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annotate osx/include/kj/async-prelude.h @ 145:13a516fa8999

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Update PortAudio build for Win64
author Chris Cannam <cannam@all-day-breakfast.com>
date Tue, 10 Jan 2017 11:28:20 +0000
parents 41e769c91eca
children 0994c39f1e94
rev   line source
cannam@134 1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
cannam@134 2 // Licensed under the MIT License:
cannam@134 3 //
cannam@134 4 // Permission is hereby granted, free of charge, to any person obtaining a copy
cannam@134 5 // of this software and associated documentation files (the "Software"), to deal
cannam@134 6 // in the Software without restriction, including without limitation the rights
cannam@134 7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
cannam@134 8 // copies of the Software, and to permit persons to whom the Software is
cannam@134 9 // furnished to do so, subject to the following conditions:
cannam@134 10 //
cannam@134 11 // The above copyright notice and this permission notice shall be included in
cannam@134 12 // all copies or substantial portions of the Software.
cannam@134 13 //
cannam@134 14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
cannam@134 15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
cannam@134 16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
cannam@134 17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
cannam@134 18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
cannam@134 19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
cannam@134 20 // THE SOFTWARE.
cannam@134 21
cannam@134 22 // This file contains a bunch of internal declarations that must appear before async.h can start.
cannam@134 23 // We don't define these directly in async.h because it makes the file hard to read.
cannam@134 24
cannam@134 25 #ifndef KJ_ASYNC_PRELUDE_H_
cannam@134 26 #define KJ_ASYNC_PRELUDE_H_
cannam@134 27
cannam@134 28 #if defined(__GNUC__) && !KJ_HEADER_WARNINGS
cannam@134 29 #pragma GCC system_header
cannam@134 30 #endif
cannam@134 31
cannam@134 32 #include "exception.h"
cannam@134 33 #include "tuple.h"
cannam@134 34
cannam@134 35 namespace kj {
cannam@134 36
cannam@134 37 class EventLoop;
cannam@134 38 template <typename T>
cannam@134 39 class Promise;
cannam@134 40 class WaitScope;
cannam@134 41
cannam@134 42 template <typename T>
cannam@134 43 Promise<Array<T>> joinPromises(Array<Promise<T>>&& promises);
cannam@134 44 Promise<void> joinPromises(Array<Promise<void>>&& promises);
cannam@134 45
cannam@134 46 namespace _ { // private
cannam@134 47
cannam@134 48 template <typename T> struct JoinPromises_ { typedef T Type; };
cannam@134 49 template <typename T> struct JoinPromises_<Promise<T>> { typedef T Type; };
cannam@134 50
cannam@134 51 template <typename T>
cannam@134 52 using JoinPromises = typename JoinPromises_<T>::Type;
cannam@134 53 // If T is Promise<U>, resolves to U, otherwise resolves to T.
cannam@134 54 //
cannam@134 55 // TODO(cleanup): Rename to avoid confusion with joinPromises() call which is completely
cannam@134 56 // unrelated.
cannam@134 57
cannam@134 58 class PropagateException {
cannam@134 59 // A functor which accepts a kj::Exception as a parameter and returns a broken promise of
cannam@134 60 // arbitrary type which simply propagates the exception.
cannam@134 61 public:
cannam@134 62 class Bottom {
cannam@134 63 public:
cannam@134 64 Bottom(Exception&& exception): exception(kj::mv(exception)) {}
cannam@134 65
cannam@134 66 Exception asException() { return kj::mv(exception); }
cannam@134 67
cannam@134 68 private:
cannam@134 69 Exception exception;
cannam@134 70 };
cannam@134 71
cannam@134 72 Bottom operator()(Exception&& e) {
cannam@134 73 return Bottom(kj::mv(e));
cannam@134 74 }
cannam@134 75 Bottom operator()(const Exception& e) {
cannam@134 76 return Bottom(kj::cp(e));
cannam@134 77 }
cannam@134 78 };
cannam@134 79
cannam@134 80 template <typename Func, typename T>
cannam@134 81 struct ReturnType_ { typedef decltype(instance<Func>()(instance<T>())) Type; };
cannam@134 82 template <typename Func>
cannam@134 83 struct ReturnType_<Func, void> { typedef decltype(instance<Func>()()) Type; };
cannam@134 84
cannam@134 85 template <typename Func, typename T>
cannam@134 86 using ReturnType = typename ReturnType_<Func, T>::Type;
cannam@134 87 // The return type of functor Func given a parameter of type T, with the special exception that if
cannam@134 88 // T is void, this is the return type of Func called with no arguments.
cannam@134 89
cannam@134 90 template <typename T> struct SplitTuplePromise_ { typedef Promise<T> Type; };
cannam@134 91 template <typename... T>
cannam@134 92 struct SplitTuplePromise_<kj::_::Tuple<T...>> {
cannam@134 93 typedef kj::Tuple<Promise<JoinPromises<T>>...> Type;
cannam@134 94 };
cannam@134 95
cannam@134 96 template <typename T>
cannam@134 97 using SplitTuplePromise = typename SplitTuplePromise_<T>::Type;
cannam@134 98 // T -> Promise<T>
cannam@134 99 // Tuple<T> -> Tuple<Promise<T>>
cannam@134 100
cannam@134 101 struct Void {};
cannam@134 102 // Application code should NOT refer to this! See `kj::READY_NOW` instead.
