3

I'm getting a "Deep recursion on subroutine" warning when I just refer to the name as shown in the code below. use 5.016 … __SUB__->() does not help, either.

Build hints: git clone ; scons bindings=perl test ; cd build/opt/src/bindings/perl ; $EDITOR h.pl

use 5.024;
use strictures;
use blib;
use hammer qw();

# digits = "0" / "1" / "2" / "3" / "4" / "5" / "6" / "7" / "8" / "9"
sub digits { hammer::many hammer::in 0..9 }

# product = digits "*" digits
sub product {
    hammer::sequence digits, hammer::ch('*'), digits
}

product->parse('23*42'); # [[2, 3], '*', [4, 2]]


# mproduct = digits "*" mproduct
sub mproduct;
sub mproduct {
    hammer::sequence digits, hammer::ch('*'), mproduct
}
mproduct->parse('8*23*42');
# Deep recursion on subroutine "main::mproduct" at h.pl line 21.
  • If hammer is a recursive descent parser, then aren't self-referring rules disallowed? – Jeff Holt Jul 18 '17 at 13:35
  • How do you figure it's rec.descent? – daxim Jul 18 '17 at 13:58
  • I read as much of the docs/hammer-presentation.pdf as I could and some of the source. Did I misinterpret something? I'm unfamiliar with that code and I have an interest in finding faster parsers, which the authors claim hammer is. Your question perked my interest. – Jeff Holt Jul 18 '17 at 14:02
  • 1
    @ikegami Hello, again. The exclamation point was unnecessary. BTW, I'm keeping track of these. – Jeff Holt Jul 18 '17 at 14:29
  • 1
    Note that mproduct is called before you call parse to generate a parse tree. mproduct unconditonally calls mproduct, thus the infinite loop. – ikegami Jul 18 '17 at 15:21
3

Your code has an infinite loop: mproduct unconditonally calls mproduct.

Your grammar also has the same an infinite loop: mproduct is unconditionally defined in terms of mproduct.

mproduct ::= digits '*' mproduct

The grammar you want is

mproduct ::= digits '*' mproduct
           | digits

or

mproduct  ::= digits mproduct_
mproduct_ ::= '*' mproduct_
            | ε

To put it more clearly using pseudo-BNF, the grammar you want is

myproduct ::= digits ( '*' digits )*

hammer provides a tool to implement this:

hammer::sepBy1(digits, hammer::ch('*'))

That doesn't address the more general question. The following is a case where the answer to general question would be useful:

expr ::= sum

sum  ::= term sum_
sum_ ::= '+' sum_
       | ε

term ::= num
       | '(' expr ')'

The broken approach would be:

sub num { ... }

sub term {
   hammer::choice(
      num(),
      hammer::sequence(
         hammer::ch('('),
         expr(),
         hammer::ch(')'),
      )
   )
}

sub sum { hammer::sepBy1(term, hammer::ch('+')) }

sub expr { sum() }

my $parser = expr();

The solve this problem, one would use bind_indirect.

use feature qw( state );

sub num { ... }

sub term {
   hammer::choice(
      num(),
      hammer::sequence(
         hammer::ch('('),
         expr(),
         hammer::ch(')'),
      )
   )
}

sub sum { hammer::sepBy1(term, hammer::ch('+')) }

sub _expr { sum() }
sub expr { state $expr = hammer::indirect(); $expr }
UNITCHECK { hammer::bind_indirect(expr(), _expr()); }

my $parser = expr();

The test file proved useful in answering this question.

Nothing is tested.

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