inline std::string to_lower(std::string str) {
+ std::transform(std::begin(str), std::end(str), std::begin(str), [](const std::string::value_type &x) {
+ return std::tolower(x, std::locale());
+ });
+ return str;
+}
+
+/// remove underscores from a string
+inline std::string remove_underscore(std::string str) {
+ str.erase(std::remove(std::begin(str), std::end(str), '_'), std::end(str));
+ return str;
+}
+
+/// Find and replace a substring with another substring
+inline std::string find_and_replace(std::string str, std::string from, std::string to) {
+
+ std::size_t start_pos = 0;
+
+ while((start_pos = str.find(from, start_pos)) != std::string::npos) {
+ str.replace(start_pos, from.length(), to);
+ start_pos += to.length();
+ }
+
+ return str;
+}
+
+/// check if the flag definitions has possible false flags
+inline bool has_default_flag_values(const std::string &flags) {
+ return (flags.find_first_of("{!") != std::string::npos);
+}
+
+inline void remove_default_flag_values(std::string &flags) {
+ auto loc = flags.find_first_of('{', 2);
+ while(loc != std::string::npos) {
+ auto finish = flags.find_first_of("},", loc + 1);
+ if((finish != std::string::npos) && (flags[finish] == '}')) {
+ flags.erase(flags.begin() + static_cast<std::ptrdiff_t>(loc),
+ flags.begin() + static_cast<std::ptrdiff_t>(finish) + 1);
+ }
+ loc = flags.find_first_of('{', loc + 1);
+ }
+ flags.erase(std::remove(flags.begin(), flags.end(), '!'), flags.end());
+}
+
+/// Check if a string is a member of a list of strings and optionally ignore case or ignore underscores
+inline std::ptrdiff_t find_member(std::string name,
+ const std::vector<std::string> names,
+ bool ignore_case = false,
+ bool ignore_underscore = false) {
+ auto it = std::end(names);
+ if(ignore_case) {
+ if(ignore_underscore) {
+ name = detail::to_lower(detail::remove_underscore(name));
+ it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) {
+ return detail::to_lower(detail::remove_underscore(local_name)) == name;
+ });
+ } else {
+ name = detail::to_lower(name);
+ it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) {
+ return detail::to_lower(local_name) == name;
+ });
+ }
+
+ } else if(ignore_underscore) {
+ name = detail::remove_underscore(name);
+ it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) {
+ return detail::remove_underscore(local_name) == name;
+ });
+ } else {
+ it = std::find(std::begin(names), std::end(names), name);
+ }
+
+ return (it != std::end(names)) ? (it - std::begin(names)) : (-1);
+}
+
+/// Find a trigger string and call a modify callable function that takes the current string and starting position of the
+/// trigger and returns the position in the string to search for the next trigger string
+template <typename Callable> inline std::string find_and_modify(std::string str, std::string trigger, Callable modify) {
+ std::size_t start_pos = 0;
+ while((start_pos = str.find(trigger, start_pos)) != std::string::npos) {
+ start_pos = modify(str, start_pos);
+ }
+ return str;
+}
+
+/// Split a string '"one two" "three"' into 'one two', 'three'
+/// Quote characters can be ` ' or "
+inline std::vector<std::string> split_up(std::string str, char delimiter = '\0') {
+
+ const std::string delims("\'\"`");
+ auto find_ws = [delimiter](char ch) {
+ return (delimiter == '\0') ? (std::isspace<char>(ch, std::locale()) != 0) : (ch == delimiter);
+ };
+ trim(str);
+
+ std::vector<std::string> output;
+ bool embeddedQuote = false;
+ char keyChar = ' ';
+ while(!str.empty()) {
+ if(delims.find_first_of(str[0]) != std::string::npos) {
+ keyChar = str[0];
+ auto end = str.find_first_of(keyChar, 1);
+ while((end != std::string::npos) && (str[end - 1] == '\\')) { // deal with escaped quotes
+ end = str.find_first_of(keyChar, end + 1);
+ embeddedQuote = true;
+ }
+ if(end != std::string::npos) {
+ output.push_back(str.substr(1, end - 1));
+ if(end + 2 < str.size()) {
+ str = str.substr(end + 2);
+ } else {
+ str.clear();
+ }
+
+ } else {
+ output.push_back(str.substr(1));
+ str = "";
+ }
+ } else {
+ auto it = std::find_if(std::begin(str), std::end(str), find_ws);
+ if(it != std::end(str)) {
+ std::string value = std::string(str.begin(), it);
+ output.push_back(value);
+ str = std::string(it + 1, str.end());
+ } else {
+ output.push_back(str);
+ str = "";
+ }
+ }
+ // transform any embedded quotes into the regular character
+ if(embeddedQuote) {
+ output.back() = find_and_replace(output.back(), std::string("\\") + keyChar, std::string(1, keyChar));
+ embeddedQuote = false;
+ }
+ trim(str);
+ }
+ return output;
+}
+
+/// This function detects an equal or colon followed by an escaped quote after an argument
+/// then modifies the string to replace the equality with a space. This is needed
+/// to allow the split up function to work properly and is intended to be used with the find_and_modify function
+/// the return value is the offset+1 which is required by the find_and_modify function.
+inline std::size_t escape_detect(std::string &str, std::size_t offset) {
+ auto next = str[offset + 1];
+ if((next == '\"') || (next == '\'') || (next == '`')) {
+ auto astart = str.find_last_of("-/ \"\'`", offset - 1);
+ if(astart != std::string::npos) {
+ if(str[astart] == ((str[offset] == '=') ? '-' : '/'))
+ str[offset] = ' '; // interpret this as a space so the split_up works properly
+ }
+ }
+ return offset + 1;
+}
+
+/// Add quotes if the string contains spaces
+inline std::string &add_quotes_if_needed(std::string &str) {
+ if((str.front() != '"' && str.front() != '\'') || str.front() != str.back()) {
+ char quote = str.find('"') < str.find('\'') ? '\'' : '"';
+ if(str.find(' ') != std::string::npos) {
+ str.insert(0, 1, quote);
+ str.append(1, quote);
+ }
+ }
+ return str;
+}
+
+} // namespace detail
+
+// [CLI11:string_tools_hpp:end]
+
+} // namespace CLI
diff --git a/src/third-party/CLI/Timer.hpp b/src/third-party/CLI/Timer.hpp
new file mode 100644
index 0000000..e97b17c
--- /dev/null
+++ b/src/third-party/CLI/Timer.hpp
@@ -0,0 +1,134 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// On GCC < 4.8, the following define is often missing. Due to the
+// fact that this library only uses sleep_for, this should be safe
+#if defined(__GNUC__) && !defined(__clang__) && __GNUC__ < 5 && __GNUC_MINOR__ < 8
+#define _GLIBCXX_USE_NANOSLEEP
+#endif
+
+#include <array>
+#include <chrono>
+#include <functional>
+#include <iostream>
+#include <string>
+#include <utility>
+
+namespace CLI {
+
+/// This is a simple timer with pretty printing. Creating the timer starts counting.
+class Timer {
+ protected:
+ /// This is a typedef to make clocks easier to use
+ using clock = std::chrono::steady_clock;
+
+ /// This typedef is for points in time
+ using time_point = std::chrono::time_point<clock>;
+
+ /// This is the type of a printing function, you can make your own
+ using time_print_t = std::function<std::string(std::string, std::string)>;
+
+ /// This is the title of the timer
+ std::string title_;
+
+ /// This is the function that is used to format most of the timing message
+ time_print_t time_print_;
+
+ /// This is the starting point (when the timer was created)
+ time_point start_;
+
+ /// This is the number of times cycles (print divides by this number)
+ std::size_t cycles{1};
+
+ public:
+ /// Standard print function, this one is set by default
+ static std::string Simple(std::string title, std::string time) { return title + ": " + time; }
+
+ /// This is a fancy print function with --- headers
+ static std::string Big(std::string title, std::string time) {
+ return std::string("-----------------------------------------\n") + "| " + title + " | Time = " + time + "\n" +
+ "-----------------------------------------";
+ }
+
+ public:
+ /// Standard constructor, can set title and print function
+ explicit Timer(std::string title = "Timer", time_print_t time_print = Simple)
+ : title_(std::move(title)), time_print_(std::move(time_print)), start_(clock::now()) {}
+
+ /// Time a function by running it multiple times. Target time is the len to target.
+ std::string time_it(std::function<void()> f, double target_time = 1) {
+ time_point start = start_;
+ double total_time;
+
+ start_ = clock::now();
+ std::size_t n = 0;
+ do {
+ f();
+ std::chrono::duration<double> elapsed = clock::now() - start_;
+ total_time = elapsed.count();
+ } while(n++ < 100u && total_time < target_time);
+
+ std::string out = make_time_str(total_time / static_cast<double>(n)) + " for " + std::to_string(n) + " tries";
+ start_ = start;
+ return out;
+ }
+
+ /// This formats the numerical value for the time string
+ std::string make_time_str() const {
+ time_point stop = clock::now();
+ std::chrono::duration<double> elapsed = stop - start_;
+ double time = elapsed.count() / static_cast<double>(cycles);
+ return make_time_str(time);
+ }
+
+ // LCOV_EXCL_START
+ /// This prints out a time string from a time
+ std::string make_time_str(double time) const {
+ auto print_it = [](double x, std::string unit) {
+ const unsigned int buffer_length = 50;
+ std::array<char, buffer_length> buffer;
+ std::snprintf(buffer.data(), buffer_length, "%.5g", x);
+ return buffer.data() + std::string(" ") + unit;
+ };
+
+ if(time < .000001)
+ return print_it(time * 1000000000, "ns");
+ else if(time < .001)
+ return print_it(time * 1000000, "us");
+ else if(time < 1)
+ return print_it(time * 1000, "ms");
+ else
+ return print_it(time, "s");
+ }
+ // LCOV_EXCL_STOP
+
+ /// This is the main function, it creates a string
+ std::string to_string() const { return time_print_(title_, make_time_str()); }
+
+ /// Division sets the number of cycles to divide by (no graphical change)
+ Timer &operator/(std::size_t val) {
+ cycles = val;
+ return *this;
+ }
+};
+
+/// This class prints out the time upon destruction
+class AutoTimer : public Timer {
+ public:
+ /// Reimplementing the constructor is required in GCC 4.7
+ explicit AutoTimer(std::string title = "Timer", time_print_t time_print = Simple) : Timer(title, time_print) {}
+ // GCC 4.7 does not support using inheriting constructors.
+
+ /// This destructor prints the string
+ ~AutoTimer() { std::cout << to_string() << std::endl; }
+};
+
+} // namespace CLI
+
+/// This prints out the time if shifted into a std::cout like stream.
+inline std::ostream &operator<<(std::ostream &in, const CLI::Timer &timer) { return in << timer.to_string(); }
diff --git a/src/third-party/CLI/TypeTools.hpp b/src/third-party/CLI/TypeTools.hpp
new file mode 100644
index 0000000..c21d5e3
--- /dev/null
+++ b/src/third-party/CLI/TypeTools.hpp
@@ -0,0 +1,1558 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:public_includes:set]
+#include <cstdint>
+#include <exception>
+#include <limits>
+#include <memory>
+#include <string>
+#include <type_traits>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+#include "StringTools.hpp"
+
+namespace CLI {
+// [CLI11:type_tools_hpp:verbatim]
+
+// Type tools
+
+// Utilities for type enabling
+namespace detail {
+// Based generally on https://rmf.io/cxx11/almost-static-if
+/// Simple empty scoped class
+enum class enabler {};
+
+/// An instance to use in EnableIf
+constexpr enabler dummy = {};
+} // namespace detail
+
+/// A copy of enable_if_t from C++14, compatible with C++11.
+///
+/// We could check to see if C++14 is being used, but it does not hurt to redefine this
+/// (even Google does this: https://github.com/google/skia/blob/main/include/private/SkTLogic.h)
+/// It is not in the std namespace anyway, so no harm done.
+template <bool B, class T = void> using enable_if_t = typename std::enable_if<B, T>::type;
+
+/// A copy of std::void_t from C++17 (helper for C++11 and C++14)
+template <typename... Ts> struct make_void { using type = void; };
+
+/// A copy of std::void_t from C++17 - same reasoning as enable_if_t, it does not hurt to redefine
+template <typename... Ts> using void_t = typename make_void<Ts...>::type;
+
+/// A copy of std::conditional_t from C++14 - same reasoning as enable_if_t, it does not hurt to redefine
+template <bool B, class T, class F> using conditional_t = typename std::conditional<B, T, F>::type;
+
+/// Check to see if something is bool (fail check by default)
+template <typename T> struct is_bool : std::false_type {};
+
+/// Check to see if something is bool (true if actually a bool)
+template <> struct is_bool<bool> : std::true_type {};
+
+/// Check to see if something is a shared pointer
+template <typename T> struct is_shared_ptr : std::false_type {};
+
+/// Check to see if something is a shared pointer (True if really a shared pointer)
+template <typename T> struct is_shared_ptr<std::shared_ptr<T>> : std::true_type {};
+
+/// Check to see if something is a shared pointer (True if really a shared pointer)
+template <typename T> struct is_shared_ptr<const std::shared_ptr<T>> : std::true_type {};
+
+/// Check to see if something is copyable pointer
+template <typename T> struct is_copyable_ptr {
+ static bool const value = is_shared_ptr<T>::value || std::is_pointer<T>::value;
+};
+
+/// This can be specialized to override the type deduction for IsMember.
+template <typename T> struct IsMemberType { using type = T; };
+
+/// The main custom type needed here is const char * should be a string.
