sv-dependency-builds: osx/include/kj/async-inl.h annotate

annotate osx/include/kj/async-inl.h @ 79:91c729825bca pa_catalina

Update build for AUDIO_COMPONENT_FIX

author	Chris Cannam
date	Wed, 30 Oct 2019 12:40:34 +0000
parents	0994c39f1e94
children

rev	line source
cannam@62	1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
cannam@62	2 // Licensed under the MIT License:
cannam@62	3 //
cannam@62	4 // Permission is hereby granted, free of charge, to any person obtaining a copy
cannam@62	5 // of this software and associated documentation files (the "Software"), to deal
cannam@62	6 // in the Software without restriction, including without limitation the rights
cannam@62	7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
cannam@62	8 // copies of the Software, and to permit persons to whom the Software is
cannam@62	9 // furnished to do so, subject to the following conditions:
cannam@62	10 //
cannam@62	11 // The above copyright notice and this permission notice shall be included in
cannam@62	12 // all copies or substantial portions of the Software.
cannam@62	13 //
cannam@62	14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
cannam@62	15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
cannam@62	16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
cannam@62	17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
cannam@62	18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
cannam@62	19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
cannam@62	20 // THE SOFTWARE.
cannam@62	21
cannam@62	22 // This file contains extended inline implementation details that are required along with async.h.
cannam@62	23 // We move this all into a separate file to make async.h more readable.
cannam@62	24 //
cannam@62	25 // Non-inline declarations here are defined in async.c++.
cannam@62	26
cannam@62	27 #ifndef KJ_ASYNC_H_
cannam@62	28 #error "Do not include this directly; include kj/async.h."
cannam@62	29 #include "async.h" // help IDE parse this file
cannam@62	30 #endif
cannam@62	31
cannam@62	32 #ifndef KJ_ASYNC_INL_H_
cannam@62	33 #define KJ_ASYNC_INL_H_
cannam@62	34
cannam@62	35 #if defined(__GNUC__) && !KJ_HEADER_WARNINGS
cannam@62	36 #pragma GCC system_header
cannam@62	37 #endif
cannam@62	38
cannam@62	39 namespace kj {
cannam@62	40 namespace _ { // private
cannam@62	41
cannam@62	42 template <typename T>
cannam@62	43 class ExceptionOr;
cannam@62	44
cannam@62	45 class ExceptionOrValue {
cannam@62	46 public:
cannam@62	47 ExceptionOrValue(bool, Exception&& exception): exception(kj::mv(exception)) {}
cannam@62	48 KJ_DISALLOW_COPY(ExceptionOrValue);
cannam@62	49
cannam@62	50 void addException(Exception&& exception) {
cannam@62	51 if (this->exception == nullptr) {
cannam@62	52 this->exception = kj::mv(exception);
cannam@62	53 }
cannam@62	54 }
cannam@62	55
cannam@62	56 template <typename T>
cannam@62	57 ExceptionOr<T>& as() { return static_cast<ExceptionOr<T>>(this); }
cannam@62	58 template <typename T>
cannam@62	59 const ExceptionOr<T>& as() const { return static_cast<const ExceptionOr<T>>(this); }
cannam@62	60
cannam@62	61 Maybe<Exception> exception;
cannam@62	62
cannam@62	63 protected:
cannam@62	64 // Allow subclasses to have move constructor / assignment.
cannam@62	65 ExceptionOrValue() = default;
cannam@62	66 ExceptionOrValue(ExceptionOrValue&& other) = default;
cannam@62	67 ExceptionOrValue& operator=(ExceptionOrValue&& other) = default;
cannam@62	68 };
cannam@62	69
cannam@62	70 template <typename T>
cannam@62	71 class ExceptionOr: public ExceptionOrValue {
cannam@62	72 public:
cannam@62	73 ExceptionOr() = default;
cannam@62	74 ExceptionOr(T&& value): value(kj::mv(value)) {}
cannam@62	75 ExceptionOr(bool, Exception&& exception): ExceptionOrValue(false, kj::mv(exception)) {}
cannam@62	76 ExceptionOr(ExceptionOr&&) = default;
cannam@62	77 ExceptionOr& operator=(ExceptionOr&&) = default;
cannam@62	78
cannam@62	79 Maybe<T> value;
cannam@62	80 };
cannam@62	81
cannam@62	82 class Event {
cannam@62	83 // An event waiting to be executed. Not for direct use by applications -- promises use this
cannam@62	84 // internally.
cannam@62	85
cannam@62	86 public:
cannam@62	87 Event();
cannam@62	88 ~Event() noexcept(false);
cannam@62	89 KJ_DISALLOW_COPY(Event);
cannam@62	90
cannam@62	91 void armDepthFirst();
cannam@62	92 // Enqueue this event so that `fire()` will be called from the event loop soon.
cannam@62	93 //
cannam@62	94 // Events scheduled in this way are executed in depth-first order: if an event callback arms
cannam@62	95 // more events, those events are placed at the front of the queue (in the order in which they
cannam@62	96 // were armed), so that they run immediately after the first event's callback returns.
cannam@62	97 //
cannam@62	98 // Depth-first event scheduling is appropriate for events that represent simple continuations
cannam@62	99 // of a previous event that should be globbed together for performance. Depth-first scheduling
cannam@62	100 // can lead to starvation, so any long-running task must occasionally yield with
cannam@62	101 // `armBreadthFirst()`. (Promise::then() uses depth-first whereas evalLater() uses
cannam@62	102 // breadth-first.)
cannam@62	103 //
cannam@62	104 // To use breadth-first scheduling instead, use `armBreadthFirst()`.
cannam@62	105
cannam@62	106 void armBreadthFirst();
cannam@62	107 // Like `armDepthFirst()` except that the event is placed at the end of the queue.
cannam@62	108
cannam@62	109 kj::String trace();
cannam@62	110 // Dump debug info about this event.
cannam@62	111
cannam@62	112 virtual _::PromiseNode* getInnerForTrace();
cannam@62	113 // If this event wraps a PromiseNode, get that node. Used for debug tracing.
cannam@62	114 // Default implementation returns nullptr.
cannam@62	115
cannam@62	116 protected:
cannam@62	117 virtual Maybe<Own<Event>> fire() = 0;
cannam@62	118 // Fire the event. Possibly returns a pointer to itself, which will be discarded by the
cannam@62	119 // caller. This is the only way that an event can delete itself as a result of firing, as
cannam@62	120 // doing so from within fire() will throw an exception.
cannam@62	121
cannam@62	122 private:
cannam@62	123 friend class kj::EventLoop;
cannam@62	124 EventLoop& loop;
cannam@62	125 Event* next;
cannam@62	126 Event** prev;
cannam@62	127 bool firing = false;
cannam@62	128 };
cannam@62	129
cannam@62	130 class PromiseNode {
cannam@62	131 // A Promise<T> contains a chain of PromiseNodes tracking the pending transformations.
cannam@62	132 //
cannam@62	133 // To reduce generated code bloat, PromiseNode is not a template. Instead, it makes very hacky
cannam@62	134 // use of pointers to ExceptionOrValue which actually point to ExceptionOr<T>, but are only
cannam@62	135 // so down-cast in the few places that really need to be templated. Luckily this is all
cannam@62	136 // internal implementation details.
