Paul Evans > Parser-MGC > Parser::MGC

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NAME ^

Parser::MGC - build simple recursive-descent parsers

SYNOPSIS ^

 package My::Grammar::Parser
 use base qw( Parser::MGC );

 sub parse
 {
    my $self = shift;

    $self->sequence_of( sub {
       $self->any_of(
          sub { $self->token_int },
          sub { $self->token_string },
          sub { \$self->token_ident },
          sub { $self->scope_of( "(", \&parse, ")" ) }
       );
    } );
 }

 my $parser = My::Grammar::Parser->new;

 my $tree = $parser->from_file( $ARGV[0] );

 ...

DESCRIPTION ^

This base class provides a low-level framework for building recursive-descent parsers that consume a given input string from left to right, returning a parse structure. It takes its name from the m//gc regexps used to implement the token parsing behaviour.

It provides a number of token-parsing methods, which each extract a grammatical token from the string. It also provides wrapping methods that can be used to build up a possibly-recursive grammar structure, by applying a structure around other parts of parsing code. Each method, both token and structural, atomically either consumes a prefix of the string and returns its result, or fails and consumes nothing. This makes it simple to implement grammars that require backtracking.

CONSTRUCTOR ^

$parser = Parser::MGC->new( %args )

Returns a new instance of a Parser::MGC object. This must be called on a subclass that provides method of the name provided as toplevel, by default called parse.

Takes the following named arguments

toplevel => STRING

Name of the toplevel method to use to start the parse from. If not supplied, will try to use a method called parse.

patterns => HASH

Keys in this hash should map to quoted regexp (qr//) references, to override the default patterns used to match tokens. See PATTERNS below

accept_0o_oct => BOOL

If true, the token_int method will also accept integers with a 0o prefix as octal.

PATTERNS ^

The following pattern names are recognised. They may be passed to the constructor in the patterns hash, or provided as a class method under the name pattern_name.

METHODS ^

$result = $parser->from_string( $str )

Parse the given literal string and return the result from the toplevel method.

$result = $parser->from_file( $file, %opts )

Parse the given file, which may be a pathname in a string, or an opened IO handle, and return the result from the toplevel method.

The following options are recognised:

binmode => STRING

If set, applies the given binmode to the filehandle before reading. Typically this can be used to set the encoding of the file.

 $parser->from_file( $file, binmode => ":encoding(UTF-8)" )

$result = $parser->from_reader( \&reader )

Parse the input which is read by the reader function. This function will be called in scalar context to generate portions of string to parse, being passed the $parser object. The function should return undef when it has no more string to return.

 $reader->( $parser )

Note that because it is not generally possible to detect exactly when more input may be required due to failed regexp parsing, the reader function is only invoked during searching for skippable whitespace. This makes it suitable for reading lines of a file in the common case where lines are considered as skippable whitespace, or for reading lines of input interractively from a user. It cannot be used in all cases (for example, reading fixed-size buffers from a file) because two successive invocations may split a single token across the buffer boundaries, and cause parse failures.

$pos = $parser->pos

Returns the current parse position, as a character offset from the beginning of the file or string.

( $lineno, $col, $text ) = $parser->where

Returns the current parse position, as a line and column number, and the entire current line of text. The first line is numbered 1, and the first column is numbered 0.

$parser->fail( $message )

$parser->fail_from( $pos, $message )

Aborts the current parse attempt with the given message string. The failure message will include the line and column position, and the line of input that failed at the current parse position, or a position earlier obtained using the pos method.

$eos = $parser->at_eos

Returns true if the input string is at the end of the string.

$level = $parser->scope_level

Returns the number of nested scope_of calls that have been made.

STRUCTURE-FORMING METHODS ^

The following methods may be used to build a grammatical structure out of the defined basic token-parsing methods. Each takes at least one code reference, which will be passed the actual $parser object as its first argument.

$ret = $parser->maybe( $code )

Attempts to execute the given $code reference in scalar context, and returns what it returned. If the code fails to parse by calling the fail method then none of the input string will be consumed; the current parsing position will be restored. undef will be returned in this case.

