NAME

Parse::RecDescent::FAQ - the official, authorized FAQ for Parse::RecDescent.

IGNORABLE TOKENS

Removing C comments

Since there is no separate lexer in recdescent. And it is top down. Is there anyway to deal w/ removing C comments that could be anywhere.

  • Answer by Conway

    Sure. Treat them as whitespace!

    Do something like this:

    program: <skip: qr{\s* (/[*] .*? [*]/ \s*)*}x> statement(s)
    
    statement: # etc...

NEWLINE PROCESSING

As end of line

I'm trying to parse a text line by line using Parse::RecDescent. Each line is terminated by a "\n".

Although the task setting up a grammar for this case is straightforward the following program doesn't produce any results.

use Parse::RecDescent;

$grammar =
q{
    line:       word(s) newline { print "Found a line\n"; }
    word:       /\w+/
    newline : /\n/
};

$parse = new Parse::RecDescent ($grammar);


$data =
qq(This is line one\nAnd this is line two\n);

$parse->line($data);

RecDescent doesn't recognize the newlines. Does anybody know what I'm getting wrong?

  • Answer by Damian

    By default, P::RD skips all whitespace (*including* newlines) before tokens.

    Try this instead:

             line:    <skip: qr/[ \t]*/> word(s) newline 
    				{ print "Found a line\n"; }
             word:    /\w+/
             newline: /\n/

COLUMN-ORIENTED PROCESSING

Whitespace, text, column N, period, number (some reference to lookahead)

Ok, now the line I'm trying to deal with is:

"some amount of whitespace, then some text, then starting at column 48 a number, followed by a period, followed by another number". I want to capture the text (the "title"), and the two numbers (major and minor versions)

  • Answer by Damian Conway

    You really do want to use a regex here (to get the lookahead/backtracking that RecDescent doesn't do).

       line: m/^(\s*        		# leading whitespace
       	      (.*?)        		# the title
                  (?:\s+(?=\d+\.\d+\s*$)) 	# the space preceeding the numbers
    	    )
                (\d+)        		# the major version number
                \.
                (\d+)        		# the minor version number
    	 /x
    	 <reject: length $1 != 47>
    	 { @{$return}{title major minor)} = ($2,$3,$4) }

Another example

I'm parsing some lines where the "column formatting" is fixed, i.e. a particular line might be formally described as "a single word followed by some amount of whitespace followed by another word whose first character begins at column 22".

  • A simple answer that is wrong:

    Hmm, I guess I could make this simpler and do this:

    line: word <reject: $thiscolumn != 22> word word: /\S+/

    right?

    Wrong. And the reason why is that The

    <reject:...> 

    won't skip any whitespace after the first word.

    You instead would want:

    line: word '' <reject: $thiscolumn != 22> word
  • Restating it in the positive can be a GOTCHA:

    I'd state that in the positive instead:

    line: word '' { $thiscolumn == 22 } word 

    This seems nice and more to the point, but unfortunately a failing conditional yields a false value but not necessarily an undef value. So in this case, you might get back a 0 from evaluating this conditional, but unfortunately, that does not lead to failure.

    On the other hand, <reject> is exactly the same as the action { undef } and is guaranteed to make a production fail immediately.

    So if you would like to state the test in the positive, then do this:

    line: word '' { $thiscolumn == 22 || undef } word 

MODULAR / GENERATIVE / CREATIVE / HAIRY PARSING

Calling a parser within a grammar

I have a script that uses Parse::RecDescent, in which I want to define 2 parsers. The grammar for the second parser has to call the first parser.

Can I do this?

  • yes, here's an example

    #!/usr/local/bin/perl -w
    use strict;
    use Parse::RecDescent;
    
    $::RD_ERRORS = 1;
    $::RD_WARN = 1;
    $::RD_HINT = 1;
    
    our $text_to_parse = "";
    
    my $grammar1 = q{
    [...]
    }
    
    our $inner_parser = new Parse::RecDescent($grammar1);
    
    my $grammar2 = q{
    [...]
    
    rule: TEXT
    	{
    	  $text_to_parse = $item{TEXT};
              if (defined $text_to_parse) { print "executing inner parse...\n"; }
              my $p_text = $inner_parser->startrule($text_to_parse);
    	}
    
    [...]
    
