// // Copyright (c) 2019 Vinnie Falco (vinnie.falco@gmail.com) // Copyright (c) 2022 Alan de Freitas (alandefreitas@gmail.com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // Official repository: https://github.com/boostorg/url // #ifndef BOOST_URL_PARAM_HPP #define BOOST_URL_PARAM_HPP #include #include #include #include #include namespace boost { namespace urls { #ifndef BOOST_URL_DOCS struct param_pct_view; struct param_view; #endif /** The type of @ref no_value */ struct no_value_t { }; /** Constant indicating no value in a param */ constexpr no_value_t no_value{}; //------------------------------------------------ /** A query parameter Objects of this type represent a single key and value pair in a query string where a key is always present and may be empty, while the presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. Depending on where the object was obtained, the strings may or may not contain percent escapes. For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted. @par BNF @code query-params = query-param *( "&" query-param ) query-param = key [ "=" value ] key = *qpchar value = *( qpchar / "=" ) @endcode @par Specification @li Query string (Wikipedia) @see @ref param_view, @ref param_pct_view. */ struct param { /** The key For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted. */ std::string key; /** The value The presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. */ std::string value; /** True if a value is present The presence of a value is indicated by `has_value == true`. An empty value is distinct from no value. */ bool has_value = false; /** Constructor Default constructed query parameters have an empty key and no value. @par Example @code param qp; @endcode @par Postconditions @code this->key == "" && this->value == "" && this->has_value == false @endcode @par Complexity Constant. @par Exception Safety Throws nothing. */ param() = default; /** Constructor Upon construction, this acquires ownership of the members of other via move construction. The moved from object is as if default constructed. @par Complexity Constant. @par Exception Safety Throws nothing. @param other The object to construct from. */ param(param&& other) noexcept : key(std::move(other.key)) , value(std::move(other.value)) , has_value(other.has_value) { #ifdef BOOST_URL_COW_STRINGS // for copy-on-write std::string other.key.clear(); other.value.clear(); #endif other.has_value = false; } /** Constructor Upon construction, this becomes a copy of `other`. @par Postconditions @code this->key == other.key && this->value == other.value && this->has_value == other.has_value @endcode @par Complexity Linear in `other.key.size() + other.value.size()`. @par Exception Safety Calls to allocate may throw. @param other The object to construct from. @return A reference to this object. */ param(param const& other) = default; /** Assignment Upon assignment, this acquires ownership of the members of other via move assignment. The moved from object is as if default constructed. @par Complexity Constant. @par Exception Safety Throws nothing. @param other The object to assign from. @return A reference to this object. */ param& operator=(param&& other) noexcept { key = std::move(other.key); value = std::move(other.value); has_value = other.has_value; #ifdef BOOST_URL_COW_STRINGS // for copy-on-write std::string other.key.clear(); other.value.clear(); #endif other.has_value = false; return *this; } /** Assignment Upon assignment, this becomes a copy of `other`. @par Postconditions @code this->key == other.key && this->value == other.value && this->has_value == other.has_value @endcode @par Complexity Linear in `other.key.size() + other.value.size()`. @par Exception Safety Calls to allocate may throw. @param other The object to assign from. @return A reference to this object. */ param& operator=( param const& other) = default; //-------------------------------------------- /** Constructor This constructs a parameter with a key and value. No validation is performed on the strings. Ownership of the key and value is acquired by making copies. @par Example @code param qp( "key", "value" ); @endcode @code param qp( "key", optional("value") ); @endcode @code param qp( "key", boost::none ); @endcode @code param qp( "key", nullptr ); @endcode @code param qp( "key", no_value ); @endcode @par Postconditions @code this->key == key && this->value == value && this->has_value == true @endcode @par Complexity Linear in `key.size() + value.size()`. @par Exception Safety Calls to allocate may throw. @tparam OptionalString An optional string type, such as `core::string_view`, `std::nullptr`, @ref no_value_t, or `optional`. @param key The key to set. @param value The value to set. */ template param( core::string_view key, OptionalString const& value) : param(key, detail::get_optional_string(value)) { } /** Assignment The members of `other` are copied, re-using already existing string capacity. @par Postconditions @code this->key == other.key && this->value == other.value && this->has_value == other.has_value @endcode @par Complexity Linear in `other.key.size() + other.value.size()`. @par Exception Safety Calls to allocate may throw. @param other The parameter to copy. @return A reference to this object. */ param& operator=(param_view const& other); /** Assignment The members of `other` are copied, re-using already existing string capacity. @par Postconditions @code this->key == other.key && this->value == other.value && this->has_value == other.has_value @endcode @par Complexity Linear in `other.key.size() + other.value.size()`. @par Exception Safety Calls to allocate may throw. @param other The parameter to copy. @return A reference to this object. */ param& operator=(param_pct_view const& other); /** Arrow support This operator returns the address of the object so that it can be used in pointer contexts. @return A pointer to the object. */ param const* operator->() const noexcept { return this; } /** Aggregate construction @param key The key to set. @param value The value to set. @param has_value True if a value is present. */ param( core::string_view key, core::string_view value, bool has_value) noexcept : key(key) , value(has_value ? value : core::string_view()) , has_value(has_value) { } private: param( core::string_view key, detail::optional_string const& value) : param(key, value.s, value.b) { } }; //------------------------------------------------ /** A view of a query parameter Objects of this type represent a single key and value pair in a query string where a key is always present and may be empty, while the presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. Depending on where the object was obtained, the strings may or may not contain percent escapes. Some functions and objects might expect encoded strings in this view, while others expect decoded strings. The caller should be aware of the context in which the object will be used. For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted.