This may be considered to be similar to the ? regexp qualifier.

 sub parse_declaration
 {
    my $self = shift;

    [ $self->parse_type,
      $self->token_ident,
      $self->maybe( sub {
         $self->expect( "=" );
         $self->parse_expression
      } ),
    ];
 }

$ret = $parser->scope_of( $start, $code, $stop )

Expects to find the $start pattern, then attempts to execute the given $code reference, then expects to find the $stop pattern. Returns whatever the code reference returned.

While the code is being executed, the $stop pattern will be used by the token parsing methods as an end-of-scope marker; causing them to raise a failure if called at the end of a scope.

 sub parse_block
 {
    my $self = shift;

    $self->scope_of( "{", sub { $self->parse_statements }, "}" );
 }

If the $start pattern is undefined, it is presumed the caller has already checked for this. This is useful when the stop pattern needs to be calculated based on the start pattern.

 sub parse_bracketed
 {
    my $self = shift;

    my $delim = $self->expect( qr/[\(\[\<\{]/ );
    $delim =~ tr/([<{/)]>}/;

    $self->enter_scope( undef, sub { $self->parse_body }, $delim );
 }

$ret = $parser->list_of( $sep, $code )

Expects to find a list of instances of something parsed by $code, separated by the $sep pattern. Returns an ARRAY ref containing a list of the return values from the $code.

This method does not consider it an error if the returned list is empty; that is, that the scope ended before any item instances were parsed from it.

 sub parse_numbers
 {
    my $self = shift;

    $self->list_of( ",", sub { $self->token_int } );
 }

$ret = $parser->sequence_of( $code )

A shortcut for calling list_of with an empty string as separator; expects to find at least one instance of something parsed by $code, separated only by skipped whitespace.

This may be considered to be similar to the + or * regexp qualifiers.

 sub parse_statements
 {
    my $self = shift;

    $self->sequence_of( sub { $self->parse_statement } );
 }

$ret = $parser->any_of( @codes )

Expects that one of the given code references can parse something from the input, returning what it returned. Each code reference may indicate a failure to parse by calling the fail method.

This may be considered to be similar to the | regexp operator for forming alternations of possible parse trees.

 sub parse_statement
 {
    my $self = shift;

    $self->any_of(
       sub { $self->parse_declaration; $self->expect(";") },
       sub { $self->parse_expression; $self->expect(";") },
       sub { $self->parse_block },
    );
 }

Note: This method used to be called one_of, but was renamed for clarity. Currently this method is provided also as an alias by the old name. Code using the old name should be rewritten to any_of instead, as this backward-compatibility alias may be removed in a later version.

$parser->commit

Calling this method will cancel the backtracking behaviour of the innermost maybe, list_of, sequence_of, or any_of structure forming method. That is, if later code then calls fail, the exception will be propagated out of maybe, and no further code blocks will be attempted by any_of.

Typically this will be called once the grammatical structure of an alternation has been determined, ensuring that any further failures are raised as real exceptions, rather than by attempting other alternatives.

 sub parse_statement
 {
    my $self = shift;

    $self->any_of(
       ...
       sub {
          $self->scope_of( "{",
             sub { $self->commit; $self->parse_statements; },
          "}" ),
       },
    );
 }

TOKEN PARSING METHODS ^

The following methods attempt to consume some part of the input string, to be used as part of the parsing process.

$str = $parser->expect( $literal )

$str = $parser->expect( qr/pattern/ )

@groups = $parser->expect( qr/pattern/ )

Expects to find a literal string or regexp pattern match, and consumes it. In scalar context, this method returns the string that was captured. In list context it returns the matching substring and the contents of any subgroups contained in the pattern.

This method will raise a parse error (by calling fail) if the regexp fails to match. Note that if the pattern could match an empty string (such as for example qr/\d*/), the pattern will always match, even if it has to match an empty string. This method will not consider a failure if the regexp matches with zero-width.

