# # Chronos # # (c) Copyright 2015 Dominik Picheta # (c) Copyright 2018-2023 Status Research & Development GmbH # # Licensed under either of # Apache License, version 2.0, (LICENSE-APACHEv2) # MIT license (LICENSE-MIT) ## Features and utilities for `Future` that integrate it with the dispatcher ## and the rest of the async machinery {.push raises: [].} import std/[sequtils, macros] import stew/base10 import ./[asyncengine, raisesfutures] import ../[config, futures] export raisesfutures.Raising, raisesfutures.InternalRaisesFuture, raisesfutures.init, raisesfutures.error, raisesfutures.readError when chronosStackTrace: import std/strutils when defined(nimHasStacktracesModule): import system/stacktraces else: const reraisedFromBegin = -10 reraisedFromEnd = -100 template LocCreateIndex*: auto {.deprecated: "LocationKind.Create".} = LocationKind.Create template LocFinishIndex*: auto {.deprecated: "LocationKind.Finish".} = LocationKind.Finish template LocCompleteIndex*: untyped {.deprecated: "LocationKind.Finish".} = LocationKind.Finish func `[]`*(loc: array[LocationKind, ptr SrcLoc], v: int): ptr SrcLoc {. deprecated: "use LocationKind".} = case v of 0: loc[LocationKind.Create] of 1: loc[LocationKind.Finish] else: raiseAssert("Unknown source location " & $v) type FutureStr*[T] = ref object of Future[T] ## Deprecated gcholder*: string FutureSeq*[A, B] = ref object of Future[A] ## Deprecated gcholder*: seq[B] FuturePendingError* = object of FutureError ## Error raised when trying to `read` a Future that is still pending FutureCompletedError* = object of FutureError ## Error raised when trying access the error of a completed Future SomeFuture = Future|InternalRaisesFuture func raiseFuturePendingError(fut: FutureBase) {. noinline, noreturn, raises: FuturePendingError.} = raise (ref FuturePendingError)(msg: "Future is still pending", future: fut) func raiseFutureCompletedError(fut: FutureBase) {. noinline, noreturn, raises: FutureCompletedError.} = raise (ref FutureCompletedError)( msg: "Future is completed, cannot read error", future: fut) # Backwards compatibility for old FutureState name template Finished* {.deprecated: "Use Completed instead".} = Completed template Finished*(T: type FutureState): FutureState {. deprecated: "Use FutureState.Completed instead".} = FutureState.Completed proc newFutureImpl[T](loc: ptr SrcLoc): Future[T] = let fut = Future[T]() internalInitFutureBase(fut, loc, FutureState.Pending, {}) fut proc newFutureImpl[T](loc: ptr SrcLoc, flags: FutureFlags): Future[T] = let fut = Future[T]() internalInitFutureBase(fut, loc, FutureState.Pending, flags) fut proc newInternalRaisesFutureImpl[T, E]( loc: ptr SrcLoc): InternalRaisesFuture[T, E] = let fut = InternalRaisesFuture[T, E]() internalInitFutureBase(fut, loc, FutureState.Pending, {}) fut proc newInternalRaisesFutureImpl[T, E]( loc: ptr SrcLoc, flags: FutureFlags): InternalRaisesFuture[T, E] = let fut = InternalRaisesFuture[T, E]() internalInitFutureBase(fut, loc, FutureState.Pending, flags) fut proc newFutureSeqImpl[A, B](loc: ptr SrcLoc): FutureSeq[A, B] = let fut = FutureSeq[A, B]() internalInitFutureBase(fut, loc, FutureState.Pending, {}) fut proc newFutureStrImpl[T](loc: ptr SrcLoc): FutureStr[T] = let fut = FutureStr[T]() internalInitFutureBase(fut, loc, FutureState.Pending, {}) fut template newFuture*[T](fromProc: static[string] = "", flags: static[FutureFlags] = {}): auto = ## Creates a new future. ## ## Specifying ``fromProc``, which is a string specifying the name of the proc ## that this future belongs to, is a good habit as it helps with debugging. when declared(InternalRaisesFutureRaises): # injected by `asyncraises` newInternalRaisesFutureImpl[T, InternalRaisesFutureRaises]( getSrcLocation(fromProc), flags) else: newFutureImpl[T](getSrcLocation(fromProc), flags) template newInternalRaisesFuture*[T, E](fromProc: static[string] = ""): auto = ## Creates a new future. ## ## Specifying ``fromProc``, which is a string specifying the name of the proc ## that this future belongs to, is a good habit as it helps with debugging. newInternalRaisesFutureImpl[T, E](getSrcLocation(fromProc)) template newFutureSeq*[A, B](fromProc: static[string] = ""): FutureSeq[A, B] {.deprecated.