Merge pull request #27 from vibe-d/nogc_async
Convert Waitable from struct to pure template to avoid heap closures. merged-on-behalf-of: Sönke Ludwig <s-ludwig@users.noreply.github.com>
This commit is contained in:
commit
f6cd1d038c
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@ -1010,14 +1010,17 @@ struct FileDescriptorEvent {
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assert((which & m_trigger) == Trigger.read, "Waiting for write event not yet supported.");
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Waitable!(IOCallback,
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bool got_data;
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alias readwaiter = Waitable!(IOCallback,
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cb => eventDriver.sockets.waitForData(m_socket, cb),
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cb => eventDriver.sockets.cancelRead(m_socket)
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) readwaiter;
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cb => eventDriver.sockets.cancelRead(m_socket),
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(StreamSocketFD fd, IOStatus st, size_t nb) { got_data = st == IOStatus.ok; }
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);
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asyncAwaitAny!true(timeout, readwaiter);
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asyncAwaitAny!(true, readwaiter)(timeout);
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return !readwaiter.cancelled;
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return got_data;
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}
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}
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@ -53,7 +53,7 @@ NetworkAddress resolveHost(string host, ushort address_family, bool use_dns = tr
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enforce(use_dns, "Malformed IP address string.");
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NetworkAddress res;
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bool success = false;
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Waitable!(DNSLookupCallback,
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alias waitable = Waitable!(DNSLookupCallback,
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cb => eventDriver.dns.lookupHost(host, cb),
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(cb, id) => eventDriver.dns.cancelLookup(id),
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(DNSLookupID, DNSStatus status, scope RefAddress[] addrs) {
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@ -63,9 +63,9 @@ NetworkAddress resolveHost(string host, ushort address_family, bool use_dns = tr
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success = true;
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}
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}
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) waitable;
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);
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asyncAwaitAny!true(waitable);
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asyncAwaitAny!(true, waitable);
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enforce(success, "Failed to lookup host '"~host~"'.");
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return res;
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@ -542,22 +542,27 @@ mixin(tracer);
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if (m_context.readBuffer.length > 0) return true;
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auto mode = timeout <= 0.seconds ? IOMode.immediate : IOMode.once;
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Waitable!(IOCallback,
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bool cancelled;
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IOStatus status;
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size_t nbytes;
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alias waiter = Waitable!(IOCallback,
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cb => eventDriver.sockets.read(m_socket, m_context.readBuffer.peekDst(), mode, cb),
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cb => eventDriver.sockets.cancelRead(m_socket)
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) waiter;
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(cb) { cancelled = true; eventDriver.sockets.cancelRead(m_socket); },
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(sock, st, nb) { assert(sock == m_socket); status = st; nbytes = nb; }
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);
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asyncAwaitAny!true(timeout, waiter);
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asyncAwaitAny!(true, waiter)(timeout);
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if (waiter.cancelled) return false;
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if (cancelled) return false;
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logTrace("Socket %s, read %s bytes: %s", waiter.results[0], waiter.results[2], waiter.results[1]);
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logTrace("Socket %s, read %s bytes: %s", m_socket, nbytes, status);
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assert(m_context.readBuffer.length == 0);
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m_context.readBuffer.putN(waiter.results[2]);
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switch (waiter.results[1]) {
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m_context.readBuffer.putN(nbytes);
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switch (status) {
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default:
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logDebug("Error status when waiting for data: %s", waiter.results[1]);
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logDebug("Error status when waiting for data: %s", status);
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break;
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case IOStatus.ok: break;
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case IOStatus.wouldBlock: assert(mode == IOMode.immediate); break;
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@ -837,20 +842,21 @@ struct UDPConnection {
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IOStatus status;
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size_t nbytes;
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bool cancelled;
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Waitable!(DatagramIOCallback,
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alias waitable = Waitable!(DatagramIOCallback,
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cb => eventDriver.sockets.send(m_socket, data, IOMode.once, peer_address ? addrc : null, cb),
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cb => eventDriver.sockets.cancelSend(m_socket),
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(cb) { cancelled = true; eventDriver.sockets.cancelSend(m_socket); },
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(DatagramSocketFD, IOStatus status_, size_t nbytes_, scope RefAddress addr)
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{
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status = status_;
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nbytes = nbytes_;
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}
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) waitable;
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);
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asyncAwaitAny!true(waitable);
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asyncAwaitAny!(true, waitable);