+template <> struct IsMemberType<const char *> { using type = std::string; };
+
+namespace detail {
+
+// These are utilities for IsMember and other transforming objects
+
+/// Handy helper to access the element_type generically. This is not part of is_copyable_ptr because it requires that
+/// pointer_traits<T> be valid.
+
+/// not a pointer
+template <typename T, typename Enable = void> struct element_type { using type = T; };
+
+template <typename T> struct element_type<T, typename std::enable_if<is_copyable_ptr<T>::value>::type> {
+ using type = typename std::pointer_traits<T>::element_type;
+};
+
+/// Combination of the element type and value type - remove pointer (including smart pointers) and get the value_type of
+/// the container
+template <typename T> struct element_value_type { using type = typename element_type<T>::type::value_type; };
+
+/// Adaptor for set-like structure: This just wraps a normal container in a few utilities that do almost nothing.
+template <typename T, typename _ = void> struct pair_adaptor : std::false_type {
+ using value_type = typename T::value_type;
+ using first_type = typename std::remove_const<value_type>::type;
+ using second_type = typename std::remove_const<value_type>::type;
+
+ /// Get the first value (really just the underlying value)
+ template <typename Q> static auto first(Q &&pair_value) -> decltype(std::forward<Q>(pair_value)) {
+ return std::forward<Q>(pair_value);
+ }
+ /// Get the second value (really just the underlying value)
+ template <typename Q> static auto second(Q &&pair_value) -> decltype(std::forward<Q>(pair_value)) {
+ return std::forward<Q>(pair_value);
+ }
+};
+
+/// Adaptor for map-like structure (true version, must have key_type and mapped_type).
+/// This wraps a mapped container in a few utilities access it in a general way.
+template <typename T>
+struct pair_adaptor<
+ T,
+ conditional_t<false, void_t<typename T::value_type::first_type, typename T::value_type::second_type>, void>>
+ : std::true_type {
+ using value_type = typename T::value_type;
+ using first_type = typename std::remove_const<typename value_type::first_type>::type;
+ using second_type = typename std::remove_const<typename value_type::second_type>::type;
+
+ /// Get the first value (really just the underlying value)
+ template <typename Q> static auto first(Q &&pair_value) -> decltype(std::get<0>(std::forward<Q>(pair_value))) {
+ return std::get<0>(std::forward<Q>(pair_value));
+ }
+ /// Get the second value (really just the underlying value)
+ template <typename Q> static auto second(Q &&pair_value) -> decltype(std::get<1>(std::forward<Q>(pair_value))) {
+ return std::get<1>(std::forward<Q>(pair_value));
+ }
+};
+
+// Warning is suppressed due to "bug" in gcc<5.0 and gcc 7.0 with c++17 enabled that generates a Wnarrowing warning
+// in the unevaluated context even if the function that was using this wasn't used. The standard says narrowing in
+// brace initialization shouldn't be allowed but for backwards compatibility gcc allows it in some contexts. It is a
+// little fuzzy what happens in template constructs and I think that was something GCC took a little while to work out.
+// But regardless some versions of gcc generate a warning when they shouldn't from the following code so that should be
+// suppressed
+#ifdef __GNUC__
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wnarrowing"
+#endif
+// check for constructibility from a specific type and copy assignable used in the parse detection
+template <typename T, typename C> class is_direct_constructible {
+ template <typename TT, typename CC>
+ static auto test(int, std::true_type) -> decltype(
+// NVCC warns about narrowing conversions here
+#ifdef __CUDACC__
+#pragma diag_suppress 2361
+#endif
+ TT { std::declval<CC>() }
+#ifdef __CUDACC__
+#pragma diag_default 2361
+#endif
+ ,
+ std::is_move_assignable<TT>());
+
+ template <typename TT, typename CC> static auto test(int, std::false_type) -> std::false_type;
+
+ template <typename, typename> static auto test(...) -> std::false_type;
+
+ public:
+ static constexpr bool value = decltype(test<T, C>(0, typename std::is_constructible<T, C>::type()))::value;
+};
+#ifdef __GNUC__
+#pragma GCC diagnostic pop
+#endif
+
+// Check for output streamability
+// Based on https://stackoverflow.com/questions/22758291/how-can-i-detect-if-a-type-can-be-streamed-to-an-stdostream
+
+template <typename T, typename S = std::ostringstream> class is_ostreamable {
+ template <typename TT, typename SS>
+ static auto test(int) -> decltype(std::declval<SS &>() << std::declval<TT>(), std::true_type());
+
+ template <typename, typename> static auto test(...) -> std::false_type;
+
+ public:
+ static constexpr bool value = decltype(test<T, S>(0))::value;
+};
+
+/// Check for input streamability
+template <typename T, typename S = std::istringstream> class is_istreamable {
+ template <typename TT, typename SS>
+ static auto test(int) -> decltype(std::declval<SS &>() >> std::declval<TT &>(), std::true_type());
+
+ template <typename, typename> static auto test(...) -> std::false_type;
+
+ public:
+ static constexpr bool value = decltype(test<T, S>(0))::value;
+};
+
+/// Check for complex
+template <typename T> class is_complex {
+ template <typename TT>
+ static auto test(int) -> decltype(std::declval<TT>().real(), std::declval<TT>().imag(), std::true_type());
+
+ template <typename> static auto test(...) -> std::false_type;
+
+ public:
+ static constexpr bool value = decltype(test<T>(0))::value;
+};
+
+/// Templated operation to get a value from a stream
+template <typename T, enable_if_t<is_istreamable<T>::value, detail::enabler> = detail::dummy>
+bool from_stream(const std::string &istring, T &obj) {
+ std::istringstream is;
+ is.str(istring);
+ is >> obj;
+ return !is.fail() && !is.rdbuf()->in_avail();
+}
+
+template <typename T, enable_if_t<!is_istreamable<T>::value, detail::enabler> = detail::dummy>
+bool from_stream(const std::string & /*istring*/, T & /*obj*/) {
+ return false;
+}
+
+// check to see if an object is a mutable container (fail by default)
+template <typename T, typename _ = void> struct is_mutable_container : std::false_type {};
+
+/// type trait to test if a type is a mutable container meaning it has a value_type, it has an iterator, a clear, and
+/// end methods and an insert function. And for our purposes we exclude std::string and types that can be constructed
+/// from a std::string
+template <typename T>
+struct is_mutable_container<
+ T,
+ conditional_t<false,
+ void_t<typename T::value_type,
+ decltype(std::declval<T>().end()),
+ decltype(std::declval<T>().clear()),
+ decltype(std::declval<T>().insert(std::declval<decltype(std::declval<T>().end())>(),
+ std::declval<const typename T::value_type &>()))>,
+ void>>
+ : public conditional_t<std::is_constructible<T, std::string>::value, std::false_type, std::true_type> {};
+
+// check to see if an object is a mutable container (fail by default)
+template <typename T, typename _ = void> struct is_readable_container : std::false_type {};
+
+/// type trait to test if a type is a container meaning it has a value_type, it has an iterator, a clear, and an end
+/// methods and an insert function. And for our purposes we exclude std::string and types that can be constructed from
+/// a std::string
+template <typename T>
+struct is_readable_container<
+ T,
+ conditional_t<false, void_t<decltype(std::declval<T>().end()), decltype(std::declval<T>().begin())>, void>>
+ : public std::true_type {};
+
+// check to see if an object is a wrapper (fail by default)
+template <typename T, typename _ = void> struct is_wrapper : std::false_type {};
+
+// check if an object is a wrapper (it has a value_type defined)
+template <typename T>
+struct is_wrapper<T, conditional_t<false, void_t<typename T::value_type>, void>> : public std::true_type {};
+
+// Check for tuple like types, as in classes with a tuple_size type trait
+template <typename S> class is_tuple_like {
+ template <typename SS>
+ // static auto test(int)
+ // -> decltype(std::conditional<(std::tuple_size<SS>::value > 0), std::true_type, std::false_type>::type());
+ static auto test(int) -> decltype(std::tuple_size<typename std::decay<SS>::type>::value, std::true_type{});
+ template <typename> static auto test(...) -> std::false_type;
+
+ public:
+ static constexpr bool value = decltype(test<S>(0))::value;
+};
+
+/// Convert an object to a string (directly forward if this can become a string)
+template <typename T, enable_if_t<std::is_convertible<T, std::string>::value, detail::enabler> = detail::dummy>
+auto to_string(T &&value) -> decltype(std::forward<T>(value)) {
+ return std::forward<T>(value);
+}
+
+/// Construct a string from the object
+template <typename T,
+ enable_if_t<std::is_constructible<std::string, T>::value && !std::is_convertible<T, std::string>::value,
+ detail::enabler> = detail::dummy>
+std::string to_string(const T &value) {
+ return std::string(value);
+}
+
+/// Convert an object to a string (streaming must be supported for that type)
+template <typename T,
+ enable_if_t<!std::is_convertible<std::string, T>::value && !std::is_constructible<std::string, T>::value &&
+ is_ostreamable<T>::value,
+ detail::enabler> = detail::dummy>
+std::string to_string(T &&value) {
+ std::stringstream stream;
+ stream << value;
+ return stream.str();
+}
+
+/// If conversion is not supported, return an empty string (streaming is not supported for that type)
+template <typename T,
+ enable_if_t<!std::is_constructible<std::string, T>::value && !is_ostreamable<T>::value &&
+ !is_readable_container<typename std::remove_const<T>::type>::value,
+ detail::enabler> = detail::dummy>
+std::string to_string(T &&) {
+ return std::string{};
+}
+
+/// convert a readable container to a string
+template <typename T,
+ enable_if_t<!std::is_constructible<std::string, T>::value && !is_ostreamable<T>::value &&
+ is_readable_container<T>::value,
+ detail::enabler> = detail::dummy>
+std::string to_string(T &&variable) {
+ auto cval = variable.begin();
+ auto end = variable.end();
+ if(cval == end) {
+ return std::string("{}");
+ }
+ std::vector<std::string> defaults;
+ while(cval != end) {
+ defaults.emplace_back(CLI::detail::to_string(*cval));
+ ++cval;
+ }
+ return std::string("[" + detail::join(defaults) + "]");
+}
+
+/// special template overload
+template <typename T1,
+ typename T2,
+ typename T,
+ enable_if_t<std::is_same<T1, T2>::value, detail::enabler> = detail::dummy>
+auto checked_to_string(T &&value) -> decltype(to_string(std::forward<T>(value))) {
+ return to_string(std::forward<T>(value));
+}
+
+/// special template overload
+template <typename T1,
+ typename T2,
+ typename T,
+ enable_if_t<!std::is_same<T1, T2>::value, detail::enabler> = detail::dummy>
+std::string checked_to_string(T &&) {
+ return std::string{};
+}
+/// get a string as a convertible value for arithmetic types
+template <typename T, enable_if_t<std::is_arithmetic<T>::value, detail::enabler> = detail::dummy>
+std::string value_string(const T &value) {
+ return std::to_string(value);
+}
+/// get a string as a convertible value for enumerations
+template <typename T, enable_if_t<std::is_enum<T>::value, detail::enabler> = detail::dummy>
+std::string value_string(const T &value) {
+ return std::to_string(static_cast<typename std::underlying_type<T>::type>(value));
+}
+/// for other types just use the regular to_string function
+template <typename T,
+ enable_if_t<!std::is_enum<T>::value && !std::is_arithmetic<T>::value, detail::enabler> = detail::dummy>
+auto value_string(const T &value) -> decltype(to_string(value)) {
+ return to_string(value);
+}
+
+/// template to get the underlying value type if it exists or use a default
+template <typename T, typename def, typename Enable = void> struct wrapped_type { using type = def; };
+
+/// Type size for regular object types that do not look like a tuple
+template <typename T, typename def> struct wrapped_type<T, def, typename std::enable_if<is_wrapper<T>::value>::type> {
+ using type = typename T::value_type;
+};
+
+/// This will only trigger for actual void type
+template <typename T, typename Enable = void> struct type_count_base { static const int value{0}; };
+
+/// Type size for regular object types that do not look like a tuple
+template <typename T>
+struct type_count_base<T,
+ typename std::enable_if<!is_tuple_like<T>::value && !is_mutable_container<T>::value &&
+ !std::is_void<T>::value>::type> {
+ static constexpr int value{1};
+};
+
+/// the base tuple size
+template <typename T>
+struct type_count_base<T, typename std::enable_if<is_tuple_like<T>::value && !is_mutable_container<T>::value>::type> {
+ static constexpr int value{std::tuple_size<T>::value};
+};
+
+/// Type count base for containers is the type_count_base of the individual element
+template <typename T> struct type_count_base<T, typename std::enable_if<is_mutable_container<T>::value>::type> {
+ static constexpr int value{type_count_base<typename T::value_type>::value};
+};
+
+/// Set of overloads to get the type size of an object
+
+/// forward declare the subtype_count structure
+template <typename T> struct subtype_count;
+
+/// forward declare the subtype_count_min structure
+template <typename T> struct subtype_count_min;
+
+/// This will only trigger for actual void type
+template <typename T, typename Enable = void> struct type_count { static const int value{0}; };
+
+/// Type size for regular object types that do not look like a tuple
+template <typename T>
+struct type_count<T,
+ typename std::enable_if<!is_wrapper<T>::value && !is_tuple_like<T>::value && !is_complex<T>::value &&
+ !std::is_void<T>::value>::type> {
+ static constexpr int value{1};
+};
+
+/// Type size for complex since it sometimes looks like a wrapper
+template <typename T> struct type_count<T, typename std::enable_if<is_complex<T>::value>::type> {
+ static constexpr int value{2};
+};
+
+/// Type size of types that are wrappers,except complex and tuples(which can also be wrappers sometimes)