$str = $parser->maybe_expect( ... )

@groups = $parser->maybe_expect( ... )

A convenient shortcut equivalent to calling expect within maybe, but implemented more efficiently, avoiding the exception-handling set up by maybe. Returns undef or an empty list if the match fails.

$str = $parser->substring_before( $literal )

$str = $parser->substring_before( qr/pattern/ )

Expects to possibly find a literal string or regexp pattern match. If it finds such, consume all the input text before but excluding this match, and return it. If it fails to find a match before the end of the current scope, consumes all the input text until the end of scope and return it.

This method does not consume the part of input that matches, only the text before it. It is not considered a failure if the substring before this match is empty. If a non-empty match is required, use the fail method:

 sub token_nonempty_part
 {
    my $self = shift;

    my $str = $parser->substring_before( "," );
    length $str or $self->fail( "Expected a string fragment before ," );

    return $str;
 }

Note that unlike most of the other token parsing methods, this method does not consume either leading or trailing whitespace around the substring. It is expected that this method would be used as part a parser to read quoted strings, or similar cases where whitespace should be preserved.

$val = $parser->generic_token( $name, $re, $convert )

Expects to find a token matching the precompiled regexp $re. If provided, the $convert CODE reference can be used to convert the string into a more convenient form. $name is used in the failure message if the pattern fails to match.

If provided, the $convert function will be passed the parser and the matching substring; the value it returns is returned from generic_token.

 $convert->( $parser, $substr )

If not provided, the substring will be returned as it stands.

This method is mostly provided for subclasses to define their own token types. For example:

 sub token_hex
 {
    my $self = shift;
    $self->generic_token( hex => qr/[0-9A-F]{2}h/, sub { hex $_[1] } );
 }

$int = $parser->token_int

Expects to find an integer in decimal, octal or hexadecimal notation, and consumes it. Negative integers, preceeded by -, are also recognised.

$float = $parser->token_float

Expects to find a number expressed in floating-point notation; a sequence of digits possibly prefixed by -, possibly containing a decimal point, possibly followed by an exponent specified by e followed by an integer. The numerical value is then returned.

$number = $parser->token_number

Expects to find a number expressed in either of the above forms.

$str = $parser->token_string

Expects to find a quoted string, and consumes it. The string should be quoted using " or ' quote marks.

The content of the quoted string can contain character escapes similar to those accepted by C or Perl. Specifically, the following forms are recognised:

 \a               Bell ("alert")
 \b               Backspace
 \e               Escape
 \f               Form feed
 \n               Newline
 \r               Return
 \t               Horizontal Tab
 \0, \012         Octal character
 \x34, \x{5678}   Hexadecimal character

C's \v for vertical tab is not supported as it is rarely used in practice and it collides with Perl's \v regexp escape. Perl's \c for forming other control characters is also not supported.

$ident = $parser->token_ident

Expects to find an identifier, and consumes it.

$keyword = $parser->token_kw( @keywords )

Expects to find a keyword, and consumes it. A keyword is defined as an identifier which is exactly one of the literal values passed in.

EXAMPLES ^

Accumulating Results Using Variables

Although the structure-forming methods all return a value, obtained from their nested parsing code, it can sometimes be more convenient to use a variable to accumulate a result in instead. For example, consider the following parser method, designed to parse a set of name: "value" assignments, such as might be found in a configuration file, or YAML/JSON-style mapping value.

 sub parse_dict
 {
    my $self = shift;
 
    my %ret;
    $self->list_of( ",", sub {
       my $key = $self->token_ident;
       exists $ret{$key} and $self->fail( "Already have a mapping for '$key'" );
 
       $self->expect( ":" );
 
       $ret{$key} = $self->parse_value;
    } );
 
    return \%ret
 }

Instead of using the return value from list_of, this method accumulates values in the %ret hash, eventually returning a reference to it as its result. Because of this, it can perform some error checking while it parses; namely, rejecting duplicate keys.

TODO ^

AUTHOR ^

Paul Evans <leonerd@leonerd.org.uk>

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