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enforce(!waitable.cancelled && status == IOStatus.ok, "Failed to send packet.");
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enforce(!cancelled && status == IOStatus.ok, "Failed to send packet.");
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enforce(nbytes == data.length, "Packet was only sent partially.");
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}
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@ -873,10 +879,11 @@ struct UDPConnection {
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IOStatus status;
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size_t nbytes;
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bool cancelled;
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Waitable!(DatagramIOCallback,
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alias waitable = Waitable!(DatagramIOCallback,
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cb => eventDriver.sockets.receive(m_socket, buf, IOMode.once, cb),
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cb => eventDriver.sockets.cancelReceive(m_socket),
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(cb) { cancelled = true; eventDriver.sockets.cancelReceive(m_socket); },
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(DatagramSocketFD, IOStatus status_, size_t nbytes_, scope RefAddress addr)
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{
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status = status_;
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@ -886,10 +893,10 @@ struct UDPConnection {
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catch (Exception e) logWarn("Failed to store datagram source address: %s", e.msg);
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}
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}
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) waitable;
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);
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asyncAwaitAny!true(timeout, waitable);
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enforce(!waitable.cancelled, "Receive timeout.");
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asyncAwaitAny!(true, waitable)(timeout);
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enforce(!cancelled, "Receive timeout.");
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enforce(status == IOStatus.ok, "Failed to receive packet.");
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return buf[0 .. nbytes];
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}
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@ -1236,15 +1236,14 @@ private final class ThreadLocalWaiter(bool EVENT_TRIGGERED) {
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private {
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static struct TaskWaiter {
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TaskWaiter* prev, next;
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Task task;
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void delegate() @safe nothrow notifier;
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bool cancelled;
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void wait(void delegate() @safe nothrow del) @safe nothrow {
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assert(notifier is null, "Local waiter is used twice!");
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notifier = del;
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}
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void cancel() @safe nothrow { cancelled = true; notifier = null; }
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void cancel() @safe nothrow { notifier = null; }
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void emit() @safe nothrow { auto n = notifier; notifier = null; n(); }
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}
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static if (EVENT_TRIGGERED) {
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@ -1301,13 +1300,15 @@ private final class ThreadLocalWaiter(bool EVENT_TRIGGERED) {
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target_timeout = now + timeout;
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}
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Waitable!(typeof(TaskWaiter.notifier),
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cb => waiter.wait(cb),
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cb => waiter.cancel(),
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) waitable;
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bool cancelled;
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if (evt != EventID.invalid) {
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Waitable!(EventCallback,
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alias waitable = Waitable!(typeof(TaskWaiter.notifier),
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(cb) { waiter.wait(cb); },
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(cb) { cancelled = true; waiter.cancel(); },
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() {}
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);
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alias ewaitable = Waitable!(EventCallback,
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(cb) {
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eventDriver.events.wait(evt, cb);
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// check for exit condition *after* starting to wait for the event
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@ -1317,14 +1318,17 @@ private final class ThreadLocalWaiter(bool EVENT_TRIGGERED) {
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cb(evt);
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}
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},
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cb => eventDriver.events.cancelWait(evt, cb)
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) ewaitable;
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asyncAwaitAny!interruptible(timeout, waitable, ewaitable);
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(cb) { eventDriver.events.cancelWait(evt, cb); },
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(EventID) {}
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);
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if (evt != EventID.invalid) {
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asyncAwaitAny!(interruptible, waitable, ewaitable)(timeout);
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} else {
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asyncAwaitAny!interruptible(timeout, waitable);
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asyncAwaitAny!(interruptible, waitable)(timeout);
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}
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if (waitable.cancelled) {
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if (cancelled) {
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assert(waiter.next !is null, "Cancelled waiter not in queue anymore!?");
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return false;
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} else {
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@ -1363,6 +1367,19 @@ private final class ThreadLocalWaiter(bool EVENT_TRIGGERED) {
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bool emitSingle()
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@safe nothrow {
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if (m_waiters.empty) return false;
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TaskWaiter* pivot = () @trusted { return &m_emitPivot; } ();
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if (pivot.next) { // another emit in progress?