+template <typename T> struct type_count<T, typename std::enable_if<is_mutable_container<T>::value>::type> {
+ static constexpr int value{subtype_count<typename T::value_type>::value};
+};
+
+/// Type size of types that are wrappers,except containers complex and tuples(which can also be wrappers sometimes)
+template <typename T>
+struct type_count<T,
+ typename std::enable_if<is_wrapper<T>::value && !is_complex<T>::value && !is_tuple_like<T>::value &&
+ !is_mutable_container<T>::value>::type> {
+ static constexpr int value{type_count<typename T::value_type>::value};
+};
+
+/// 0 if the index > tuple size
+template <typename T, std::size_t I>
+constexpr typename std::enable_if<I == type_count_base<T>::value, int>::type tuple_type_size() {
+ return 0;
+}
+
+/// Recursively generate the tuple type name
+template <typename T, std::size_t I>
+ constexpr typename std::enable_if < I<type_count_base<T>::value, int>::type tuple_type_size() {
+ return subtype_count<typename std::tuple_element<I, T>::type>::value + tuple_type_size<T, I + 1>();
+}
+
+/// Get the type size of the sum of type sizes for all the individual tuple types
+template <typename T> struct type_count<T, typename std::enable_if<is_tuple_like<T>::value>::type> {
+ static constexpr int value{tuple_type_size<T, 0>()};
+};
+
+/// definition of subtype count
+template <typename T> struct subtype_count {
+ static constexpr int value{is_mutable_container<T>::value ? expected_max_vector_size : type_count<T>::value};
+};
+
+/// This will only trigger for actual void type
+template <typename T, typename Enable = void> struct type_count_min { static const int value{0}; };
+
+/// Type size for regular object types that do not look like a tuple
+template <typename T>
+struct type_count_min<
+ T,
+ typename std::enable_if<!is_mutable_container<T>::value && !is_tuple_like<T>::value && !is_wrapper<T>::value &&
+ !is_complex<T>::value && !std::is_void<T>::value>::type> {
+ static constexpr int value{type_count<T>::value};
+};
+
+/// Type size for complex since it sometimes looks like a wrapper
+template <typename T> struct type_count_min<T, typename std::enable_if<is_complex<T>::value>::type> {
+ static constexpr int value{1};
+};
+
+/// Type size min of types that are wrappers,except complex and tuples(which can also be wrappers sometimes)
+template <typename T>
+struct type_count_min<
+ T,
+ typename std::enable_if<is_wrapper<T>::value && !is_complex<T>::value && !is_tuple_like<T>::value>::type> {
+ static constexpr int value{subtype_count_min<typename T::value_type>::value};
+};
+
+/// 0 if the index > tuple size
+template <typename T, std::size_t I>
+constexpr typename std::enable_if<I == type_count_base<T>::value, int>::type tuple_type_size_min() {
+ return 0;
+}
+
+/// Recursively generate the tuple type name
+template <typename T, std::size_t I>
+ constexpr typename std::enable_if < I<type_count_base<T>::value, int>::type tuple_type_size_min() {
+ return subtype_count_min<typename std::tuple_element<I, T>::type>::value + tuple_type_size_min<T, I + 1>();
+}
+
+/// Get the type size of the sum of type sizes for all the individual tuple types
+template <typename T> struct type_count_min<T, typename std::enable_if<is_tuple_like<T>::value>::type> {
+ static constexpr int value{tuple_type_size_min<T, 0>()};
+};
+
+/// definition of subtype count
+template <typename T> struct subtype_count_min {
+ static constexpr int value{is_mutable_container<T>::value
+ ? ((type_count<T>::value < expected_max_vector_size) ? type_count<T>::value : 0)
+ : type_count_min<T>::value};
+};
+
+/// This will only trigger for actual void type
+template <typename T, typename Enable = void> struct expected_count { static const int value{0}; };
+
+/// For most types the number of expected items is 1
+template <typename T>
+struct expected_count<T,
+ typename std::enable_if<!is_mutable_container<T>::value && !is_wrapper<T>::value &&
+ !std::is_void<T>::value>::type> {
+ static constexpr int value{1};
+};
+/// number of expected items in a vector
+template <typename T> struct expected_count<T, typename std::enable_if<is_mutable_container<T>::value>::type> {
+ static constexpr int value{expected_max_vector_size};
+};
+
+/// number of expected items in a vector
+template <typename T>
+struct expected_count<T, typename std::enable_if<!is_mutable_container<T>::value && is_wrapper<T>::value>::type> {
+ static constexpr int value{expected_count<typename T::value_type>::value};
+};
+
+// Enumeration of the different supported categorizations of objects
+enum class object_category : int {
+ char_value = 1,
+ integral_value = 2,
+ unsigned_integral = 4,
+ enumeration = 6,
+ boolean_value = 8,
+ floating_point = 10,
+ number_constructible = 12,
+ double_constructible = 14,
+ integer_constructible = 16,
+ // string like types
+ string_assignable = 23,
+ string_constructible = 24,
+ other = 45,
+ // special wrapper or container types
+ wrapper_value = 50,
+ complex_number = 60,
+ tuple_value = 70,
+ container_value = 80,
+
+};
+
+/// Set of overloads to classify an object according to type
+
+/// some type that is not otherwise recognized
+template <typename T, typename Enable = void> struct classify_object {
+ static constexpr object_category value{object_category::other};
+};
+
+/// Signed integers
+template <typename T>
+struct classify_object<
+ T,
+ typename std::enable_if<std::is_integral<T>::value && !std::is_same<T, char>::value && std::is_signed<T>::value &&
+ !is_bool<T>::value && !std::is_enum<T>::value>::type> {
+ static constexpr object_category value{object_category::integral_value};
+};
+
+/// Unsigned integers
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<std::is_integral<T>::value && std::is_unsigned<T>::value &&
+ !std::is_same<T, char>::value && !is_bool<T>::value>::type> {
+ static constexpr object_category value{object_category::unsigned_integral};
+};
+
+/// single character values
+template <typename T>
+struct classify_object<T, typename std::enable_if<std::is_same<T, char>::value && !std::is_enum<T>::value>::type> {
+ static constexpr object_category value{object_category::char_value};
+};
+
+/// Boolean values
+template <typename T> struct classify_object<T, typename std::enable_if<is_bool<T>::value>::type> {
+ static constexpr object_category value{object_category::boolean_value};
+};
+
+/// Floats
+template <typename T> struct classify_object<T, typename std::enable_if<std::is_floating_point<T>::value>::type> {
+ static constexpr object_category value{object_category::floating_point};
+};
+
+/// String and similar direct assignment
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<!std::is_floating_point<T>::value && !std::is_integral<T>::value &&
+ std::is_assignable<T &, std::string>::value>::type> {
+ static constexpr object_category value{object_category::string_assignable};
+};
+
+/// String and similar constructible and copy assignment
+template <typename T>
+struct classify_object<
+ T,
+ typename std::enable_if<!std::is_floating_point<T>::value && !std::is_integral<T>::value &&
+ !std::is_assignable<T &, std::string>::value && (type_count<T>::value == 1) &&
+ std::is_constructible<T, std::string>::value>::type> {
+ static constexpr object_category value{object_category::string_constructible};
+};
+
+/// Enumerations
+template <typename T> struct classify_object<T, typename std::enable_if<std::is_enum<T>::value>::type> {
+ static constexpr object_category value{object_category::enumeration};
+};
+
+template <typename T> struct classify_object<T, typename std::enable_if<is_complex<T>::value>::type> {
+ static constexpr object_category value{object_category::complex_number};
+};
+
+/// Handy helper to contain a bunch of checks that rule out many common types (integers, string like, floating point,
+/// vectors, and enumerations
+template <typename T> struct uncommon_type {
+ using type = typename std::conditional<!std::is_floating_point<T>::value && !std::is_integral<T>::value &&
+ !std::is_assignable<T &, std::string>::value &&
+ !std::is_constructible<T, std::string>::value && !is_complex<T>::value &&
+ !is_mutable_container<T>::value && !std::is_enum<T>::value,
+ std::true_type,
+ std::false_type>::type;
+ static constexpr bool value = type::value;
+};
+
+/// wrapper type
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<(!is_mutable_container<T>::value && is_wrapper<T>::value &&
+ !is_tuple_like<T>::value && uncommon_type<T>::value)>::type> {
+ static constexpr object_category value{object_category::wrapper_value};
+};
+
+/// Assignable from double or int
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<uncommon_type<T>::value && type_count<T>::value == 1 &&
+ !is_wrapper<T>::value && is_direct_constructible<T, double>::value &&
+ is_direct_constructible<T, int>::value>::type> {
+ static constexpr object_category value{object_category::number_constructible};
+};
+
+/// Assignable from int
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<uncommon_type<T>::value && type_count<T>::value == 1 &&
+ !is_wrapper<T>::value && !is_direct_constructible<T, double>::value &&
+ is_direct_constructible<T, int>::value>::type> {
+ static constexpr object_category value{object_category::integer_constructible};
+};
+
+/// Assignable from double
+template <typename T>
+struct classify_object<T,
+ typename std::enable_if<uncommon_type<T>::value && type_count<T>::value == 1 &&
+ !is_wrapper<T>::value && is_direct_constructible<T, double>::value &&
+ !is_direct_constructible<T, int>::value>::type> {
+ static constexpr object_category value{object_category::double_constructible};
+};
+
+/// Tuple type
+template <typename T>
+struct classify_object<
+ T,
+ typename std::enable_if<is_tuple_like<T>::value &&
+ ((type_count<T>::value >= 2 && !is_wrapper<T>::value) ||
+ (uncommon_type<T>::value && !is_direct_constructible<T, double>::value &&
+ !is_direct_constructible<T, int>::value))>::type> {
+ static constexpr object_category value{object_category::tuple_value};
+ // the condition on this class requires it be like a tuple, but on some compilers (like Xcode) tuples can be
+ // constructed from just the first element so tuples of <string, int,int> can be constructed from a string, which
+ // could lead to issues so there are two variants of the condition, the first isolates things with a type size >=2
+ // mainly to get tuples on Xcode with the exception of wrappers, the second is the main one and just separating out
+ // those cases that are caught by other object classifications
+};
+
+/// container type
+template <typename T> struct classify_object<T, typename std::enable_if<is_mutable_container<T>::value>::type> {
+ static constexpr object_category value{object_category::container_value};
+};
+
+// Type name print
+
+/// Was going to be based on
+/// http://stackoverflow.com/questions/1055452/c-get-name-of-type-in-template
+/// But this is cleaner and works better in this case
+
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::char_value, detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "CHAR";
+}
+
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::integral_value ||
+ classify_object<T>::value == object_category::integer_constructible,
+ detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "INT";
+}
+
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::unsigned_integral, detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "UINT";
+}
+
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::floating_point ||
+ classify_object<T>::value == object_category::number_constructible ||
+ classify_object<T>::value == object_category::double_constructible,
+ detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "FLOAT";
+}
+
+/// Print name for enumeration types
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::enumeration, detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "ENUM";
+}
+
+/// Print name for enumeration types
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::boolean_value, detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "BOOLEAN";
+}
+
+/// Print name for enumeration types
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::complex_number, detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "COMPLEX";
+}
+
+/// Print for all other types
+template <typename T,
+ enable_if_t<classify_object<T>::value >= object_category::string_assignable &&
+ classify_object<T>::value <= object_category::other,
+ detail::enabler> = detail::dummy>
+constexpr const char *type_name() {
+ return "TEXT";
+}
+/// typename for tuple value
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::tuple_value && type_count_base<T>::value >= 2,
+ detail::enabler> = detail::dummy>
+std::string type_name(); // forward declaration
+
+/// Generate type name for a wrapper or container value
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::container_value ||
+ classify_object<T>::value == object_category::wrapper_value,
+ detail::enabler> = detail::dummy>
+std::string type_name(); // forward declaration
+
+/// Print name for single element tuple types
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::tuple_value && type_count_base<T>::value == 1,
+ detail::enabler> = detail::dummy>
+inline std::string type_name() {
+ return type_name<typename std::decay<typename std::tuple_element<0, T>::type>::type>();
+}
+
+/// Empty string if the index > tuple size
+template <typename T, std::size_t I>
+inline typename std::enable_if<I == type_count_base<T>::value, std::string>::type tuple_name() {
+ return std::string{};
+}
+
+/// Recursively generate the tuple type name
+template <typename T, std::size_t I>
+inline typename std::enable_if<(I < type_count_base<T>::value), std::string>::type tuple_name() {
+ std::string str = std::string(type_name<typename std::decay<typename std::tuple_element<I, T>::type>::type>()) +
+ ',' + tuple_name<T, I + 1>();
+ if(str.back() == ',')
+ str.pop_back();
+ return str;
+}
+
+/// Print type name for tuples with 2 or more elements