cannam@62	137
cannam@62	138 public:
cannam@62	139 virtual void onReady(Event& event) noexcept = 0;
cannam@62	140 // Arms the given event when ready.
cannam@62	141
cannam@62	142 virtual void setSelfPointer(Own<PromiseNode>* selfPtr) noexcept;
cannam@62	143 // Tells the node that `selfPtr` is the pointer that owns this node, and will continue to own
cannam@62	144 // this node until it is destroyed or setSelfPointer() is called again. ChainPromiseNode uses
cannam@62	145 // this to shorten redundant chains. The default implementation does nothing; only
cannam@62	146 // ChainPromiseNode should implement this.
cannam@62	147
cannam@62	148 virtual void get(ExceptionOrValue& output) noexcept = 0;
cannam@62	149 // Get the result. `output` points to an ExceptionOr<T> into which the result will be written.
cannam@62	150 // Can only be called once, and only after the node is ready. Must be called directly from the
cannam@62	151 // event loop, with no application code on the stack.
cannam@62	152
cannam@62	153 virtual PromiseNode* getInnerForTrace();
cannam@62	154 // If this node wraps some other PromiseNode, get the wrapped node. Used for debug tracing.
cannam@62	155 // Default implementation returns nullptr.
cannam@62	156
cannam@62	157 protected:
cannam@62	158 class OnReadyEvent {
cannam@62	159 // Helper class for implementing onReady().
cannam@62	160
cannam@62	161 public:
cannam@62	162 void init(Event& newEvent);
cannam@62	163 // Returns true if arm() was already called.
cannam@62	164
cannam@62	165 void arm();
cannam@62	166 // Arms the event if init() has already been called and makes future calls to init() return
cannam@62	167 // true.
cannam@62	168
cannam@62	169 private:
cannam@62	170 Event* event = nullptr;
cannam@62	171 };
cannam@62	172 };
cannam@62	173
cannam@62	174 // -------------------------------------------------------------------
cannam@62	175
cannam@62	176 class ImmediatePromiseNodeBase: public PromiseNode {
cannam@62	177 public:
cannam@62	178 ImmediatePromiseNodeBase();
cannam@62	179 ~ImmediatePromiseNodeBase() noexcept(false);
cannam@62	180
cannam@62	181 void onReady(Event& event) noexcept override;
cannam@62	182 };
cannam@62	183
cannam@62	184 template <typename T>
cannam@62	185 class ImmediatePromiseNode final: public ImmediatePromiseNodeBase {
cannam@62	186 // A promise that has already been resolved to an immediate value or exception.
cannam@62	187
cannam@62	188 public:
cannam@62	189 ImmediatePromiseNode(ExceptionOr<T>&& result): result(kj::mv(result)) {}
cannam@62	190
cannam@62	191 void get(ExceptionOrValue& output) noexcept override {
cannam@62	192 output.as<T>() = kj::mv(result);
cannam@62	193 }
cannam@62	194
cannam@62	195 private:
cannam@62	196 ExceptionOr<T> result;
cannam@62	197 };
cannam@62	198
cannam@62	199 class ImmediateBrokenPromiseNode final: public ImmediatePromiseNodeBase {
cannam@62	200 public:
cannam@62	201 ImmediateBrokenPromiseNode(Exception&& exception);
cannam@62	202
cannam@62	203 void get(ExceptionOrValue& output) noexcept override;
cannam@62	204
cannam@62	205 private:
cannam@62	206 Exception exception;
cannam@62	207 };
cannam@62	208
cannam@62	209 // -------------------------------------------------------------------
cannam@62	210
cannam@62	211 class AttachmentPromiseNodeBase: public PromiseNode {
cannam@62	212 public:
cannam@62	213 AttachmentPromiseNodeBase(Own<PromiseNode>&& dependency);
cannam@62	214
cannam@62	215 void onReady(Event& event) noexcept override;
cannam@62	216 void get(ExceptionOrValue& output) noexcept override;
cannam@62	217 PromiseNode* getInnerForTrace() override;
cannam@62	218
cannam@62	219 private:
cannam@62	220 Own<PromiseNode> dependency;
cannam@62	221
cannam@62	222 void dropDependency();
cannam@62	223
cannam@62	224 template <typename>
cannam@62	225 friend class AttachmentPromiseNode;
cannam@62	226 };
cannam@62	227
cannam@62	228 template <typename Attachment>
cannam@62	229 class AttachmentPromiseNode final: public AttachmentPromiseNodeBase {
cannam@62	230 // A PromiseNode that holds on to some object (usually, an Own<T>, but could be any movable
cannam@62	231 // object) until the promise resolves.
cannam@62	232
cannam@62	233 public:
cannam@62	234 AttachmentPromiseNode(Own<PromiseNode>&& dependency, Attachment&& attachment)
cannam@62	235 : AttachmentPromiseNodeBase(kj::mv(dependency)),
cannam@62	236 attachment(kj::mv<Attachment>(attachment)) {}
cannam@62	237
cannam@62	238 ~AttachmentPromiseNode() noexcept(false) {
cannam@62	239 // We need to make sure the dependency is deleted before we delete the attachment because the
cannam@62	240 // dependency may be using the attachment.
cannam@62	241 dropDependency();
cannam@62	242 }
cannam@62	243
cannam@62	244 private:
cannam@62	245 Attachment attachment;
cannam@62	246 };
cannam@62	247
cannam@62	248 // -------------------------------------------------------------------
cannam@62	249
cannam@62	250 class PtmfHelper {
cannam@62	251 // This class is a private helper for GetFunctorStartAddress. The class represents the internal
cannam@62	252 // representation of a pointer-to-member-function.
cannam@62	253
cannam@62	254 template <typename... ParamTypes>
cannam@62	255 friend struct GetFunctorStartAddress;
cannam@62	256
cannam@62	257 #if __GNUG__
cannam@62	258
cannam@62	259 void* ptr;
cannam@62	260 ptrdiff_t adj;
cannam@62	261 // Layout of a pointer-to-member-function used by GCC and compatible compilers.
cannam@62	262
cannam@62	263 void* apply(void* obj) {
cannam@62	264 #if defined(__arm__) \|\| defined(__mips__) \|\| defined(__aarch64__)
cannam@62	265 if (adj & 1) {
cannam@62	266 ptrdiff_t voff = (ptrdiff_t)ptr;
cannam@62	267 #else
cannam@62	268 ptrdiff_t voff = (ptrdiff_t)ptr;
cannam@62	269 if (voff & 1) {
cannam@62	270 voff &= ~1;
cannam@62	271 #endif
cannam@62	272 return (void)((char**)obj + voff);
cannam@62	273 } else {
cannam@62	274 return ptr;
cannam@62	275 }
cannam@62	276 }
cannam@62	277
cannam@62	278 #define BODY \
cannam@62	279 PtmfHelper result; \
cannam@62	280 static_assert(sizeof(p) == sizeof(result), "unknown ptmf layout"); \
cannam@62	281 memcpy(&result, &p, sizeof(result)); \
cannam@62	282 return result
cannam@62	283
cannam@62	284 #else // __GNUG__
cannam@62	285
cannam@62	286 void* apply(void* obj) { return nullptr; }
cannam@62	287 // TODO(port): PTMF instruction address extraction
cannam@62	288
cannam@62	289 #define BODY return PtmfHelper{}
cannam@62	290
cannam@62	291 #endif // __GNUG__, else
cannam@62	292
cannam@62	293 template <typename R, typename C, typename... P, typename F>
cannam@62	294 static PtmfHelper from(F p) { BODY; }
cannam@62	295 // Create a PtmfHelper from some arbitrary pointer-to-member-function which is not
cannam@62	296 // overloaded nor a template. In this case the compiler is able to deduce the full function
cannam@62	297 // signature directly given the name since there is only one function with that name.