} = ## Create a new future which can hold/preserve GC sequence until future will ## not be completed. ## ## Specifying ``fromProc``, which is a string specifying the name of the proc ## that this future belongs to, is a good habit as it helps with debugging. newFutureSeqImpl[A, B](getSrcLocation(fromProc)) template newFutureStr*[T](fromProc: static[string] = ""): FutureStr[T] {.deprecated.} = ## Create a new future which can hold/preserve GC string until future will ## not be completed. ## ## Specifying ``fromProc``, which is a string specifying the name of the proc ## that this future belongs to, is a good habit as it helps with debugging. newFutureStrImpl[T](getSrcLocation(fromProc)) proc done*(future: FutureBase): bool {.deprecated: "Use `completed` instead".} = ## This is an alias for ``completed(future)`` procedure. completed(future) when chronosFutureTracking: proc futureDestructor(udata: pointer) = ## This procedure will be called when Future[T] got completed, cancelled or ## failed and all Future[T].callbacks are already scheduled and processed. let future = cast[FutureBase](udata) if future == futureList.tail: futureList.tail = future.prev if future == futureList.head: futureList.head = future.next if not(isNil(future.next)): future.next.internalPrev = future.prev if not(isNil(future.prev)): future.prev.internalNext = future.next futureList.count.dec() proc scheduleDestructor(future: FutureBase) {.inline.} = callSoon(futureDestructor, cast[pointer](future)) proc checkFinished(future: FutureBase, loc: ptr SrcLoc) = ## Checks whether `future` is finished. If it is then raises a ## ``FutureDefect``. if future.finished(): var msg = "" msg.add("An attempt was made to complete a Future more than once. ") msg.add("Details:") msg.add("\n Future ID: " & Base10.toString(future.id)) msg.add("\n Creation location:") msg.add("\n " & $future.location[LocationKind.Create]) msg.add("\n First completion location:") msg.add("\n " & $future.location[LocationKind.Finish]) msg.add("\n Second completion location:") msg.add("\n " & $loc) when chronosStackTrace: msg.add("\n Stack trace to moment of creation:") msg.add("\n" & indent(future.stackTrace.strip(), 4)) msg.add("\n Stack trace to moment of secondary completion:") msg.add("\n" & indent(getStackTrace().strip(), 4)) msg.add("\n\n") var err = newException(FutureDefect, msg) err.cause = future raise err else: future.internalLocation[LocationKind.Finish] = loc proc finish(fut: FutureBase, state: FutureState) = # We do not perform any checks here, because: # 1. `finish()` is a private procedure and `state` is under our control. # 2. `fut.state` is checked by `checkFinished()`. fut.internalState = state fut.internalCancelcb = nil # release cancellation callback memory for item in fut.internalCallbacks.mitems(): if not(isNil(item.function)): callSoon(item) item = default(AsyncCallback) # release memory as early as possible fut.internalCallbacks = default(seq[AsyncCallback]) # release seq as well when chronosFutureTracking: scheduleDestructor(fut) proc complete[T](future: Future[T], val: sink T, loc: ptr SrcLoc) = if not(future.cancelled()): checkFinished(future, loc) doAssert(isNil(future.internalError)) future.internalValue = chronosMoveSink(val) future.finish(FutureState.Completed) template complete*[T](future: Future[T], val: sink T) = ## Completes ``future`` with value ``val``. complete(future, val, getSrcLocation()) proc complete(future: Future[void], loc: ptr SrcLoc) = if not(future.cancelled()): checkFinished(future, loc) doAssert(isNil(future.internalError)) future.finish(FutureState.Completed) template complete*(future: Future[void]) = ## Completes a void ``future``. complete(future, getSrcLocation()) proc failImpl( future: FutureBase, error: ref CatchableError, loc: ptr SrcLoc) = if not(future.cancelled()): checkFinished(future, loc) future.internalError = error when chronosStackTrace: future.internalErrorStackTrace = if getStackTrace(error) == "": getStackTrace() else: getStackTrace(error) future.finish(FutureState.Failed) template fail*[T]( future: Future[T], error: ref CatchableError, warn: static bool = false) = ## Completes ``future`` with ``error``. failImpl(future, error, getSrcLocation()) template fail*[T, E]( future: InternalRaisesFuture[T, E], error: ref CatchableError, warn: static bool = true) = checkRaises(future, E, error, warn) failImpl(future, error, getSrcLocation()) template newCancelledError(): ref CancelledError = (ref CancelledError)(msg: "Future operation cancelled!") proc cancelAndSchedule(future: FutureBase, loc: ptr SrcLoc) = if not(future.finished()): checkFinished(future, loc) future.internalError = newCancelledError() when chronosStackTrace: future.internalErrorStackTrace = getStackTrace() future.finish(FutureState.Cancelled) template cancelAndSchedule*(future: FutureBase) = cancelAndSchedule(future, getSrcLocation()) proc tryCancel(future: FutureBase, loc: ptr SrcLoc): bool = ## Perform an attempt to cancel ``future``. ## ## NOTE: This procedure does not guarantee that cancellation will actually ## happened. ## ## Cancellation is the process which starts from the last ``future`` ## descendent and moves step by step to the parent ``future``. To initiate ## this process procedure iterates through all non-finished ``future`` ## descendents and tries to find the last one. If last descendent is still ## pending it will become cancelled and process will be initiated. In such ## case this procedure returns ``true``. ## ## If last descendent future is not pending, this procedure will be unable to ## initiate cancellation process and so it returns ``false``. if future.cancelled(): return true if future.finished(): return false if not(isNil(future.internalChild)): # If you hit this assertion, you should have used the `CancelledError` # mechanism and/or use a regular `addCallback` when chronosStrictFutureAccess: doAssert future.internalCancelcb.isNil, "futures returned from `{.async.}` functions must not use " & "`cancelCallback`" tryCancel(future.internalChild, loc) else: if not(isNil(future.internalCancelcb)): future.internalCancelcb(cast[pointer](future)) if FutureFlag.OwnCancelSchedule notin future.internalFlags: cancelAndSchedule(future, loc) future.cancelled() template tryCancel*(future: FutureBase): bool = tryCancel(future, getSrcLocation()) proc clearCallbacks(future: FutureBase) = future.internalCallbacks = default(seq[AsyncCallback]) proc addCallback*(future: FutureBase, cb: CallbackFunc, udata: pointer) = ## Adds the callbacks proc to be called when the future completes. ## ## If future has already completed then ``cb`` will be called immediately. doAssert(not isNil(cb)) if future.finished(): callSoon(cb, udata) else: future.internalCallbacks.add AsyncCallback(function: cb, udata: udata) proc addCallback*(future: FutureBase, cb: CallbackFunc) = ## Adds the callbacks proc to be called when the future completes. ## ## If future has already completed then ``cb`` will be called immediately. future.addCallback(cb, cast[pointer](future)) proc removeCallback*(future: FutureBase, cb: CallbackFunc, udata: pointer) = ## Remove future from list of callbacks - this operation may be slow if there ## are many registered callbacks! doAssert(not isNil(cb)) # Make sure to release memory associated with callback, or reference chains # may be created! future.internalCallbacks.keepItIf: it.function != cb or it.udata != udata proc removeCallback*(future: FutureBase, cb: CallbackFunc) = future.removeCallback(cb, cast[pointer](future)) proc `callback=`*(future: FutureBase, cb: CallbackFunc, udata: pointer) = ## Clears the list of callbacks and sets the callback proc to be called when ## the future completes. ## ## If future has already completed then ``cb`` will be called immediately. ## ## It's recommended to use ``addCallback`` or ``then`` instead. # ZAH: how about `setLen(1); callbacks[0] = cb` future.clearCallbacks future.addCallback(cb, udata) proc `callback=`*(future: FutureBase, cb: CallbackFunc) = ## Sets the callback proc to be called when the future completes. ## ## If future has already completed then ``cb`` will be called immediately. `callback=`(future, cb, cast[pointer](future)) proc `cancelCallback=`*(future: FutureBase, cb: CallbackFunc) = ## Sets the callback procedure to be called when the future is cancelled. ## ## This callback will be called immediately as ``future.cancel()`` invoked and ## must be set before future is finished. when chronosStrictFutureAccess: doAssert not future.finished(), "cancellation callback must be set before finishing the future" future.internalCancelcb = cb {.push stackTrace: off.