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::tuple_value && type_count_base<T>::value >= 2,
+ detail::enabler>>
+inline std::string type_name() {
+ auto tname = std::string(1, '[') + tuple_name<T, 0>();
+ tname.push_back(']');
+ return tname;
+}
+
+/// get the type name for a type that has a value_type member
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::container_value ||
+ classify_object<T>::value == object_category::wrapper_value,
+ detail::enabler>>
+inline std::string type_name() {
+ return type_name<typename T::value_type>();
+}
+
+// Lexical cast
+
+/// Convert to an unsigned integral
+template <typename T, enable_if_t<std::is_unsigned<T>::value, detail::enabler> = detail::dummy>
+bool integral_conversion(const std::string &input, T &output) noexcept {
+ if(input.empty()) {
+ return false;
+ }
+ char *val = nullptr;
+ std::uint64_t output_ll = std::strtoull(input.c_str(), &val, 0);
+ output = static_cast<T>(output_ll);
+ if(val == (input.c_str() + input.size()) && static_cast<std::uint64_t>(output) == output_ll) {
+ return true;
+ }
+ val = nullptr;
+ std::int64_t output_sll = std::strtoll(input.c_str(), &val, 0);
+ if(val == (input.c_str() + input.size())) {
+ output = (output_sll < 0) ? static_cast<T>(0) : static_cast<T>(output_sll);
+ return (static_cast<std::int64_t>(output) == output_sll);
+ }
+ return false;
+}
+
+/// Convert to a signed integral
+template <typename T, enable_if_t<std::is_signed<T>::value, detail::enabler> = detail::dummy>
+bool integral_conversion(const std::string &input, T &output) noexcept {
+ if(input.empty()) {
+ return false;
+ }
+ char *val = nullptr;
+ std::int64_t output_ll = std::strtoll(input.c_str(), &val, 0);
+ output = static_cast<T>(output_ll);
+ if(val == (input.c_str() + input.size()) && static_cast<std::int64_t>(output) == output_ll) {
+ return true;
+ }
+ if(input == "true") {
+ // this is to deal with a few oddities with flags and wrapper int types
+ output = static_cast<T>(1);
+ return true;
+ }
+ return false;
+}
+
+/// Convert a flag into an integer value typically binary flags
+inline std::int64_t to_flag_value(std::string val) {
+ static const std::string trueString("true");
+ static const std::string falseString("false");
+ if(val == trueString) {
+ return 1;
+ }
+ if(val == falseString) {
+ return -1;
+ }
+ val = detail::to_lower(val);
+ std::int64_t ret;
+ if(val.size() == 1) {
+ if(val[0] >= '1' && val[0] <= '9') {
+ return (static_cast<std::int64_t>(val[0]) - '0');
+ }
+ switch(val[0]) {
+ case '0':
+ case 'f':
+ case 'n':
+ case '-':
+ ret = -1;
+ break;
+ case 't':
+ case 'y':
+ case '+':
+ ret = 1;
+ break;
+ default:
+ throw std::invalid_argument("unrecognized character");
+ }
+ return ret;
+ }
+ if(val == trueString || val == "on" || val == "yes" || val == "enable") {
+ ret = 1;
+ } else if(val == falseString || val == "off" || val == "no" || val == "disable") {
+ ret = -1;
+ } else {
+ ret = std::stoll(val);
+ }
+ return ret;
+}
+
+/// Integer conversion
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::integral_value ||
+ classify_object<T>::value == object_category::unsigned_integral,
+ detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ return integral_conversion(input, output);
+}
+
+/// char values
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::char_value, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ if(input.size() == 1) {
+ output = static_cast<T>(input[0]);
+ return true;
+ }
+ return integral_conversion(input, output);
+}
+
+/// Boolean values
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::boolean_value, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ try {
+ auto out = to_flag_value(input);
+ output = (out > 0);
+ return true;
+ } catch(const std::invalid_argument &) {
+ return false;
+ } catch(const std::out_of_range &) {
+ // if the number is out of the range of a 64 bit value then it is still a number and for this purpose is still
+ // valid all we care about the sign
+ output = (input[0] != '-');
+ return true;
+ }
+}
+
+/// Floats
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::floating_point, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ if(input.empty()) {
+ return false;
+ }
+ char *val = nullptr;
+ auto output_ld = std::strtold(input.c_str(), &val);
+ output = static_cast<T>(output_ld);
+ return val == (input.c_str() + input.size());
+}
+
+/// complex
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::complex_number, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ using XC = typename wrapped_type<T, double>::type;
+ XC x{0.0}, y{0.0};
+ auto str1 = input;
+ bool worked = false;
+ auto nloc = str1.find_last_of("+-");
+ if(nloc != std::string::npos && nloc > 0) {
+ worked = detail::lexical_cast(str1.substr(0, nloc), x);
+ str1 = str1.substr(nloc);
+ if(str1.back() == 'i' || str1.back() == 'j')
+ str1.pop_back();
+ worked = worked && detail::lexical_cast(str1, y);
+ } else {
+ if(str1.back() == 'i' || str1.back() == 'j') {
+ str1.pop_back();
+ worked = detail::lexical_cast(str1, y);
+ x = XC{0};
+ } else {
+ worked = detail::lexical_cast(str1, x);
+ y = XC{0};
+ }
+ }
+ if(worked) {
+ output = T{x, y};
+ return worked;
+ }
+ return from_stream(input, output);
+}
+
+/// String and similar direct assignment
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::string_assignable, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ output = input;
+ return true;
+}
+
+/// String and similar constructible and copy assignment
+template <
+ typename T,
+ enable_if_t<classify_object<T>::value == object_category::string_constructible, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ output = T(input);
+ return true;
+}
+
+/// Enumerations
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::enumeration, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ typename std::underlying_type<T>::type val;
+ if(!integral_conversion(input, val)) {
+ return false;
+ }
+ output = static_cast<T>(val);
+ return true;
+}
+
+/// wrapper types
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::wrapper_value &&
+ std::is_assignable<T &, typename T::value_type>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ typename T::value_type val;
+ if(lexical_cast(input, val)) {
+ output = val;
+ return true;
+ }
+ return from_stream(input, output);
+}
+
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::wrapper_value &&
+ !std::is_assignable<T &, typename T::value_type>::value && std::is_assignable<T &, T>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ typename T::value_type val;
+ if(lexical_cast(input, val)) {
+ output = T{val};
+ return true;
+ }
+ return from_stream(input, output);
+}
+
+/// Assignable from double or int
+template <
+ typename T,
+ enable_if_t<classify_object<T>::value == object_category::number_constructible, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ int val;
+ if(integral_conversion(input, val)) {
+ output = T(val);
+ return true;
+ } else {
+ double dval;
+ if(lexical_cast(input, dval)) {
+ output = T{dval};
+ return true;
+ }
+ }
+ return from_stream(input, output);
+}
+
+/// Assignable from int
+template <
+ typename T,
+ enable_if_t<classify_object<T>::value == object_category::integer_constructible, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ int val;
+ if(integral_conversion(input, val)) {
+ output = T(val);
+ return true;
+ }
+ return from_stream(input, output);
+}
+
+/// Assignable from double
+template <
+ typename T,
+ enable_if_t<classify_object<T>::value == object_category::double_constructible, detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ double val;
+ if(lexical_cast(input, val)) {
+ output = T{val};
+ return true;
+ }
+ return from_stream(input, output);
+}
+
+/// Non-string convertible from an int
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::other && std::is_assignable<T &, int>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ int val;
+ if(integral_conversion(input, val)) {
+#ifdef _MSC_VER
+#pragma warning(push)
+#pragma warning(disable : 4800)
+#endif
+ // with Atomic<XX> this could produce a warning due to the conversion but if atomic gets here it is an old style
+ // so will most likely still work
+ output = val;
+#ifdef _MSC_VER
+#pragma warning(pop)
+#endif
+ return true;
+ }
+ // LCOV_EXCL_START
+ // This version of cast is only used for odd cases in an older compilers the fail over
+ // from_stream is tested elsewhere an not relevant for coverage here
+ return from_stream(input, output);
+ // LCOV_EXCL_STOP
+}
+
+/// Non-string parsable by a stream
+template <typename T,
+ enable_if_t<classify_object<T>::value == object_category::other && !std::is_assignable<T &, int>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_cast(const std::string &input, T &output) {
+ static_assert(is_istreamable<T>::value,
+ "option object type must have a lexical cast overload or streaming input operator(>>) defined, if it "
+ "is convertible from another type use the add_option<T, XC>(...) with XC being the known type");
+ return from_stream(input, output);
+}
+
+/// Assign a value through lexical cast operations
+/// Strings can be empty so we need to do a little different
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<std::is_same<AssignTo, ConvertTo>::value &&
+ (classify_object<AssignTo>::value == object_category::string_assignable ||
+ classify_object<AssignTo>::value == object_category::string_constructible),
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ return lexical_cast(input, output);
+}
+
+/// Assign a value through lexical cast operations
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<std::is_same<AssignTo, ConvertTo>::value && std::is_assignable<AssignTo &, AssignTo>::value &&
+ classify_object<AssignTo>::value != object_category::string_assignable &&
+ classify_object<AssignTo>::value != object_category::string_constructible,
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ if(input.empty()) {
+ output = AssignTo{};
+ return true;
+ }
+
+ return lexical_cast(input, output);
+}
+
+/// Assign a value through lexical cast operations
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<std::is_same<AssignTo, ConvertTo>::value && !std::is_assignable<AssignTo &, AssignTo>::value &&
+ classify_object<AssignTo>::value == object_category::wrapper_value,
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ if(input.empty()) {
+ typename AssignTo::value_type emptyVal{};
+ output = emptyVal;
+ return true;
+ }
+ return lexical_cast(input, output);
+}
+
+/// Assign a value through lexical cast operations for int compatible values
+/// mainly for atomic operations on some compilers
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<std::is_same<AssignTo, ConvertTo>::value && !std::is_assignable<AssignTo &, AssignTo>::value &&
+ classify_object<AssignTo>::value != object_category::wrapper_value &&
+ std::is_assignable<AssignTo &, int>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ if(input.empty()) {
+ output = 0;
+ return true;
+ }
+ int val;
+ if(lexical_cast(input, val)) {
+ output = val;
+ return true;
+ }
+ return false;
+}
+
+/// Assign a value converted from a string in lexical cast to the output value directly
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<!std::is_same<AssignTo, ConvertTo>::value && std::is_assignable<AssignTo &, ConvertTo &>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ ConvertTo val{};
+ bool parse_result = (!input.empty()) ? lexical_cast<ConvertTo>(input, val) : true;
+ if(parse_result) {
+ output = val;
+ }
+ return parse_result;
+}
+
+/// Assign a value from a lexical cast through constructing a value and move assigning it
+template <
+ typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<!std::is_same<AssignTo, ConvertTo>::value && !std::is_assignable<AssignTo &, ConvertTo &>::value &&
+ std::is_move_assignable<AssignTo>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_assign(const std::string &input, AssignTo &output) {
+ ConvertTo val{};
+ bool parse_result = input.empty() ? true : lexical_cast<ConvertTo>(input, val);
+ if(parse_result) {
+ output = AssignTo(val); // use () form of constructor to allow some implicit conversions
+ }
+ return parse_result;
+}
+
+/// primary lexical conversion operation, 1 string to 1 type of some kind
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<classify_object<ConvertTo>::value <= object_category::other &&
+ classify_object<AssignTo>::value <= object_category::wrapper_value,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ return lexical_assign<AssignTo, ConvertTo>(strings[0], output);
+}
+
+/// Lexical conversion if there is only one element but the conversion type is for two, then call a two element
+/// constructor
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<(type_count<AssignTo>::value <= 2) && expected_count<AssignTo>::value == 1 &&
+ is_tuple_like<ConvertTo>::value && type_count_base<ConvertTo>::value == 2,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ // the remove const is to handle pair types coming from a container
+ typename std::remove_const<typename std::tuple_element<0, ConvertTo>::type>::type v1;
+ typename std::tuple_element<1, ConvertTo>::type v2;
+ bool retval = lexical_assign<decltype(v1), decltype(v1)>(strings[0], v1);
+ if(strings.size() > 1) {
+ retval = retval && lexical_assign<decltype(v2), decltype(v2)>(strings[1], v2);
+ }
+ if(retval) {
+ output = AssignTo{v1, v2};
+ }
+ return retval;
+}
+
+/// Lexical conversion of a container types of single elements
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && is_mutable_container<ConvertTo>::value &&
+ type_count<ConvertTo>::value == 1,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ output.erase(output.begin(), output.end());
+ if(strings.size() == 1 && strings[0] == "{}") {
+ return true;
+ }
+ bool skip_remaining = false;
+ if(strings.size() == 2 && strings[0] == "{}" && is_separator(strings[1])) {
+ skip_remaining = true;
+ }
+ for(const auto &elem : strings) {
+ typename AssignTo::value_type out;