cannam@62	298
cannam@62	299 template <typename R, typename C, typename... P>
cannam@62	300 static PtmfHelper from(R (C::*p)(NoInfer<P>...)) { BODY; }
cannam@62	301 template <typename R, typename C, typename... P>
cannam@62	302 static PtmfHelper from(R (C::*p)(NoInfer<P>...) const) { BODY; }
cannam@62	303 // Create a PtmfHelper from some poniter-to-member-function which is a template. In this case
cannam@62	304 // the function must match exactly the containing type C, return type R, and parameter types P...
cannam@62	305 // GetFunctorStartAddress normally specifies exactly the correct C and R, but can only make a
cannam@62	306 // guess at P. Luckily, if the function parameters are template parameters then it's not
cannam@62	307 // necessary to be precise about P.
cannam@62	308 #undef BODY
cannam@62	309 };
cannam@62	310
cannam@62	311 template <typename... ParamTypes>
cannam@62	312 struct GetFunctorStartAddress {
cannam@62	313 // Given a functor (any object defining operator()), return the start address of the function,
cannam@62	314 // suitable for passing to addr2line to obtain a source file/line for debugging purposes.
cannam@62	315 //
cannam@62	316 // This turns out to be incredibly hard to implement in the presence of overloaded or templated
cannam@62	317 // functors. Therefore, we impose these specific restrictions, specific to our use case:
cannam@62	318 // - Overloading is not allowed, but templating is. (Generally we only intend to support lambdas
cannam@62	319 // anyway.)
cannam@62	320 // - The template parameters to GetFunctorStartAddress specify a hint as to the expected
cannam@62	321 // parameter types. If the functor is templated, its parameters must match exactly these types.
cannam@62	322 // (If it's not templated, ParamTypes are ignored.)
cannam@62	323
cannam@62	324 template <typename Func>
cannam@62	325 static void* apply(Func&& func) {
cannam@62	326 typedef decltype(func(instance<ParamTypes>()...)) ReturnType;
cannam@62	327 return PtmfHelper::from<ReturnType, Decay<Func>, ParamTypes...>(
cannam@62	328 &Decay<Func>::operator()).apply(&func);
cannam@62	329 }
cannam@62	330 };
cannam@62	331
cannam@62	332 template <>
cannam@62	333 struct GetFunctorStartAddress<Void&&>: public GetFunctorStartAddress<> {};
cannam@62	334 // Hack for TransformPromiseNode use case: an input type of `Void` indicates that the function
cannam@62	335 // actually has no parameters.
cannam@62	336
cannam@62	337 class TransformPromiseNodeBase: public PromiseNode {
cannam@62	338 public:
cannam@62	339 TransformPromiseNodeBase(Own<PromiseNode>&& dependency, void* continuationTracePtr);
cannam@62	340
cannam@62	341 void onReady(Event& event) noexcept override;
cannam@62	342 void get(ExceptionOrValue& output) noexcept override;
cannam@62	343 PromiseNode* getInnerForTrace() override;
cannam@62	344
cannam@62	345 private:
cannam@62	346 Own<PromiseNode> dependency;
cannam@62	347 void* continuationTracePtr;
cannam@62	348
cannam@62	349 void dropDependency();
cannam@62	350 void getDepResult(ExceptionOrValue& output);
cannam@62	351
cannam@62	352 virtual void getImpl(ExceptionOrValue& output) = 0;
cannam@62	353
cannam@62	354 template <typename, typename, typename, typename>
cannam@62	355 friend class TransformPromiseNode;
cannam@62	356 };
cannam@62	357
cannam@62	358 template <typename T, typename DepT, typename Func, typename ErrorFunc>
cannam@62	359 class TransformPromiseNode final: public TransformPromiseNodeBase {
cannam@62	360 // A PromiseNode that transforms the result of another PromiseNode through an application-provided
cannam@62	361 // function (implements `then()`).
cannam@62	362
cannam@62	363 public:
cannam@62	364 TransformPromiseNode(Own<PromiseNode>&& dependency, Func&& func, ErrorFunc&& errorHandler)
cannam@62	365 : TransformPromiseNodeBase(kj::mv(dependency),
cannam@62	366 GetFunctorStartAddress<DepT&&>::apply(func)),
cannam@62	367 func(kj::fwd<Func>(func)), errorHandler(kj::fwd<ErrorFunc>(errorHandler)) {}
cannam@62	368
cannam@62	369 ~TransformPromiseNode() noexcept(false) {
cannam@62	370 // We need to make sure the dependency is deleted before we delete the continuations because it
cannam@62	371 // is a common pattern for the continuations to hold ownership of objects that might be in-use
cannam@62	372 // by the dependency.
cannam@62	373 dropDependency();
cannam@62	374 }
cannam@62	375
cannam@62	376 private:
cannam@62	377 Func func;
cannam@62	378 ErrorFunc errorHandler;
cannam@62	379
cannam@62	380 void getImpl(ExceptionOrValue& output) override {
cannam@62	381 ExceptionOr<DepT> depResult;
cannam@62	382 getDepResult(depResult);
cannam@62	383 KJ_IF_MAYBE(depException, depResult.exception) {
cannam@62	384 output.as<T>() = handle(
cannam@62	385 MaybeVoidCaller<Exception, FixVoid<ReturnType<ErrorFunc, Exception>>>::apply(
cannam@62	386 errorHandler, kj::mv(*depException)));
cannam@62	387 } else KJ_IF_MAYBE(depValue, depResult.value) {
cannam@62	388 output.as<T>() = handle(MaybeVoidCaller<DepT, T>::apply(func, kj::mv(*depValue)));
cannam@62	389 }
cannam@62	390 }
cannam@62	391
cannam@62	392 ExceptionOr<T> handle(T&& value) {
cannam@62	393 return kj::mv(value);
cannam@62	394 }
cannam@62	395 ExceptionOr<T> handle(PropagateException::Bottom&& value) {
cannam@62	396 return ExceptionOr<T>(false, value.asException());
cannam@62	397 }
cannam@62	398 };
cannam@62	399
cannam@62	400 // -------------------------------------------------------------------
cannam@62	401
cannam@62	402 class ForkHubBase;
cannam@62	403
cannam@62	404 class ForkBranchBase: public PromiseNode {
cannam@62	405 public:
cannam@62	406 ForkBranchBase(Own<ForkHubBase>&& hub);
cannam@62	407 ~ForkBranchBase() noexcept(false);
cannam@62	408
cannam@62	409 void hubReady() noexcept;
cannam@62	410 // Called by the hub to indicate that it is ready.