} proc futureContinue*(fut: FutureBase) {.raises: [], gcsafe.} proc internalContinue(fut: pointer) {.raises: [], gcsafe.} = let asFut = cast[FutureBase](fut) GC_unref(asFut) futureContinue(asFut) proc futureContinue*(fut: FutureBase) {.raises: [], gcsafe.} = # This function is responsible for calling the closure iterator generated by # the `{.async.}` transformation either until it has completed its iteration # # Every call to an `{.async.}` proc is redirected to call this function # instead with its original body captured in `fut.closure`. while true: # Call closure to make progress on `fut` until it reaches `yield` (inside # `await` typically) or completes / fails / is cancelled let next: FutureBase = fut.internalClosure(fut) if fut.internalClosure.finished(): # Reached the end of the transformed proc break if next == nil: raiseAssert "Async procedure (" & ($fut.location[LocationKind.Create]) & ") yielded `nil`, are you await'ing a `nil` Future?" if not next.finished(): # We cannot make progress on `fut` until `next` has finished - schedule # `fut` to continue running when that happens GC_ref(fut) next.addCallback(CallbackFunc(internalContinue), cast[pointer](fut)) # return here so that we don't remove the closure below return # Continue while the yielded future is already finished. # `futureContinue` will not be called any more for this future so we can # clean it up fut.internalClosure = nil fut.internalChild = nil {.pop.} when chronosStackTrace: template getFilenameProcname(entry: StackTraceEntry): (string, string) = when compiles(entry.filenameStr) and compiles(entry.procnameStr): # We can't rely on "entry.filename" and "entry.procname" still being valid # cstring pointers, because the "string.data" buffers they pointed to might # be already garbage collected (this entry being a non-shallow copy, # "entry.filename" no longer points to "entry.filenameStr.data", but to the # buffer of the original object). (entry.filenameStr, entry.procnameStr) else: ($entry.filename, $entry.procname) proc `$`(stackTraceEntries: seq[StackTraceEntry]): string = try: when defined(nimStackTraceOverride) and declared(addDebuggingInfo): let entries = addDebuggingInfo(stackTraceEntries) else: let entries = stackTraceEntries # Find longest filename & line number combo for alignment purposes. var longestLeft = 0 for entry in entries: let (filename, procname) = getFilenameProcname(entry) if procname == "": continue let leftLen = filename.len + len($entry.line) if leftLen > longestLeft: longestLeft = leftLen var indent = 2 # Format the entries. for entry in entries: let (filename, procname) = getFilenameProcname(entry) if procname == "": if entry.line == reraisedFromBegin: result.add(spaces(indent) & "#[\n") indent.inc(2) elif entry.line == reraisedFromEnd: indent.dec(2) result.add(spaces(indent) & "]#\n") continue let left = "$#($#)" % [filename, $entry.line] result.add((spaces(indent) & "$#$# $#\n") % [ left, spaces(longestLeft - left.len + 2), procname ]) except ValueError as exc: return exc.msg # Shouldn't actually happen since we set the formatting # string proc injectStacktrace(error: ref Exception) = const header = "\nAsync traceback:\n" var exceptionMsg = error.msg if header in exceptionMsg: # This is messy: extract the original exception message from the msg # containing the async traceback. let start = exceptionMsg.find(header) exceptionMsg = exceptionMsg[0.. 0, "Number should be positive integer") var retFuture = newFuture[void]("chronos.stepsAsync(int)") counter = 0 continuation: proc(data: pointer) {.gcsafe, raises: [].} continuation = proc(data: pointer) {.gcsafe, raises: [].} = if not(retFuture.finished()): inc(counter) if counter < number: internalCallTick(continuation) else: retFuture.complete() if number <= 0: retFuture.complete() else: internalCallTick(continuation) retFuture proc idleAsync*(): Future[void] {. async: (raw: true, raises: [CancelledError]).} = ## Suspends the execution of the current asynchronous task until "idle" time. ## ## "idle" time its moment of time, when no network events were processed by ## ``poll()`` call. var retFuture = newFuture[void]("chronos.idleAsync()") proc continuation(data: pointer) {.gcsafe.