cannam@134 103
cannam@134 104 template <typename T> struct FixVoid_ { typedef T Type; };
cannam@134 105 template <> struct FixVoid_<void> { typedef Void Type; };
cannam@134 106 template <typename T> using FixVoid = typename FixVoid_<T>::Type;
cannam@134 107 // FixVoid<T> is just T unless T is void in which case it is _::Void (an empty struct).
cannam@134 108
cannam@134 109 template <typename T> struct UnfixVoid_ { typedef T Type; };
cannam@134 110 template <> struct UnfixVoid_<Void> { typedef void Type; };
cannam@134 111 template <typename T> using UnfixVoid = typename UnfixVoid_<T>::Type;
cannam@134 112 // UnfixVoid is the opposite of FixVoid.
cannam@134 113
cannam@134 114 template <typename In, typename Out>
cannam@134 115 struct MaybeVoidCaller {
cannam@134 116 // Calls the function converting a Void input to an empty parameter list and a void return
cannam@134 117 // value to a Void output.
cannam@134 118
cannam@134 119 template <typename Func>
cannam@134 120 static inline Out apply(Func& func, In&& in) {
cannam@134 121 return func(kj::mv(in));
cannam@134 122 }
cannam@134 123 };
cannam@134 124 template <typename In, typename Out>
cannam@134 125 struct MaybeVoidCaller<In&, Out> {
cannam@134 126 template <typename Func>
cannam@134 127 static inline Out apply(Func& func, In& in) {
cannam@134 128 return func(in);
cannam@134 129 }
cannam@134 130 };
cannam@134 131 template <typename Out>
cannam@134 132 struct MaybeVoidCaller<Void, Out> {
cannam@134 133 template <typename Func>
cannam@134 134 static inline Out apply(Func& func, Void&& in) {
cannam@134 135 return func();
cannam@134 136 }
cannam@134 137 };
cannam@134 138 template <typename In>
cannam@134 139 struct MaybeVoidCaller<In, Void> {
cannam@134 140 template <typename Func>
cannam@134 141 static inline Void apply(Func& func, In&& in) {
cannam@134 142 func(kj::mv(in));
cannam@134 143 return Void();
cannam@134 144 }
cannam@134 145 };
cannam@134 146 template <typename In>
cannam@134 147 struct MaybeVoidCaller<In&, Void> {
cannam@134 148 template <typename Func>
cannam@134 149 static inline Void apply(Func& func, In& in) {
cannam@134 150 func(in);
cannam@134 151 return Void();
cannam@134 152 }
cannam@134 153 };
cannam@134 154 template <>
cannam@134 155 struct MaybeVoidCaller<Void, Void> {
cannam@134 156 template <typename Func>
cannam@134 157 static inline Void apply(Func& func, Void&& in) {
cannam@134 158 func();
cannam@134 159 return Void();
cannam@134 160 }
cannam@134 161 };
cannam@134 162
cannam@134 163 template <typename T>
cannam@134 164 inline T&& returnMaybeVoid(T&& t) {
cannam@134 165 return kj::fwd<T>(t);
cannam@134 166 }
cannam@134 167 inline void returnMaybeVoid(Void&& v) {}
cannam@134 168
cannam@134 169 class ExceptionOrValue;
cannam@134 170 class PromiseNode;
cannam@134 171 class ChainPromiseNode;
cannam@134 172 template <typename T>
cannam@134 173 class ForkHub;
cannam@134 174
cannam@134 175 class TaskSetImpl;
cannam@134 176
cannam@134 177 class Event;
cannam@134 178
cannam@134 179 class PromiseBase {
cannam@134 180 public:
cannam@134 181 kj::String trace();
cannam@134 182 // Dump debug info about this promise.
cannam@134 183
cannam@134 184 private:
cannam@134 185 Own<PromiseNode> node;
cannam@134 186
cannam@134 187 PromiseBase() = default;
cannam@134 188 PromiseBase(Own<PromiseNode>&& node): node(kj::mv(node)) {}
cannam@134 189
cannam@134 190 friend class kj::EventLoop;
cannam@134 191 friend class ChainPromiseNode;
cannam@134 192 template <typename>
cannam@134 193 friend class kj::Promise;
cannam@134 194 friend class TaskSetImpl;
cannam@134 195 template <typename U>
cannam@134 196 friend Promise<Array<U>> kj::joinPromises(Array<Promise<U>>&& promises);
cannam@134 197 friend Promise<void> kj::joinPromises(Array<Promise<void>>&& promises);
cannam@134 198 };
cannam@134 199
cannam@134 200 void detach(kj::Promise<void>&& promise);
cannam@134 201 void waitImpl(Own<_::PromiseNode>&& node, _::ExceptionOrValue& result, WaitScope& waitScope);
cannam@134 202 Promise<void> yield();
cannam@134 203 Own<PromiseNode> neverDone();
cannam@134 204
cannam@134 205 class NeverDone {
cannam@134 206 public:
cannam@134 207 template <typename T>
cannam@134 208 operator Promise<T>() const {
cannam@134 209 return Promise<T>(false, neverDone());
cannam@134 210 }
cannam@134 211
cannam@134 212 KJ_NORETURN(void wait(WaitScope& waitScope) const);
cannam@134 213 };
cannam@134 214
cannam@134 215 } // namespace _ (private)
cannam@134 216 } // namespace kj
cannam@134 217
cannam@134 218 #endif // KJ_ASYNC_PRELUDE_H_