Keys and values in this object reference external character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par BNF @code query-params = query-param *( "&" query-param ) query-param = key [ "=" value ] key = *qpchar value = *( qpchar / "=" ) @endcode @par Specification @li Query string (Wikipedia) @see @ref param, @ref param_pct_view. */ struct param_view { /** The key For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted. */ core::string_view key; /** The value The presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. */ core::string_view value; /** True if a value is present The presence of a value is indicated by `has_value == true`. An empty value is distinct from no value. */ bool has_value = false; //-------------------------------------------- /** Constructor Default constructed query parameters have an empty key and no value. @par Example @code param_view qp; @endcode @par Postconditions @code this->key == "" && this->value == "" && this->has_value == false @endcode @par Complexity Constant. @par Exception Safety Throws nothing. */ param_view() = default; /** Constructor This constructs a parameter with a key and value. No validation is performed on the strings. The new key and value reference the same corresponding underlying character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par Example @code param_view qp( "key", "value" ); @endcode @par Postconditions @code this->key.data() == key.data() && this->value.data() == value.data() && this->has_value == true @endcode @par Complexity Constant. @par Exception Safety Throws nothing. @tparam OptionalString An optional string type, such as `core::string_view`, `std::nullptr`, @ref no_value_t, or `optional`. @param key The key to set. @param value The value to set. */ template param_view( core::string_view key, OptionalString const& value) noexcept : param_view(key, detail::get_optional_string(value)) { } /** Constructor This function constructs a param which references the character buffers representing the key and value in another container. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par Example @code param qp( "key", "value" ); param_view qpv( qp ); @endcode @par Postconditions @code this->key == key && this->value == value && this->has_value == other.has_value @endcode @par Complexity Constant. @par Exception Safety Throws nothing. @param other The param to reference */ param_view( param const& other) noexcept : param_view( other.key, other.value, other.has_value) { } /** Conversion This function performs a conversion from a reference-like query parameter to one retaining ownership of the strings by making a copy. No validation is performed on the strings. @par Complexity Linear in `this->key.size() + this->value.size()`. @par Exception Safety Calls to allocate may throw. @return A new query parameter. */ explicit operator param() { return { key, value, has_value }; } /** Arrow support This operator returns the address of the object so that it can be used in pointer contexts. @return A pointer to the object. */ param_view const* operator->() const noexcept { return this; } /** Aggregate construction @param key_ The key to set. @param value_ The value to set. @param has_value_ True if a value is present. */ param_view( core::string_view key_, core::string_view value_, bool has_value_) noexcept : key(key_) , value(has_value_ ? value_ : core::string_view()) , has_value(has_value_) { } private: param_view( core::string_view key, detail::optional_string const& value) : param_view(key, value.s, value.b) { } }; //------------------------------------------------ /** A view of a percent-encoded query parameter Objects of this type represent a single key and value pair in a query string where a key is always present and may be empty, while the presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. The strings may have percent escapes, and offer an additional invariant: they never contain an invalid percent-encoding. For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted.