+ bool retval = lexical_assign<typename AssignTo::value_type, typename ConvertTo::value_type>(elem, out);
+ if(!retval) {
+ return false;
+ }
+ output.insert(output.end(), std::move(out));
+ if(skip_remaining) {
+ break;
+ }
+ }
+ return (!output.empty());
+}
+
+/// Lexical conversion for complex types
+template <class AssignTo, class ConvertTo, enable_if_t<is_complex<ConvertTo>::value, detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std::string> &strings, AssignTo &output) {
+
+ if(strings.size() >= 2 && !strings[1].empty()) {
+ using XC2 = typename wrapped_type<ConvertTo, double>::type;
+ XC2 x{0.0}, y{0.0};
+ auto str1 = strings[1];
+ if(str1.back() == 'i' || str1.back() == 'j') {
+ str1.pop_back();
+ }
+ auto worked = detail::lexical_cast(strings[0], x) && detail::lexical_cast(str1, y);
+ if(worked) {
+ output = ConvertTo{x, y};
+ }
+ return worked;
+ } else {
+ return lexical_assign<AssignTo, ConvertTo>(strings[0], output);
+ }
+}
+
+/// Conversion to a vector type using a particular single type as the conversion type
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && (expected_count<ConvertTo>::value == 1) &&
+ (type_count<ConvertTo>::value == 1),
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ bool retval = true;
+ output.clear();
+ output.reserve(strings.size());
+ for(const auto &elem : strings) {
+
+ output.emplace_back();
+ retval = retval && lexical_assign<typename AssignTo::value_type, ConvertTo>(elem, output.back());
+ }
+ return (!output.empty()) && retval;
+}
+
+// forward declaration
+
+/// Lexical conversion of a container types with conversion type of two elements
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && is_mutable_container<ConvertTo>::value &&
+ type_count_base<ConvertTo>::value == 2,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(std::vector<std::string> strings, AssignTo &output);
+
+/// Lexical conversion of a vector types with type_size >2 forward declaration
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && is_mutable_container<ConvertTo>::value &&
+ type_count_base<ConvertTo>::value != 2 &&
+ ((type_count<ConvertTo>::value > 2) ||
+ (type_count<ConvertTo>::value > type_count_base<ConvertTo>::value)),
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std::string> &strings, AssignTo &output);
+
+/// Conversion for tuples
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_tuple_like<AssignTo>::value && is_tuple_like<ConvertTo>::value &&
+ (type_count_base<ConvertTo>::value != type_count<ConvertTo>::value ||
+ type_count<ConvertTo>::value > 2),
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std::string> &strings, AssignTo &output); // forward declaration
+
+/// Conversion for operations where the assigned type is some class but the conversion is a mutable container or large
+/// tuple
+template <typename AssignTo,
+ typename ConvertTo,
+ enable_if_t<!is_tuple_like<AssignTo>::value && !is_mutable_container<AssignTo>::value &&
+ classify_object<ConvertTo>::value != object_category::wrapper_value &&
+ (is_mutable_container<ConvertTo>::value || type_count<ConvertTo>::value > 2),
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+
+ if(strings.size() > 1 || (!strings.empty() && !(strings.front().empty()))) {
+ ConvertTo val;
+ auto retval = lexical_conversion<ConvertTo, ConvertTo>(strings, val);
+ output = AssignTo{val};
+ return retval;
+ }
+ output = AssignTo{};
+ return true;
+}
+
+/// function template for converting tuples if the static Index is greater than the tuple size
+template <class AssignTo, class ConvertTo, std::size_t I>
+inline typename std::enable_if<(I >= type_count_base<AssignTo>::value), bool>::type
+tuple_conversion(const std::vector<std::string> &, AssignTo &) {
+ return true;
+}
+
+/// Conversion of a tuple element where the type size ==1 and not a mutable container
+template <class AssignTo, class ConvertTo>
+inline typename std::enable_if<!is_mutable_container<ConvertTo>::value && type_count<ConvertTo>::value == 1, bool>::type
+tuple_type_conversion(std::vector<std::string> &strings, AssignTo &output) {
+ auto retval = lexical_assign<AssignTo, ConvertTo>(strings[0], output);
+ strings.erase(strings.begin());
+ return retval;
+}
+
+/// Conversion of a tuple element where the type size !=1 but the size is fixed and not a mutable container
+template <class AssignTo, class ConvertTo>
+inline typename std::enable_if<!is_mutable_container<ConvertTo>::value && (type_count<ConvertTo>::value > 1) &&
+ type_count<ConvertTo>::value == type_count_min<ConvertTo>::value,
+ bool>::type
+tuple_type_conversion(std::vector<std::string> &strings, AssignTo &output) {
+ auto retval = lexical_conversion<AssignTo, ConvertTo>(strings, output);
+ strings.erase(strings.begin(), strings.begin() + type_count<ConvertTo>::value);
+ return retval;
+}
+
+/// Conversion of a tuple element where the type is a mutable container or a type with different min and max type sizes
+template <class AssignTo, class ConvertTo>
+inline typename std::enable_if<is_mutable_container<ConvertTo>::value ||
+ type_count<ConvertTo>::value != type_count_min<ConvertTo>::value,
+ bool>::type
+tuple_type_conversion(std::vector<std::string> &strings, AssignTo &output) {
+
+ std::size_t index{subtype_count_min<ConvertTo>::value};
+ const std::size_t mx_count{subtype_count<ConvertTo>::value};
+ const std::size_t mx{(std::max)(mx_count, strings.size())};
+
+ while(index < mx) {
+ if(is_separator(strings[index])) {
+ break;
+ }
+ ++index;
+ }
+ bool retval = lexical_conversion<AssignTo, ConvertTo>(
+ std::vector<std::string>(strings.begin(), strings.begin() + static_cast<std::ptrdiff_t>(index)), output);
+ strings.erase(strings.begin(), strings.begin() + static_cast<std::ptrdiff_t>(index) + 1);
+ return retval;
+}
+
+/// Tuple conversion operation
+template <class AssignTo, class ConvertTo, std::size_t I>
+inline typename std::enable_if<(I < type_count_base<AssignTo>::value), bool>::type
+tuple_conversion(std::vector<std::string> strings, AssignTo &output) {
+ bool retval = true;
+ using ConvertToElement = typename std::
+ conditional<is_tuple_like<ConvertTo>::value, typename std::tuple_element<I, ConvertTo>::type, ConvertTo>::type;
+ if(!strings.empty()) {
+ retval = retval && tuple_type_conversion<typename std::tuple_element<I, AssignTo>::type, ConvertToElement>(
+ strings, std::get<I>(output));
+ }
+ retval = retval && tuple_conversion<AssignTo, ConvertTo, I + 1>(std::move(strings), output);
+ return retval;
+}
+
+/// Lexical conversion of a container types with tuple elements of size 2
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && is_mutable_container<ConvertTo>::value &&
+ type_count_base<ConvertTo>::value == 2,
+ detail::enabler>>
+bool lexical_conversion(std::vector<std::string> strings, AssignTo &output) {
+ output.clear();
+ while(!strings.empty()) {
+
+ typename std::remove_const<typename std::tuple_element<0, typename ConvertTo::value_type>::type>::type v1;
+ typename std::tuple_element<1, typename ConvertTo::value_type>::type v2;
+ bool retval = tuple_type_conversion<decltype(v1), decltype(v1)>(strings, v1);
+ if(!strings.empty()) {
+ retval = retval && tuple_type_conversion<decltype(v2), decltype(v2)>(strings, v2);
+ }
+ if(retval) {
+ output.insert(output.end(), typename AssignTo::value_type{v1, v2});
+ } else {
+ return false;
+ }
+ }
+ return (!output.empty());
+}
+
+/// lexical conversion of tuples with type count>2 or tuples of types of some element with a type size>=2
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_tuple_like<AssignTo>::value && is_tuple_like<ConvertTo>::value &&
+ (type_count_base<ConvertTo>::value != type_count<ConvertTo>::value ||
+ type_count<ConvertTo>::value > 2),
+ detail::enabler>>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ static_assert(
+ !is_tuple_like<ConvertTo>::value || type_count_base<AssignTo>::value == type_count_base<ConvertTo>::value,
+ "if the conversion type is defined as a tuple it must be the same size as the type you are converting to");
+ return tuple_conversion<AssignTo, ConvertTo, 0>(strings, output);
+}
+
+/// Lexical conversion of a vector types for everything but tuples of two elements and types of size 1
+template <class AssignTo,
+ class ConvertTo,
+ enable_if_t<is_mutable_container<AssignTo>::value && is_mutable_container<ConvertTo>::value &&
+ type_count_base<ConvertTo>::value != 2 &&
+ ((type_count<ConvertTo>::value > 2) ||
+ (type_count<ConvertTo>::value > type_count_base<ConvertTo>::value)),
+ detail::enabler>>
+bool lexical_conversion(const std::vector<std ::string> &strings, AssignTo &output) {
+ bool retval = true;
+ output.clear();
+ std::vector<std::string> temp;
+ std::size_t ii{0};
+ std::size_t icount{0};
+ std::size_t xcm{type_count<ConvertTo>::value};
+ auto ii_max = strings.size();
+ while(ii < ii_max) {
+ temp.push_back(strings[ii]);
+ ++ii;
+ ++icount;
+ if(icount == xcm || is_separator(temp.back()) || ii == ii_max) {
+ if(static_cast<int>(xcm) > type_count_min<ConvertTo>::value && is_separator(temp.back())) {
+ temp.pop_back();
+ }
+ typename AssignTo::value_type temp_out;
+ retval = retval &&
+ lexical_conversion<typename AssignTo::value_type, typename ConvertTo::value_type>(temp, temp_out);
+ temp.clear();
+ if(!retval) {
+ return false;
+ }
+ output.insert(output.end(), std::move(temp_out));
+ icount = 0;
+ }
+ }
+ return retval;
+}
+
+/// conversion for wrapper types
+template <typename AssignTo,
+ class ConvertTo,
+ enable_if_t<classify_object<ConvertTo>::value == object_category::wrapper_value &&
+ std::is_assignable<ConvertTo &, ConvertTo>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std::string> &strings, AssignTo &output) {
+ if(strings.empty() || strings.front().empty()) {
+ output = ConvertTo{};
+ return true;
+ }
+ typename ConvertTo::value_type val;
+ if(lexical_conversion<typename ConvertTo::value_type, typename ConvertTo::value_type>(strings, val)) {
+ output = ConvertTo{val};
+ return true;
+ }
+ return false;
+}
+
+/// conversion for wrapper types
+template <typename AssignTo,
+ class ConvertTo,
+ enable_if_t<classify_object<ConvertTo>::value == object_category::wrapper_value &&
+ !std::is_assignable<AssignTo &, ConvertTo>::value,
+ detail::enabler> = detail::dummy>
+bool lexical_conversion(const std::vector<std::string> &strings, AssignTo &output) {
+ using ConvertType = typename ConvertTo::value_type;
+ if(strings.empty() || strings.front().empty()) {
+ output = ConvertType{};
+ return true;
+ }
+ ConvertType val;
+ if(lexical_conversion<typename ConvertTo::value_type, typename ConvertTo::value_type>(strings, val)) {
+ output = val;
+ return true;
+ }
+ return false;
+}
+
+/// Sum a vector of strings
+inline std::string sum_string_vector(const std::vector<std::string> &values) {
+ double val{0.0};
+ bool fail{false};
+ std::string output;
+ for(const auto &arg : values) {
+ double tv{0.0};
+ auto comp = detail::lexical_cast<double>(arg, tv);
+ if(!comp) {
+ try {
+ tv = static_cast<double>(detail::to_flag_value(arg));
+ } catch(const std::exception &) {
+ fail = true;
+ break;
+ }
+ }
+ val += tv;
+ }
+ if(fail) {
+ for(const auto &arg : values) {
+ output.append(arg);
+ }
+ } else {
+ if(val <= static_cast<double>(std::numeric_limits<std::int64_t>::min()) ||
+ val >= static_cast<double>(std::numeric_limits<std::int64_t>::max()) ||
+ val == static_cast<std::int64_t>(val)) {
+ output = detail::value_string(static_cast<int64_t>(val));
+ } else {
+ output = detail::value_string(val);
+ }
+ }
+ return output;
+}
+
+} // namespace detail
+// [CLI11:type_tools_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Validators.hpp b/src/third-party/CLI/Validators.hpp
new file mode 100644
index 0000000..1281997
--- /dev/null
+++ b/src/third-party/CLI/Validators.hpp
@@ -0,0 +1,1175 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+#include "Macros.hpp"
+#include "StringTools.hpp"
+#include "TypeTools.hpp"
+
+// [CLI11:public_includes:set]
+#include <cmath>
+#include <cstdint>
+#include <functional>
+#include <iostream>
+#include <limits>
+#include <map>
+#include <memory>
+#include <string>
+#include <utility>
+#include <vector>
+// [CLI11:public_includes:end]
+
+// [CLI11:validators_hpp_filesystem:verbatim]
+
+// C standard library
+// Only needed for existence checking
+#if defined CLI11_CPP17 && defined __has_include && !defined CLI11_HAS_FILESYSTEM
+#if __has_include(<filesystem>)
+// Filesystem cannot be used if targeting macOS < 10.15
+#if defined __MAC_OS_X_VERSION_MIN_REQUIRED && __MAC_OS_X_VERSION_MIN_REQUIRED < 101500
+#define CLI11_HAS_FILESYSTEM 0
+#elif defined(__wasi__)
+// As of wasi-sdk-14, filesystem is not implemented
+#define CLI11_HAS_FILESYSTEM 0
+#else
+#include <filesystem>
+#if defined __cpp_lib_filesystem && __cpp_lib_filesystem >= 201703
+#if defined _GLIBCXX_RELEASE && _GLIBCXX_RELEASE >= 9
+#define CLI11_HAS_FILESYSTEM 1
+#elif defined(__GLIBCXX__)
+// if we are using gcc and Version <9 default to no filesystem
+#define CLI11_HAS_FILESYSTEM 0
+#else
+#define CLI11_HAS_FILESYSTEM 1
+#endif
+#else
+#define CLI11_HAS_FILESYSTEM 0
+#endif
+#endif
+#endif
+#endif
+
+#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0
+#include <filesystem> // NOLINT(build/include)
+#else
+#include <sys/stat.h>
+#include <sys/types.h>
+#endif
+
+// [CLI11:validators_hpp_filesystem:end]
+
+namespace CLI {
+// [CLI11:validators_hpp:verbatim]
+
+class Option;
+
+/// @defgroup validator_group Validators
+
+/// @brief Some validators that are provided
+///
+/// These are simple `std::string(const std::string&)` validators that are useful. They return
+/// a string if the validation fails. A custom struct is provided, as well, with the same user
+/// semantics, but with the ability to provide a new type name.
+/// @{
+
+///
+class Validator {
+ protected:
+ /// This is the description function, if empty the description_ will be used
+ std::function<std::string()> desc_function_{[]() { return std::string{}; }};
+
+ /// This is the base function that is to be called.
