# $Id: Parser.pm 4532 2004-05-11 05:15:40Z ezra $ package XML::XPath::Parser; use strict; use vars qw/ $NCName $QName $NCWild $QNWild $NUMBER_RE $NODE_TYPE $AXIS_NAME %AXES $LITERAL %CACHE/; use XML::XPath::XMLParser; use XML::XPath::Step; use XML::XPath::Expr; use XML::XPath::Function; use XML::XPath::LocationPath; use XML::XPath::Variable; use XML::XPath::Literal; use XML::XPath::Number; use XML::XPath::NodeSet; # Axis name to principal node type mapping %AXES = ( 'ancestor' => 'element', 'ancestor-or-self' => 'element', 'attribute' => 'attribute', 'namespace' => 'namespace', 'child' => 'element', 'descendant' => 'element', 'descendant-or-self' => 'element', 'following' => 'element', 'following-sibling' => 'element', 'parent' => 'element', 'preceding' => 'element', 'preceding-sibling' => 'element', 'self' => 'element', ); $NCName = '([A-Za-z_][\w\\.\\-]*)'; $QName = "($NCName:)?$NCName"; $NCWild = "${NCName}:\\*"; $QNWild = "\\*"; $NODE_TYPE = '((text|comment|processing-instruction|node)\\(\\))'; $AXIS_NAME = '(' . join('|', keys %AXES) . ')::'; $NUMBER_RE = '\d+(\\.\d*)?|\\.\d+'; $LITERAL = '\\"[^\\"]*\\"|\\\'[^\\\']*\\\''; sub new { my $class = shift; my $self = bless {}, $class; debug("New Parser being created.\n"); $self->{context_set} = XML::XPath::NodeSet->new(); $self->{context_pos} = undef; # 1 based position in array context $self->{context_size} = 0; # total size of context $self->clear_namespaces(); $self->{vars} = {}; $self->{direction} = 'forward'; $self->{cache} = {}; return $self; } sub get_var { my $self = shift; my $var = shift; $self->{vars}->{$var}; } sub set_var { my $self = shift; my $var = shift; my $val = shift; $self->{vars}->{$var} = $val; } sub set_namespace { my $self = shift; my ($prefix, $expanded) = @_; $self->{namespaces}{$prefix} = $expanded; } sub clear_namespaces { my $self = shift; $self->{namespaces} = {}; } sub get_namespace { my $self = shift; my ($prefix, $node) = @_; if (my $ns = $self->{namespaces}{$prefix}) { return $ns; } if (my $nsnode = $node->getNamespace($prefix)) { return $nsnode->getValue(); } } sub get_context_set { $_[0]->{context_set}; } sub set_context_set { $_[0]->{context_set} = $_[1]; } sub get_context_pos { $_[0]->{context_pos}; } sub set_context_pos { $_[0]->{context_pos} = $_[1]; } sub get_context_size { $_[0]->{context_set}->size; } sub get_context_node { $_[0]->{context_set}->get_node($_[0]->{context_pos}); } sub my_sub { return (caller(1))[3]; } sub parse { my $self = shift; my $path = shift; if ($CACHE{$path}) { return $CACHE{$path}; } my $tokens = $self->tokenize($path); $self->{_tokpos} = 0; my $tree = $self->analyze($tokens); if ($self->{_tokpos} < scalar(@$tokens)) { # didn't manage to parse entire expression - throw an exception die "Parse of expression $path failed - junk after end of expression: $tokens->[$self->{_tokpos}]"; } $CACHE{$path} = $tree; debug("PARSED Expr to:\n", $tree->as_string, "\n") if $XML::XPath::Debug; return $tree; } sub tokenize { my $self = shift; my $path = shift; study $path; my @tokens; debug("Parsing: $path\n"); # Bug: We don't allow "'@' NodeType" which is in the grammar, but I think is just plain stupid. while($path =~ m/\G \s* # ignore all whitespace ( # tokens $LITERAL| $NUMBER_RE| # Match digits \.\.| # match parent \.| # match current ($AXIS_NAME)?$NODE_TYPE| # match tests processing-instruction| \@($NCWild|$QName|$QNWild)| # match attrib \$$QName| # match variable reference ($AXIS_NAME)?($NCWild|$QName|$QNWild)| # match NCName,NodeType,Axis::Test \!=|<=|\-|>=|\/\/|and|or|mod|div| # multi-char seps [,\+=\|<>\/\(\[\]\)]| # single char seps (?{_curr_match} = ''; return 0 unless $self->{_tokpos} < @$tokens; local $^W; # debug ("match: $match\n"); if ($tokens->[$self->{_tokpos}] =~ /^$match$/) { $self->{_curr_match} = $tokens->[$self->{_tokpos}]; $self->{_tokpos}++; return 1; } else { if ($fatal) { die "Invalid token: ", $tokens->[$self->{_tokpos}], "\n"; } else { return 0; } } } sub Expr { my ($self, $tokens) = @_; debug("in SUB\n"); return OrExpr($self, $tokens); } sub OrExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = AndExpr($self, $tokens); while (match($self, $tokens, 'or')) { my $or_expr = XML::XPath::Expr->new($self); $or_expr->set_lhs($expr); $or_expr->set_op('or'); my $rhs = AndExpr($self, $tokens); $or_expr->set_rhs($rhs); $expr = $or_expr; } return $expr; } sub AndExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = EqualityExpr($self, $tokens); while (match($self, $tokens, 'and')) { my $and_expr = XML::XPath::Expr->new($self); $and_expr->set_lhs($expr); $and_expr->set_op('and'); my $rhs = EqualityExpr($self, $tokens); $and_expr->set_rhs($rhs); $expr = $and_expr; } return $expr; } sub EqualityExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = RelationalExpr($self, $tokens); while (match($self, $tokens, '!?