I've been trying to write a Perl 6 expression which performs the following logic: Evaluate a subexpression and return its value, but if doing so causes an exception to be raised, catch the exception and return a fixed value instead.

For example, suppose I want to divide two numbers and have the expression evaluate to -1 if an error occurs. In Ruby I might write:

quotient = begin; a / b; rescue; -1; end

In Emacs Lisp that might be written as:

(setq quotient (condition-case nil (/ a b) (error -1))

My first Perl 6 attempt was like so:

sub might-throw($a, $b) { die "Zero" if $b == 0; $a / $b }
my $quotient = do { might-throw($a, $b); CATCH { default { -1 } } };

But here $quotient ends up undefined, regardless of whether $b is zero.

It seems that that the value returned by CATCH is ignored, or at least on the doc page that describes how exceptions work, all of the CATCH bodies only do things with side effects, like logging.

That page mentions try as an alternative. I might write for example:

my $quotient = try { might-throw($a, $b) } // -1;

I find it a rather underwhelming solution. For one thing, the expression I'm evaluating might genuinely have an undefined value, and I can't distinguish this from the case where an exception was thrown. For another, I might want to fall back to different values depending on the class of the thrown exception, but try just swallows them all. I can put my own CATCH block in the try to distinguish among the exceptions, but then I'm back at the first case above, where the value from the CATCH is ignored.

Can Perl 6's exception handling do as I've expressed I want it to be able to do above?

EDIT:

The current answers are informative, but are focusing too narrowly on the semantics of the division operator. I've rewritten the question slightly to make the main issue of exception catching more central.

  • 0 denominator Rationals are used for Infinity Inf.Rat.nude.join('/').say 1/0 – Brad Gilbert Aug 3 at 2:03
  • If you are just playing around you may want to use div instead of / – Brad Gilbert Aug 7 at 0:57

The reason your catch block doesn't work is because dividing by zero isn't in and of itself an error. Perl6 will happily let you divide by zero and will store that value as a Rat. The issue arises when you want to display said Rat in a useful fashion (IE say it). That's when you get a Failure returned that becomes and Exception if not handled.

So you've a few options. You can check $b before you make $q :

$q = $b == 0 ?? -1 !! $a / $b; 

Or if you want to keep the real value (note you can introspect both the numerator and the denominator of a Rat without causing the divide by Zero error) when you say it you can use the .perl or .Num versions.

Both give you the decimal representation of the Rat with .perl giving <1/0> and .Num giving Inf when you have a 0 denominator.

I got the following to work:

use v6;

my $a = 1;
my $b = 0;
my $quotient = $a / $b;
try {
    #$quotient;   # <-- Strangely, this does not work
    "$quotient"; 
    CATCH {
        when X::Numeric::DivideByZero {
            $quotient = -1;
        }
        default { fail }
    }
}
say "Value of quotient: ", $quotient;

Output:

Value of quotient: -1

However, if I don't stringify $quotient in the try clause, it instead gives

Useless use of $quotient in sink context (line 9)
Attempt to divide 1 by zero using div
  in block <unit> at ./p.p6 line 18

I am not sure if this can be a bug..

Edit:

To address the question of the return value from the CATCH block. You can work around the issue that it does not return a value to the outer scope by instead calling the resume method:

my $a = 1;
my $b = 0;
my $quotient = do {
    my $result = might-throw($a, $b);
    CATCH {
        default {
            say "Caught exception: ", .^name;
            .resume;
        }
    }
    $result;  #<-- NOTE: If I comment out this line, it does not work
              #          A bug?
};