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// shift pivot to the right, so that the other emit call will process another waiter
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if (pivot !is m_waiters.back) {
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auto n = pivot.next;
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m_waiters.remove(pivot);
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m_waiters.insertAfter(pivot, n);
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}
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return true;
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}
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emitWaiter(m_waiters.front);
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return true;
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}
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@ -1373,8 +1390,7 @@ private final class ThreadLocalWaiter(bool EVENT_TRIGGERED) {
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if (w.notifier !is null) {
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logTrace("notify task %s %s %s", cast(void*)w, () @trusted { return cast(void*)w.notifier.funcptr; } (), w.notifier.ptr);
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w.notifier();
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w.notifier = null;
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w.emit();
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} else logTrace("notify callback is null");
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}
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}
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@ -8,85 +8,88 @@ import vibe.core.log;
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import core.time : Duration, seconds;
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auto asyncAwait(Callback, alias action, alias cancel, string func = __FUNCTION__)()
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auto asyncAwait(Callback, alias action, alias cancel)(string func = __FUNCTION__)
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if (!is(Object == Duration)) {
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Waitable!(Callback, action, cancel) waitable;
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asyncAwaitAny!(true, func)(waitable);
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return tuple(waitable.results);
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ParameterTypeTuple!Callback results;
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alias waitable = Waitable!(Callback, action, cancel, (ParameterTypeTuple!Callback r) { results = r; });
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asyncAwaitAny!(true, waitable)(func);
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return tuple(results);
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}
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auto asyncAwait(Callback, alias action, alias cancel, string func = __FUNCTION__)(Duration timeout)
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auto asyncAwait(Callback, alias action, alias cancel)(Duration timeout, string func = __FUNCTION__)
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{
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Waitable!(Callback, action, cancel) waitable;
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asyncAwaitAny!(true, func)(timeout, waitable);
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static struct R {
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bool completed;
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bool completed = true;
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typeof(waitable.results) results;
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}
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return R(!waitable.cancelled, waitable.results);
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R ret;
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alias waitable = Waitable!(Callback,
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action,
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(cb) { ret.completed = false; cancel(cb); },
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(ParameterTypeTuple!Callback r) { ret.results = r; }
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);
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asyncAwaitAny!(true, waitable)(timeout, func);
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return ret;
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}
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auto asyncAwaitUninterruptible(Callback, alias action, string func = __FUNCTION__)()
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auto asyncAwaitUninterruptible(Callback, alias action)(string func = __FUNCTION__)
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nothrow {
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static if (is(typeof(action(Callback.init)) == void)) void cancel(Callback) { assert(false, "Action cannot be cancelled."); }
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else void cancel(Callback, typeof(action(Callback.init))) { assert(false, "Action cannot be cancelled."); }
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Waitable!(Callback, action, cancel) waitable;
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asyncAwaitAny!(false, func)(waitable);
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return tuple(waitable.results);
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else void cancel(Callback, typeof(action(Callback.init))) @safe @nogc nothrow { assert(false, "Action cannot be cancelled."); }
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ParameterTypeTuple!Callback results;
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alias waitable = Waitable!(Callback, action, cancel, (ParameterTypeTuple!Callback r) { results = r; });
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asyncAwaitAny!(false, waitable)(func);
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return tuple(results);
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}
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auto asyncAwaitUninterruptible(Callback, alias action, alias cancel, string func = __FUNCTION__)(Duration timeout)
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auto asyncAwaitUninterruptible(Callback, alias action, alias cancel)(Duration timeout, string func = __FUNCTION__)
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nothrow {
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Waitable!(Callback, action, cancel) waitable;
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asyncAwaitAny!(false, func)(timeout, waitable);
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return tuple(waitable.results);
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ParameterTypeTuple!Callback results;
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alias waitable = Waitable!(Callback, action, cancel, (ParameterTypeTuple!Callback r) { results = r; });
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asyncAwaitAny!(false, waitable)(timeout, func);
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return tuple(results);
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}
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struct Waitable(CB, alias wait, alias cancel, on_result...)