Keys and values in this object reference external character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par BNF @code query-params = query-param *( "&" query-param ) query-param = key [ "=" value ] key = *qpchar value = *( qpchar / "=" ) @endcode @par Specification @li Query string (Wikipedia) @see @ref param, @ref param_view. */ struct param_pct_view { /** The key For most usages, key comparisons are case-sensitive and duplicate keys in a query are possible. However, it is the authority that has final control over how the query is interpreted. */ pct_string_view key; /** The value The presence of a value is indicated by @ref has_value equal to true. An empty value is distinct from no value. */ pct_string_view value; /** True if a value is present The presence of a value is indicated by `has_value == true`. An empty value is distinct from no value. */ bool has_value = false; //-------------------------------------------- /** Constructor Default constructed query parameters have an empty key and no value. @par Example @code param_pct_view qp; @endcode @par Postconditions @code this->key == "" && this->value == "" && this->has_value == false @endcode @par Complexity Constant. @par Exception Safety Throws nothing. */ param_pct_view() = default; /** Constructor This constructs a parameter with a key and value, which may both contain percent escapes. The new key and value reference the same corresponding underlying character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par Example @code param_pct_view qp( "key", "value" ); @endcode @par Postconditions @code this->key.data() == key.data() && this->value.data() == value.data() && this->has_value == true @endcode @par Complexity Linear in `key.size() + value.size()`. @par Exception Safety Exceptions thrown on invalid input. @throw system_error `key` or `value` contains an invalid percent-encoding. @param key The key to set. @param value The value to set. */ param_pct_view( pct_string_view key, pct_string_view value) noexcept : key(key) , value(value) , has_value(true) { } /** Constructor This constructs a parameter with a key and optional value, which may both contain percent escapes. The new key and value reference the same corresponding underlying character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par Example @code param_pct_view qp( "key", optional("value") ); @endcode @par Postconditions @code this->key.data() == key.data() && this->value->data() == value->data() && this->has_value == true @endcode @par Complexity Linear in `key.size() + value->size()`. @par Exception Safety Exceptions thrown on invalid input. @throw system_error `key` or `value` contains an invalid percent-encoding. @tparam OptionalString An optional `core::string_view` type, such as `boost::optional` or `std::optional`. @param key The key to set. @param value The optional value to set. @return A param object */ template param_pct_view( pct_string_view key, OptionalString const& value) : param_pct_view(key, detail::get_optional_string(value)) { } /** Construction This converts a param which may contain unvalidated percent-escapes into a param whose key and value are guaranteed to contain strings with no invalid percent-escapes, otherwise an exception is thrown. The new key and value reference the same corresponding underlying character buffers. Ownership of the buffers is not transferred; the caller is responsible for ensuring that the assigned buffers remain valid until they are no longer referenced. @par Example @code param_pct_view qp( param_view( "key", "value" ) ); @endcode @par Complexity Linear in `key.size() + value.size()`. @par Exception Safety Exceptions thrown on invalid input. @throw system_error `key` or `value` contains an invalid percent escape. @param p The param to construct from. */ explicit param_pct_view( param_view const& p) : key(p.key) , value(p.has_value ? pct_string_view(p.value) : pct_string_view()) , has_value(p.has_value) { } /** Conversion This function performs a conversion from a reference-like query parameter to one retaining ownership of the strings by making a copy. @par Complexity Linear in `this->key.size() + this->value.size()`. @par Exception Safety Calls to allocate may throw. @return A param object */ explicit operator param() const { return param( static_cast(key), static_cast(value), has_value); } /** Conversion to param_view This function performs a conversion from a pct_string_view query parameter to one using a simple string_view. @par Exception Safety Calls to allocate may throw. @return A param_view object */ operator param_view() const noexcept { return param_view( key, value, has_value); } /** Arrow support This operator returns the address of the object so that it can be used in pointer contexts. @return A pointer to this object */ param_pct_view const* operator->() const noexcept { return this; } /** Aggregate construction @param key The key @param value The value @param has_value True if a value is present */ param_pct_view( pct_string_view key, pct_string_view value, bool has_value) noexcept : key(key) , value(has_value ? value : pct_string_view()) , has_value(has_value) { } private: param_pct_view( pct_string_view key, detail::optional_string const& value) : param_pct_view(key, value.s, value.b) { } }; //------------------------------------------------ inline param& param:: operator=( param_view const& other) { // VFALCO operator= assignment // causes a loss of original capacity: // https://godbolt.org/z/nYef8445K // // key = other.key; // value = other.value; // preserve capacity key.assign( other.key.data(), other.key.size()); value.assign( other.value.data(), other.value.size()); has_value = other.has_value; return *this; } inline param& param:: operator=( param_pct_view const& other) { // preserve capacity key.assign( other.key.data(), other.key.size()); value.assign( other.value.data(), other.value.size()); has_value = other.has_value; return *this; } } // urls } // boost #endif