cannam@62	411
cannam@62	412 // implements PromiseNode ------------------------------------------
cannam@62	413 void onReady(Event& event) noexcept override;
cannam@62	414 PromiseNode* getInnerForTrace() override;
cannam@62	415
cannam@62	416 protected:
cannam@62	417 inline ExceptionOrValue& getHubResultRef();
cannam@62	418
cannam@62	419 void releaseHub(ExceptionOrValue& output);
cannam@62	420 // Release the hub. If an exception is thrown, add it to `output`.
cannam@62	421
cannam@62	422 private:
cannam@62	423 OnReadyEvent onReadyEvent;
cannam@62	424
cannam@62	425 Own<ForkHubBase> hub;
cannam@62	426 ForkBranchBase* next = nullptr;
cannam@62	427 ForkBranchBase** prevPtr = nullptr;
cannam@62	428
cannam@62	429 friend class ForkHubBase;
cannam@62	430 };
cannam@62	431
cannam@62	432 template <typename T> T copyOrAddRef(T& t) { return t; }
cannam@62	433 template <typename T> Own<T> copyOrAddRef(Own<T>& t) { return t->addRef(); }
cannam@62	434
cannam@62	435 template <typename T>
cannam@62	436 class ForkBranch final: public ForkBranchBase {
cannam@62	437 // A PromiseNode that implements one branch of a fork -- i.e. one of the branches that receives
cannam@62	438 // a const reference.
cannam@62	439
cannam@62	440 public:
cannam@62	441 ForkBranch(Own<ForkHubBase>&& hub): ForkBranchBase(kj::mv(hub)) {}
cannam@62	442
cannam@62	443 void get(ExceptionOrValue& output) noexcept override {
cannam@62	444 ExceptionOr<T>& hubResult = getHubResultRef().template as<T>();
cannam@62	445 KJ_IF_MAYBE(value, hubResult.value) {
cannam@62	446 output.as<T>().value = copyOrAddRef(*value);
cannam@62	447 } else {
cannam@62	448 output.as<T>().value = nullptr;
cannam@62	449 }
cannam@62	450 output.exception = hubResult.exception;
cannam@62	451 releaseHub(output);
cannam@62	452 }
cannam@62	453 };
cannam@62	454
cannam@62	455 template <typename T, size_t index>
cannam@62	456 class SplitBranch final: public ForkBranchBase {
cannam@62	457 // A PromiseNode that implements one branch of a fork -- i.e. one of the branches that receives
cannam@62	458 // a const reference.
cannam@62	459
cannam@62	460 public:
cannam@62	461 SplitBranch(Own<ForkHubBase>&& hub): ForkBranchBase(kj::mv(hub)) {}
cannam@62	462
cannam@62	463 typedef kj::Decay<decltype(kj::get<index>(kj::instance<T>()))> Element;
cannam@62	464
cannam@62	465 void get(ExceptionOrValue& output) noexcept override {
cannam@62	466 ExceptionOr<T>& hubResult = getHubResultRef().template as<T>();
cannam@62	467 KJ_IF_MAYBE(value, hubResult.value) {
cannam@62	468 output.as<Element>().value = kj::mv(kj::get<index>(*value));
cannam@62	469 } else {
cannam@62	470 output.as<Element>().value = nullptr;
cannam@62	471 }
cannam@62	472 output.exception = hubResult.exception;
cannam@62	473 releaseHub(output);
cannam@62	474 }
cannam@62	475 };
cannam@62	476
cannam@62	477 // -------------------------------------------------------------------
cannam@62	478
cannam@62	479 class ForkHubBase: public Refcounted, protected Event {
cannam@62	480 public:
cannam@62	481 ForkHubBase(Own<PromiseNode>&& inner, ExceptionOrValue& resultRef);
cannam@62	482
cannam@62	483 inline ExceptionOrValue& getResultRef() { return resultRef; }
cannam@62	484
cannam@62	485 private:
cannam@62	486 Own<PromiseNode> inner;
cannam@62	487 ExceptionOrValue& resultRef;
cannam@62	488
cannam@62	489 ForkBranchBase* headBranch = nullptr;
cannam@62	490 ForkBranchBase** tailBranch = &headBranch;
cannam@62	491 // Tail becomes null once the inner promise is ready and all branches have been notified.
cannam@62	492
cannam@62	493 Maybe<Own<Event>> fire() override;
cannam@62	494 _::PromiseNode* getInnerForTrace() override;
cannam@62	495
cannam@62	496 friend class ForkBranchBase;
cannam@62	497 };
cannam@62	498
cannam@62	499 template <typename T>
cannam@62	500 class ForkHub final: public ForkHubBase {
cannam@62	501 // A PromiseNode that implements the hub of a fork. The first call to Promise::fork() replaces
cannam@62	502 // the promise's outer node with a ForkHub, and subsequent calls add branches to that hub (if
cannam@62	503 // possible).
cannam@62	504
cannam@62	505 public:
cannam@62	506 ForkHub(Own<PromiseNode>&& inner): ForkHubBase(kj::mv(inner), result) {}
cannam@62	507
cannam@62	508 Promise<_::UnfixVoid<T>> addBranch() {
cannam@62	509 return Promise<_::UnfixVoid<T>>(false, kj::heap<ForkBranch<T>>(addRef(*this)));
cannam@62	510 }
cannam@62	511
cannam@62	512 _::SplitTuplePromise<T> split() {
cannam@62	513 return splitImpl(MakeIndexes<tupleSize<T>()>());
cannam@62	514 }
cannam@62	515
cannam@62	516 private:
cannam@62	517 ExceptionOr<T> result;
cannam@62	518
cannam@62	519 template <size_t... indexes>
cannam@62	520 _::SplitTuplePromise<T> splitImpl(Indexes<indexes...>) {
cannam@62	521 return kj::tuple(addSplit<indexes>()...);
cannam@62	522 }
cannam@62	523
cannam@62	524 template <size_t index>
cannam@62	525 Promise<JoinPromises<typename SplitBranch<T, index>::Element>> addSplit() {
cannam@62	526 return Promise<JoinPromises<typename SplitBranch<T, index>::Element>>(
cannam@62	527 false, maybeChain(kj::heap<SplitBranch<T, index>>(addRef(*this)),
cannam@62	528 implicitCast<typename SplitBranch<T, index>::Element*>(nullptr)));
cannam@62	529 }
cannam@62	530 };
cannam@62	531
cannam@62	532 inline ExceptionOrValue& ForkBranchBase::getHubResultRef() {
cannam@62	533 return hub->getResultRef();
cannam@62	534 }
cannam@62	535
cannam@62	536 // -------------------------------------------------------------------
cannam@62	537
cannam@62	538 class ChainPromiseNode final: public PromiseNode, public Event {
cannam@62	539 // Promise node which reduces Promise<Promise<T>> to Promise<T>.
cannam@62	540 //
cannam@62	541 // `Event` is only a public base class because otherwise we can't cast Own<ChainPromiseNode> to
cannam@62	542 // Own<Event>. Ugh, templates and private...
cannam@62	543
cannam@62	544 public:
cannam@62	545 explicit ChainPromiseNode(Own<PromiseNode> inner);
cannam@62	546 ~ChainPromiseNode() noexcept(false);
cannam@62	547
cannam@62	548 void onReady(Event& event) noexcept override;
cannam@62	549 void setSelfPointer(Own<PromiseNode>* selfPtr) noexcept override;
cannam@62	550 void get(ExceptionOrValue& output) noexcept override;
cannam@62	551 PromiseNode* getInnerForTrace() override;
cannam@62	552
cannam@62	553 private:
cannam@62	554 enum State {
cannam@62	555 STEP1,
cannam@62	556 STEP2
cannam@62	557 };
cannam@62	558
cannam@62	559 State state;
cannam@62	560
cannam@62	561 Own<PromiseNode> inner;
cannam@62	562 // In STEP1, a PromiseNode for a Promise<T>.