+ /// Returns a string error message if validation fails.
+ std::function<std::string(std::string &)> func_{[](std::string &) { return std::string{}; }};
+ /// The name for search purposes of the Validator
+ std::string name_{};
+ /// A Validator will only apply to an indexed value (-1 is all elements)
+ int application_index_ = -1;
+ /// Enable for Validator to allow it to be disabled if need be
+ bool active_{true};
+ /// specify that a validator should not modify the input
+ bool non_modifying_{false};
+
+ public:
+ Validator() = default;
+ /// Construct a Validator with just the description string
+ explicit Validator(std::string validator_desc) : desc_function_([validator_desc]() { return validator_desc; }) {}
+ /// Construct Validator from basic information
+ Validator(std::function<std::string(std::string &)> op, std::string validator_desc, std::string validator_name = "")
+ : desc_function_([validator_desc]() { return validator_desc; }), func_(std::move(op)),
+ name_(std::move(validator_name)) {}
+ /// Set the Validator operation function
+ Validator &operation(std::function<std::string(std::string &)> op) {
+ func_ = std::move(op);
+ return *this;
+ }
+ /// This is the required operator for a Validator - provided to help
+ /// users (CLI11 uses the member `func` directly)
+ std::string operator()(std::string &str) const {
+ std::string retstring;
+ if(active_) {
+ if(non_modifying_) {
+ std::string value = str;
+ retstring = func_(value);
+ } else {
+ retstring = func_(str);
+ }
+ }
+ return retstring;
+ }
+
+ /// This is the required operator for a Validator - provided to help
+ /// users (CLI11 uses the member `func` directly)
+ std::string operator()(const std::string &str) const {
+ std::string value = str;
+ return (active_) ? func_(value) : std::string{};
+ }
+
+ /// Specify the type string
+ Validator &description(std::string validator_desc) {
+ desc_function_ = [validator_desc]() { return validator_desc; };
+ return *this;
+ }
+ /// Specify the type string
+ Validator description(std::string validator_desc) const {
+ Validator newval(*this);
+ newval.desc_function_ = [validator_desc]() { return validator_desc; };
+ return newval;
+ }
+ /// Generate type description information for the Validator
+ std::string get_description() const {
+ if(active_) {
+ return desc_function_();
+ }
+ return std::string{};
+ }
+ /// Specify the type string
+ Validator &name(std::string validator_name) {
+ name_ = std::move(validator_name);
+ return *this;
+ }
+ /// Specify the type string
+ Validator name(std::string validator_name) const {
+ Validator newval(*this);
+ newval.name_ = std::move(validator_name);
+ return newval;
+ }
+ /// Get the name of the Validator
+ const std::string &get_name() const { return name_; }
+ /// Specify whether the Validator is active or not
+ Validator &active(bool active_val = true) {
+ active_ = active_val;
+ return *this;
+ }
+ /// Specify whether the Validator is active or not
+ Validator active(bool active_val = true) const {
+ Validator newval(*this);
+ newval.active_ = active_val;
+ return newval;
+ }
+
+ /// Specify whether the Validator can be modifying or not
+ Validator &non_modifying(bool no_modify = true) {
+ non_modifying_ = no_modify;
+ return *this;
+ }
+ /// Specify the application index of a validator
+ Validator &application_index(int app_index) {
+ application_index_ = app_index;
+ return *this;
+ }
+ /// Specify the application index of a validator
+ Validator application_index(int app_index) const {
+ Validator newval(*this);
+ newval.application_index_ = app_index;
+ return newval;
+ }
+ /// Get the current value of the application index
+ int get_application_index() const { return application_index_; }
+ /// Get a boolean if the validator is active
+ bool get_active() const { return active_; }
+
+ /// Get a boolean if the validator is allowed to modify the input returns true if it can modify the input
+ bool get_modifying() const { return !non_modifying_; }
+
+ /// Combining validators is a new validator. Type comes from left validator if function, otherwise only set if the
+ /// same.
+ Validator operator&(const Validator &other) const {
+ Validator newval;
+
+ newval._merge_description(*this, other, " AND ");
+
+ // Give references (will make a copy in lambda function)
+ const std::function<std::string(std::string & filename)> &f1 = func_;
+ const std::function<std::string(std::string & filename)> &f2 = other.func_;
+
+ newval.func_ = [f1, f2](std::string &input) {
+ std::string s1 = f1(input);
+ std::string s2 = f2(input);
+ if(!s1.empty() && !s2.empty())
+ return std::string("(") + s1 + ") AND (" + s2 + ")";
+ else
+ return s1 + s2;
+ };
+
+ newval.active_ = (active_ & other.active_);
+ newval.application_index_ = application_index_;
+ return newval;
+ }
+
+ /// Combining validators is a new validator. Type comes from left validator if function, otherwise only set if the
+ /// same.
+ Validator operator|(const Validator &other) const {
+ Validator newval;
+
+ newval._merge_description(*this, other, " OR ");
+
+ // Give references (will make a copy in lambda function)
+ const std::function<std::string(std::string &)> &f1 = func_;
+ const std::function<std::string(std::string &)> &f2 = other.func_;
+
+ newval.func_ = [f1, f2](std::string &input) {
+ std::string s1 = f1(input);
+ std::string s2 = f2(input);
+ if(s1.empty() || s2.empty())
+ return std::string();
+
+ return std::string("(") + s1 + ") OR (" + s2 + ")";
+ };
+ newval.active_ = (active_ & other.active_);
+ newval.application_index_ = application_index_;
+ return newval;
+ }
+
+ /// Create a validator that fails when a given validator succeeds
+ Validator operator!() const {
+ Validator newval;
+ const std::function<std::string()> &dfunc1 = desc_function_;
+ newval.desc_function_ = [dfunc1]() {
+ auto str = dfunc1();
+ return (!str.empty()) ? std::string("NOT ") + str : std::string{};
+ };
+ // Give references (will make a copy in lambda function)
+ const std::function<std::string(std::string & res)> &f1 = func_;
+
+ newval.func_ = [f1, dfunc1](std::string &test) -> std::string {
+ std::string s1 = f1(test);
+ if(s1.empty()) {
+ return std::string("check ") + dfunc1() + " succeeded improperly";
+ }
+ return std::string{};
+ };
+ newval.active_ = active_;
+ newval.application_index_ = application_index_;
+ return newval;
+ }
+
+ private:
+ void _merge_description(const Validator &val1, const Validator &val2, const std::string &merger) {
+
+ const std::function<std::string()> &dfunc1 = val1.desc_function_;
+ const std::function<std::string()> &dfunc2 = val2.desc_function_;
+
+ desc_function_ = [=]() {
+ std::string f1 = dfunc1();
+ std::string f2 = dfunc2();
+ if((f1.empty()) || (f2.empty())) {
+ return f1 + f2;
+ }
+ return std::string(1, '(') + f1 + ')' + merger + '(' + f2 + ')';
+ };
+ }
+}; // namespace CLI
+
+/// Class wrapping some of the accessors of Validator
+class CustomValidator : public Validator {
+ public:
+};
+// The implementation of the built in validators is using the Validator class;
+// the user is only expected to use the const (static) versions (since there's no setup).
+// Therefore, this is in detail.
+namespace detail {
+
+/// CLI enumeration of different file types
+enum class path_type { nonexistent, file, directory };
+
+#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0
+/// get the type of the path from a file name
+inline path_type check_path(const char *file) noexcept {
+ std::error_code ec;
+ auto stat = std::filesystem::status(file, ec);
+ if(ec) {
+ return path_type::nonexistent;
+ }
+ switch(stat.type()) {
+ case std::filesystem::file_type::none:
+ case std::filesystem::file_type::not_found:
+ return path_type::nonexistent;
+ case std::filesystem::file_type::directory:
+ return path_type::directory;
+ case std::filesystem::file_type::symlink:
+ case std::filesystem::file_type::block:
+ case std::filesystem::file_type::character:
+ case std::filesystem::file_type::fifo:
+ case std::filesystem::file_type::socket:
+ case std::filesystem::file_type::regular:
+ case std::filesystem::file_type::unknown:
+ default:
+ return path_type::file;
+ }
+}
+#else
+/// get the type of the path from a file name
+inline path_type check_path(const char *file) noexcept {
+#if defined(_MSC_VER)
+ struct __stat64 buffer;
+ if(_stat64(file, &buffer) == 0) {
+ return ((buffer.st_mode & S_IFDIR) != 0) ? path_type::directory : path_type::file;
+ }
+#else
+ struct stat buffer;
+ if(stat(file, &buffer) == 0) {
+ return ((buffer.st_mode & S_IFDIR) != 0) ? path_type::directory : path_type::file;
+ }
+#endif
+ return path_type::nonexistent;
+}
+#endif
+/// Check for an existing file (returns error message if check fails)
+class ExistingFileValidator : public Validator {
+ public:
+ ExistingFileValidator() : Validator("FILE") {
+ func_ = [](std::string &filename) {
+ auto path_result = check_path(filename.c_str());
+ if(path_result == path_type::nonexistent) {
+ return "File does not exist: " + filename;
+ }
+ if(path_result == path_type::directory) {
+ return "File is actually a directory: " + filename;
+ }
+ return std::string();
+ };
+ }
+};
+
+/// Check for an existing directory (returns error message if check fails)
+class ExistingDirectoryValidator : public Validator {
+ public:
+ ExistingDirectoryValidator() : Validator("DIR") {
+ func_ = [](std::string &filename) {
+ auto path_result = check_path(filename.c_str());
+ if(path_result == path_type::nonexistent) {
+ return "Directory does not exist: " + filename;
+ }
+ if(path_result == path_type::file) {
+ return "Directory is actually a file: " + filename;
+ }
+ return std::string();
+ };
+ }
+};
+
+/// Check for an existing path
+class ExistingPathValidator : public Validator {
+ public:
+ ExistingPathValidator() : Validator("PATH(existing)") {
+ func_ = [](std::string &filename) {
+ auto path_result = check_path(filename.c_str());
+ if(path_result == path_type::nonexistent) {
+ return "Path does not exist: " + filename;
+ }
+ return std::string();
+ };
+ }
+};
+
+/// Check for an non-existing path
+class NonexistentPathValidator : public Validator {
+ public:
+ NonexistentPathValidator() : Validator("PATH(non-existing)") {
+ func_ = [](std::string &filename) {
+ auto path_result = check_path(filename.c_str());
+ if(path_result != path_type::nonexistent) {
+ return "Path already exists: " + filename;
+ }
+ return std::string();
+ };
+ }
+};
+
+/// Validate the given string is a legal ipv4 address
+class IPV4Validator : public Validator {
+ public:
+ IPV4Validator() : Validator("IPV4") {
+ func_ = [](std::string &ip_addr) {
+ auto result = CLI::detail::split(ip_addr, '.');
+ if(result.size() != 4) {
+ return std::string("Invalid IPV4 address must have four parts (") + ip_addr + ')';
+ }
+ int num;
+ for(const auto &var : result) {
+ bool retval = detail::lexical_cast(var, num);
+ if(!retval) {
+ return std::string("Failed parsing number (") + var + ')';
+ }
+ if(num < 0 || num > 255) {
+ return std::string("Each IP number must be between 0 and 255 ") + var;
+ }
+ }
+ return std::string();
+ };
+ }
+};
+
+} // namespace detail
+
+// Static is not needed here, because global const implies static.
+
+/// Check for existing file (returns error message if check fails)
+const detail::ExistingFileValidator ExistingFile;
+
+/// Check for an existing directory (returns error message if check fails)
+const detail::ExistingDirectoryValidator ExistingDirectory;
+
+/// Check for an existing path
+const detail::ExistingPathValidator ExistingPath;
+
+/// Check for an non-existing path
+const detail::NonexistentPathValidator NonexistentPath;
+
+/// Check for an IP4 address
+const detail::IPV4Validator ValidIPV4;
+
+/// Validate the input as a particular type
+template <typename DesiredType> class TypeValidator : public Validator {
+ public:
+ explicit TypeValidator(const std::string &validator_name) : Validator(validator_name) {
+ func_ = [](std::string &input_string) {
+ auto val = DesiredType();
+ if(!detail::lexical_cast(input_string, val)) {
+ return std::string("Failed parsing ") + input_string + " as a " + detail::type_name<DesiredType>();
+ }
+ return std::string();
+ };
+ }
+ TypeValidator() : TypeValidator(detail::type_name<DesiredType>()) {}
+};
+
+/// Check for a number
+const TypeValidator<double> Number("NUMBER");
+
+/// Modify a path if the file is a particular default location, can be used as Check or transform
+/// with the error return optionally disabled
+class FileOnDefaultPath : public Validator {
+ public:
+ explicit FileOnDefaultPath(std::string default_path, bool enableErrorReturn = true) : Validator("FILE") {
+ func_ = [default_path, enableErrorReturn](std::string &filename) {
+ auto path_result = detail::check_path(filename.c_str());
+ if(path_result == detail::path_type::nonexistent) {
+ std::string test_file_path = default_path;
+ if(default_path.back() != '/' && default_path.back() != '\\') {
+ // Add folder separator
+ test_file_path += '/';
+ }
+ test_file_path.append(filename);
+ path_result = detail::check_path(test_file_path.c_str());
+ if(path_result == detail::path_type::file) {
+ filename = test_file_path;
+ } else {
+ if(enableErrorReturn) {
+ return "File does not exist: " + filename;
+ }
+ }
+ }
+ return std::string{};
+ };
+ }
+};
+
+/// Produce a range (factory). Min and max are inclusive.
+class Range : public Validator {
+ public:
+ /// This produces a range with min and max inclusive.