    }

Incremental generation of data structure representing parse

I have a data structure which is

a hash of entries where an entry is a list/array of sets

I have also a grammar that can parse the syntax of the text files that contain the data I want to fill this structure with. Until here everything is ok.

Problem: I cannot figure out how to actually FILL the parsed data into the structure. I can only decide if a string is grammatically correct or not.

  • Answer by Marcel Grunaer

    Try this grammar, which you have to feed the input as one big string. It uses a global variable, $::res into which the results are assembled. At the end the variable is also returned for convenience.

    It basically parses a phrase and a list of meanings. Instead of reconstructing what it just parsed at each step, it checks the remaining text at various stages (using an idea taken from Parse::RecDescent::Consumer) to see what the 'phrase' or 'meaning' subrules just matched. The 'meanings' subrule then (implicitly) returns a reference to an array of 'meaning' strings. That arrayref is stored at the proper slot in the result hash.

    (Hope that explanation makes sense. I'm sure Damian can come up with a grammar that's way more elegant and efficient...)

    { sub consumer {
             my $text = shift;
             my $closure = sub { substr $text, 0, length($text) - 
    length($_[0]) }
    } }
    
    start : entry(s) { $::res }
    
    entry :
               comment
             | def
             | <error>
    
    def : <rulevar: local $p_cons>
    def : <rulevar: local $p_text>
    
    # The // skips initial whitespace so it won't end up in $p_text
    
    def :
         // { $p_cons = consumer($text) } phrase { $p_text = 
    $p_cons->($text) }
         '=' meanings ';'
         { $::res->{$p_text} = $item{meanings} }
    
    comment : /#.*(?=\n)/m
    
    phrase  : ident(s)
    
    ident   : /[\w&\.'-]+/
    
    meanings : meaning(s /:/)
    
    meaning : <rulevar: local $m_cons>
    meaning : // { $m_cons = consumer($text) } element(s /,?/) 
    { $m_cons->($text) }
    
    element : alternation(s /\|/)
    
    alternation : expr(s /[+>]/)
    
    expr : /!?/ term
    
    term : ident '(' meaning ')' | ident

CLEANING UP YOUR GRAMMARS

In honor of the original (and greatest) Perl book on cleaning up your Perl code, this section is written in the style of Joseph Hall's "Effective Perl Programming"

Use repetition modifiers with a separator pattern to match CSV-like data

The intuitive to match CSV data is this:

CSVLine:
     NonFinalToken(s?) QuotedText
NonFinalToken: 
     QuotedText Comma
     { $return = $item[1] }

or, in other (merlyn's) words, "many comma terminated items followed by one standalone item".

Instead, take the approach shown by merlyn:

CSVLine: QuotedText(s Comma) { use Data::Dumper; Dumper($item[1]) }

Then just define QuotedText, Comma, and you're done!

OPTIMIZING YOUR GRAMMARS

Precompiling Grammars for Speed of Execution

Take a look at Parse::RecDescent's precompilation option

Parse::RecDescent is slow on Really Big Files. How can I speed it up?

  • Reduce the "depth" of the grammar. Use fewer levels of nested subrules.

  • Where possible, use regex terminals instead of subrules. For example, instead of:

    string: '"' char(s?) '"'
    
    char:   /[^"\\]/
        |   '\\"'
        |   '\\\\'

    write:

    string: /"([^"\\]|\\["\\])*"/
  • Where possible, use string terminals instead of regexes.

  • Use repetitions or <leftop>/<rightop> instead of recursion.

    For example, instead of:

    list:  '(' elems ')'
    elems: elem ',' elems
         | elem

    write:

    list: '(' <leftop: elem ',' elem> ')'

    or:

    list: '('  elem(s /,/)  ')'
  • Factor out common prefixes in a set of alternate productions.

    For example, instead of:

    id: name rank serial_num
      | name rank hair_colour
      | name rank shoe_size

    write:

    id: name rank (serial_num | haircolour | shoe_size)
  • Pre-parse the input somehow to break it into smaller sections. Parse each section separately.

  • Precompile they grammar. This won't speed up the parsing, but it will speed up the parser construction for big grammars (which Really Big Files often require).

  • Consider whether you would be better porting your grammar to Parse::Yapp instead.

CAPTURING MATCHES

Hey! I'm getting back ARRAY(0x355300) instead of what I set $return to!