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if (on_result.length <= 1)
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template Waitable(CB, alias WAIT, alias CANCEL, alias DONE)
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{
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import std.traits : ReturnType;
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alias Callback = CB;
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static if (on_result.length == 0) {
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static assert(!hasAnyScopeParameter!Callback, "Need to retrieve results with a callback because of scoped parameter");
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ParameterTypeTuple!Callback results;
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void setResult(ref ParameterTypeTuple!Callback r) { this.results = r; }
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} else {
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import std.format : format;
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alias PTypes = ParameterTypeTuple!Callback;
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mixin(q{void setResult(%s) { on_result[0](%s); }}.format(generateParamDecls!Callback, generateParamNames!Callback));
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}
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bool cancelled;
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auto waitCallback(Callback cb) nothrow { return wait(cb); }
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static if (is(ReturnType!waitCallback == void))
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void cancelCallback(Callback cb) nothrow { cancel(cb); }
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static assert(is(typeof(WAIT(CB.init))), "WAIT must be callable with a parameter of type "~CB.stringof);
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static if (is(typeof(WAIT(CB.init)) == void))
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static assert(is(typeof(CANCEL(CB.init))),
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"CANCEL must be callable with a parameter of type "~CB.stringof);
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else
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void cancelCallback(Callback cb, ReturnType!waitCallback r) nothrow { cancel(cb, r); }
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static assert(is(typeof(CANCEL(CB.init, typeof(WAIT(CB.init)).init))),
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"CANCEL must be callable with parameters ("~CB.stringof~", "~typeof(WAIT(CB.init)).stringof~")");
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static assert(is(typeof(DONE(ParameterTypeTuple!CB.init))),
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"DONE must be callable with types "~ParameterTypeTuple!CB.stringof);
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alias Callback = CB;
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alias wait = WAIT;
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alias cancel = CANCEL;
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alias done = DONE;
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}
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void asyncAwaitAny(bool interruptible, string func = __FUNCTION__, Waitables...)(Duration timeout, ref Waitables waitables)
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void asyncAwaitAny(bool interruptible, Waitables...)(Duration timeout, string func = __FUNCTION__)
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{
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if (timeout == Duration.max) asyncAwaitAny!(interruptible, func)(waitables);
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if (timeout == Duration.max) asyncAwaitAny!(interruptible, Waitables)(func);
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else {
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import eventcore.core;
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auto tm = eventDriver.timers.create();
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eventDriver.timers.set(tm, timeout, 0.seconds);
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scope (exit) eventDriver.timers.releaseRef(tm);
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Waitable!(TimerCallback,
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alias timerwaitable = Waitable!(TimerCallback,
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cb => eventDriver.timers.wait(tm, cb),
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cb => eventDriver.timers.cancelWait(tm)
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) timerwaitable;
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asyncAwaitAny!(interruptible, func)(timerwaitable, waitables);
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cb => eventDriver.timers.cancelWait(tm),
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(tid) {}
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);
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asyncAwaitAny!(interruptible, timerwaitable, Waitables)(func);
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}
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}
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void asyncAwaitAny(bool interruptible, string func = __FUNCTION__, Waitables...)(ref Waitables waitables)
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if (Waitables.length >= 1 && !is(Waitables[0] == Duration))
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void asyncAwaitAny(bool interruptible, Waitables...)(string func = __FUNCTION__)
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if (Waitables.length >= 1)
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{
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import std.meta : staticMap;
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import std.algorithm.searching : any;
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|
@ -94,59 +97,60 @@ void asyncAwaitAny(bool interruptible, string func = __FUNCTION__, Waitables...)
