cannam@148: // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors cannam@148: // Licensed under the MIT License: cannam@148: // cannam@148: // Permission is hereby granted, free of charge, to any person obtaining a copy cannam@148: // of this software and associated documentation files (the "Software"), to deal cannam@148: // in the Software without restriction, including without limitation the rights cannam@148: // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell cannam@148: // copies of the Software, and to permit persons to whom the Software is cannam@148: // furnished to do so, subject to the following conditions: cannam@148: // cannam@148: // The above copyright notice and this permission notice shall be included in cannam@148: // all copies or substantial portions of the Software. cannam@148: // cannam@148: // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR cannam@148: // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, cannam@148: // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE cannam@148: // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER cannam@148: // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, cannam@148: // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN cannam@148: // THE SOFTWARE. cannam@148: cannam@148: #ifndef CAPNP_POINTER_HELPERS_H_ cannam@148: #define CAPNP_POINTER_HELPERS_H_ cannam@148: cannam@148: #if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS) cannam@148: #pragma GCC system_header cannam@148: #endif cannam@148: cannam@148: #include "layout.h" cannam@148: #include "list.h" cannam@148: cannam@148: namespace capnp { cannam@148: namespace _ { // private cannam@148: cannam@148: // PointerHelpers is a template class that assists in wrapping/unwrapping the low-level types in cannam@148: // layout.h with the high-level public API and generated types. This way, the code generator cannam@148: // and other templates do not have to specialize on each kind of pointer. cannam@148: cannam@148: template cannam@148: struct PointerHelpers { cannam@148: static inline typename T::Reader get(PointerReader reader, const word* defaultValue = nullptr) { cannam@148: return typename T::Reader(reader.getStruct(defaultValue)); cannam@148: } cannam@148: static inline typename T::Builder get(PointerBuilder builder, cannam@148: const word* defaultValue = nullptr) { cannam@148: return typename T::Builder(builder.getStruct(structSize(), defaultValue)); cannam@148: } cannam@148: static inline void set(PointerBuilder builder, typename T::Reader value) { cannam@148: builder.setStruct(value._reader); cannam@148: } cannam@148: static inline void setCanonical(PointerBuilder builder, typename T::Reader value) { cannam@148: builder.setStruct(value._reader, true); cannam@148: } cannam@148: static inline typename T::Builder init(PointerBuilder builder) { cannam@148: return typename T::Builder(builder.initStruct(structSize())); cannam@148: } cannam@148: static inline void adopt(PointerBuilder builder, Orphan&& value) { cannam@148: builder.adopt(kj::mv(value.builder)); cannam@148: } cannam@148: static inline Orphan disown(PointerBuilder builder) { cannam@148: return Orphan(builder.disown()); cannam@148: } cannam@148: static inline _::StructReader getInternalReader(const typename T::Reader& reader) { cannam@148: return reader._reader; cannam@148: } cannam@148: static inline _::StructBuilder getInternalBuilder(typename T::Builder&& builder) { cannam@148: return builder._builder; cannam@148: } cannam@148: }; cannam@148: cannam@148: template cannam@148: struct PointerHelpers, Kind::LIST> { cannam@148: static inline typename List::Reader get(PointerReader reader, cannam@148: const word* defaultValue = nullptr) { cannam@148: return typename List::Reader(List::getFromPointer(reader, defaultValue)); cannam@148: } cannam@148: static inline typename List::Builder get(PointerBuilder builder, cannam@148: const word* defaultValue = nullptr) { cannam@148: return typename List::Builder(List::getFromPointer(builder, defaultValue)); cannam@148: } cannam@148: static inline void set(PointerBuilder builder, typename List::Reader value) { cannam@148: builder.setList(value.reader); cannam@148: } cannam@148: static inline void setCanonical(PointerBuilder builder, typename List::Reader value) { cannam@148: builder.setList(value.reader, true); cannam@148: } cannam@148: static void set(PointerBuilder builder, kj::ArrayPtr> value) { cannam@148: auto l = init(builder, value.size()); cannam@148: uint i = 0; cannam@148: for (auto& element: value) { cannam@148: l.set(i++, element); cannam@148: } cannam@148: } cannam@148: static inline typename List::Builder init(PointerBuilder builder, uint size) { cannam@148: return typename List::Builder(List::initPointer(builder, size)); cannam@148: } cannam@148: static inline void adopt(PointerBuilder builder, Orphan>&& value) { cannam@148: builder.adopt(kj::mv(value.builder)); cannam@148: } cannam@148: static inline Orphan> disown(PointerBuilder builder) { cannam@148: return Orphan>(builder.disown()); cannam@148: } cannam@148: static inline _::ListReader getInternalReader(const typename List::Reader& reader) { cannam@148: return reader.reader; cannam@148: } cannam@148: static inline _::ListBuilder getInternalBuilder(typename List::Builder&& builder) { cannam@148: return builder.builder; cannam@148: } cannam@148: }; cannam@148: cannam@148: template cannam@148: struct PointerHelpers { cannam@148: static inline typename T::Reader get(PointerReader reader, cannam@148: const void* defaultValue = nullptr, cannam@148: uint defaultBytes = 0) { cannam@148: return reader.getBlob(defaultValue, bounded(defaultBytes) * BYTES); cannam@148: } cannam@148: static inline typename T::Builder get(PointerBuilder builder, cannam@148: const void* defaultValue = nullptr, cannam@148: uint defaultBytes = 0) { cannam@148: return builder.getBlob(defaultValue, bounded(defaultBytes) * BYTES); cannam@148: } cannam@148: static inline void set(PointerBuilder builder, typename T::Reader value) { cannam@148: builder.setBlob(value); cannam@148: } cannam@148: static inline void setCanonical(PointerBuilder builder, typename T::Reader value) { cannam@148: builder.setBlob(value); cannam@148: } cannam@148: static inline typename T::Builder init(PointerBuilder builder, uint size) { cannam@148: return builder.initBlob(bounded(size) * BYTES); cannam@148: } cannam@148: static inline void adopt(PointerBuilder builder, Orphan&& value) { cannam@148: builder.adopt(kj::mv(value.builder)); cannam@148: } cannam@148: static inline Orphan disown(PointerBuilder builder) { cannam@148: return Orphan(builder.disown()); cannam@148: } cannam@148: }; cannam@148: cannam@148: struct UncheckedMessage { cannam@148: typedef const word* Reader; cannam@148: }; cannam@148: cannam@148: template <> struct Kind_ { static constexpr Kind kind = Kind::OTHER; }; cannam@148: cannam@148: template <> cannam@148: struct PointerHelpers { cannam@148: // Reads an AnyPointer field as an unchecked message pointer. Requires that the containing cannam@148: // message is itself unchecked. This hack is currently private. It is used to locate default cannam@148: // values within encoded schemas. cannam@148: cannam@148: static inline const word* get(PointerReader reader) { cannam@148: return reader.getUnchecked(); cannam@148: } cannam@148: }; cannam@148: cannam@148: } // namespace _ (private) cannam@148: } // namespace capnp cannam@148: cannam@148: #endif // CAPNP_POINTER_HELPERS_H_