Here's a prime example of when this mistake is made:

QuotedText: 
      DoubleQuote TextChar(s?) DoubleQuote
      { my $chars = scalar(@item) - 1;  
        $return = join ('', @item[2..$chars]) }

This rule is incorrectly written. The author thinks that @item will have one TextChar from position 2 until all TextChars are matched. However, the true structure of @item is:

position one: the string matched by rule DoubleQuote
position two: array reference representing parse tree for TextChar(s?)
position three: the string matched by rule DoubleQuote

Note that position two is an array reference. So the rule must be rewritten in this way.

QuotedText: 
      DoubleQuote TextChar(s?) DoubleQuote
      { $return = join ( '', @{$item[2]} ) }
    

Getting text from subrule matches

I can't seem to get the text from my subrule matches...

    Your problem is in this rule:

    tuple : (number dot)(2)

    is the same as:

    tuple        : anon_subrule(2)
    
    anon_subrule : number dot

    Like all subrules, this anonymous subrule returns only its last item (namely, the dot). If you want just the number back, write this:

    tuple : (number dot {$item[1]})(2)

    If you want both number and dot back (in a nested array), write this:

    tuple : (number dot {\@item})(2)

Capturing whitespace between tokens

I need to capture the whitespace between tokens using Parse::RecDescent. I've tried modifying the $skip expression to // or /\b/ (so I can tokenize whitespace), but that doesn't seem to have the desired effect.

Just having a variable where all skipped whitespace is stored would be sufficient.

Does anybody know how to trick Parse::RecDescent into doing this?

  • Answer by Damian Conway

    To turn off whitespace skipping so I can handle it manually, I always use:

    <skip:''>

    See:

    demo_decomment.pl
    demo_embedding.pl
    demo_textgen.pl

    for examples.

My grammar is not returning any data!

What's wrong?!

  • Answer by Brent Dax:

    This is a clue; either something is wrong with your actions or the grammar isn't parsing the data correctly. Try adding | <error>

    clauses to the end of each top-level rule. This will tell you if there's a parsing error, and possibly what the error is. If this doesn't show anything, look hard at the actions. You may want to explicitly set the $return variable in the actions.

THINGS NOT TO DO

Do not follow <resync> with <reject> to skip errors

resync is used to allow a rule which would normally fail to "pass" so that parsing can continue. If you add the reject, then it unconditionally fails.

Do not assume that %item contains an array ref of all text matched for a particular subrule

For example:

range: '(' number '..' number )'
                { $return = $item{number} }

will return only the value corresponding to the last match of the number subrule.

To get each value for the number subrule, you have a couple of choices, both documented in the Parse::RecDescent manpage under @item and %item.

OTHER Parse::RecDescent QUESTIONS

Matching line continuation characters

I need to parse a grammar that includes line continuation characters. For example:

// COMMAND ARG1-VALUE,ARG2-VALUE, +
   ARG3-VALUE,ARG4-VALUE, +
   EVEN-MORE-ARGS
// ANOTHERCOMMAND
* and a comment
* or two

How do I formulate a rule (or rules) to treat the first command as if all 5 arguments were specified on a single line? I need to skip over the /\s*+\n\s*/ sequence. It seems like skip or resync should do this for me, but if so, I haven't discovered the correct technique, yet.

  • Answer by Damian Conway

    use Parse::RecDescent;
    
    my @lines = << 'EOINST';
    // COMMAND ARG1-VALUE,ARG2-VALUE, +
       ARG3-VALUE,ARG4-VALUE, +
       EVEN-MORE-ARGS
    // ANOTHERCOMMAND
    * and a comment
    * or two
    EOINST
    
    my $parse = Parse::RecDescent->new(join '', <DATA>) or die "Bad Grammar!";
    
    use Data::Dumper 'Dumper';
    print Dumper [
    $parse->Instructions("@lines") or die "NOT parsable!!\n"
    ];
    
    __DATA__
    
    Instructions: command(s)
    
    command: multiline_command
           | singleline_command
           | comment
    
    singleline_command: 
    	'//'  /.*/
    		{ {command => $item[-1]} }
    
    multiline_command:  
    	'//' /(.*?[+][ \t]*\n)+.*/
    		{ $item[-1] =~ s/[+][ \t]*\n//g; {command => $item[-1]} }
    
    comment:
    	'*'  /.*/
    		{ {comment => $item[-1]} }

How can I match parenthetical expressions to arbitrary depth?