cannam@62	563 // In STEP2, a PromiseNode for a T.
cannam@62	564
cannam@62	565 Event* onReadyEvent = nullptr;
cannam@62	566 Own<PromiseNode>* selfPtr = nullptr;
cannam@62	567
cannam@62	568 Maybe<Own<Event>> fire() override;
cannam@62	569 };
cannam@62	570
cannam@62	571 template <typename T>
cannam@62	572 Own<PromiseNode> maybeChain(Own<PromiseNode>&& node, Promise<T>*) {
cannam@62	573 return heap<ChainPromiseNode>(kj::mv(node));
cannam@62	574 }
cannam@62	575
cannam@62	576 template <typename T>
cannam@62	577 Own<PromiseNode>&& maybeChain(Own<PromiseNode>&& node, T*) {
cannam@62	578 return kj::mv(node);
cannam@62	579 }
cannam@62	580
cannam@62	581 // -------------------------------------------------------------------
cannam@62	582
cannam@62	583 class ExclusiveJoinPromiseNode final: public PromiseNode {
cannam@62	584 public:
cannam@62	585 ExclusiveJoinPromiseNode(Own<PromiseNode> left, Own<PromiseNode> right);
cannam@62	586 ~ExclusiveJoinPromiseNode() noexcept(false);
cannam@62	587
cannam@62	588 void onReady(Event& event) noexcept override;
cannam@62	589 void get(ExceptionOrValue& output) noexcept override;
cannam@62	590 PromiseNode* getInnerForTrace() override;
cannam@62	591
cannam@62	592 private:
cannam@62	593 class Branch: public Event {
cannam@62	594 public:
cannam@62	595 Branch(ExclusiveJoinPromiseNode& joinNode, Own<PromiseNode> dependency);
cannam@62	596 ~Branch() noexcept(false);
cannam@62	597
cannam@62	598 bool get(ExceptionOrValue& output);
cannam@62	599 // Returns true if this is the side that finished.
cannam@62	600
cannam@62	601 Maybe<Own<Event>> fire() override;
cannam@62	602 _::PromiseNode* getInnerForTrace() override;
cannam@62	603
cannam@62	604 private:
cannam@62	605 ExclusiveJoinPromiseNode& joinNode;
cannam@62	606 Own<PromiseNode> dependency;
cannam@62	607 };
cannam@62	608
cannam@62	609 Branch left;
cannam@62	610 Branch right;
cannam@62	611 OnReadyEvent onReadyEvent;
cannam@62	612 };
cannam@62	613
cannam@62	614 // -------------------------------------------------------------------
cannam@62	615
cannam@62	616 class ArrayJoinPromiseNodeBase: public PromiseNode {
cannam@62	617 public:
cannam@62	618 ArrayJoinPromiseNodeBase(Array<Own<PromiseNode>> promises,
cannam@62	619 ExceptionOrValue* resultParts, size_t partSize);
cannam@62	620 ~ArrayJoinPromiseNodeBase() noexcept(false);
cannam@62	621
cannam@62	622 void onReady(Event& event) noexcept override final;
cannam@62	623 void get(ExceptionOrValue& output) noexcept override final;
cannam@62	624 PromiseNode* getInnerForTrace() override final;
cannam@62	625
cannam@62	626 protected:
cannam@62	627 virtual void getNoError(ExceptionOrValue& output) noexcept = 0;
cannam@62	628 // Called to compile the result only in the case where there were no errors.
cannam@62	629
cannam@62	630 private:
cannam@62	631 uint countLeft;
cannam@62	632 OnReadyEvent onReadyEvent;
cannam@62	633
cannam@62	634 class Branch final: public Event {
cannam@62	635 public:
cannam@62	636 Branch(ArrayJoinPromiseNodeBase& joinNode, Own<PromiseNode> dependency,
cannam@62	637 ExceptionOrValue& output);
cannam@62	638 ~Branch() noexcept(false);
cannam@62	639
cannam@62	640 Maybe<Own<Event>> fire() override;
cannam@62	641 _::PromiseNode* getInnerForTrace() override;
cannam@62	642
cannam@62	643 Maybe<Exception> getPart();
cannam@62	644 // Calls dependency->get(output). If there was an exception, return it.
cannam@62	645
cannam@62	646 private:
cannam@62	647 ArrayJoinPromiseNodeBase& joinNode;
cannam@62	648 Own<PromiseNode> dependency;
cannam@62	649 ExceptionOrValue& output;
cannam@62	650 };
cannam@62	651
cannam@62	652 Array<Branch> branches;
cannam@62	653 };
cannam@62	654
cannam@62	655 template <typename T>
cannam@62	656 class ArrayJoinPromiseNode final: public ArrayJoinPromiseNodeBase {
cannam@62	657 public:
cannam@62	658 ArrayJoinPromiseNode(Array<Own<PromiseNode>> promises,
cannam@62	659 Array<ExceptionOr<T>> resultParts)
cannam@62	660 : ArrayJoinPromiseNodeBase(kj::mv(promises), resultParts.begin(), sizeof(ExceptionOr<T>)),
cannam@62	661 resultParts(kj::mv(resultParts)) {}
cannam@62	662
cannam@62	663 protected:
cannam@62	664 void getNoError(ExceptionOrValue& output) noexcept override {
cannam@62	665 auto builder = heapArrayBuilder<T>(resultParts.size());
cannam@62	666 for (auto& part: resultParts) {
cannam@62	667 KJ_IASSERT(part.value != nullptr,
cannam@62	668 "Bug in KJ promise framework: Promise result had neither value no exception.");
cannam@62	669 builder.add(kj::mv(*_::readMaybe(part.value)));
cannam@62	670 }
cannam@62	671 output.as<Array<T>>() = builder.finish();
cannam@62	672 }
cannam@62	673
cannam@62	674 private:
cannam@62	675 Array<ExceptionOr<T>> resultParts;
cannam@62	676 };
cannam@62	677
cannam@62	678 template <>
cannam@62	679 class ArrayJoinPromiseNode<void> final: public ArrayJoinPromiseNodeBase {
cannam@62	680 public:
cannam@62	681 ArrayJoinPromiseNode(Array<Own<PromiseNode>> promises,
cannam@62	682 Array<ExceptionOr<_::Void>> resultParts);
cannam@62	683 ~ArrayJoinPromiseNode();
cannam@62	684
cannam@62	685 protected:
cannam@62	686 void getNoError(ExceptionOrValue& output) noexcept override;
cannam@62	687
cannam@62	688 private:
cannam@62	689 Array<ExceptionOr<_::Void>> resultParts;
cannam@62	690 };
cannam@62	691
cannam@62	692 // -------------------------------------------------------------------
cannam@62	693
cannam@62	694 class EagerPromiseNodeBase: public PromiseNode, protected Event {
cannam@62	695 // A PromiseNode that eagerly evaluates its dependency even if its dependent does not eagerly
cannam@62	696 // evaluate it.
