Continuation objects are generated by Kernel#callcc, after having
+require+d continuation. They hold a return address and execution
context, allowing a nonlocal return to the end of the callcc block from anywhere within a
program. Continuations are somewhat analogous to a structured version of
C's setjmp/longjmp
(although they contain more state, so
you might consider them closer to threads).
For instance:
require "continuation" arr = [ "Freddie", "Herbie", "Ron", "Max", "Ringo" ] callcc{|cc| $cc = cc} puts(message = arr.shift) $cc.call unless message =~ /Max/
produces:
Freddie Herbie Ron Max
Also you can call callcc in other methods:
require "continuation" def g arr = [ "Freddie", "Herbie", "Ron", "Max", "Ringo" ] cc = callcc { |cc| cc } puts arr.shift return cc, arr.size end def f c, size = g c.call(c) if size > 1 end f
This (somewhat contrived) example allows the inner loop to abandon processing early:
require "continuation" callcc {|cont| for i in 0..4 print "#{i}: " for j in i*5...(i+1)*5 cont.call() if j == 17 printf "%3d", j end end } puts
produces:
0: 0 1 2 3 4 1: 5 6 7 8 9 2: 10 11 12 13 14 3: 15 16
Invokes the continuation. The program continues from the end of the callcc block. If no arguments are
given, the original callcc
returns nil
. If one argument is given, callcc returns it. Otherwise, an
array containing args is returned.
callcc {|cont| cont.call } #=> nil callcc {|cont| cont.call 1 } #=> 1 callcc {|cont| cont.call 1, 2, 3 } #=> [1, 2, 3]
static VALUE rb_cont_call(int argc, VALUE *argv, VALUE contval) { rb_context_t *cont = cont_ptr(contval); rb_thread_t *th = GET_THREAD(); if (cont_thread_value(cont) != th->self) { rb_raise(rb_eRuntimeError, "continuation called across threads"); } if (cont->saved_ec.protect_tag != th->ec->protect_tag) { rb_raise(rb_eRuntimeError, "continuation called across stack rewinding barrier"); } if (cont->saved_ec.fiber_ptr) { if (th->ec->fiber_ptr != cont->saved_ec.fiber_ptr) { rb_raise(rb_eRuntimeError, "continuation called across fiber"); } } rollback_ensure_stack(contval, th->ec->ensure_list, cont->ensure_array); cont->argc = argc; cont->value = make_passing_arg(argc, argv); cont_restore_0(cont, &contval); return Qnil; /* unreachable */ }
Invokes the continuation. The program continues from the end of the callcc block. If no arguments are
given, the original callcc
returns nil
. If one argument is given, callcc returns it. Otherwise, an
array containing args is returned.
callcc {|cont| cont.call } #=> nil callcc {|cont| cont.call 1 } #=> 1 callcc {|cont| cont.call 1, 2, 3 } #=> [1, 2, 3]
static VALUE rb_cont_call(int argc, VALUE *argv, VALUE contval) { rb_context_t *cont = cont_ptr(contval); rb_thread_t *th = GET_THREAD(); if (cont_thread_value(cont) != th->self) { rb_raise(rb_eRuntimeError, "continuation called across threads"); } if (cont->saved_ec.protect_tag != th->ec->protect_tag) { rb_raise(rb_eRuntimeError, "continuation called across stack rewinding barrier"); } if (cont->saved_ec.fiber_ptr) { if (th->ec->fiber_ptr != cont->saved_ec.fiber_ptr) { rb_raise(rb_eRuntimeError, "continuation called across fiber"); } } rollback_ensure_stack(contval, th->ec->ensure_list, cont->ensure_array); cont->argc = argc; cont->value = make_passing_arg(argc, argv); cont_restore_0(cont, &contval); return Qnil; /* unreachable */ }