Example: a, (b ,c, (e,f , [h, i], j) )

  • Answer by FAQ author

    Maybe Text::Balanced is enough for your needs. See it on search.CPAN.org under author id DCONWAY.

  • Answer by lhoward of perlmonks.org:

    Parse::RecDescent implements a full-featured recursive-descent parser. A real parser (as opposed to parsing a string with a regular expression alone) is much more powerful and can be more apropriate for parsing highly structured/nested data like you have. It has been a while since I've written a grammer so it may look a bit rough.

    use Parse::RecDescent;
    my $teststr="blah1,blah2(blah3,blah4(blah5,blah6(blah7))),blah8";
    my $grammar = q {
            content:        /[^\)\(\,]+/
            function:       content '(' list ')'
            value:          content
            item:           function | value
            list:           item ',' list | item
            startrule:      list
    };
    my $parser = new Parse::RecDescent ($grammar) or die "Bad grammar!\n";
    
    defined $parser->startrule($teststr) or print "Bad text!\n";

    To which merlyn (Randal Schwartz) of perlmonks.org says:

    Simplifying the grammar, we get:

    use Parse::RecDescent;  
    my $teststr="blah1,blah2(blah3,blah4(blah5,blah6(blah7))),blah8";  
    my $grammar = q {
     list: <leftop: item ',' item> 
     item: word '(' list ')' <commit>
         | word 
     word: /\w+/  
    };  
    my $parser = new Parse::RecDescent ($grammar) or die "Bad grammar!\n";
    
    defined $parser->list($teststr) or print "Bad text!\n";

Switching out of first-match-wins mode

I have a set of alternatives on which I want to avoid the default first-match-wins behavior of Parse::RecDescent. How do I do it?

    Use a scored grammar. For example, this scoring directive

    opcode: /$match_text1/  <score: { length join '' @item}>
    opcode: /$match_text2/  <score: { length join '' @item}>
    opcode: /$match_text3/  <score: { length join '' @item}>

    would return the opcode with the longest length, as opposed to which one matched first.

    Just look for the section "Scored productions" in the .pod documentation.

I'm having problems with the inter-token separator:

my $parse = Parse::RecDescent->new(<<'EndGrammar');

rebol   : block  { dump_item('block', \@item)  }
        | scalar { dump_item('scalar', \@item) }

block       : '[' block_stuff(s?) ']'
block_stuff : scalar
scalar      : <skip:''> '%' file
file        : /w+/

EndGrammar

My grammar matches a filename, ie:

%reb.html

just fine. However, it does not match a filename within a block, ie:

[ %reb.html ]

and I know exactly why after tracing the grammar.

It is trying the

<skip:''> '%' file

production with the input text

" %reb.html"

note the space in the input text.

The reason this distresses me is that I have not changed the universal token separator from

/\s*/

Yet it did not gobble up the white space between the '[' terminal and the <skip:''>'%' file production

  • Answer by Randal Schwartz

    That's the expected behavior. The outer prefix is in effect until changed, but you changed it early in the rule, so the previous "whitespace skip" is effectively gone by the time you hunt for '%'.

    To get what you want, you want:

    '%' <skip:''> file

    in your rule. back

Matching blank lines

How do I match an arbitrary number of blank lines in Parse::RecDescent?

  • Answer by Damian Conway

    Unless you use the /m suffix, the trailing $ means "end of string", not "end of line". You want:

    blank_line:  /^\s+?$/m

    or

    blank_line:  /^\s+?\n/

I have a rule which MUST be failing, but it isn't. Why?

blank_line:    { $text =~ /silly-regex/ }

       parses with no error.

    The pattern match still fails, but returns the empty string (""). Since that's not undef, the rule matches (even though it doesn't do what you want).

Error handling

I'm trying to write a parser for orders for Atlantis (PBEM game). Syntax is pretty simple: one line per command, each command starts with name, followed by list of parameters. Basically it's something like this (grammar for parsing one line):

Statement:Comment | Command Comment(?)
Comment:/;.*/ 
Command:'#atlantis' <commit> FactionID String
   Command:'attack' <commit> Number(s)
....

However I have problems to make it work as I want:

1) In case of failed parsing (syntax error, not allowey keyword, ...) I want to store error messages in variable (not to be just printed), so I can process them later.

I don't think Parse::RecDescent has a hook for that (Damian, something for the todo list?), but you can always install a $SIG {__WARN__} handler and process the generated warnings.

