NAME Future::AsyncAwait - deferred subroutine syntax for futures SYNOPSIS use Future::AsyncAwait; async sub do_a_thing { my $first = await do_first_thing(); my $second = await do_second_thing(); return combine_things( $first, $second ); } do_a_thing()->get; DESCRIPTION This module provides syntax for deferring and resuming subroutines while waiting for Futures to complete. This syntax aims to make code that performs asynchronous operations using futures look neater and more expressive than simply using then chaining and other techniques on the futures themselves. It is also a similar syntax used by a number of other languages; notably C# 5, EcmaScript 6, Python 3, and lately even Rust is considering adding it. The new syntax takes the form of two new keywords, async and await. async The async keyword should appear just before the sub keyword that declares a new function. When present, this marks that the function performs its work in a potentially asynchronous fashion. This has two effects: it permits the body of the function to use the await expression, and it forces the return value of the function to always be a Future instance. async sub myfunc { return 123; } my $f = myfunc(); my $result = $f->get; This async-declared function always returns a Future instance when invoked. The returned future instance will eventually complete when the function returns, either by the return keyword or by falling off the end; the result of the future will be the return value from the function's code. Alternatively, if the function body throws an exception, this will cause the returned future to fail. await The await keyword forms an expression which takes a Future instance as an operand and yields the eventual result of it. Superficially it can be thought of similar to invoking the get method on the future. my $result = await $f; my $result = $f->get; However, the key difference (and indeed the entire reason for being a new syntax keyword) is the behaviour when the future is still pending and is not yet complete. Whereas the simple get method would block until the future is complete, the await keyword causes its entire containing function to become suspended, making it return a new (pending) future instance. It waits in this state until the future it was waiting on completes, at which point it wakes up and resumes execution from the point of the await expression. When the now-resumed function eventually finishes (either by returning a value or throwing an exception), this value is set as the result of the future it had returned earlier. Because the await keyword may cause its containing function to suspend early, returning a pending future instance, it is only allowed inside async-marked subs. The converse is not true; just because a function is marked as async does not require it to make use of the await expression. It is still useful to turn the result of that function into a future, entirely without awaiting on any itself. EARLY-VERSION WARNING WARNING: The actual semantics in this module are in an early state of implementation. Some things work but most do not. Don't expect to be able to use this module for much real code yet. Things That Work Already Any function that doesn't actually await anything, and just returns immediate futures is already working fine with this module. Instead of writing sub foo { ... return Future->done( @result ); } you can now simply write async sub foo { ... return @result; } with the added side-benefit that any exceptions thrown by the elided code will be turned into an immediate-failed Future rather than making the call itself propagate the exception, which is usually what you wanted when dealing with futures. In addition, some simple cases involving awaiting on still-pending futures should be working: async sub bar { my ( $f ) = @_; return 1 + await( $f ) + 3; } async sub splot { while( COND ) { await func(); } } async sub wibble { if( COND ) { await func(); } } async sub wobble { foreach my $var ( THINGs ) { await func(); } } async sub splat { eval { await func(); }; } Plain lexical variables are preserved across an await deferral: async sub quux { my $message = "Hello, world\n"; await func(); print $message; } Things That Don't Yet Work local variable assignments inside an async function will confuse the suspend mechanism: our $DEBUG = 0; async sub quark { local $DEBUG = 1; await func(); } Since foreach loops on non-lexical iterator variables (usually package variables) effectively imply a local-like behaviour, these are also disallowed. our $VAR; async sub splurt { foreach $VAR ( LIST ) { await ... } } Additionally, complications with the savestack appear to be affecting some uses of package-level our variables captured by async functions: our $VAR; async sub bork { print "VAR is $VAR\n"; await func(); } See also the "TODO" list for further things. WITH OTHER MODULES Syntax::Keyword::Try At the time of writing (Future::AsyncAwait version 0.09, Syntax::Keyword::Try version 0.06) a basic try/catch block inside an async sub works fine, provided that neither try nor catch blocks attempt to return. Attempting to return from inside a try or catch will fail - see RT122795 . Attempting to use a finally block will fail - see RT122796 . SEE ALSO * "Awaiting The Future" - TPC in Amsterdam 2017 (slides) TODO * Suspend and resume with some consideration for the savestack; i.e. the area used to implement local and similar. While in general local support has awkward questions about semantics, there are certain situations and cases where internally-implied localisation of variables would still be useful and can be supported without the semantic ambiguities of generic local. Some notes on what makes the problem hard can be found at https://rt.cpan.org/Ticket/Display.html?id=122793 * Clean up the implementation; check for and fix memory leaks. * Support older versions of perl than 5.24. https://rt.cpan.org/Ticket/Display.html?id=122252 ACKNOWLEDGEMENTS With thanks to Zefram, ilmari and others from irc.perl.org/#p5p for assisting with trickier bits of XS logic. Thanks to genio for project management and actually reminding me to write some code. AUTHOR Paul Evans