// Copyright 2004-present Facebook. All Rights Reserved. #pragma once #include #include #include #include #include #include #include #include #include #include "noncopyable.h" #if WITH_FBJSCEXTENSIONS #include #endif namespace facebook { namespace react { class Value; class Context; class JSException : public std::runtime_error { public: explicit JSException(const char* msg) : std::runtime_error(msg) , stack_("") {} JSException(const char* msg, const char* stack) : std::runtime_error(msg) , stack_(stack) {} const std::string& getStack() const { return stack_; } private: std::string stack_; }; class String : public noncopyable { public: explicit String(const char* utf8) : m_string(JSStringCreateWithUTF8CString(utf8)) {} String(String&& other) : m_string(other.m_string) {} String(const String& other) : m_string(other.m_string) { if (m_string) { JSStringRetain(m_string); } } ~String() { if (m_string) { JSStringRelease(m_string); } } operator JSStringRef() const { return m_string; } // Length in characters size_t length() const { return JSStringGetLength(m_string); } // Length in bytes of a null-terminated utf8 encoded value size_t utf8Size() const { return JSStringGetMaximumUTF8CStringSize(m_string); } std::string str() const { size_t reserved = utf8Size(); char* bytes = new char[reserved]; size_t length = JSStringGetUTF8CString(m_string, bytes, reserved) - 1; std::unique_ptr retainedBytes(bytes); return std::string(bytes, length); } // Assumes that utf8 is null terminated bool equals(const char* utf8) { return JSStringIsEqualToUTF8CString(m_string, utf8); } static String createExpectingAscii(const char* utf8, size_t len) { #if WITH_FBJSCEXTENSIONS return String(JSStringCreateWithUTF8CStringExpectAscii(utf8, len), true); #else return createExpectingAscii(std::string(utf8, len)); #endif } static String createExpectingAscii(std::string const &utf8) { #if WITH_FBJSCEXTENSIONS return createExpectingAscii(utf8.c_str(), utf8.size()); #else return String(JSStringCreateWithUTF8CString(utf8.c_str()), true); #endif } static String ref(JSStringRef string) { return String(string, false); } static String adopt(JSStringRef string) { return String(string, true); } private: explicit String(JSStringRef string, bool adopt) : m_string(string) { if (!adopt && string) { JSStringRetain(string); } } JSStringRef m_string; }; class Object : public noncopyable { public: Object(JSContextRef context, JSObjectRef obj) : m_context(context), m_obj(obj) {} Object(Object&& other) : m_context(other.m_context), m_obj(other.m_obj), m_isProtected(other.m_isProtected) { other.m_obj = nullptr; other.m_isProtected = false; } ~Object() { if (m_isProtected && m_obj) { JSValueUnprotect(m_context, m_obj); } } Object& operator=(Object&& other) { std::swap(m_context, other.m_context); std::swap(m_obj, other.m_obj); std::swap(m_isProtected, other.m_isProtected); return *this; } operator JSObjectRef() const { return m_obj; } operator Value() const; bool isFunction() const { return JSObjectIsFunction(m_context, m_obj); } Value callAsFunction(std::initializer_list args) const; Value callAsFunction(int nArgs, const JSValueRef args[]) const; Value getProperty(const String& propName) const; Value getProperty(const char *propName) const; Value getPropertyAtIndex(unsigned index) const; void setProperty(const String& propName, const Value& value) const; void setProperty(const char *propName, const Value& value) const; std::vector getPropertyNames() const; std::unordered_map toJSONMap() const; void makeProtected() { if (!m_isProtected && m_obj) { JSValueProtect(m_context, m_obj); m_isProtected = true; } } static Object getGlobalObject(JSContextRef ctx) { auto globalObj = JSContextGetGlobalObject(ctx); return Object(ctx, globalObj); } /** * Creates an instance of the default object class. */ static Object create(JSContextRef ctx); private: JSContextRef m_context; JSObjectRef m_obj; bool m_isProtected = false; }; class Value : public noncopyable { public: Value(JSContextRef context, JSValueRef value); Value(JSContextRef context, JSStringRef value); Value(Value&&); operator JSValueRef() const { return m_value; } bool isBoolean() const { return JSValueIsBoolean(context(), m_value); } bool asBoolean() const { return JSValueToBoolean(context(), m_value); } bool isNumber() const { return JSValueIsNumber(context(), m_value); } bool isNull() const { return JSValueIsNull(context(), m_value); } bool isUndefined() const { return JSValueIsUndefined(context(), m_value); } double asNumber() const { if (isNumber()) { return JSValueToNumber(context(), m_value, nullptr); } else { return 0.0f; } } int32_t asInteger() const { return static_cast(asNumber()); } uint32_t asUnsignedInteger() const { return static_cast(asNumber()); } bool isObject() const { return JSValueIsObject(context(), m_value); } Object asObject(); bool isString() const { return JSValueIsString(context(), m_value); } String toString() noexcept { return String::adopt(JSValueToStringCopy(context(), m_value, nullptr)); } std::string toJSONString(unsigned indent = 0) const throw(JSException); static Value fromJSON(JSContextRef ctx, const String& json) throw(JSException); static Value fromDynamic(JSContextRef ctx, folly::dynamic value) throw(JSException); protected: JSContextRef context() const; JSContextRef m_context; JSValueRef m_value; }; } }