} = if not(retFuture.finished()): retFuture.complete() proc cancellation(udata: pointer) {.gcsafe.} = discard retFuture.cancelCallback = cancellation callIdle(continuation, nil) retFuture proc withTimeout*[T](fut: Future[T], timeout: Duration): Future[bool] {. async: (raw: true, raises: [CancelledError]).} = ## Returns a future which will complete once ``fut`` completes or after ## ``timeout`` milliseconds has elapsed. ## ## If ``fut`` completes first the returned future will hold true, ## otherwise, if ``timeout`` milliseconds has elapsed first, the returned ## future will hold false. var retFuture = newFuture[bool]("chronos.withTimeout", {FutureFlag.OwnCancelSchedule}) moment: Moment timer: TimerCallback timeouted = false template completeFuture(fut: untyped): untyped = if fut.failed() or fut.completed(): retFuture.complete(true) else: retFuture.cancelAndSchedule() # TODO: raises annotation shouldn't be needed, but likely similar issue as # https://github.com/nim-lang/Nim/issues/17369 proc continuation(udata: pointer) {.gcsafe, raises: [].} = if not(retFuture.finished()): if timeouted: retFuture.complete(false) return if not(fut.finished()): # Timer exceeded first, we going to cancel `fut` and wait until it # not completes. timeouted = true fut.cancelSoon() else: # Future `fut` completed/failed/cancelled first. if not(isNil(timer)): clearTimer(timer) fut.completeFuture() # TODO: raises annotation shouldn't be needed, but likely similar issue as # https://github.com/nim-lang/Nim/issues/17369 proc cancellation(udata: pointer) {.gcsafe, raises: [].} = if not(fut.finished()): if not isNil(timer): clearTimer(timer) fut.cancelSoon() else: fut.completeFuture() if fut.finished(): retFuture.complete(true) else: if timeout.isZero(): retFuture.complete(false) elif timeout.isInfinite(): retFuture.cancelCallback = cancellation fut.addCallback(continuation) else: moment = Moment.fromNow(timeout) retFuture.cancelCallback = cancellation timer = setTimer(moment, continuation, nil) fut.addCallback(continuation) retFuture proc withTimeout*[T](fut: Future[T], timeout: int): Future[bool] {. inline, deprecated: "Use withTimeout(Future[T], Duration)".} = withTimeout(fut, timeout.milliseconds()) proc waitImpl[F: SomeFuture](fut: F, retFuture: auto, timeout: Duration): auto = var moment: Moment timer: TimerCallback timeouted = false template completeFuture(fut: untyped): untyped = if fut.failed(): retFuture.fail(fut.error(), warn = false) elif fut.cancelled(): retFuture.cancelAndSchedule() else: when type(fut).T is void: retFuture.complete() else: retFuture.complete(fut.value) proc continuation(udata: pointer) {.raises: [].} = if not(retFuture.finished()): if timeouted: retFuture.fail(newException(AsyncTimeoutError, "Timeout exceeded!")) return if not(fut.finished()): # Timer exceeded first. timeouted = true fut.cancelSoon() else: # Future `fut` completed/failed/cancelled first. if not(isNil(timer)): clearTimer(timer) fut.completeFuture() var cancellation: proc(udata: pointer) {.gcsafe, raises: [].} cancellation = proc(udata: pointer) {.gcsafe, raises: [].} = if not(fut.finished()): if not(isNil(timer)): clearTimer(timer) fut.cancelSoon() else: fut.completeFuture() if fut.finished(): fut.completeFuture() else: if timeout.isZero(): retFuture.fail(newException(AsyncTimeoutError, "Timeout exceeded!")) elif timeout.isInfinite(): retFuture.cancelCallback = cancellation fut.addCallback(continuation) else: moment = Moment.fromNow(timeout) retFuture.cancelCallback = cancellation timer = setTimer(moment, continuation, nil) fut.addCallback(continuation) retFuture proc wait*[T](fut: Future[T], timeout = InfiniteDuration): Future[T] = ## Returns a future which will complete once future ``fut`` completes ## or if timeout of ``timeout`` milliseconds has been expired. ## ## If ``timeout`` is ``-1``, then statement ``await wait(fut)`` is ## equal to ``await fut``. ## ## TODO: In case when ``fut`` got cancelled, what result Future[T] ## should return, because it can't be cancelled too. var retFuture = newFuture[T]("chronos.wait()", {FutureFlag.OwnCancelSchedule}) waitImpl(fut, retFuture, timeout) proc wait*[T](fut: Future[T], timeout = -1): Future[T] {. inline, deprecated: "Use wait(Future[T], Duration)".