2) In case if user types "attack bastards" I want to give him error message that "list of numbers expected" instead of just saying the "cannot parse this line". The only thing that I came up with now was defining every command like this: Command:Attack Attack:'attack' AttackParams AttackParams:Number(s) | <error> ... Any better solutions?

  • You can just do:

    Command:   '#atlantis' <commit> FactionID String
       |   'attack' <commit> Number(s)
       |   <error>

    and when you try to parse "attack bastards", you will get:

    ERROR (line 1): Invalid Command: Was expecting Number but found
        "bastards" instead

    You might want to use <error?>, which will only print the error when it saw '#atlantis' or 'attack' (because then you are committed).

How can I get at the text remaining to be parsed?

See the documentation for the $text variable.

You don't escape Perl symbols in your grammars. Why did I have to?

my $grammar = <<EOGRAMMAR;

export_line:	stock_symbol	COMMA   # 1
		stock_name	COMMA2  # 2
		stock_code	COMMA3  # 3
		trade_side	COMMA4  # 4
		trade_volume	COMMA5  # 5
		floating_point	COMMA6  # 6
		tc                      # 7
{ print "got \@item\n"; }
    | <error>
EOGRAMMAR

Why does '@' have to be escaped? And whatever reason
that may be, why doesnt it apply to '\n'?
  • Answer by Damian Conway

    Because you're using an interpolating here document. You almost certainly want this instead:

    my $grammar = <<'EOGRAMMAR';		# The quotes are critical!
       
    
     export_line:	stock_symbol	COMMA   # 1
       		stock_name	COMMA2  # 2
       		stock_code	COMMA3  # 3
       		trade_side	COMMA4  # 4
       		trade_volume	COMMA5  # 5
       		floating_point	COMMA6  # 6
       		tc                      # 7
     { print "got @item\n"; }
        | <error>
    EOGRAMMAR

Other modules appear to not work when used with P::RD

Such-and-such a module works fine when I don't use Parse::RecDescent

    Did you alter the value of undef with your parser code? 

    The problem has nothing to do with Parse::RecDescent.

    Rather, it was caused by your having set $/ to undef, which seems to have caused Mail::POP3 to over-read from its socket (that might be considered a bug in the Mail::POP3 module).

    As a rule-of-thumb, *never* alter $/ without local-izing it. In other words, change things like this:

    $/ = undef;

    to this:

    {
    local $/;
    }

Programming Topics Germane to Parse::RecDescent Use

Double vs Single-quoted strings

I'm playing around with the <skip:> directive and I've noticed something interesting that I can't explain to myself.

Here is my script:

------ Start Script ------ use strict; use warnings;

$::RD_TRACE = 1;

use Parse::RecDescent;

my $grammar = q{

input:  number(s) { $return = $item{ number } } | <error>

number: <skip: '\.*'> /\d+/ 

};

my $parser = new Parse::RecDescent($grammar);

my $test_string = qq{1.2.3.5.8};

print join( "\n", @{ $parser -> input( $test_string ) } ); ------ End Script ------

This script works great. However, if I change the value of the skip directive so that it uses double quotes instead of single quotes:

<skip: "\.*">

the grammar fails to parse the input. However, if I put square brackets around the escaped dot:

<skip: "[\.]*">

the grammar starts working again:

How does this work this way?

  • Damian says:

    This small test program may help you figure out what's going wrong:

    print "\.*", "\n";
    print '\.*', "\n";

    Backslash works differently inside single and double quotes. Try:

    <skip: "\\.*">

    The reason the third variant:

    <skip: "[\.]*">

    works is because it becomes the pattern:

    /[.]/

    which is a literal dot.

Tracking text parsed between phases of the parse

I wanted to know, after matching a rule, what text the rule matched. So I used two variables to remember what the remaining text and offset were before and after the rule and just determined the difference.

report : <rulevar: local $rule_text>
report : <rulevar: local $rule_offset>

report :
          {
              $rule_text   = $text;
              $rule_offset = $thisoffset;
          }

      ...some subrules...

          {
              my $str = substr($rule_text, 0, $thisoffset - 
$rule_offset);

              # remove all sorts of whitespace

              $str =~ s/^\s*//s;
              $str =~ s/\s*$//s;
              $str =~ s/\s+/ /gs;

              # Now $str contains the text matched by this rule
          }

This is the kind of thing I thought would have been possible a lot easier. Did I miss something?

