#ifndef parameters_parser_hh_INCLUDED #define parameters_parser_hh_INCLUDED #include "exception.hh" #include "hash_map.hh" #include "meta.hh" #include "array_view.hh" #include "optional.hh" #include "flags.hh" #include "string.hh" #include "string_utils.hh" namespace Kakoune { using ParameterList = ConstArrayView; struct parameter_error : public runtime_error { using runtime_error::runtime_error; }; struct unknown_option : public parameter_error { unknown_option(StringView name) : parameter_error(format("unknown option '{}'", name)) {} }; struct missing_option_value: public parameter_error { missing_option_value(StringView name) : parameter_error(format("missing value for option '{}'", name)) {} }; struct wrong_argument_count : public parameter_error { wrong_argument_count() : parameter_error("wrong argument count") {} }; struct SwitchDesc { bool takes_arg; String description; }; using SwitchMap = HashMap; String generate_switches_doc(const SwitchMap& opts); struct ParameterDesc { enum class Flags { None = 0, SwitchesOnlyAtStart = 1, SwitchesAsPositional = 2, }; friend constexpr bool with_bit_ops(Meta::Type) { return true; } SwitchMap switches; Flags flags = Flags::None; size_t min_positionals = 0; size_t max_positionals = -1; }; // ParametersParser provides tools to parse command parameters. // There are 3 types of parameters: // * unnamed options, which are accessed by position (ignoring named ones) // * named boolean options, which are enabled using '-name' syntax // * named string options, which are defined using '-name value' syntax struct ParametersParser { // the options defines named options, if they map to true, then // they are understood as string options, else they are understood as // boolean option. ParametersParser(ParameterList params, const ParameterDesc& desc); // Return a valid optional if the switch was given, with // a non empty StringView value if the switch took an argument. Optional get_switch(StringView name) const; struct iterator : std::iterator { iterator(const ParametersParser& parser, size_t index) : m_parser(parser), m_index(index) {} const String& operator*() const { return m_parser[m_index]; } const String* operator->() const { return &m_parser[m_index]; } iterator& operator++() { ++m_index; return *this; } iterator operator++(int) { auto copy = *this; ++m_index; return copy; } bool operator==(const iterator& other) const { kak_assert(&m_parser == &other.m_parser); return m_index == other.m_index; } bool operator!=(const iterator& other) const { return not (*this == other); } private: const ParametersParser& m_parser; size_t m_index; }; // positional parameters count size_t positional_count() const { return m_positional_indices.size(); } // access positional parameter by index const String& operator[] (size_t index) const { kak_assert(index < positional_count()); return m_params[m_positional_indices[index]]; } ConstArrayView positionals_from(size_t first) const { kak_assert(m_desc.flags & (ParameterDesc::Flags::SwitchesOnlyAtStart | ParameterDesc::Flags::SwitchesAsPositional)); return m_params.subrange(first < m_positional_indices.size() ? m_positional_indices[first] : -1); } iterator begin() const { return iterator(*this, 0); } iterator end() const { return iterator(*this, m_positional_indices.size()); } private: ParameterList m_params; Vector m_positional_indices; const ParameterDesc& m_desc; }; } #endif // parameters_parser_hh_INCLUDED