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import std.meta : AliasSeq;
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import std.traits : ReturnType;
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/*scope*/ staticMap!(CBDel, Waitables) callbacks; // FIXME: avoid heap delegates
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bool[Waitables.length] fired;
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ScopeGuard[Waitables.length] scope_guards;
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bool any_fired = false;
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Task t;
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bool still_inside = true;
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scope (exit) still_inside = false;
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debug(VibeAsyncLog) logDebugV("Performing %s async operations in %s", waitables.length, func);
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debug(VibeAsyncLog) logDebugV("Performing %s async operations in %s", Waitables.length, func);
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() @trusted { logDebugV("si %x", &still_inside); } ();
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static string waitableCode()
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{
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string ret;
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foreach (i, W; Waitables) {
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alias PTypes = ParameterTypeTuple!(CBDel!W);
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/*scope*/auto cb = mixin(q{(%s) @safe nothrow {
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() @trusted { logDebugV("siw %%x", &still_inside); } ();
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debug(VibeAsyncLog) logDebugV("Waitable %%s in %%s fired (istask=%%s).", i, func, t != Task.init);
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ret ~= q{
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alias PT%1$s = ParameterTypeTuple!(Waitables[%1$s].Callback);
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scope callback_%1$s = (%2$s) @safe nothrow {
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// NOTE: this triggers DigitalMars/optlink#18
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//() @trusted { logDebugV("siw %%x", &still_inside); } ();
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debug(VibeAsyncLog) logDebugV("Waitable %%s in %%s fired (istask=%%s).", %1$s, func, t != Task.init);
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assert(still_inside, "Notification fired after asyncAwait had already returned!");
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fired[i] = true;
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fired[%1$s] = true;
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any_fired = true;
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static if (PTypes.length)
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waitables[i].setResult(%s);
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Waitables[%1$s].done(%3$s);
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if (t != Task.init) switchToTask(t);
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}}.format(generateParamDecls!(CBDel!W), generateParamNames!(CBDel!W)));
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callbacks[i] = cb;
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debug(VibeAsyncLog) logDebugV("Starting operation %s", i);
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static if (is(ReturnType!(W.waitCallback) == void))
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waitables[i].waitCallback(callbacks[i]);
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else
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auto wr = waitables[i].waitCallback(callbacks[i]);
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|
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scope ccb = () @safe nothrow {
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if (!fired[i]) {
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debug(VibeAsyncLog) logDebugV("Cancelling operation %s", i);
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static if (is(ReturnType!(W.waitCallback) == void))
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waitables[i].cancelCallback(callbacks[i]);
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else
|
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waitables[i].cancelCallback(callbacks[i], wr);
|
||||
waitables[i].cancelled = true;
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any_fired = true;
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fired[i] = true;
|
||||
}
|
||||
};
|
||||
scope_guards[i] = ScopeGuard(ccb);
|
||||
|
||||
debug(VibeAsyncLog) logDebugV("Starting operation %%s", %1$s);
|
||||
alias WR%1$s = typeof(Waitables[%1$s].wait(callback_%1$s));
|
||||
static if (is(WR%1$s == void)) Waitables[%1$s].wait(callback_%1$s);
|
||||
else auto wr%1$s = Waitables[%1$s].wait(callback_%1$s);
|
||||
|
||||
scope (exit) {
|
||||
if (!fired[%1$s]) {
|
||||
debug(VibeAsyncLog) logDebugV("Cancelling operation %%s", %1$s);
|
||||
static if (is(WR%1$s == void)) Waitables[%1$s].cancel(callback_%1$s);
|
||||
else Waitables[%1$s].cancel(callback_%1$s, wr%1$s);
|
||||
any_fired = true;
|
||||
fired[%1$s] = true;
|
||||
}
|
||||
}
|
||||
|
||||
if (any_fired) {
|
||||
debug(VibeAsyncLog) logDebugV("Returning to %s without waiting.", func);
|
||||
debug(VibeAsyncLog) logDebugV("Returning to %%s without waiting.", func);
|
||||
return;
|
||||
}
|
||||
}.format(i, generateParamDecls!(CBDel!W)(format("PT%s", i)), generateParamNames!(CBDel!W));
|
||||
}
|
||||
return ret;
|
||||
}
|
||||
|
||||
mixin(waitableCode());
|
||||
|
||||
debug(VibeAsyncLog) logDebugV("Need to wait in %s (%s)...", func, interruptible ? "interruptible" : "uninterruptible");
|
||||
|
||||
|
@ -173,9 +177,7 @@ void asyncAwaitAny(bool interruptible, string func = __FUNCTION__, Waitables...)
