Mercurial > minori
diff dep/toml11/toml/result.hpp @ 318:3b355fa948c7
config: use TOML instead of INI
unfortunately, INI is not enough, and causes some paths including
semicolons to break with our current storage of the library folders.
so, I decided to switch to TOML which does support real arrays...
| author | Paper <paper@paper.us.eu.org> |
|---|---|
| date | Wed, 12 Jun 2024 05:25:41 -0400 |
| parents | |
| children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/dep/toml11/toml/result.hpp Wed Jun 12 05:25:41 2024 -0400 @@ -0,0 +1,717 @@ +// Copyright Toru Niina 2017. +// Distributed under the MIT License. +#ifndef TOML11_RESULT_HPP +#define TOML11_RESULT_HPP +#include "traits.hpp" +#include <type_traits> +#include <stdexcept> +#include <utility> +#include <new> +#include <string> +#include <sstream> +#include <cassert> + +namespace toml +{ + +template<typename T> +struct success +{ + using value_type = T; + value_type value; + + explicit success(const value_type& v) + noexcept(std::is_nothrow_copy_constructible<value_type>::value) + : value(v) + {} + explicit success(value_type&& v) + noexcept(std::is_nothrow_move_constructible<value_type>::value) + : value(std::move(v)) + {} + + template<typename U> + explicit success(U&& v): value(std::forward<U>(v)) {} + + template<typename U> + explicit success(const success<U>& v): value(v.value) {} + template<typename U> + explicit success(success<U>&& v): value(std::move(v.value)) {} + + ~success() = default; + success(const success&) = default; + success(success&&) = default; + success& operator=(const success&) = default; + success& operator=(success&&) = default; +}; + +template<typename T> +struct failure +{ + using value_type = T; + value_type value; + + explicit failure(const value_type& v) + noexcept(std::is_nothrow_copy_constructible<value_type>::value) + : value(v) + {} + explicit failure(value_type&& v) + noexcept(std::is_nothrow_move_constructible<value_type>::value) + : value(std::move(v)) + {} + + template<typename U> + explicit failure(U&& v): value(std::forward<U>(v)) {} + + template<typename U> + explicit failure(const failure<U>& v): value(v.value) {} + template<typename U> + explicit failure(failure<U>&& v): value(std::move(v.value)) {} + + ~failure() = default; + failure(const failure&) = default; + failure(failure&&) = default; + failure& operator=(const failure&) = default; + failure& operator=(failure&&) = default; +}; + +template<typename T> +success<typename std::remove_cv<typename std::remove_reference<T>::type>::type> +ok(T&& v) +{ + return success< + typename std::remove_cv<typename std::remove_reference<T>::type>::type + >(std::forward<T>(v)); +} +template<typename T> +failure<typename std::remove_cv<typename std::remove_reference<T>::type>::type> +err(T&& v) +{ + return failure< + typename std::remove_cv<typename std::remove_reference<T>::type>::type + >(std::forward<T>(v)); +} + +inline success<std::string> ok(const char* literal) +{ + return success<std::string>(std::string(literal)); +} +inline failure<std::string> err(const char* literal) +{ + return failure<std::string>(std::string(literal)); +} + + +template<typename T, typename E> +struct result +{ + using value_type = T; + using error_type = E; + using success_type = success<value_type>; + using failure_type = failure<error_type>; + + result(const success_type& s): is_ok_(true) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(s); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + result(const failure_type& f): is_ok_(false) + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(f); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + result(success_type&& s): is_ok_(true) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(s)); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + result(failure_type&& f): is_ok_(false) + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(f)); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + + template<typename U> + result(const success<U>& s): is_ok_(true) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(s.value); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + template<typename U> + result(const failure<U>& f): is_ok_(false) + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(f.value); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + template<typename U> + result(success<U>&& s): is_ok_(true) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(s.value)); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + template<typename U> + result(failure<U>&& f): is_ok_(false) + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(f.value)); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + + result& operator=(const success_type& s) + { + this->cleanup(); + this->is_ok_ = true; + auto tmp = ::new(std::addressof(this->succ)) success_type(s); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + return *this; + } + result& operator=(const failure_type& f) + { + this->cleanup(); + this->is_ok_ = false; + auto tmp = ::new(std::addressof(this->fail)) failure_type(f); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + return *this; + } + result& operator=(success_type&& s) + { + this->cleanup(); + this->is_ok_ = true; + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(s)); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + return *this; + } + result& operator=(failure_type&& f) + { + this->cleanup(); + this->is_ok_ = false; + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(f)); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + return *this; + } + + template<typename U> + result& operator=(const success<U>& s) + { + this->cleanup(); + this->is_ok_ = true; + auto tmp = ::new(std::addressof(this->succ)) success_type(s.value); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + return *this; + } + template<typename U> + result& operator=(const failure<U>& f) + { + this->cleanup(); + this->is_ok_ = false; + auto tmp = ::new(std::addressof(this->fail)) failure_type(f.value); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + return *this; + } + template<typename U> + result& operator=(success<U>&& s) + { + this->cleanup(); + this->is_ok_ = true; + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(s.value)); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + return *this; + } + template<typename U> + result& operator=(failure<U>&& f) + { + this->cleanup(); + this->is_ok_ = false; + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(f.value)); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + return *this; + } + + ~result() noexcept {this->cleanup();} + + result(const result& other): is_ok_(other.is_ok()) + { + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(other.as_ok()); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(other.as_err()); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + } + result(result&& other): is_ok_(other.is_ok()) + { + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(other.as_ok())); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(other.as_err())); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + } + + template<typename U, typename F> + result(const result<U, F>& other): is_ok_(other.is_ok()) + { + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(other.as_ok()); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(other.as_err()); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + } + template<typename U, typename F> + result(result<U, F>&& other): is_ok_(other.is_ok()) + { + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(other.as_ok())); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(other.as_err())); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + } + + result& operator=(const result& other) + { + this->cleanup(); + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(other.as_ok()); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(other.as_err()); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + is_ok_ = other.is_ok(); + return *this; + } + result& operator=(result&& other) + { + this->cleanup(); + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(other.as_ok())); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(other.as_err())); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + is_ok_ = other.is_ok(); + return *this; + } + + template<typename U, typename F> + result& operator=(const result<U, F>& other) + { + this->cleanup(); + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(other.as_ok()); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(other.as_err()); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + is_ok_ = other.is_ok(); + return *this; + } + template<typename U, typename F> + result& operator=(result<U, F>&& other) + { + this->cleanup(); + if(other.is_ok()) + { + auto tmp = ::new(std::addressof(this->succ)) success_type(std::move(other.as_ok())); + assert(tmp == std::addressof(this->succ)); + (void)tmp; + } + else + { + auto tmp = ::new(std::addressof(this->fail)) failure_type(std::move(other.as_err())); + assert(tmp == std::addressof(this->fail)); + (void)tmp; + } + is_ok_ = other.is_ok(); + return *this; + } + + bool is_ok() const noexcept {return is_ok_;} + bool is_err() const noexcept {return !is_ok_;} + + operator bool() const noexcept {return is_ok_;} + + value_type& unwrap() & + { + if(is_err()) + { + throw std::runtime_error("toml::result: bad unwrap: " + + format_error(this->as_err())); + } + return this->succ.value; + } + value_type const& unwrap() const& + { + if(is_err()) + { + throw std::runtime_error("toml::result: bad unwrap: " + + format_error(this->as_err())); + } + return this->succ.value; + } + value_type&& unwrap() && + { + if(is_err()) + { + throw std::runtime_error("toml::result: bad unwrap: " + + format_error(this->as_err())); + } + return std::move(this->succ.value); + } + + value_type& unwrap_or(value_type& opt) & + { + if(is_err()) {return opt;} + return this->succ.value; + } + value_type const& unwrap_or(value_type const& opt) const& + { + if(is_err()) {return opt;} + return this->succ.value; + } + value_type unwrap_or(value_type opt) && + { + if(is_err()) {return opt;} + return this->succ.value; + } + + error_type& unwrap_err() & + { + if(is_ok()) {throw std::runtime_error("toml::result: bad unwrap_err");} + return this->fail.value; + } + error_type const& unwrap_err() const& + { + if(is_ok()) {throw std::runtime_error("toml::result: bad unwrap_err");} + return this->fail.value; + } + error_type&& unwrap_err() && + { + if(is_ok()) {throw std::runtime_error("toml::result: bad unwrap_err");} + return std::move(this->fail.value); + } + + value_type& as_ok() & noexcept {return this->succ.value;} + value_type const& as_ok() const& noexcept {return this->succ.value;} + value_type&& as_ok() && noexcept {return std::move(this->succ.value);} + + error_type& as_err() & noexcept {return this->fail.value;} + error_type const& as_err() const& noexcept {return this->fail.value;} + error_type&& as_err() && noexcept {return std::move(this->fail.value);} + + + // prerequisities + // F: T -> U + // retval: result<U, E> + template<typename F> + result<detail::return_type_of_t<F, value_type&>, error_type> + map(F&& f) & + { + if(this->is_ok()){return ok(f(this->as_ok()));} + return err(this->as_err()); + } + template<typename F> + result<detail::return_type_of_t<F, value_type const&>, error_type> + map(F&& f) const& + { + if(this->is_ok()){return ok(f(this->as_ok()));} + return err(this->as_err()); + } + template<typename F> + result<detail::return_type_of_t<F, value_type &&>, error_type> + map(F&& f) && + { + if(this->is_ok()){return ok(f(std::move(this->as_ok())));} + return err(std::move(this->as_err())); + } + + // prerequisities + // F: E -> F + // retval: result<T, F> + template<typename F> + result<value_type, detail::return_type_of_t<F, error_type&>> + map_err(F&& f) & + { + if(this->is_err()){return err(f(this->as_err()));} + return ok(this->as_ok()); + } + template<typename F> + result<value_type, detail::return_type_of_t<F, error_type const&>> + map_err(F&& f) const& + { + if(this->is_err()){return err(f(this->as_err()));} + return ok(this->as_ok()); + } + template<typename F> + result<value_type, detail::return_type_of_t<F, error_type&&>> + map_err(F&& f) && + { + if(this->is_err()){return err(f(std::move(this->as_err())));} + return ok(std::move(this->as_ok())); + } + + // prerequisities + // F: T -> U + // retval: U + template<typename F, typename U> + detail::return_type_of_t<F, value_type&> + map_or_else(F&& f, U&& opt) & + { + if(this->is_err()){return std::forward<U>(opt);} + return f(this->as_ok()); + } + template<typename F, typename U> + detail::return_type_of_t<F, value_type const&> + map_or_else(F&& f, U&& opt) const& + { + if(this->is_err()){return std::forward<U>(opt);} + return f(this->as_ok()); + } + template<typename F, typename U> + detail::return_type_of_t<F, value_type&&> + map_or_else(F&& f, U&& opt) && + { + if(this->is_err()){return std::forward<U>(opt);} + return f(std::move(this->as_ok())); + } + + // prerequisities + // F: E -> U + // retval: U + template<typename F, typename U> + detail::return_type_of_t<F, error_type&> + map_err_or_else(F&& f, U&& opt) & + { + if(this->is_ok()){return std::forward<U>(opt);} + return f(this->as_err()); + } + template<typename F, typename U> + detail::return_type_of_t<F, error_type const&> + map_err_or_else(F&& f, U&& opt) const& + { + if(this->is_ok()){return std::forward<U>(opt);} + return f(this->as_err()); + } + template<typename