ladybird/Userland/Libraries/LibCore/ArgsParser.h
Shannon Booth 88b343061e LibCore: Make short_name optional for ArgsParser
This allows us to not need to pass through a 0 in many cases for
options which do not support a short value.
2024-04-22 08:10:08 +02:00

218 lines
8.7 KiB
C++

/*
* Copyright (c) 2020, Sergey Bugaev <bugaevc@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteString.h>
#include <AK/Concepts.h>
#include <AK/Function.h>
#include <AK/Vector.h>
#include <LibMain/Main.h>
#include <stdio.h>
namespace Core {
class ArgsParser {
public:
ArgsParser();
enum class Required {
Yes,
No
};
enum class FailureBehavior {
PrintUsageAndExit,
PrintUsage,
Exit,
Ignore,
};
enum class OptionArgumentMode {
None,
Optional,
Required,
};
/// When an option is hidden.
/// If the hide mode is not None, then it's always hidden from the usage/synopsis.
enum class OptionHideMode {
None,
Markdown,
CommandLineAndMarkdown,
};
struct Option {
OptionArgumentMode argument_mode { OptionArgumentMode::Required };
char const* help_string { nullptr };
char const* long_name { nullptr };
char short_name { 0 };
char const* value_name { nullptr };
Function<ErrorOr<bool>(StringView)> accept_value;
OptionHideMode hide_mode { OptionHideMode::None };
ByteString name_for_display() const
{
if (long_name)
return ByteString::formatted("--{}", long_name);
return ByteString::formatted("-{:c}", short_name);
}
};
struct Arg {
char const* help_string { nullptr };
char const* name { nullptr };
int min_values { 0 };
int max_values { 1 };
Function<ErrorOr<bool>(StringView)> accept_value;
};
bool parse(Span<StringView> arguments, FailureBehavior failure_behavior = FailureBehavior::PrintUsageAndExit);
bool parse(Main::Arguments const& arguments, FailureBehavior failure_behavior = FailureBehavior::PrintUsageAndExit)
{
return parse(arguments.strings, failure_behavior);
}
// *Without* trailing newline!
void set_general_help(char const* help_string) { m_general_help = help_string; }
void set_stop_on_first_non_option(bool stop_on_first_non_option) { m_stop_on_first_non_option = stop_on_first_non_option; }
void print_usage(FILE*, StringView argv0);
void print_usage_terminal(FILE*, StringView argv0);
void print_usage_markdown(FILE*, StringView argv0);
void print_version(FILE*);
void add_option(Option&&);
void add_ignored(char const* long_name, char short_name = 0, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(bool& value, char const* help_string, char const* long_name, char short_name = 0, OptionHideMode hide_mode = OptionHideMode::None);
/// If the option is present, set the enum to have the given `new_value`.
template<Enum T>
void add_option(T& value, T new_value, char const* help_string, char const* long_name, char short_name = 0, OptionHideMode hide_mode = OptionHideMode::None)
{
add_option({ .argument_mode = Core::ArgsParser::OptionArgumentMode::None,
.help_string = help_string,
.long_name = long_name,
.short_name = short_name,
.accept_value = [&](StringView) {
value = new_value;
return true;
},
.hide_mode = hide_mode });
}
template<Integral I>
void add_option(I& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None)
{
Option option {
OptionArgumentMode::Required,
help_string,
long_name,
short_name,
value_name,
[&value](StringView view) -> ErrorOr<bool> {
Optional<I> opt = view.to_number<I>();
value = opt.value_or(0);
return opt.has_value();
},
hide_mode,
};
add_option(move(option));
}
template<Integral I>
void add_option(Optional<I>& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None)
{
Option option {
OptionArgumentMode::Required,
help_string,
long_name,
short_name,
value_name,
[&value](StringView view) -> ErrorOr<bool> {
value = view.to_number<I>();
return value.has_value();
},
hide_mode,
};
add_option(move(option));
}
template<Integral I>
void add_option(Vector<I>& values, char const* help_string, char const* long_name, char short_name, char const* value_name, char separator = ',', OptionHideMode hide_mode = OptionHideMode::None)
{
Option option {
OptionArgumentMode::Required,
help_string,
long_name,
short_name,
value_name,
[&values, separator](StringView s) -> ErrorOr<bool> {
bool parsed_all_values = true;
s.for_each_split_view(separator, SplitBehavior::Nothing, [&](auto value) {
if (auto maybe_value = value.template to_number<I>(); maybe_value.has_value())
values.append(*maybe_value);
else
parsed_all_values = false;
});
return parsed_all_values;
},
hide_mode
};
add_option(move(option));
}
void add_option(ByteString& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(String& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(StringView& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(Optional<StringView>& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(double& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_option(Optional<double>& value, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
// Note: This option is being used when we expect the user to use the same option
// multiple times (e.g. "program --option=example --option=anotherexample ...").
void add_option(Vector<ByteString>& values, char const* help_string, char const* long_name, char short_name, char const* value_name, OptionHideMode hide_mode = OptionHideMode::None);
void add_positional_argument(Arg&&);
void add_positional_argument(ByteString& value, char const* help_string, char const* name, Required required = Required::Yes);
void add_positional_argument(StringView& value, char const* help_string, char const* name, Required required = Required::Yes);
void add_positional_argument(String& value, char const* help_string, char const* name, Required required = Required::Yes);
template<Integral I>
void add_positional_argument(I& value, char const* help_string, char const* name, Required required = Required::Yes)
{
Arg arg {
help_string,
name,
required == Required::Yes ? 1 : 0,
1,
[&value](StringView view) -> ErrorOr<bool> {
Optional<I> opt = view.to_number<I>();
value = opt.value_or(0);
return opt.has_value();
},
};
add_positional_argument(move(arg));
}
void add_positional_argument(double& value, char const* help_string, char const* name, Required required = Required::Yes);
void add_positional_argument(Vector<ByteString>& value, char const* help_string, char const* name, Required required = Required::Yes);
void add_positional_argument(Vector<StringView>& value, char const* help_string, char const* name, Required required = Required::Yes);
void add_positional_argument(Vector<String>& value, char const* help_string, char const* name, Required required = Required::Yes);
private:
void autocomplete(FILE*, StringView program_name, ReadonlySpan<StringView> remaining_arguments);
Vector<Option> m_options;
Vector<Arg> m_positional_args;
bool m_show_help { false };
bool m_show_version { false };
bool m_perform_autocomplete { false };
char const* m_general_help { nullptr };
bool m_stop_on_first_non_option { false };
};
}