|
|||
debug(VibeAsyncLog) logDebugV("Return result for %s.", func);
|
||||
}
|
||||
|
||||
private alias CBDel(Waitable) = Waitable.Callback;
|
||||
|
||||
private struct ScopeGuard { @safe nothrow: void delegate() op; ~this() { if (op !is null) op(); } }
|
||||
private alias CBDel(alias Waitable) = Waitable.Callback;
|
||||
|
||||
@safe nothrow /*@nogc*/ unittest {
|
||||
int cnt = 0;
|
||||
|
@ -186,40 +188,45 @@ private struct ScopeGuard { @safe nothrow: void delegate() op; ~this() { if (op
|
|||
|
||||
@safe nothrow /*@nogc*/ unittest {
|
||||
int a, b, c;
|
||||
Waitable!(
|
||||
int w1r, w2r;
|
||||
alias w1 = Waitable!(
|
||||
void delegate(int) @safe nothrow,
|
||||
(cb) { a++; cb(42); },
|
||||
(cb) { assert(false); }
|
||||
) w1;
|
||||
Waitable!(
|
||||
(cb) { assert(false); },
|
||||
(i) { w1r = i; }
|
||||
);
|
||||
alias w2 = Waitable!(
|
||||
void delegate(int) @safe nothrow,
|
||||
(cb) { b++; },
|
||||
(cb) { c++; }
|
||||
) w2;
|
||||
Waitable!(
|
||||
(cb) { c++; },
|
||||
(i) { w2r = i; }
|
||||
);
|
||||
alias w3 = Waitable!(
|
||||
void delegate(int) @safe nothrow,
|
||||
(cb) { c++; cb(42); },
|
||||
(cb) { assert(false); },
|
||||
(int n) { assert(n == 42); }
|
||||
) w3;
|
||||
);
|
||||
|
||||
asyncAwaitAny!false(w1, w2);
|
||||
assert(w1.results[0] == 42 && w2.results[0] == 0);
|
||||
asyncAwaitAny!(false, w1, w2);
|
||||
assert(w1r == 42 && w2r == 0);
|
||||
assert(a == 1 && b == 0 && c == 0);
|
||||
|
||||
asyncAwaitAny!false(w2, w1);
|
||||
assert(w1.results[0] == 42 && w2.results[0] == 0);
|
||||
asyncAwaitAny!(false, w2, w1);
|
||||
assert(w1r == 42 && w2r == 0);
|
||||
assert(a == 2 && b == 1 && c == 1);
|
||||
|
||||
asyncAwaitAny!false(w3);
|
||||
asyncAwaitAny!(false, w3);
|
||||
assert(c == 2);
|
||||
}
|
||||
|
||||
private string generateParamDecls(Fun)()
|
||||
private string generateParamDecls(Fun)(string ptypes_name = "PTypes")
|
||||
{
|
||||
import std.format : format;
|
||||
import std.traits : ParameterTypeTuple, ParameterStorageClass, ParameterStorageClassTuple;
|
||||
|
||||
if (!__ctfe) assert(false);
|
||||
|
||||
alias Types = ParameterTypeTuple!Fun;
|
||||
alias SClasses = ParameterStorageClassTuple!Fun;
|
||||
string ret;
|
||||
|
@ -229,7 +236,7 @@ private string generateParamDecls(Fun)()
|
|||
static if (SClasses[i] & ParameterStorageClass.scope_) ret ~= "scope ";
|
||||
static if (SClasses[i] & ParameterStorageClass.out_) ret ~= "out ";
|
||||
static if (SClasses[i] & ParameterStorageClass.ref_) ret ~= "ref ";
|
||||
ret ~= format("PTypes[%s] param_%s", i, i);
|
||||
ret ~= format("%s[%s] param_%s", ptypes_name, i, i);
|
||||
}
|
||||
return ret;
|
||||
}
|
||||
|
@ -237,6 +244,7 @@ private string generateParamDecls(Fun)()
|
|||
private string generateParamNames(Fun)()
|
||||
{
|
||||
import std.format : format;
|
||||
if (!__ctfe) assert(false);
|
||||
|
||||
string ret;
|
||||
foreach (i, T; ParameterTypeTuple!Fun) {
|
||||
|
|
|
@ -39,7 +39,16 @@ struct CircularDList(T)
|
|||
pivot.prev = elem;
|
||||
}
|
||||
|
||||
void insertFront(T elem) { insertBefore(elem, m_pivot.next); }
|
||||
void insertAfter(T elem, T pivot)
|
||||
{
|
||||
assert(elem.prev is null && elem.next is null);
|
||||
elem.prev = pivot;
|
||||
elem.next = pivot.next;
|
||||
pivot.next.prev = elem;
|
||||
pivot.next = elem;
|
||||
}
|
||||
|
||||
void insertFront(T elem) { insertAfter(elem, m_pivot); }
|
||||
|
||||
void insertBack(T elem) { insertBefore(elem, m_pivot); }
|
||||
|
||||
|
|
Loading…
Reference in a new issue