=')) { my $eq_expr = XML::XPath::Expr->new($self); $eq_expr->set_lhs($expr); $eq_expr->set_op($self->{_curr_match}); my $rhs = RelationalExpr($self, $tokens); $eq_expr->set_rhs($rhs); $expr = $eq_expr; } return $expr; } sub RelationalExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = AdditiveExpr($self, $tokens); while (match($self, $tokens, '(<|>|<=|>=)')) { my $rel_expr = XML::XPath::Expr->new($self); $rel_expr->set_lhs($expr); $rel_expr->set_op($self->{_curr_match}); my $rhs = AdditiveExpr($self, $tokens); $rel_expr->set_rhs($rhs); $expr = $rel_expr; } return $expr; } sub AdditiveExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = MultiplicativeExpr($self, $tokens); while (match($self, $tokens, '[\\+\\-]')) { my $add_expr = XML::XPath::Expr->new($self); $add_expr->set_lhs($expr); $add_expr->set_op($self->{_curr_match}); my $rhs = MultiplicativeExpr($self, $tokens); $add_expr->set_rhs($rhs); $expr = $add_expr; } return $expr; } sub MultiplicativeExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = UnaryExpr($self, $tokens); while (match($self, $tokens, '(\\*|div|mod)')) { my $mult_expr = XML::XPath::Expr->new($self); $mult_expr->set_lhs($expr); $mult_expr->set_op($self->{_curr_match}); my $rhs = UnaryExpr($self, $tokens); $mult_expr->set_rhs($rhs); $expr = $mult_expr; } return $expr; } sub UnaryExpr { my ($self, $tokens) = @_; debug("in SUB\n"); if (match($self, $tokens, '-')) { my $expr = XML::XPath::Expr->new($self); $expr->set_lhs(XML::XPath::Number->new(0)); $expr->set_op('-'); $expr->set_rhs(UnaryExpr($self, $tokens)); return $expr; } else { return UnionExpr($self, $tokens); } } sub UnionExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = PathExpr($self, $tokens); while (match($self, $tokens, '\\|')) { my $un_expr = XML::XPath::Expr->new($self); $un_expr->set_lhs($expr); $un_expr->set_op('|'); my $rhs = PathExpr($self, $tokens); $un_expr->set_rhs($rhs); $expr = $un_expr; } return $expr; } sub PathExpr { my ($self, $tokens) = @_; debug("in SUB\n"); # PathExpr is LocationPath | FilterExpr | FilterExpr '//?' RelativeLocationPath # Since we are being predictive we need to find out which function to call next, then. # LocationPath either starts with "/", "//", ".", ".." or a proper Step. my $expr = XML::XPath::Expr->new($self); my $test = $tokens->[$self->{_tokpos}]; # Test for AbsoluteLocationPath and AbbreviatedRelativeLocationPath if ($test =~ /^(\/\/?|\.\.?)$/) { # LocationPath $expr->set_lhs(LocationPath($self, $tokens)); } # Test for AxisName::... elsif (is_step($self, $tokens)) { $expr->set_lhs(LocationPath($self, $tokens)); } else { # Not a LocationPath # Use FilterExpr instead: $expr = FilterExpr($self, $tokens); if (match($self, $tokens, '//?')) { my $loc_path = XML::XPath::LocationPath->new(); push @$loc_path, $expr; if ($self->{_curr_match} eq '//') { push @$loc_path, XML::XPath::Step->new($self, 'descendant-or-self', XML::XPath::Step::test_nt_node); } push @$loc_path, RelativeLocationPath($self, $tokens); my $new_expr = XML::XPath::Expr->new($self); $new_expr->set_lhs($loc_path); return $new_expr; } } return $expr; } sub FilterExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = PrimaryExpr($self, $tokens); while (match($self, $tokens, '\\[')) { # really PredicateExpr... $expr->push_predicate(Expr($self, $tokens)); match($self, $tokens, '\\]', 1); } return $expr; } sub PrimaryExpr { my ($self, $tokens) = @_; debug("in SUB\n"); my $expr = XML::XPath::Expr->new($self); if (match($self, $tokens, $LITERAL)) { # new Literal with $self->{_curr_match}... $self->{_curr_match} =~ m/^(["'])(.