=over 4
-=item * When branching, each branch is considered equally possible.
+=item *
+
+When branching, each branch is considered equally possible.
For example, the subroutine
it is considered to return C<3> scalars with probability C<1/2>, C<2> with probability C<1/2 * 1/2 = 1/4> and C<1> (when the two tests fail, the last computed value is returned, which here is C<< $x > 0.9 >> evaluated in the scalar context of the test) with remaining probability C<1/4>.
-=item * The total probability law for a given returning point is the convolution product of the probabilities of its list elements.
+=item *
+
+The total probability law for a given returning point is the convolution product of the probabilities of its list elements.
As such,
never returns C<1> argument but returns C<2> with probability C<1/2 * 1/2 = 1/4>, C<3> with probability C<1/2 * 1/2 + 1/2 * 1/2 = 1/2> and C<4> with probability C<1/4> too.
-=item * If a core function may return different numbers of scalars, each kind is considered equally possible.
+=item *
+
+If a core function may return different numbers of scalars, each kind is considered equally possible.
For example, C<stat> returns C<13> elements on success and C<0> on error. The according probability will then be C<< { 0 => 0.5, 13 => 0.5 } >>.
-=item * The C<list> and C<exit> states are absorbing in regard of all the other ones.
+=item *
+
+The C<list> and C<exit> states are absorbing in regard of all the other ones.
This is just a pedantic way to say that C<list + fixed length = list>, C<exit + fixed length = exit>, but note also that C<exit + list = exit>.
That's why
return $r, undef;
}
+sub pp_die {
+ my ($self, $op) = @_;
+
+ my ($r, undef) = $self->inspect_kids($op);
+ if (defined $r) {
+ my $c = 1 - count $r;
+ $r->{die} = $c if $c;
+ } else {
+ $r = { die => 1 };
+ }
+
+ return $r, undef;
+}
+
sub pp_goto {
my ($self, $op) = @_;
$self->inspect($op);
}
+sub pp_leavetry {
+ my ($self, $op) = @_;
+
+ my ($r, $l) = $self->inspect_kids($op);
+ if (defined $r) {
+ my $d = delete $r->{die};
+ return $r, $l if not defined $d;
+ if (defined $l) {
+ my $z = delete $l->{0};
+ $l = { %$l, 0 => $z };
+ $l->{0} += $d;
+ } else {
+ $l = { 0 => $d };
+ }
+ }
+
+ return $r, $l;
+}
+
sub pp_leaveloop {
my ($self, $op) = @_;