+ ///
+ /// Note that the constructor is templated, but the struct is not, so C++17 is not
+ /// needed to provide nice syntax for Range(a,b).
+ template <typename T>
+ Range(T min_val, T max_val, const std::string &validator_name = std::string{}) : Validator(validator_name) {
+ if(validator_name.empty()) {
+ std::stringstream out;
+ out << detail::type_name<T>() << " in [" << min_val << " - " << max_val << "]";
+ description(out.str());
+ }
+
+ func_ = [min_val, max_val](std::string &input) {
+ T val;
+ bool converted = detail::lexical_cast(input, val);
+ if((!converted) || (val < min_val || val > max_val)) {
+ std::stringstream out;
+ out << "Value " << input << " not in range [";
+ out << min_val << " - " << max_val << "]";
+ return out.str();
+ }
+ return std::string{};
+ };
+ }
+
+ /// Range of one value is 0 to value
+ template <typename T>
+ explicit Range(T max_val, const std::string &validator_name = std::string{})
+ : Range(static_cast<T>(0), max_val, validator_name) {}
+};
+
+/// Check for a non negative number
+const Range NonNegativeNumber((std::numeric_limits<double>::max)(), "NONNEGATIVE");
+
+/// Check for a positive valued number (val>0.0), min() her is the smallest positive number
+const Range PositiveNumber((std::numeric_limits<double>::min)(), (std::numeric_limits<double>::max)(), "POSITIVE");
+
+/// Produce a bounded range (factory). Min and max are inclusive.
+class Bound : public Validator {
+ public:
+ /// This bounds a value with min and max inclusive.
+ ///
+ /// Note that the constructor is templated, but the struct is not, so C++17 is not
+ /// needed to provide nice syntax for Range(a,b).
+ template <typename T> Bound(T min_val, T max_val) {
+ std::stringstream out;
+ out << detail::type_name<T>() << " bounded to [" << min_val << " - " << max_val << "]";
+ description(out.str());
+
+ func_ = [min_val, max_val](std::string &input) {
+ T val;
+ bool converted = detail::lexical_cast(input, val);
+ if(!converted) {
+ return std::string("Value ") + input + " could not be converted";
+ }
+ if(val < min_val)
+ input = detail::to_string(min_val);
+ else if(val > max_val)
+ input = detail::to_string(max_val);
+
+ return std::string{};
+ };
+ }
+
+ /// Range of one value is 0 to value
+ template <typename T> explicit Bound(T max_val) : Bound(static_cast<T>(0), max_val) {}
+};
+
+namespace detail {
+template <typename T,
+ enable_if_t<is_copyable_ptr<typename std::remove_reference<T>::type>::value, detail::enabler> = detail::dummy>
+auto smart_deref(T value) -> decltype(*value) {
+ return *value;
+}
+
+template <
+ typename T,
+ enable_if_t<!is_copyable_ptr<typename std::remove_reference<T>::type>::value, detail::enabler> = detail::dummy>
+typename std::remove_reference<T>::type &smart_deref(T &value) {
+ return value;
+}
+/// Generate a string representation of a set
+template <typename T> std::string generate_set(const T &set) {
+ using element_t = typename detail::element_type<T>::type;
+ using iteration_type_t = typename detail::pair_adaptor<element_t>::value_type; // the type of the object pair
+ std::string out(1, '{');
+ out.append(detail::join(
+ detail::smart_deref(set),
+ [](const iteration_type_t &v) { return detail::pair_adaptor<element_t>::first(v); },
+ ","));
+ out.push_back('}');
+ return out;
+}
+
+/// Generate a string representation of a map
+template <typename T> std::string generate_map(const T &map, bool key_only = false) {
+ using element_t = typename detail::element_type<T>::type;
+ using iteration_type_t = typename detail::pair_adaptor<element_t>::value_type; // the type of the object pair
+ std::string out(1, '{');
+ out.append(detail::join(
+ detail::smart_deref(map),
+ [key_only](const iteration_type_t &v) {
+ std::string res{detail::to_string(detail::pair_adaptor<element_t>::first(v))};
+
+ if(!key_only) {
+ res.append("->");
+ res += detail::to_string(detail::pair_adaptor<element_t>::second(v));
+ }
+ return res;
+ },
+ ","));
+ out.push_back('}');
+ return out;
+}
+
+template <typename C, typename V> struct has_find {
+ template <typename CC, typename VV>
+ static auto test(int) -> decltype(std::declval<CC>().find(std::declval<VV>()), std::true_type());
+ template <typename, typename> static auto test(...) -> decltype(std::false_type());
+
+ static const auto value = decltype(test<C, V>(0))::value;
+ using type = std::integral_constant<bool, value>;
+};
+
+/// A search function
+template <typename T, typename V, enable_if_t<!has_find<T, V>::value, detail::enabler> = detail::dummy>
+auto search(const T &set, const V &val) -> std::pair<bool, decltype(std::begin(detail::smart_deref(set)))> {
+ using element_t = typename detail::element_type<T>::type;
+ auto &setref = detail::smart_deref(set);
+ auto it = std::find_if(std::begin(setref), std::end(setref), [&val](decltype(*std::begin(setref)) v) {
+ return (detail::pair_adaptor<element_t>::first(v) == val);
+ });
+ return {(it != std::end(setref)), it};
+}
+
+/// A search function that uses the built in find function
+template <typename T, typename V, enable_if_t<has_find<T, V>::value, detail::enabler> = detail::dummy>
+auto search(const T &set, const V &val) -> std::pair<bool, decltype(std::begin(detail::smart_deref(set)))> {
+ auto &setref = detail::smart_deref(set);
+ auto it = setref.find(val);
+ return {(it != std::end(setref)), it};
+}
+
+/// A search function with a filter function
+template <typename T, typename V>
+auto search(const T &set, const V &val, const std::function<V(V)> &filter_function)
+ -> std::pair<bool, decltype(std::begin(detail::smart_deref(set)))> {
+ using element_t = typename detail::element_type<T>::type;
+ // do the potentially faster first search
+ auto res = search(set, val);
+ if((res.first) || (!(filter_function))) {
+ return res;
+ }
+ // if we haven't found it do the longer linear search with all the element translations
+ auto &setref = detail::smart_deref(set);
+ auto it = std::find_if(std::begin(setref), std::end(setref), [&](decltype(*std::begin(setref)) v) {
+ V a{detail::pair_adaptor<element_t>::first(v)};
+ a = filter_function(a);
+ return (a == val);
+ });
+ return {(it != std::end(setref)), it};
+}
+
+// the following suggestion was made by Nikita Ofitserov(@himikof)
+// done in templates to prevent compiler warnings on negation of unsigned numbers
+
+/// Do a check for overflow on signed numbers
+template <typename T>
+inline typename std::enable_if<std::is_signed<T>::value, T>::type overflowCheck(const T &a, const T &b) {
+ if((a > 0) == (b > 0)) {
+ return ((std::numeric_limits<T>::max)() / (std::abs)(a) < (std::abs)(b));
+ } else {
+ return ((std::numeric_limits<T>::min)() / (std::abs)(a) > -(std::abs)(b));
+ }
+}
+/// Do a check for overflow on unsigned numbers
+template <typename T>
+inline typename std::enable_if<!std::is_signed<T>::value, T>::type overflowCheck(const T &a, const T &b) {
+ return ((std::numeric_limits<T>::max)() / a < b);
+}
+
+/// Performs a *= b; if it doesn't cause integer overflow. Returns false otherwise.
+template <typename T> typename std::enable_if<std::is_integral<T>::value, bool>::type checked_multiply(T &a, T b) {
+ if(a == 0 || b == 0 || a == 1 || b == 1) {
+ a *= b;
+ return true;
+ }
+ if(a == (std::numeric_limits<T>::min)() || b == (std::numeric_limits<T>::min)()) {
+ return false;
+ }
+ if(overflowCheck(a, b)) {
+ return false;
+ }
+ a *= b;
+ return true;
+}
+
+/// Performs a *= b; if it doesn't equal infinity. Returns false otherwise.
+template <typename T>
+typename std::enable_if<std::is_floating_point<T>::value, bool>::type checked_multiply(T &a, T b) {
+ T c = a * b;
+ if(std::isinf(c) && !std::isinf(a) && !std::isinf(b)) {
+ return false;
+ }
+ a = c;
+ return true;
+}
+
+} // namespace detail
+/// Verify items are in a set
+class IsMember : public Validator {
+ public:
+ using filter_fn_t = std::function<std::string(std::string)>;
+
+ /// This allows in-place construction using an initializer list
+ template <typename T, typename... Args>
+ IsMember(std::initializer_list<T> values, Args &&...args)
+ : IsMember(std::vector<T>(values), std::forward<Args>(args)...) {}
+
+ /// This checks to see if an item is in a set (empty function)
+ template <typename T> explicit IsMember(T &&set) : IsMember(std::forward<T>(set), nullptr) {}
+
+ /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter
+ /// both sides of the comparison before computing the comparison.
+ template <typename T, typename F> explicit IsMember(T set, F filter_function) {
+
+ // Get the type of the contained item - requires a container have ::value_type
+ // if the type does not have first_type and second_type, these are both value_type
+ using element_t = typename detail::element_type<T>::type; // Removes (smart) pointers if needed
+ using item_t = typename detail::pair_adaptor<element_t>::first_type; // Is value_type if not a map
+
+ using local_item_t = typename IsMemberType<item_t>::type; // This will convert bad types to good ones
+ // (const char * to std::string)
+
+ // Make a local copy of the filter function, using a std::function if not one already
+ std::function<local_item_t(local_item_t)> filter_fn = filter_function;
+
+ // This is the type name for help, it will take the current version of the set contents
+ desc_function_ = [set]() { return detail::generate_set(detail::smart_deref(set)); };
+
+ // This is the function that validates
+ // It stores a copy of the set pointer-like, so shared_ptr will stay alive
+ func_ = [set, filter_fn](std::string &input) {
+ local_item_t b;
+ if(!detail::lexical_cast(input, b)) {
+ throw ValidationError(input); // name is added later
+ }
+ if(filter_fn) {
+ b = filter_fn(b);
+ }
+ auto res = detail::search(set, b, filter_fn);
+ if(res.first) {
+ // Make sure the version in the input string is identical to the one in the set
+ if(filter_fn) {
+ input = detail::value_string(detail::pair_adaptor<element_t>::first(*(res.second)));
+ }
+
+ // Return empty error string (success)
+ return std::string{};
+ }
+
+ // If you reach this point, the result was not found
+ return input + " not in " + detail::generate_set(detail::smart_deref(set));
+ };
+ }
+
+ /// You can pass in as many filter functions as you like, they nest (string only currently)
+ template <typename T, typename... Args>
+ IsMember(T &&set, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other)
+ : IsMember(
+ std::forward<T>(set),
+ [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); },
+ other...) {}
+};
+
+/// definition of the default transformation object
+template <typename T> using TransformPairs = std::vector<std::pair<std::string, T>>;
+
+/// Translate named items to other or a value set
+class Transformer : public Validator {
+ public:
+ using filter_fn_t = std::function<std::string(std::string)>;
+
+ /// This allows in-place construction
+ template <typename... Args>
+ Transformer(std::initializer_list<std::pair<std::string, std::string>> values, Args &&...args)
+ : Transformer(TransformPairs<std::string>(values), std::forward<Args>(args)...) {}
+
+ /// direct map of std::string to std::string
+ template <typename T> explicit Transformer(T &&mapping) : Transformer(std::forward<T>(mapping), nullptr) {}
+
+ /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter
+ /// both sides of the comparison before computing the comparison.
+ template <typename T, typename F> explicit Transformer(T mapping, F filter_function) {
+
+ static_assert(detail::pair_adaptor<typename detail::element_type<T>::type>::value,
+ "mapping must produce value pairs");
+ // Get the type of the contained item - requires a container have ::value_type
+ // if the type does not have first_type and second_type, these are both value_type
+ using element_t = typename detail::element_type<T>::type; // Removes (smart) pointers if needed
+ using item_t = typename detail::pair_adaptor<element_t>::first_type; // Is value_type if not a map
+ using local_item_t = typename IsMemberType<item_t>::type; // Will convert bad types to good ones
+ // (const char * to std::string)
+
+ // Make a local copy of the filter function, using a std::function if not one already
+ std::function<local_item_t(local_item_t)> filter_fn = filter_function;
+
+ // This is the type name for help, it will take the current version of the set contents
+ desc_function_ = [mapping]() { return detail::generate_map(detail::smart_deref(mapping)); };
+
+ func_ = [mapping, filter_fn](std::string &input) {
+ local_item_t b;
+ if(!detail::lexical_cast(input, b)) {
+ return std::string();
+ // there is no possible way we can match anything in the mapping if we can't convert so just return
+ }
+ if(filter_fn) {
+ b = filter_fn(b);
+ }
+ auto res = detail::search(mapping, b, filter_fn);
+ if(res.first) {
+ input = detail::value_string(detail::pair_adaptor<element_t>::second(*res.second));
+ }
+ return std::string{};
+ };
+ }
+
+ /// You can pass in as many filter functions as you like, they nest
+ template <typename T, typename... Args>
+ Transformer(T &&mapping, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other)
+ : Transformer(
+ std::forward<T>(mapping),
+ [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); },
+ other...) {}
+};
+
+/// translate named items to other or a value set
+class CheckedTransformer : public Validator {
+ public:
+ using filter_fn_t = std::function<std::string(std::string)>;
+
+ /// This allows in-place construction
+ template <typename... Args>
+ CheckedTransformer(std::initializer_list<std::pair<std::string, std::string>> values, Args &&...args)
+ : CheckedTransformer(TransformPairs<std::string>(values), std::forward<Args>(args)...) {}
+
+ /// direct map of std::string to std::string
+ template <typename T> explicit CheckedTransformer(T mapping) : CheckedTransformer(std::move(mapping), nullptr) {}
+
+ /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter
+ /// both sides of the comparison before computing the comparison.