cannam@62	697
cannam@62	698 public:
cannam@62	699 EagerPromiseNodeBase(Own<PromiseNode>&& dependency, ExceptionOrValue& resultRef);
cannam@62	700
cannam@62	701 void onReady(Event& event) noexcept override;
cannam@62	702 PromiseNode* getInnerForTrace() override;
cannam@62	703
cannam@62	704 private:
cannam@62	705 Own<PromiseNode> dependency;
cannam@62	706 OnReadyEvent onReadyEvent;
cannam@62	707
cannam@62	708 ExceptionOrValue& resultRef;
cannam@62	709
cannam@62	710 Maybe<Own<Event>> fire() override;
cannam@62	711 };
cannam@62	712
cannam@62	713 template <typename T>
cannam@62	714 class EagerPromiseNode final: public EagerPromiseNodeBase {
cannam@62	715 public:
cannam@62	716 EagerPromiseNode(Own<PromiseNode>&& dependency)
cannam@62	717 : EagerPromiseNodeBase(kj::mv(dependency), result) {}
cannam@62	718
cannam@62	719 void get(ExceptionOrValue& output) noexcept override {
cannam@62	720 output.as<T>() = kj::mv(result);
cannam@62	721 }
cannam@62	722
cannam@62	723 private:
cannam@62	724 ExceptionOr<T> result;
cannam@62	725 };
cannam@62	726
cannam@62	727 template <typename T>
cannam@62	728 Own<PromiseNode> spark(Own<PromiseNode>&& node) {
cannam@62	729 // Forces evaluation of the given node to begin as soon as possible, even if no one is waiting
cannam@62	730 // on it.
cannam@62	731 return heap<EagerPromiseNode<T>>(kj::mv(node));
cannam@62	732 }
cannam@62	733
cannam@62	734 // -------------------------------------------------------------------
cannam@62	735
cannam@62	736 class AdapterPromiseNodeBase: public PromiseNode {
cannam@62	737 public:
cannam@62	738 void onReady(Event& event) noexcept override;
cannam@62	739
cannam@62	740 protected:
cannam@62	741 inline void setReady() {
cannam@62	742 onReadyEvent.arm();
cannam@62	743 }
cannam@62	744
cannam@62	745 private:
cannam@62	746 OnReadyEvent onReadyEvent;
cannam@62	747 };
cannam@62	748
cannam@62	749 template <typename T, typename Adapter>
cannam@62	750 class AdapterPromiseNode final: public AdapterPromiseNodeBase,
cannam@62	751 private PromiseFulfiller<UnfixVoid<T>> {
cannam@62	752 // A PromiseNode that wraps a PromiseAdapter.
cannam@62	753
cannam@62	754 public:
cannam@62	755 template <typename... Params>
cannam@62	756 AdapterPromiseNode(Params&&... params)
cannam@62	757 : adapter(static_cast<PromiseFulfiller<UnfixVoid<T>>&>(*this), kj::fwd<Params>(params)...) {}
cannam@62	758
cannam@62	759 void get(ExceptionOrValue& output) noexcept override {
cannam@62	760 KJ_IREQUIRE(!isWaiting());
cannam@62	761 output.as<T>() = kj::mv(result);
cannam@62	762 }
cannam@62	763
cannam@62	764 private:
cannam@62	765 ExceptionOr<T> result;
cannam@62	766 bool waiting = true;
cannam@62	767 Adapter adapter;
cannam@62	768
cannam@62	769 void fulfill(T&& value) override {
cannam@62	770 if (waiting) {
cannam@62	771 waiting = false;
cannam@62	772 result = ExceptionOr<T>(kj::mv(value));
cannam@62	773 setReady();
cannam@62	774 }
cannam@62	775 }
cannam@62	776
cannam@62	777 void reject(Exception&& exception) override {
cannam@62	778 if (waiting) {
cannam@62	779 waiting = false;
cannam@62	780 result = ExceptionOr<T>(false, kj::mv(exception));
cannam@62	781 setReady();
cannam@62	782 }
cannam@62	783 }
cannam@62	784
cannam@62	785 bool isWaiting() override {
cannam@62	786 return waiting;
cannam@62	787 }
cannam@62	788 };
cannam@62	789
cannam@62	790 } // namespace _ (private)
cannam@62	791
cannam@62	792 // =======================================================================================
cannam@62	793
cannam@62	794 template <typename T>
cannam@62	795 Promise<T>::Promise(_::FixVoid<T> value)
cannam@62	796 : PromiseBase(heap<_::ImmediatePromiseNode<_::FixVoid<T>>>(kj::mv(value))) {}
cannam@62	797
cannam@62	798 template <typename T>
cannam@62	799 Promise<T>::Promise(kj::Exception&& exception)
cannam@62	800 : PromiseBase(heap<_::ImmediateBrokenPromiseNode>(kj::mv(exception))) {}
cannam@62	801
cannam@62	802 template <typename T>
cannam@62	803 template <typename Func, typename ErrorFunc>
cannam@62	804 PromiseForResult<Func, T> Promise<T>::then(Func&& func, ErrorFunc&& errorHandler) {
cannam@62	805 typedef _::FixVoid<_::ReturnType<Func, T>> ResultT;
cannam@62	806
cannam@62	807 Own<_::PromiseNode> intermediate =
cannam@62	808 heap<_::TransformPromiseNode<ResultT, _::FixVoid<T>, Func, ErrorFunc>>(
cannam@62	809 kj::mv(node), kj::fwd<Func>(func), kj::fwd<ErrorFunc>(errorHandler));
cannam@62	810 return PromiseForResult<Func, T>(false,
cannam@62	811 _::maybeChain(kj::mv(intermediate), implicitCast<ResultT*>(nullptr)));
cannam@62	812 }
cannam@62	813
cannam@62	814 namespace _ { // private
cannam@62	815
cannam@62	816 template <typename T>
cannam@62	817 struct IdentityFunc {
cannam@62	818 inline T operator()(T&& value) const {
cannam@62	819 return kj::mv(value);
cannam@62	820 }
cannam@62	821 };
cannam@62	822 template <typename T>
cannam@62	823 struct IdentityFunc<Promise<T>> {
cannam@62	824 inline Promise<T> operator()(T&& value) const {
cannam@62	825 return kj::mv(value);
cannam@62	826 }
cannam@62	827 };
cannam@62	828 template <>
cannam@62	829 struct IdentityFunc<void> {
cannam@62	830 inline void operator()() const {}
cannam@62	831 };
cannam@62	832 template <>
cannam@62	833 struct IdentityFunc<Promise<void>> {
cannam@62	834 Promise<void> operator()() const;
cannam@62	835 // This can't be inline because it will make the translation unit depend on kj-async. Awkwardly,
cannam@62	836 // Cap'n Proto relies on being able to include this header without creating such a link-time
cannam@62	837 // dependency.
cannam@62	838 };
cannam@62	839
cannam@62	840 } // namespace _ (private)
cannam@62	841
cannam@62	842 template <typename T>
cannam@62	843 template <typename ErrorFunc>
cannam@62	844 Promise<T> Promise<T>::catch_(ErrorFunc&& errorHandler) {
cannam@62	845 // then()'s ErrorFunc can only return a Promise if Func also returns a Promise. In this case,
cannam@62	846 // Func is being filled in automatically. We want to make sure ErrorFunc can return a Promise,
cannam@62	847 // but we don't want the extra overhead of promise chaining if ErrorFunc doesn't actually
cannam@62	848 // return a promise. So we make our Func return match ErrorFunc.