sub might-throw($a, $b) {
    if $b == 0 {
        die "Zero";
        -1;  # <-- the resume method call from CATCH will continue here
    }
    else {
        $a / $b
    }
}
  • 1
    $result; #<-- NOTE: If I comment out this line, it does not work ... A bug? Looks like it to me. I just searched rt for resume and GH issues for resume and didn't see a match. I also searched for catch and return in rt and GH. So I've looked at a LOT of bugs and none match this. Please report it if you have the time. Try to golf it. Does it require CATCH/resume? – raiph Aug 5 at 18:43
  • 1
    #$quotient; # <-- Strangely, this does not work. Aiui, that's not a bug. $quotient is a Scalar container. It's in sink context, so it just shows a warning about useless use but sees no need to look inside $quotient, pull its value out, go "omg" and thence throw an exception. So neither of these involve a throw: my $foo = Failure.new; $foo nor my $foo = Failure.new; say try { $foo; 42 } whereas both these do my $foo = Failure.new; "$foo" and say try { Failure.new; 42 }. – raiph Aug 5 at 18:44
  • @raiph Thanks for the comments! I have added a bug report on GitHub: Missing return value from do when calling resume and CATCH is the last statement in a block – Håkon Hægland Aug 5 at 19:18
  • Thanks. In retrospect I must know this bug because I know not to put CATCH blocks at the end. But when I tested that before writing my comment I failed to duplicate a problem. Or maybe I confused myself. Anyhow, thanks for putting it on record, assuming I didn't manage to miss it as I looked at all those bugs. :) – raiph Aug 5 at 19:24

This seems to be a design and/or implementation defect:

Rakudo happily divides an Int by 0, returning a Rat. You can .Num it (yielding Inf) and .perl it, but it will blow up if you try to .Str or .gist it.

In contrast, dividing by the Num 0e0 will fail immediately.

For the sake of consistency, integer division by zero should probably fail as well. The alternative would be returning a regular value that doesn't blow up when stringified, but I'd argue against it...

  • A consistency argument is always a reasonable argument. TimToady Bicarbonate. I've too much to say about this to fit in a comment here. Likewise I have other responses to other answers and OP. So I'm writing an answer. But that might take me a couple days. In the meantime, I want to register a tentative -1 to thinking of this as a design/implementation defect and +1 to viewing it as a teachable moment about fundamental differences between Rational and Floating point semantics; nice aspects of P6's exception handling; and other goodies. – raiph Aug 2 at 16:45
  • @raiph: if it's supposed to yield a regular value, it shouldn't blow up when calling .gist, the same as you don't expect .gist to explode on a Num that's Inf or (non-signalling) NaN; that would be the implementation defect I was alluding to – Christoph Aug 2 at 17:23
  • 1
    The OP's question is dead simple. I applaud attempts at a simple answer and in a sense hope one of us has nailed it. But I see the OP's question touching on many topics from exceptions to language design (and notably language version detection (note the final comment about IEEE /)). And numerics. Part of my point is that anything divided by zero is not a regular value. But I hear you. I'm just calling attention to both sides of meaning of the qualifier "seems" in your answer's first sentence. I think there's more to this than meets the eye. – raiph Aug 2 at 18:45
  • from a user point of view, /0 === die – p6steve Aug 3 at 18:58
  • @p6steve. Thus say 1/0 dies. This topic is a red herring. It took me a while to write it but I've now published an answer that stays focused on the OP's point. Returning to 1/0, it's a numeric literal meaning 1 over zero. This has a very useful spot in mathematics and computation. The IEEE standard for floats mandates that n/0 and -n/0 are not death but +∞ and −∞. P6 doesn't yet do that but that's the standard. There's so much more to 1/0 than meets the eye. – raiph Aug 5 at 16:44

So we've got a function. Sometimes it returns Any (undef) other wise is return $a / $b unless $b is 0 in which case it throws an exception.

sub might-throw($a, $b) { 
    return Any if (True, False, False, False, False).pick();
    die "Zero" if $b == 0;  
    $a / $b;
}

We want quotient to be the value of the function call unless it throws an exception, in which case we want -1.

Lets make 20 random pairs and try it out :

for 1..20 {
    my $a = (0..2).pick;
    my $b = (0..2).pick;
    my $quotient = -1;
    try {
        let $quotient = might-throw($a, $b);
        $quotient ~~ Any|Numeric;
    }
    say "{$a}/{$b} is {$quotient} maybe..";
}

So we start be predefining the quotient to the error state. Then in a try block we call out function using let to set it. the let will be rolled back if the function errors or the block returns undef... Hence we test that $quotient is an Any or a Numeric.

You may catch that I've avoided several rabbit holes1,2,3,4 in this answer to try keep it reasonably simple.

