// Copyright (c) 2004-present, Facebook, Inc. // This source code is licensed under the MIT license found in the // LICENSE file in the root directory of this source tree. #pragma once #include #include #include #include // When building a cross-platform module for React Native, arguments passed // from JS are represented as a folly::dynamic. This class provides helpers to // extract arguments from the folly::dynamic to concrete types usable by // cross-platform code, and converting exceptions to a JsArgumentException so // they can be caught and reported to RN consistently. The goal is to make the // jsArgAs... methods at the end simple to use should be most common, but any // non-detail method can be used when needed. namespace facebook { namespace xplat { class JsArgumentException : public std::logic_error { public: JsArgumentException(const std::string& msg) : std::logic_error(msg) {} }; // This extracts a single argument by calling the given method pointer on it. // If an exception is thrown, the additional arguments are passed to // folly::to<> to be included in the exception string. This will be most // commonly used when extracting values from non-scalar argument. The second // overload accepts ref-qualified member functions. template R jsArg(const folly::dynamic& arg, R (folly::dynamic::*asFoo)() const, const T&... desc); template R jsArg(const folly::dynamic& arg, R (folly::dynamic::*asFoo)() const&, const T&... desc); // This is like jsArg, but a operates on a dynamic representing an array of // arguments. The argument n is used both to index the array and build the // exception message, if any. It can be used directly, but will more often be // used by the type-specific methods following. template R jsArgN(const folly::dynamic& args, size_t n, R (folly::dynamic::*asFoo)() const); template R jsArgN(const folly::dynamic& args, size_t n, R (folly::dynamic::*asFoo)() const&); namespace detail { // This is a type helper to implement functions which should work on both const // and non-const folly::dynamic arguments, and return a type with the same // constness. Basically, it causes the templates which use it to be defined // only for types compatible with folly::dynamic. template struct is_dynamic { typedef typename std::enable_if::value, T>::type type; }; } // end namespace detail // Easy to use conversion helpers are here: // Extract the n'th arg from the given dynamic, as a dynamic. Throws a // JsArgumentException if there is no n'th arg in the input. template typename detail::is_dynamic::type& jsArgAsDynamic(T&& args, size_t n); // Extract the n'th arg from the given dynamic, as a dynamic Array. Throws a // JsArgumentException if there is no n'th arg in the input, or it is not an // Array. template typename detail::is_dynamic::type& jsArgAsArray(T&& args, size_t n); // Extract the n'th arg from the given dynamic, as a dynamic Object. Throws a // JsArgumentException if there is no n'th arg in the input, or it is not an // Object. template typename detail::is_dynamic::type& jsArgAsObject(T&& args, size_t n); // Extract the n'th arg from the given dynamic, as a bool. Throws a // JsArgumentException if this fails for some reason. inline bool jsArgAsBool(const folly::dynamic& args, size_t n) { return jsArgN(args, n, &folly::dynamic::asBool); } // Extract the n'th arg from the given dynamic, as an integer. Throws a // JsArgumentException if this fails for some reason. inline int64_t jsArgAsInt(const folly::dynamic& args, size_t n) { return jsArgN(args, n, &folly::dynamic::asInt); } // Extract the n'th arg from the given dynamic, as a double. Throws a // JsArgumentException if this fails for some reason. inline double jsArgAsDouble(const folly::dynamic& args, size_t n) { return jsArgN(args, n, &folly::dynamic::asDouble); } // Extract the n'th arg from the given dynamic, as a string. Throws a // JsArgumentException if this fails for some reason. inline std::string jsArgAsString(const folly::dynamic& args, size_t n) { return jsArgN(args, n, &folly::dynamic::asString); } }} #include