+ template <typename T, typename F> explicit CheckedTransformer(T mapping, F filter_function) {
+
+ static_assert(detail::pair_adaptor<typename detail::element_type<T>::type>::value,
+ "mapping must produce value pairs");
+ // Get the type of the contained item - requires a container have ::value_type
+ // if the type does not have first_type and second_type, these are both value_type
+ using element_t = typename detail::element_type<T>::type; // Removes (smart) pointers if needed
+ using item_t = typename detail::pair_adaptor<element_t>::first_type; // Is value_type if not a map
+ using local_item_t = typename IsMemberType<item_t>::type; // Will convert bad types to good ones
+ // (const char * to std::string)
+ using iteration_type_t = typename detail::pair_adaptor<element_t>::value_type; // the type of the object pair
+
+ // Make a local copy of the filter function, using a std::function if not one already
+ std::function<local_item_t(local_item_t)> filter_fn = filter_function;
+
+ auto tfunc = [mapping]() {
+ std::string out("value in ");
+ out += detail::generate_map(detail::smart_deref(mapping)) + " OR {";
+ out += detail::join(
+ detail::smart_deref(mapping),
+ [](const iteration_type_t &v) { return detail::to_string(detail::pair_adaptor<element_t>::second(v)); },
+ ",");
+ out.push_back('}');
+ return out;
+ };
+
+ desc_function_ = tfunc;
+
+ func_ = [mapping, tfunc, filter_fn](std::string &input) {
+ local_item_t b;
+ bool converted = detail::lexical_cast(input, b);
+ if(converted) {
+ if(filter_fn) {
+ b = filter_fn(b);
+ }
+ auto res = detail::search(mapping, b, filter_fn);
+ if(res.first) {
+ input = detail::value_string(detail::pair_adaptor<element_t>::second(*res.second));
+ return std::string{};
+ }
+ }
+ for(const auto &v : detail::smart_deref(mapping)) {
+ auto output_string = detail::value_string(detail::pair_adaptor<element_t>::second(v));
+ if(output_string == input) {
+ return std::string();
+ }
+ }
+
+ return "Check " + input + " " + tfunc() + " FAILED";
+ };
+ }
+
+ /// You can pass in as many filter functions as you like, they nest
+ template <typename T, typename... Args>
+ CheckedTransformer(T &&mapping, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other)
+ : CheckedTransformer(
+ std::forward<T>(mapping),
+ [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); },
+ other...) {}
+};
+
+/// Helper function to allow ignore_case to be passed to IsMember or Transform
+inline std::string ignore_case(std::string item) { return detail::to_lower(item); }
+
+/// Helper function to allow ignore_underscore to be passed to IsMember or Transform
+inline std::string ignore_underscore(std::string item) { return detail::remove_underscore(item); }
+
+/// Helper function to allow checks to ignore spaces to be passed to IsMember or Transform
+inline std::string ignore_space(std::string item) {
+ item.erase(std::remove(std::begin(item), std::end(item), ' '), std::end(item));
+ item.erase(std::remove(std::begin(item), std::end(item), '\t'), std::end(item));
+ return item;
+}
+
+/// Multiply a number by a factor using given mapping.
+/// Can be used to write transforms for SIZE or DURATION inputs.
+///
+/// Example:
+/// With mapping = `{"b"->1, "kb"->1024, "mb"->1024*1024}`
+/// one can recognize inputs like "100", "12kb", "100 MB",
+/// that will be automatically transformed to 100, 14448, 104857600.
+///
+/// Output number type matches the type in the provided mapping.
+/// Therefore, if it is required to interpret real inputs like "0.42 s",
+/// the mapping should be of a type <string, float> or <string, double>.
+class AsNumberWithUnit : public Validator {
+ public:
+ /// Adjust AsNumberWithUnit behavior.
+ /// CASE_SENSITIVE/CASE_INSENSITIVE controls how units are matched.
+ /// UNIT_OPTIONAL/UNIT_REQUIRED throws ValidationError
+ /// if UNIT_REQUIRED is set and unit literal is not found.
+ enum Options {
+ CASE_SENSITIVE = 0,
+ CASE_INSENSITIVE = 1,
+ UNIT_OPTIONAL = 0,
+ UNIT_REQUIRED = 2,
+ DEFAULT = CASE_INSENSITIVE | UNIT_OPTIONAL
+ };
+
+ template <typename Number>
+ explicit AsNumberWithUnit(std::map<std::string, Number> mapping,
+ Options opts = DEFAULT,
+ const std::string &unit_name = "UNIT") {
+ description(generate_description<Number>(unit_name, opts));
+ validate_mapping(mapping, opts);
+
+ // transform function
+ func_ = [mapping, opts](std::string &input) -> std::string {
+ Number num;
+
+ detail::rtrim(input);
+ if(input.empty()) {
+ throw ValidationError("Input is empty");
+ }
+
+ // Find split position between number and prefix
+ auto unit_begin = input.end();
+ while(unit_begin > input.begin() && std::isalpha(*(unit_begin - 1), std::locale())) {
+ --unit_begin;
+ }
+
+ std::string unit{unit_begin, input.end()};
+ input.resize(static_cast<std::size_t>(std::distance(input.begin(), unit_begin)));
+ detail::trim(input);
+
+ if(opts & UNIT_REQUIRED && unit.empty()) {
+ throw ValidationError("Missing mandatory unit");
+ }
+ if(opts & CASE_INSENSITIVE) {
+ unit = detail::to_lower(unit);
+ }
+ if(unit.empty()) {
+ if(!detail::lexical_cast(input, num)) {
+ throw ValidationError(std::string("Value ") + input + " could not be converted to " +
+ detail::type_name<Number>());
+ }
+ // No need to modify input if no unit passed
+ return {};
+ }
+
+ // find corresponding factor
+ auto it = mapping.find(unit);
+ if(it == mapping.end()) {
+ throw ValidationError(unit +
+ " unit not recognized. "
+ "Allowed values: " +
+ detail::generate_map(mapping, true));
+ }
+
+ if(!input.empty()) {
+ bool converted = detail::lexical_cast(input, num);
+ if(!converted) {
+ throw ValidationError(std::string("Value ") + input + " could not be converted to " +
+ detail::type_name<Number>());
+ }
+ // perform safe multiplication
+ bool ok = detail::checked_multiply(num, it->second);
+ if(!ok) {
+ throw ValidationError(detail::to_string(num) + " multiplied by " + unit +
+ " factor would cause number overflow. Use smaller value.");
+ }
+ } else {
+ num = static_cast<Number>(it->second);
+ }
+
+ input = detail::to_string(num);
+
+ return {};
+ };
+ }
+
+ private:
+ /// Check that mapping contains valid units.
+ /// Update mapping for CASE_INSENSITIVE mode.
+ template <typename Number> static void validate_mapping(std::map<std::string, Number> &mapping, Options opts) {
+ for(auto &kv : mapping) {
+ if(kv.first.empty()) {
+ throw ValidationError("Unit must not be empty.");
+ }
+ if(!detail::isalpha(kv.first)) {
+ throw ValidationError("Unit must contain only letters.");
+ }
+ }
+
+ // make all units lowercase if CASE_INSENSITIVE
+ if(opts & CASE_INSENSITIVE) {
+ std::map<std::string, Number> lower_mapping;
+ for(auto &kv : mapping) {
+ auto s = detail::to_lower(kv.first);
+ if(lower_mapping.count(s)) {
+ throw ValidationError(std::string("Several matching lowercase unit representations are found: ") +
+ s);
+ }
+ lower_mapping[detail::to_lower(kv.first)] = kv.second;
+ }
+ mapping = std::move(lower_mapping);
+ }
+ }
+
+ /// Generate description like this: NUMBER [UNIT]
+ template <typename Number> static std::string generate_description(const std::string &name, Options opts) {
+ std::stringstream out;
+ out << detail::type_name<Number>() << ' ';
+ if(opts & UNIT_REQUIRED) {
+ out << name;
+ } else {
+ out << '[' << name << ']';
+ }
+ return out.str();
+ }
+};
+
+/// Converts a human-readable size string (with unit literal) to uin64_t size.
+/// Example:
+/// "100" => 100
+/// "1 b" => 100
+/// "10Kb" => 10240 // you can configure this to be interpreted as kilobyte (*1000) or kibibyte (*1024)
+/// "10 KB" => 10240
+/// "10 kb" => 10240
+/// "10 kib" => 10240 // *i, *ib are always interpreted as *bibyte (*1024)
+/// "10kb" => 10240
+/// "2 MB" => 2097152
+/// "2 EiB" => 2^61 // Units up to exibyte are supported
+class AsSizeValue : public AsNumberWithUnit {
+ public:
+ using result_t = std::uint64_t;
+
+ /// If kb_is_1000 is true,
+ /// interpret 'kb', 'k' as 1000 and 'kib', 'ki' as 1024
+ /// (same applies to higher order units as well).
+ /// Otherwise, interpret all literals as factors of 1024.
+ /// The first option is formally correct, but
+ /// the second interpretation is more wide-spread
+ /// (see https://en.wikipedia.org/wiki/Binary_prefix).
+ explicit AsSizeValue(bool kb_is_1000) : AsNumberWithUnit(get_mapping(kb_is_1000)) {
+ if(kb_is_1000) {
+ description("SIZE [b, kb(=1000b), kib(=1024b), ...]");
+ } else {
+ description("SIZE [b, kb(=1024b), ...]");
+ }
+ }
+
+ private:
+ /// Get <size unit, factor> mapping
+ static std::map<std::string, result_t> init_mapping(bool kb_is_1000) {
+ std::map<std::string, result_t> m;
+ result_t k_factor = kb_is_1000 ? 1000 : 1024;
+ result_t ki_factor = 1024;
+ result_t k = 1;
+ result_t ki = 1;
+ m["b"] = 1;
+ for(std::string p : {"k", "m", "g", "t", "p", "e"}) {
+ k *= k_factor;
+ ki *= ki_factor;
+ m[p] = k;
+ m[p + "b"] = k;
+ m[p + "i"] = ki;
+ m[p + "ib"] = ki;
+ }
+ return m;
+ }
+
+ /// Cache calculated mapping
+ static std::map<std::string, result_t> get_mapping(bool kb_is_1000) {
+ if(kb_is_1000) {
+ static auto m = init_mapping(true);
+ return m;
+ } else {
+ static auto m = init_mapping(false);
+ return m;
+ }
+ }
+};
+
+namespace detail {
+/// Split a string into a program name and command line arguments
+/// the string is assumed to contain a file name followed by other arguments
+/// the return value contains is a pair with the first argument containing the program name and the second
+/// everything else.
+inline std::pair<std::string, std::string> split_program_name(std::string commandline) {
+ // try to determine the programName
+ std::pair<std::string, std::string> vals;
+ trim(commandline);
+ auto esp = commandline.find_first_of(' ', 1);
+ while(detail::check_path(commandline.substr(0, esp).c_str()) != path_type::file) {
+ esp = commandline.find_first_of(' ', esp + 1);
+ if(esp == std::string::npos) {
+ // if we have reached the end and haven't found a valid file just assume the first argument is the
+ // program name
+ if(commandline[0] == '"' || commandline[0] == '\'' || commandline[0] == '`') {
+ bool embeddedQuote = false;
+ auto keyChar = commandline[0];
+ auto end = commandline.find_first_of(keyChar, 1);
+ while((end != std::string::npos) && (commandline[end - 1] == '\\')) { // deal with escaped quotes
+ end = commandline.find_first_of(keyChar, end + 1);
+ embeddedQuote = true;
+ }
+ if(end != std::string::npos) {
+ vals.first = commandline.substr(1, end - 1);
+ esp = end + 1;
+ if(embeddedQuote) {
+ vals.first = find_and_replace(vals.first, std::string("\\") + keyChar, std::string(1, keyChar));
+ }
+ } else {
+ esp = commandline.find_first_of(' ', 1);
+ }
+ } else {
+ esp = commandline.find_first_of(' ', 1);
+ }
+
+ break;
+ }
+ }
+ if(vals.first.empty()) {
+ vals.first = commandline.substr(0, esp);
+ rtrim(vals.first);
+ }
+
+ // strip the program name
+ vals.second = (esp != std::string::npos) ? commandline.substr(esp + 1) : std::string{};
+ ltrim(vals.second);
+ return vals;
+}
+
+} // namespace detail
+/// @}
+
+// [CLI11:validators_hpp:end]
+} // namespace CLI
diff --git a/src/third-party/CLI/Version.hpp b/src/third-party/CLI/Version.hpp
new file mode 100644
index 0000000..b03141b
--- /dev/null
+++ b/src/third-party/CLI/Version.hpp
@@ -0,0 +1,16 @@
+// Copyright (c) 2017-2022, University of Cincinnati, developed by Henry Schreiner
+// under NSF AWARD 1414736 and by the respective contributors.
+// All rights reserved.
+//
+// SPDX-License-Identifier: BSD-3-Clause
+
+#pragma once
+
+// [CLI11:version_hpp:verbatim]
+
+#define CLI11_VERSION_MAJOR 2
+#define CLI11_VERSION_MINOR 2
+#define CLI11_VERSION_PATCH 0
+#define CLI11_VERSION "2.2.0"
+
+// [CLI11:version_hpp:end]