executing perl program I get different results:

$ perl -e 'my $i = 2; $i += 2 + $i++; print "$i\n"'
$ perl -e 'my $i = 2; $i += $i + $i++; print "$i\n"'

Why results are different? what did I miss in second case? I expect 7 in both cases.

up vote 6 down vote accepted

Perl does not guarantee any specific result for either snippets you posted, and you should avoid such code.

That said, the behaviour is consistent across all existing builds of Perl.

While this isn't documented or guaranteed, Perl always evaluates the left-hand side (LHS) of addition operators before their right-hand side (RHS).[1]

$ perl -MO=Concise,-exec -e 'my $i = 2; $i += $i + $i++; print "$i\n"'
8  <0> padsv[$i:1,2] s       > LHS
9  <0> padsv[$i:1,2] sRM     \ RHS
a  <1> postinc[t2] sK/1      /
b  <2> add[t3] sK/2

So why does it seem like that's not the case?

The key to understanding what is going on is that the Perl stack only contains scalars (SV*, including subtypes such as AV*). That means that $i places the actual scalar associated with $i on the stack, not merely the value 2.[2]

That means that even though $i is evaluated and placed on the stack before $i++ is evaluated and placed on the stack, the updated value of $i will be used by the addition operator.

    $i  stack
    --  -----
     2  $i
     2  $i,$i
     3  $i,2
     3  5

If you want, you can trace what's happening with replication of the Perl interpreter:

use Data::Alias qw( alias );

my @stack;
my @pad;

sub padsv {
   my $padidx = shift;
   alias push @stack, $pad[$padidx];

sub postinc {
   alias my $sv = pop(@stack);
   alias my $result = $sv++;
   alias push @stack, $result;

sub add {
   alias my ($lhs, $rhs) = splice(@stack, -2);
   alias my $result = $lhs + $rhs;
   alias push @stack, $result;

{ my $i = 2; say $i + $i++; }  # 5

$pad[0] = 2;
padsv(0); padsv(0); postinc(); add();
say pop(@stack);  # 5

{ my $i = 1; say $i + $i++ + $i++; }  # 5

$pad[0] = 1;
padsv(0); padsv(0); postinc(); add(); padsv(0); postinc(); add();
say pop(@stack);  # 5


sub postinc :lvalue { $_[0]++ }
sub add :lvalue { $_[0] + $_[1] }

{ my $i = 2; say $i + $i++;            } # 5
{ my $i = 2; say add($i, postinc($i)); } # 5

{ my $i = 1; say $i + $i++ + $i++;                       } # 5
{ my $i = 1; say add(add($i, postinc($i)), postinc($i)); } # 5

  1. Note that this contradicts the earlier answer. Its explanation of what happens is completely wrong and disproven by $i + $i++ + $i++.

  2. This is done for performance reasons. Making a copy of a scalar is expensive, and doing so for every scalar placed on the stack would have a severe negative impact on performance.

  • Why when we have value at specific point perl do not put it on the stack instead of scalar? Would it be more correct? – Eugen Konkov Apr 1 at 21:21
  • I mean we can put a copy of scalar with value at that time. and do not put origin scalar over and over. – Eugen Konkov Apr 1 at 21:34
  • 1
    Making a copy is expensive. Making a copy of everything put on the stack would have a severe negative impact on performance. Instead, languages don't define exact semantics for code such as yours. [This comment added was incorporated into my answer.] – ikegami Apr 1 at 21:41
  • And no, it wouldn't be "more correct". There's no mathematical basis for either approach. – ikegami Apr 1 at 22:23
  • "each" - it will be too much. Just put a copy for scalar which is changed ( assign, increment, decrement ops ). Despite on there is no mathematical basic it would be interesting to involve into this. I should try this! =) Thanks – Eugen Konkov Apr 2 at 7:15

The autoincrement is done first, leaving $i + $i++ equal to 3 + 2

You shouldn't use expressions like this where the semantics are unclear. You should split the calculation across multiple statements.

  • 1
    huh.... Perl doesn't define when the variable is incremented or decremented: my $i = 1; $i += $i + $i++ + $i++; print "$i\n". Result: 8 – Eugen Konkov Apr 1 at 11:21
  • @EugenKonkov funny, I would have expected either 7 or 9. But yeah, hairy and not something you should play with :) – hobbs Apr 1 at 21:46

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