/* * Copyright 2011-present Facebook, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include namespace folly { ////////////////////////////////////////////////////////////////////// #define FOLLY_DYNAMIC_DEF_TYPEINFO(T) \ constexpr const char* dynamic::TypeInfo::name; \ constexpr dynamic::Type dynamic::TypeInfo::type; \ // FOLLY_DYNAMIC_DEF_TYPEINFO(std::nullptr_t) FOLLY_DYNAMIC_DEF_TYPEINFO(bool) FOLLY_DYNAMIC_DEF_TYPEINFO(std::string) FOLLY_DYNAMIC_DEF_TYPEINFO(dynamic::Array) FOLLY_DYNAMIC_DEF_TYPEINFO(double) FOLLY_DYNAMIC_DEF_TYPEINFO(int64_t) FOLLY_DYNAMIC_DEF_TYPEINFO(dynamic::ObjectImpl) #undef FOLLY_DYNAMIC_DEF_TYPEINFO const char* dynamic::typeName() const { return typeName(type_); } TypeError::TypeError(const std::string& expected, dynamic::Type actual) : std::runtime_error(sformat( "TypeError: expected dynamic type `{}', but had type `{}'", expected, dynamic::typeName(actual))) {} TypeError::TypeError( const std::string& expected, dynamic::Type actual1, dynamic::Type actual2) : std::runtime_error(sformat( "TypeError: expected dynamic types `{}, but had types `{}' and `{}'", expected, dynamic::typeName(actual1), dynamic::typeName(actual2))) {} TypeError::TypeError(const TypeError&) noexcept( std::is_nothrow_copy_constructible::value) = default; TypeError& TypeError::operator=(const TypeError&) noexcept( std::is_nothrow_copy_assignable::value) = default; TypeError::TypeError(TypeError&&) noexcept( std::is_nothrow_move_constructible::value) = default; TypeError& TypeError::operator=(TypeError&&) noexcept( std::is_nothrow_move_assignable::value) = default; TypeError::~TypeError() = default; // This is a higher-order preprocessor macro to aid going from runtime // types to the compile time type system. #define FB_DYNAMIC_APPLY(type, apply) \ do { \ switch ((type)) { \ case NULLT: \ apply(std::nullptr_t); \ break; \ case ARRAY: \ apply(Array); \ break; \ case BOOL: \ apply(bool); \ break; \ case DOUBLE: \ apply(double); \ break; \ case INT64: \ apply(int64_t); \ break; \ case OBJECT: \ apply(ObjectImpl); \ break; \ case STRING: \ apply(std::string); \ break; \ default: \ CHECK(0); \ abort(); \ } \ } while (0) bool dynamic::operator<(dynamic const& o) const { if (UNLIKELY(type_ == OBJECT || o.type_ == OBJECT)) { throw_exception("object", type_); } if (type_ != o.type_) { return type_ < o.type_; } #define FB_X(T) return CompareOp::comp(*getAddress(), *o.getAddress()) FB_DYNAMIC_APPLY(type_, FB_X); #undef FB_X } bool dynamic::operator==(dynamic const& o) const { if (type() != o.type()) { if (isNumber() && o.isNumber()) { auto& integ = isInt() ? *this : o; auto& doubl = isInt() ? o : *this; return integ.asInt() == doubl.asDouble(); } return false; } #define FB_X(T) return *getAddress() == *o.getAddress(); FB_DYNAMIC_APPLY(type_, FB_X); #undef FB_X } dynamic& dynamic::operator=(dynamic const& o) { if (&o != this) { if (type_ == o.type_) { #define FB_X(T) *getAddress() = *o.getAddress() FB_DYNAMIC_APPLY(type_, FB_X); #undef FB_X } else { destroy(); #define FB_X(T) new (getAddress()) T(*o.getAddress()) FB_DYNAMIC_APPLY(o.type_, FB_X); #undef FB_X type_ = o.type_; } } return *this; } dynamic& dynamic::operator=(dynamic&& o) noexcept { if (&o != this) { if (type_ == o.type_) { #define FB_X(T) *getAddress() = std::move(*o.getAddress()) FB_DYNAMIC_APPLY(type_, FB_X); #undef FB_X } else { destroy(); #define FB_X(T) new (getAddress()) T(std::move(*o.getAddress())) FB_DYNAMIC_APPLY(o.type_, FB_X); #undef FB_X type_ = o.type_; } } return *this; } dynamic const& dynamic::atImpl(dynamic const& idx) const& { if (auto* parray = get_nothrow()) { if (!idx.isInt()) { throw_exception("int64", idx.type()); } if (idx < 0 || idx >= parray->size()) { throw_exception("out of range in dynamic array"); } return (*parray)[size_t(idx.asInt())]; } else if (auto* pobject = get_nothrow()) { auto it = pobject->find(idx); if (it == pobject->end()) { throw_exception( sformat("couldn't find key {} in dynamic object", idx.asString())); } return it->second; } else { throw_exception("object/array", type()); } } dynamic const& dynamic::at(StringPiece idx) const& { auto* pobject = get_nothrow(); if (!pobject) { throw_exception("object", type()); } auto it = pobject->find(idx); if (it == pobject->end()) { throw_exception( sformat("couldn't find key {} in dynamic object", idx)); } return it->second; } dynamic& dynamic::operator[](StringPiece k) & { auto& obj = get(); auto ret = obj.emplace(k, nullptr); return ret.first->second; } dynamic dynamic::getDefault(StringPiece k, const dynamic& v) const& { auto& obj = get(); auto it = obj.find(k); return it == obj.end() ? v : it->second; } dynamic dynamic::getDefault(StringPiece k, dynamic&& v) const& { auto& obj = get(); auto it = obj.find(k); // Avoid clang bug with ternary if (it == obj.end()) { return std::move(v); } else { return it->second; } } dynamic dynamic::getDefault(StringPiece k, const dynamic& v) && { auto& obj = get(); auto it = obj.find(k); // Avoid clang bug with ternary if (it == obj.end()) { return v; } else { return std::move(it->second); } } dynamic dynamic::getDefault(StringPiece k, dynamic&& v) && { auto& obj = get(); auto it = obj.find(k); return std::move(it == obj.end() ? v : it->second); } const dynamic* dynamic::get_ptrImpl(dynamic const& idx) const& { if (auto* parray = get_nothrow()) { if (!idx.isInt()) { throw_exception("int64", idx.type()); } if (idx < 0 || idx >= parray->size()) { return nullptr; } return &(*parray)[size_t(idx.asInt())]; } else if (auto* pobject = get_nothrow()) { auto it = pobject->find(idx); if (it == pobject->end()) { return nullptr; } return &it->second; } else { throw_exception("object/array", type()); } } const dynamic* dynamic::get_ptr(StringPiece idx) const& { auto* pobject = get_nothrow(); if (!pobject) { throw_exception("object", type()); } auto it = pobject->find(idx); if (it == pobject->end()) { return nullptr; } return &it->second; } std::size_t dynamic::size() const { if (auto* ar = get_nothrow()) { return ar->size(); } if (auto* obj = get_nothrow()) { return obj->size(); } if (auto* str = get_nothrow()) { return str->size(); } throw_exception("array/object/string", type()); } dynamic::iterator dynamic::erase(const_iterator first, const_iterator last) { auto& arr = get(); return get().erase( arr.begin() + (first - arr.begin()), arr.begin() + (last - arr.begin())); } std::size_t dynamic::hash() const { switch (type()) { case NULLT: return 0xBAAAAAAD; case OBJECT: { // Accumulate using addition instead of using hash_range (as in the ARRAY // case), as we need a commutative hash operation since unordered_map's // iteration order is unspecified. auto h = std::hash>{}; return std::accumulate( items().begin(), items().end(), size_t{0x0B1EC7}, [&](auto acc, auto item) { return acc + h(item); }); } case ARRAY: return folly::hash::hash_range(begin(), end()); case INT64: return std::hash()(getInt()); case DOUBLE: return std::hash()(getDouble()); case BOOL: return std::hash()(getBool()); case STRING: // keep consistent with detail::DynamicHasher return Hash()(getString()); } assume_unreachable(); } char const* dynamic::typeName(Type t) { #define FB_X(T) return TypeInfo::name FB_DYNAMIC_APPLY(t, FB_X); #undef FB_X } void dynamic::destroy() noexcept { // This short-circuit speeds up some microbenchmarks. if (type_ == NULLT) { return; } #define FB_X(T) detail::Destroy::destroy(getAddress()) FB_DYNAMIC_APPLY(type_, FB_X); #undef FB_X type_ = NULLT; u_.nul = nullptr; } dynamic dynamic::merge_diff(const dynamic& source, const dynamic& target) { if (!source.isObject() || source.type() != target.type()) { return target; } dynamic diff = object; // added/modified keys for (const auto& pair : target.items()) { auto it = source.find(pair.first); if (it == source.items().end()) { diff[pair.first] = pair.second; } else { diff[pair.first] = merge_diff(source[pair.first], target[pair.first]); } } // removed keys for (const auto& pair : source.items()) { auto it = target.find(pair.first); if (it == target.items().end()) { diff[pair.first] = nullptr; } } return diff; } const dynamic* dynamic::get_ptr(json_pointer const& jsonPtr) const& { auto const& tokens = jsonPtr.tokens(); if (tokens.empty()) { return this; } dynamic const* dyn = this; for (auto const& token : tokens) { if (!dyn) { return nullptr; } // special case of parsing "/": lookup key with empty name if (token.empty()) { if (dyn->isObject()) { dyn = dyn->get_ptr(""); continue; } throw_exception("object", dyn->type()); } if (auto* parray = dyn->get_nothrow()) { if (token.size() > 1 && token.at(0) == '0') { throw std::invalid_argument( "Leading zero not allowed when indexing arrays"); } // special case, always return non-existent if (token.size() == 1 && token.at(0) == '-') { dyn = nullptr; continue; } auto const idx = folly::to(token); dyn = idx < parray->size() ? &(*parray)[idx] : nullptr; continue; } if (auto* pobject = dyn->get_nothrow()) { auto const it = pobject->find(token); dyn = it != pobject->end() ? &it->second : nullptr; continue; } throw_exception("object/array", dyn->type()); } return dyn; } ////////////////////////////////////////////////////////////////////// } // namespace folly