What this answer focuses on

Evaluate a subexpression and return its value, but if doing so causes an exception to be raised, catch the exception and return a fixed value instead.

say (try { 42    } orelse $! ?? 'fixed' !! $_);
say (try { Mu    } orelse $! ?? 'fixed' !! $_);
say (try { die() } orelse $! ?? 'fixed' !! $_);

displays on stdout:

42
(Mu)
fixed

CATCH

It seems that the value returned by CATCH

CATCH never returns a value. As you observed, it is only a block of code run for its side effects.

That said, one of its side-effects can be particularly powerful in this context:

my $quotient = try { die() or 42 }
CATCH { .resume }
say $quotient #  42

That said, the rest of this answer focuses purely on use of try and studiously avoids explicit use of CATCH.3

try sets $!

I might want to fall back to different values depending on the class of the thrown exception, but try just swallows them all.

Each try operation starts by resetting the built in variable $!.5 try resets $! to Any which signals "no exception".

If an exception is raised during processing of a statement being try'd then it's automatically handled. (I'm assuming no use of user defined CATCH blocks.3). $! is set to the exception and the try construct immediately exits returning Nil.

So, ignoring any value returned from a try for a moment, one simple way to write things is like this:

try die <foo bar>.pick; # die w/ randomly picked message
if $! eq 'foo' ...

In the event of an exception, try returns a Nil. Per the doc page for Nil, a Nil signals "Absence of a value or a benign failure".

Here's another way to react to a try if you are not interested in a non .defined return value:

try { die <foo bar>.pick } // do given $!
  {
    when 'foo' { say 'foo!' }
    when 'bar' { say 'bah'  }
  }

orelse sets $_ to its LHS's value

the expression I'm evaluating might genuinely have an undefined value, and I can't distinguish this from the case where an exception was thrown.

After a try:

  • EITHER: There was an exception; and it was caught and put in $!; and the try has returned Nil.

  • OR: There was not an exception; and $! contains Any; and try has returned a value which may or may not be a .defined value.

As you noted in your question, // throws away the value on its left. So if there was no exception but the trys return value is undefined (eg Mu), it's gone and can't be recovered.

However, as shown at the start of this answer, you can use orelese instead, which puts the value returned by the try construct in $_.5

Make sure you use parentheses! orelse has very low precedence. When using operators, one must always get precedence right or sadness will ensue. Note the parentheses used in the code at the start of this answer. Note what happens if you remove them. my ... = ... has non-obvious behavior in regard to precedence. If you wish to use a variable declaration with a try with an orelse make sure you use explicit parentheses to bound it in with the try.

Footnotes / rabbit holes

1 Failures. Within its scope, a try turns all attempts at creating a delayed exception (a Failure is a delayed exception), or dropping them in sink context, into regular immediate exceptions. If we had avoided using a try, and had only worked with CATCH blocks instead3, then $quotient might well end up containing a Failure, delaying exception handling. This can provide important benefits but discussion of this is beyond the scope of my answer.

2 1/0. This is a classic example for discussing exceptions. But it's a red herring for your question because it has complex behavior in P6. In the context of your question, the key thing is that it's akin to a double delayed exception.1 The 1/0 rabbit hole is worth exploration if you wish to focus on it, but it's the exception that proves the rule that not all exceptions are Exceptions. And if that sounds complicated, it's imo best viewed as orthogonal to your overall SO question.

3 I think you can do the same things this answer does with try using just CATCH instead. And you can combine try and CATCH -- they're different ways of looking at the same problem and they play nice together. But to do what you ask about the natural mechanism to use is .resume and that's another rabbit hole covered in the next footnote:

4 The Exception class supports a .resume method that can be used in a CATCH. According to the doc, if an exception occurs while a "statement" is being evaluated then that "statement" is aborted. It's possible to use .resume to "resume at the next statement". But I haven't yet figured out what that means exactly, hence all the scare quoting of "statement" and my current view that this is another rabbit hole.

5 $! and $_ are a couple of a handful of purely hieroglyphic variables in P6. The ! is a mnemonic for something like "exception!". $_ is the "topic variable". It conceptually corresponds to the English pronoun "it". Note that $_ and $! are lexically scoped, constraining modification to lexically local invoked operations, rather than globally scoped. This eliminates bugs that arise from global scoping. This is especially important in a concurrent programming context.

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