cannam@62	849 return then(_::IdentityFunc<decltype(errorHandler(instance<Exception&&>()))>(),
cannam@62	850 kj::fwd<ErrorFunc>(errorHandler));
cannam@62	851 }
cannam@62	852
cannam@62	853 template <typename T>
cannam@62	854 T Promise<T>::wait(WaitScope& waitScope) {
cannam@62	855 _::ExceptionOr<_::FixVoid<T>> result;
cannam@62	856
cannam@62	857 waitImpl(kj::mv(node), result, waitScope);
cannam@62	858
cannam@62	859 KJ_IF_MAYBE(value, result.value) {
cannam@62	860 KJ_IF_MAYBE(exception, result.exception) {
cannam@62	861 throwRecoverableException(kj::mv(*exception));
cannam@62	862 }
cannam@62	863 return _::returnMaybeVoid(kj::mv(*value));
cannam@62	864 } else KJ_IF_MAYBE(exception, result.exception) {
cannam@62	865 throwFatalException(kj::mv(*exception));
cannam@62	866 } else {
cannam@62	867 // Result contained neither a value nor an exception?
cannam@62	868 KJ_UNREACHABLE;
cannam@62	869 }
cannam@62	870 }
cannam@62	871
cannam@62	872 template <>
cannam@62	873 inline void Promise<void>::wait(WaitScope& waitScope) {
cannam@62	874 // Override <void> case to use throwRecoverableException().
cannam@62	875
cannam@62	876 _::ExceptionOr<_::Void> result;
cannam@62	877
cannam@62	878 waitImpl(kj::mv(node), result, waitScope);
cannam@62	879
cannam@62	880 if (result.value != nullptr) {
cannam@62	881 KJ_IF_MAYBE(exception, result.exception) {
cannam@62	882 throwRecoverableException(kj::mv(*exception));
cannam@62	883 }
cannam@62	884 } else KJ_IF_MAYBE(exception, result.exception) {
cannam@62	885 throwRecoverableException(kj::mv(*exception));
cannam@62	886 } else {
cannam@62	887 // Result contained neither a value nor an exception?
cannam@62	888 KJ_UNREACHABLE;
cannam@62	889 }
cannam@62	890 }
cannam@62	891
cannam@62	892 template <typename T>
cannam@62	893 ForkedPromise<T> Promise<T>::fork() {
cannam@62	894 return ForkedPromise<T>(false, refcounted<_::ForkHub<_::FixVoid<T>>>(kj::mv(node)));
cannam@62	895 }
cannam@62	896
cannam@62	897 template <typename T>
cannam@62	898 Promise<T> ForkedPromise<T>::addBranch() {
cannam@62	899 return hub->addBranch();
cannam@62	900 }
cannam@62	901
cannam@62	902 template <typename T>
cannam@62	903 _::SplitTuplePromise<T> Promise<T>::split() {
cannam@62	904 return refcounted<_::ForkHub<_::FixVoid<T>>>(kj::mv(node))->split();
cannam@62	905 }
cannam@62	906
cannam@62	907 template <typename T>
cannam@62	908 Promise<T> Promise<T>::exclusiveJoin(Promise<T>&& other) {
cannam@62	909 return Promise(false, heap<_::ExclusiveJoinPromiseNode>(kj::mv(node), kj::mv(other.node)));
cannam@62	910 }
cannam@62	911
cannam@62	912 template <typename T>
cannam@62	913 template <typename... Attachments>
cannam@62	914 Promise<T> Promise<T>::attach(Attachments&&... attachments) {
cannam@62	915 return Promise(false, kj::heap<_::AttachmentPromiseNode<Tuple<Attachments...>>>(
cannam@62	916 kj::mv(node), kj::tuple(kj::fwd<Attachments>(attachments)...)));
cannam@62	917 }
cannam@62	918
cannam@62	919 template <typename T>
cannam@62	920 template <typename ErrorFunc>
cannam@62	921 Promise<T> Promise<T>::eagerlyEvaluate(ErrorFunc&& errorHandler) {
cannam@62	922 // See catch_() for commentary.
cannam@62	923 return Promise(false, _::spark<_::FixVoid<T>>(then(
cannam@62	924 _::IdentityFunc<decltype(errorHandler(instance<Exception&&>()))>(),
cannam@62	925 kj::fwd<ErrorFunc>(errorHandler)).node));
cannam@62	926 }
cannam@62	927
cannam@62	928 template <typename T>
cannam@62	929 Promise<T> Promise<T>::eagerlyEvaluate(decltype(nullptr)) {
cannam@62	930 return Promise(false, _::spark<_::FixVoid<T>>(kj::mv(node)));
cannam@62	931 }
cannam@62	932
cannam@62	933 template <typename T>
cannam@62	934 kj::String Promise<T>::trace() {
cannam@62	935 return PromiseBase::trace();
cannam@62	936 }
cannam@62	937
cannam@62	938 template <typename Func>
cannam@62	939 inline PromiseForResult<Func, void> evalLater(Func&& func) {
cannam@62	940 return _::yield().then(kj::fwd<Func>(func), _::PropagateException());
cannam@62	941 }
cannam@62	942
cannam@62	943 template <typename Func>
cannam@62	944 inline PromiseForResult<Func, void> evalNow(Func&& func) {
cannam@62	945 PromiseForResult<Func, void> result = nullptr;
cannam@62	946 KJ_IF_MAYBE(e, kj::runCatchingExceptions([&]() {
cannam@62	947 result = func();
cannam@62	948 })) {
cannam@62	949 result = kj::mv(*e);
cannam@62	950 }
cannam@62	951 return result;
cannam@62	952 }
cannam@62	953
cannam@62	954 template <typename T>
cannam@62	955 template <typename ErrorFunc>
cannam@62	956 void Promise<T>::detach(ErrorFunc&& errorHandler) {
cannam@62	957 return _::detach(then([](T&&) {}, kj::fwd<ErrorFunc>(errorHandler)));
cannam@62	958 }
cannam@62	959
cannam@62	960 template <>
cannam@62	961 template <typename ErrorFunc>
cannam@62	962 void Promise<void>::detach(ErrorFunc&& errorHandler) {
cannam@62	963 return _::detach(then([]() {}, kj::fwd<ErrorFunc>(errorHandler)));
cannam@62	964 }
cannam@62	965
cannam@62	966 template <typename T>
cannam@62	967 Promise<Array<T>> joinPromises(Array<Promise<T>>&& promises) {
cannam@62	968 return Promise<Array<T>>(false, kj::heap<_::ArrayJoinPromiseNode<T>>(
cannam@62	969 KJ_MAP(p, promises) { return kj::mv(p.node); },
cannam@62	970 heapArray<_::ExceptionOr<T>>(promises.size())));
cannam@62	971 }
cannam@62	972
cannam@62	973 // =======================================================================================
cannam@62	974
cannam@62	975 namespace _ { // private
cannam@62	976
cannam@62	977 template <typename T>
cannam@62	978 class WeakFulfiller final: public PromiseFulfiller<T>, private kj::Disposer {
cannam@62	979 // A wrapper around PromiseFulfiller which can be detached.