If not, is there a way to make this available in every parser, e.g. by providing a new directive or something like that?

  • The answer is on CPAN

    Parse::RecDescent::Consumer, on CPAN, prints out the text consumed between stages of a parse... even if that part may fail later. The implementation is straightforward, it creates closures containing $text and evaluates them later to get the text consumed.

Unconditionally listifying scalars

Quite often when using Parse::RecDescent, I want to treat the return value of a production the same regardless of whether P::RD returns a string or a list of string.

A tutorial on Shallow versus Deep Copying

Written by "Philip 'Yes, that's my address' Newton" <nospam.newton@gmx.li>

Start off with an array of (references to) arrays:

@array = ( [1,2,3], ['a', 'u', 'B', 'Q', 'M'], ['%'] );

Now a shallow copy looks like this:

@shallow = ( $array[0], $array[1], $array[2] );

This copies the references over from @array to @shallow. Now @shallow is ( [1,2,3], ['a', 'u', 'B', 'Q', 'M'], ['%'] ) -- the same as @array. But there's only one 2 and one 'Q', since there are two references pointing to the same place.

Here's what it looks like in the debugger:

 DB<5> x \@array
0  ARRAY(0x10e5560)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'B'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'
 DB<6> x \@shallow
0  ARRAY(0xcaef60)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'B'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'

You can see that @array lives somewhere around 0x10e5560, whereas @shallow lives around 0xcaef60, but the three references point to arrays in the same place. If I now change $array[1][2] to 'C', watch what happens:

 DB<7> $array[1][2] = 'C'


 DB<8> x \@array
0  ARRAY(0x10e5560)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'
 DB<9> x \@shallow
0  ARRAY(0xcaef60)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'

$shallow[1][2] is now also 'C'! This is because it just followed the pointer to the array at 0x10e5638 and found the modified data there.

Now see what happens when I do a copy that's one level deeper -- not just copying the references but the data behind the references:

@deep = ( [ @{$array[0]} ], [ @{$array[1]} ], [ @{$array[2]} ] );

This uses the knowledge that @array[0..2] are all references to arrays, and it only goes one level deeper. A more general algorithm (such as Storable's dclone, mentioned in `perldoc -q copy`) would do a walk and copy differently depending on the type of reference it encounters at each stage.

Now watch:

 DB<12> x \@array
0  ARRAY(0x10e5560)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'
 DB<13> x \@deep
0  ARRAY(0x10ef89c)
  0  ARRAY(0x10eb298)
     0  1
     1  2
     2  3
  1  ARRAY(0x10eb2c4)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10ef07c)
     0  '%'

The references point to different places.

Now if you change @array, @deep doesn't change:

 DB<14> push @{$array[2]}, '$'


 DB<15> x \@array
0  ARRAY(0x10e5560)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'
     1  '$'
 DB<16> x \@shallow
0  ARRAY(0xcaef60)
  0  ARRAY(0x10e5464)
     0  1
     1  2
     2  3
  1  ARRAY(0x10e5638)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10e568c)
     0  '%'
     1  '$'
 DB<17> x \@deep
0  ARRAY(0x10ef89c)
  0  ARRAY(0x10eb298)
     0  1
     1  2
     2  3
  1  ARRAY(0x10eb2c4)
     0  'a'
     1  'u'
     2  'C'
     3  'Q'
     4  'M'
  2  ARRAY(0x10ef07c)
     0  '%'

@deep didn't change, since it's got its own value of the anonymous array containing '%', but @shallow did.

Hope this helps a bit.

Cheers, Philip -- Philip Newton <nospam.newton@gmx.li> If you're not part of the solution, you're part of the precipitate

Apparent, but not really deep copying: my (@list) = @{[@{$_[0]}]};

I was meandering through demo_calc.pl in the Parse::RecDescent demo directory and came across this

sub evalop
{
       my (@list) = @{[@{$_[0]}]};
       my $val = shift(@list)->();
...       
}

I took the line that confused me step-by-step and don't get the purpose of this. Working from inner to outer:

  @{$_[0]}     # easy --- deference an array reference
[  @{$_[0]} ]    # ok --- turn it back into an array ref.. why?
@{ [ @{$_[0]} ] } # umm -- uh.... well, the @sign implies
                            # we have an array, but how is it 
                            # different from the first array we
                            # dereferenced?