} = if timeout == -1: wait(fut, InfiniteDuration) elif timeout == 0: wait(fut, ZeroDuration) else: wait(fut, timeout.milliseconds()) when defined(windows): import ../osdefs proc waitForSingleObject*(handle: HANDLE, timeout: Duration): Future[WaitableResult] {. raises: [].} = ## Waits until the specified object is in the signaled state or the ## time-out interval elapses. WaitForSingleObject() for asynchronous world. let flags = WT_EXECUTEONLYONCE var retFuture = newFuture[WaitableResult]("chronos.waitForSingleObject()") waitHandle: WaitableHandle = nil proc continuation(udata: pointer) {.gcsafe.} = doAssert(not(isNil(waitHandle))) if not(retFuture.finished()): let ovl = cast[PtrCustomOverlapped](udata) returnFlag = WINBOOL(ovl.data.bytesCount) res = closeWaitable(waitHandle) if res.isErr(): retFuture.fail(newException(AsyncError, osErrorMsg(res.error()))) else: if returnFlag == TRUE: retFuture.complete(WaitableResult.Timeout) else: retFuture.complete(WaitableResult.Ok) proc cancellation(udata: pointer) {.gcsafe.} = doAssert(not(isNil(waitHandle))) if not(retFuture.finished()): discard closeWaitable(waitHandle) let wres = uint32(waitForSingleObject(handle, DWORD(0))) if wres == WAIT_OBJECT_0: retFuture.complete(WaitableResult.Ok) return retFuture elif wres == WAIT_ABANDONED: retFuture.fail(newException(AsyncError, "Handle was abandoned")) return retFuture elif wres == WAIT_FAILED: retFuture.fail(newException(AsyncError, osErrorMsg(osLastError()))) return retFuture if timeout == ZeroDuration: retFuture.complete(WaitableResult.Timeout) return retFuture waitHandle = block: let res = registerWaitable(handle, flags, timeout, continuation, nil) if res.isErr(): retFuture.fail(newException(AsyncError, osErrorMsg(res.error()))) return retFuture res.get() retFuture.cancelCallback = cancellation return retFuture {.pop.} # Automatically deduced raises from here onwards proc readFinished[T: not void; E](fut: InternalRaisesFuture[T, E]): lent T = internalCheckComplete(fut, E) fut.internalValue proc read*[T: not void, E](fut: InternalRaisesFuture[T, E]): lent T = # {.raises: [E, FuturePendingError].} ## Retrieves the value of `fut`. ## ## If the future failed or was cancelled, the corresponding exception will be ## raised. ## ## If the future is still pending, `FuturePendingError` will be raised. if not fut.finished(): raiseFuturePendingError(fut) fut.readFinished() proc read*[E](fut: InternalRaisesFuture[void, E]) = # {.raises: [E].} ## Checks that `fut` completed. ## ## If the future failed or was cancelled, the corresponding exception will be ## raised. ## ## If the future is still pending, `FuturePendingError` will be raised. if not fut.finished(): raiseFuturePendingError(fut) internalCheckComplete(fut, E) proc waitFor*[T: not void; E](fut: InternalRaisesFuture[T, E]): lent T = # {.raises: [E]} ## Blocks the current thread of execution until `fut` has finished, returning ## its value. ## ## If the future failed or was cancelled, the corresponding exception will be ## raised. ## ## Must not be called recursively (from inside `async` procedures). ## ## See also `await`, `Future.read` pollFor(fut).readFinished() proc waitFor*[E](fut: InternalRaisesFuture[void, E]) = # {.raises: [E]} ## Blocks the current thread of execution until `fut` has finished. ## ## If the future failed or was cancelled, the corresponding exception will be ## raised. ## ## Must not be called recursively (from inside `async` procedures). ## ## See also `await`, `Future.read` pollFor(fut).internalCheckComplete(E) proc `or`*[T, Y, E1, E2]( fut1: InternalRaisesFuture[T, E1], fut2: InternalRaisesFuture[Y, E2]): auto = type InternalRaisesFutureRaises = union(E1, E2) let retFuture = newFuture[void]("chronos.wait()", {FutureFlag.OwnCancelSchedule}) orImpl(fut1, fut2) proc wait*(fut: InternalRaisesFuture, timeout = InfiniteDuration): auto = type T = type(fut).T E = type(fut).E InternalRaisesFutureRaises = E.prepend(CancelledError, AsyncTimeoutError) let retFuture = newFuture[T]("chronos.wait()", {FutureFlag.OwnCancelSchedule}) waitImpl(fut, retFuture, timeout)