F, typename U> + detail::return_type_of_t<F, error_type&&> + map_err_or_else(F&& f, U&& opt) && + { + if(this->is_ok()){return std::forward<U>(opt);} + return f(std::move(this->as_err())); + } + + // prerequisities: + // F: func T -> U + // toml::err(error_type) should be convertible to U. + // normally, type U is another result<S, F> and E is convertible to F + template<typename F> + detail::return_type_of_t<F, value_type&> + and_then(F&& f) & + { + if(this->is_ok()){return f(this->as_ok());} + return err(this->as_err()); + } + template<typename F> + detail::return_type_of_t<F, value_type const&> + and_then(F&& f) const& + { + if(this->is_ok()){return f(this->as_ok());} + return err(this->as_err()); + } + template<typename F> + detail::return_type_of_t<F, value_type&&> + and_then(F&& f) && + { + if(this->is_ok()){return f(std::move(this->as_ok()));} + return err(std::move(this->as_err())); + } + + // prerequisities: + // F: func E -> U + // toml::ok(value_type) should be convertible to U. + // normally, type U is another result<S, F> and T is convertible to S + template<typename F> + detail::return_type_of_t<F, error_type&> + or_else(F&& f) & + { + if(this->is_err()){return f(this->as_err());} + return ok(this->as_ok()); + } + template<typename F> + detail::return_type_of_t<F, error_type const&> + or_else(F&& f) const& + { + if(this->is_err()){return f(this->as_err());} + return ok(this->as_ok()); + } + template<typename F> + detail::return_type_of_t<F, error_type&&> + or_else(F&& f) && + { + if(this->is_err()){return f(std::move(this->as_err()));} + return ok(std::move(this->as_ok())); + } + + // if *this is error, returns *this. otherwise, returns other. + result and_other(const result& other) const& + { + return this->is_err() ? *this : other; + } + result and_other(result&& other) && + { + return this->is_err() ? std::move(*this) : std::move(other); + } + + // if *this is okay, returns *this. otherwise, returns other. + result or_other(const result& other) const& + { + return this->is_ok() ? *this : other; + } + result or_other(result&& other) && + { + return this->is_ok() ? std::move(*this) : std::move(other); + } + + void swap(result<T, E>& other) + { + result<T, E> tmp(std::move(*this)); + *this = std::move(other); + other = std::move(tmp); + return ; + } + + private: + + static std::string format_error(std::exception const& excpt) + { + return std::string(excpt.what()); + } + template<typename U, typename std::enable_if<!std::is_base_of< + std::exception, U>::value, std::nullptr_t>::type = nullptr> + static std::string format_error(U const& others) + { + std::ostringstream oss; oss << others; + return oss.str(); + } + + void cleanup() noexcept + { + if(this->is_ok_) {this->succ.~success_type();} + else {this->fail.~failure_type();} + return; + } + + private: + + bool is_ok_; + union + { + success_type succ; + failure_type fail; + }; +}; + +template<typename T, typename E> +void swap(result<T, E>& lhs, result<T, E>& rhs) +{ + lhs.swap(rhs); + return; +} + +// this might be confusing because it eagerly evaluated, while in the other +// cases operator && and || are short-circuited. +// +// template<typename T, typename E> +// inline result<T, E> +// operator&&(const result<T, E>& lhs, const result<T, E>& rhs) noexcept +// { +// return lhs.is_ok() ? rhs : lhs; +// } +// +// template<typename T, typename E> +// inline result<T, E> +// operator||(const result<T, E>& lhs, const result<T, E>& rhs) noexcept +// { +// return lhs.is_ok() ? lhs : rhs; +// } + +// ---------------------------------------------------------------------------- +// re-use result<T, E> as a optional<T> with none_t + +namespace detail +{ +struct none_t {}; +inline bool operator==(const none_t&, const none_t&) noexcept {return true;} +inline bool operator!=(const none_t&, const none_t&) noexcept {return false;} +inline bool operator< (const none_t&, const none_t&) noexcept {return false;} +inline bool operator<=(const none_t&, const none_t&) noexcept {return true;} +inline bool operator> (const none_t&, const none_t&) noexcept {return false;} +inline bool operator>=(const none_t&, const none_t&) noexcept {return true;} +template<typename charT, typename traitsT> +std::basic_ostream<charT, traitsT>& +operator<<(std::basic_ostream<charT, traitsT>& os, const none_t&) +{ + os << "none"; + return os; +} +inline failure<none_t> none() noexcept {return failure<none_t>{none_t{}};} +} // detail +} // toml11 +#endif// TOML11_RESULT_H