    The line from demo_calc.pl is in fact not doing any deep copying.

        #!/usr/bin/perl -w
        my @original = (
            [0],  [1,2,3],  [4,5,6],  [7,8,9]
        );
        my @copy = &some_kind_of_copy( \@original );
        sub some_kind_of _copy {
            # here's that line from demo_calc.pl
            my (@list) = @{[@{$_[0]}]};
            return @list;
        }
    
     $original[0][0]         = 'zero';
     @{ $original[1] }[0..2] = qw(one   two   three);
     @{ $original[2] }[0..2] = qw(four  five  six);
     @{ $original[3] }[0..2] = qw(seven eight nine);
        # now use the debugger to look at the addresses,
        # or use Data::Dumper to look at @copy, or just
        # compare one of the items...
     if (  $copy[1][2] eq 'three'  ) {
        print "Shallow Copy\n";
     } elsif (  $copy[1][2] == 3  ) {
        print "Deep Copy\n";
     } else {
            print "This should never happen!!!\n"
    	}

    If you wanted that line to do deep copying of a list of anon arrays, then the line should read

    my @list = map  { [@$_] }  @{$_[0]};
               # turn $_[0] into a list (of arrayrefs)
               # turn each (arrayref) element of that list
               # into an anonymous array containing
               # a list found by derefrencing the arrarref

    Try plugging that line into above script instead of the line from the demo_calc.pl and you'll see different output. The line from demo_calc.pl is in fact doing extra useless work. My guess is that the extra @{[ ]} around there is one of two things: 1) a momentary lapse of attention resulting in a copy/paste error, or duplicate typing or 2) an artifact of earlier code wherein something extra was going on in there and has since been deleted.

    Even Damian can make a mistake, but it's not a mistake that affects output... it just makes for a tiny bit of wasted work (or maybe Perl is smart enough to optimze away the wasted work, I dunno).

    * Damian Conway says:

    I have no recollection of why I did this (see children, that's why you should *always* comment your code!).

    I *suspect* it's vestigal -- from a time when contents of the argument array reference were somehow modified in situ, but it was important that the original argument's contents not be changed.

    The ungainly @{[@{$_[0]}]} syntax is a way of (shallow) copying the array referenced in $_[0] without declaring a new variable. So another possible explanation is that evalop may originally have been a one-liner, in which case I might have used this "inlined copy" to keep the subroutine's body to a single expression.

    However...

    Even Damian can make a mistake

    is by far the likeliest explanation.

SEE ALSO

  • Parse::Recdescent tutorial at www.perl.com

    http://www.perl.com/pub/a/2001/06/13/recdecent.html

  • py

    py, which I assume is short for parse yacc, is a program by Mark-Jason Dominus which parses GNU Bison output to produce Perl parsers.

    It is obtainable from http://perl.plover.com/py/

  • Parse::YAPP

    A bottom-up parser which will be familiar to those who have used Lex and Yacc. Parse::RecDescent is a top-down parser.

  • Text::Balanced

    Use this instead of writing hairy regular expressions to match certain common "balanced" forms of text, such as tags and parenthesized text.

  • "Mastering Regular Expressions" by Jeffrey Freidl

    You still need to know when to use /.*/ or /.+/ or /[^x]*/

  • "Object-Oriented Perl" by Damian Conway

    This book will aid you in complexity management for large grammars.

  • http://www.PerlMonks.org

    A useful site to get fast help on Perl.

AUTHOR

The author of Parse::RecDescent::FAQ is Terrence Brannon <tbone@cpan.org>.

The author of Parse::RecDescent is Damian Conway.

The (unwitting) contributors to this FAQ

  • Me

  • Damian Conway

  • Marcel Grunaer

  • Brent Dax

  • Randal L. Schwartz (merlyn), Perl hacker

  • lhoward of Perlmonks

  • Matthew Wickline

6 POD Errors

The following errors were encountered while parsing the POD:

Around line 442:

=over should be: '=over' or '=over positive_number'

Around line 670:

=over should be: '=over' or '=over positive_number'

Around line 764:

=back doesn't take any parameters, but you said =back =head2 More on blank lines

Around line 774:

=over should be: '=over' or '=over positive_number'

Around line 890:

=over should be: '=over' or '=over positive_number'

Around line 1269:

=over should be: '=over' or '=over positive_number'

You can't have =items (as at line 1329) unless the first thing after the =over is an =item