cannam@62	980 //
cannam@62	981 // There are a couple non-trivialities here:
cannam@62	982 // - If the WeakFulfiller is discarded, we want the promise it fulfills to be implicitly
cannam@62	983 // rejected.
cannam@62	984 // - We cannot destroy the WeakFulfiller until the application has discarded it and it has been
cannam@62	985 // detached from the underlying fulfiller, because otherwise the later detach() call will go
cannam@62	986 // to a dangling pointer. Essentially, WeakFulfiller is reference counted, although the
cannam@62	987 // refcount never goes over 2 and we manually implement the refcounting because we need to do
cannam@62	988 // other special things when each side detaches anyway. To this end, WeakFulfiller is its own
cannam@62	989 // Disposer -- dispose() is called when the application discards its owned pointer to the
cannam@62	990 // fulfiller and detach() is called when the promise is destroyed.
cannam@62	991
cannam@62	992 public:
cannam@62	993 KJ_DISALLOW_COPY(WeakFulfiller);
cannam@62	994
cannam@62	995 static kj::Own<WeakFulfiller> make() {
cannam@62	996 WeakFulfiller* ptr = new WeakFulfiller;
cannam@62	997 return Own<WeakFulfiller>(ptr, *ptr);
cannam@62	998 }
cannam@62	999
cannam@62	1000 void fulfill(FixVoid<T>&& value) override {
cannam@62	1001 if (inner != nullptr) {
cannam@62	1002 inner->fulfill(kj::mv(value));
cannam@62	1003 }
cannam@62	1004 }
cannam@62	1005
cannam@62	1006 void reject(Exception&& exception) override {
cannam@62	1007 if (inner != nullptr) {
cannam@62	1008 inner->reject(kj::mv(exception));
cannam@62	1009 }
cannam@62	1010 }
cannam@62	1011
cannam@62	1012 bool isWaiting() override {
cannam@62	1013 return inner != nullptr && inner->isWaiting();
cannam@62	1014 }
cannam@62	1015
cannam@62	1016 void attach(PromiseFulfiller<T>& newInner) {
cannam@62	1017 inner = &newInner;
cannam@62	1018 }
cannam@62	1019
cannam@62	1020 void detach(PromiseFulfiller<T>& from) {
cannam@62	1021 if (inner == nullptr) {
cannam@62	1022 // Already disposed.
cannam@62	1023 delete this;
cannam@62	1024 } else {
cannam@62	1025 KJ_IREQUIRE(inner == &from);
cannam@62	1026 inner = nullptr;
cannam@62	1027 }
cannam@62	1028 }
cannam@62	1029
cannam@62	1030 private:
cannam@62	1031 mutable PromiseFulfiller<T>* inner;
cannam@62	1032
cannam@62	1033 WeakFulfiller(): inner(nullptr) {}
cannam@62	1034
cannam@62	1035 void disposeImpl(void* pointer) const override {
cannam@62	1036 // TODO(perf): Factor some of this out so it isn't regenerated for every fulfiller type?
cannam@62	1037
cannam@62	1038 if (inner == nullptr) {
cannam@62	1039 // Already detached.
cannam@62	1040 delete this;
cannam@62	1041 } else {
cannam@62	1042 if (inner->isWaiting()) {
cannam@62	1043 inner->reject(kj::Exception(kj::Exception::Type::FAILED, __FILE__, __LINE__,
cannam@62	1044 kj::heapString("PromiseFulfiller was destroyed without fulfilling the promise.")));
cannam@62	1045 }
cannam@62	1046 inner = nullptr;
cannam@62	1047 }
cannam@62	1048 }
cannam@62	1049 };
cannam@62	1050
cannam@62	1051 template <typename T>
cannam@62	1052 class PromiseAndFulfillerAdapter {
cannam@62	1053 public:
cannam@62	1054 PromiseAndFulfillerAdapter(PromiseFulfiller<T>& fulfiller,
cannam@62	1055 WeakFulfiller<T>& wrapper)
cannam@62	1056 : fulfiller(fulfiller), wrapper(wrapper) {
cannam@62	1057 wrapper.attach(fulfiller);
cannam@62	1058 }
cannam@62	1059
cannam@62	1060 ~PromiseAndFulfillerAdapter() noexcept(false) {
cannam@62	1061 wrapper.detach(fulfiller);
cannam@62	1062 }
cannam@62	1063
cannam@62	1064 private:
cannam@62	1065 PromiseFulfiller<T>& fulfiller;
cannam@62	1066 WeakFulfiller<T>& wrapper;
cannam@62	1067 };
cannam@62	1068
cannam@62	1069 } // namespace _ (private)
cannam@62	1070
cannam@62	1071 template <typename T>
cannam@62	1072 template <typename Func>
cannam@62	1073 bool PromiseFulfiller<T>::rejectIfThrows(Func&& func) {
cannam@62	1074 KJ_IF_MAYBE(exception, kj::runCatchingExceptions(kj::mv(func))) {
cannam@62	1075 reject(kj::mv(*exception));
cannam@62	1076 return false;
cannam@62	1077 } else {
cannam@62	1078 return true;
cannam@62	1079 }
cannam@62	1080 }
cannam@62	1081
cannam@62	1082 template <typename Func>
cannam@62	1083 bool PromiseFulfiller<void>::rejectIfThrows(Func&& func) {
cannam@62	1084 KJ_IF_MAYBE(exception, kj::runCatchingExceptions(kj::mv(func))) {
cannam@62	1085 reject(kj::mv(*exception));
cannam@62	1086 return false;
cannam@62	1087 } else {
cannam@62	1088 return true;
cannam@62	1089 }
cannam@62	1090 }
cannam@62	1091
cannam@62	1092 template <typename T, typename Adapter, typename... Params>
cannam@62	1093 Promise<T> newAdaptedPromise(Params&&... adapterConstructorParams) {
cannam@62	1094 return Promise<T>(false, heap<_::AdapterPromiseNode<_::FixVoid<T>, Adapter>>(
cannam@62	1095 kj::fwd<Params>(adapterConstructorParams)...));
cannam@62	1096 }
cannam@62	1097
cannam@62	1098 template <typename T>
cannam@62	1099 PromiseFulfillerPair<T> newPromiseAndFulfiller() {
cannam@62	1100 auto wrapper = _::WeakFulfiller<T>::make();
cannam@62	1101
cannam@62	1102 Own<_::PromiseNode> intermediate(
cannam@62	1103 heap<_::AdapterPromiseNode<_::FixVoid<T>, _::PromiseAndFulfillerAdapter<T>>>(*wrapper));
cannam@62	1104 Promise<_::JoinPromises<T>> promise(false,
cannam@62	1105 _::maybeChain(kj::mv(intermediate), implicitCast<T*>(nullptr)));
cannam@62	1106
cannam@62	1107 return PromiseFulfillerPair<T> { kj::mv(promise), kj::mv(wrapper) };
cannam@62	1108 }
cannam@62	1109
cannam@62	1110 } // namespace kj
cannam@62	1111
cannam@62	1112 #endif // KJ_ASYNC_INL_H_

Mercurial > hg > sv-dependency-builds

annotate osx/include/kj/async-inl.h @ 79:91c729825bca pa_catalina