*)\1$/; $expr->set_lhs(XML::XPath::Literal->new($2)); } elsif (match($self, $tokens, $NUMBER_RE)) { # new Number with $self->{_curr_match}... $expr->set_lhs(XML::XPath::Number->new($self->{_curr_match})); } elsif (match($self, $tokens, '\\(')) { $expr->set_lhs(Expr($self, $tokens)); match($self, $tokens, '\\)', 1); } elsif (match($self, $tokens, "\\\$$QName")) { # new Variable with $self->{_curr_match}... $self->{_curr_match} =~ /^\$(.*)$/; $expr->set_lhs(XML::XPath::Variable->new($self, $1)); } elsif (match($self, $tokens, $QName)) { # check match not Node_Type - done in lexer... # new Function my $func_name = $self->{_curr_match}; match($self, $tokens, '\\(', 1); $expr->set_lhs( XML::XPath::Function->new( $self, $func_name, Arguments($self, $tokens) ) ); match($self, $tokens, '\\)', 1); } else { die "Not a PrimaryExpr at ", $tokens->[$self->{_tokpos}], "\n"; } return $expr; } sub Arguments { my ($self, $tokens) = @_; debug("in SUB\n"); my @args; if($tokens->[$self->{_tokpos}] eq ')') { return \@args; } push @args, Expr($self, $tokens); while (match($self, $tokens, ',')) { push @args, Expr($self, $tokens); } return \@args; } sub LocationPath { my ($self, $tokens) = @_; debug("in SUB\n"); my $loc_path = XML::XPath::LocationPath->new(); if (match($self, $tokens, '/')) { # root debug("SUB: Matched root\n"); push @$loc_path, XML::XPath::Root->new(); if (is_step($self, $tokens)) { debug("Next is step\n"); push @$loc_path, RelativeLocationPath($self, $tokens); } } elsif (match($self, $tokens, '//')) { # root push @$loc_path, XML::XPath::Root->new(); my $optimised = optimise_descendant_or_self($self, $tokens); if (!$optimised) { push @$loc_path, XML::XPath::Step->new($self, 'descendant-or-self', XML::XPath::Step::test_nt_node); push @$loc_path, RelativeLocationPath($self, $tokens); } else { push @$loc_path, $optimised, RelativeLocationPath($self, $tokens); } } else { push @$loc_path, RelativeLocationPath($self, $tokens); } return $loc_path; } sub optimise_descendant_or_self { my ($self, $tokens) = @_; debug("in SUB\n"); my $tokpos = $self->{_tokpos}; # // must be followed by a Step. if ($tokens->[$tokpos+1] && $tokens->[$tokpos+1] eq '[') { # next token is a predicate return; } elsif ($tokens->[$tokpos] =~ /^\.\.?$/) { # abbreviatedStep - can't optimise. return; } else { debug("Trying to optimise //\n"); my $step = Step($self, $tokens); if ($step->{axis} ne 'child') { # can't optimise axes other than child for now... $self->{_tokpos} = $tokpos; return; } $step->{axis} = 'descendant'; $step->{axis_method} = 'axis_descendant'; $self->{_tokpos}--; $tokens->[$self->{_tokpos}] = '.'; return $step; } } sub RelativeLocationPath { my ($self, $tokens) = @_; debug("in SUB\n"); my @steps; push @steps, Step($self, $tokens); while (match($self, $tokens, '//?')) { if ($self->{_curr_match} eq '//') { my $optimised = optimise_descendant_or_self($self, $tokens); if (!$optimised) { push @steps, XML::XPath::Step->new($self, 'descendant-or-self', XML::XPath::Step::test_nt_node); } else { push @steps, $optimised; } } push @steps, Step($self, $tokens); if (@steps > 1 && $steps[-1]->{axis} eq 'self' && $steps[-1]->{test} == XML::XPath::Step::test_nt_node) { pop @steps; } } return @steps; } sub Step { my ($self, $tokens) = @_; debug("in SUB\n"); if (match($self, $tokens, '\\.')) { # self::node() return XML::XPath::Step->new($self, 'self', XML::XPath::Step::test_nt_node); } elsif (match($self, $tokens, '\\.\\.')) { # parent::node() return XML::XPath::Step->new($self, 'parent', XML::XPath::Step::test_nt_node); } else { # AxisSpecifier NodeTest Predicate(s?) my $token = $tokens->[$self->{_tokpos}]; debug("SUB: Checking $token\n"); my $step; if ($token eq 'processing-instruction') { $self->{_tokpos}++; match($self, $tokens, '\\(', 1); match($self, $tokens, $LITERAL); $self->{_curr_match} =~ /^["'](.*)["']$/; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_nt_pi, XML::XPath::Literal->new($1)); match($self, $tokens, '\\)', 1); } elsif ($token =~ /^\@($NCWild|$QName|$QNWild)$/o) { $self->{_tokpos}++; if ($token eq '@*') { $step = XML::XPath::Step->new($self, 'attribute', XML::XPath::Step::test_attr_any, '*'); } elsif ($token =~ /^\@($NCName):\*$/o) { $step = XML::XPath::Step->new($self, 'attribute', XML::XPath::Step::test_attr_ncwild, $1); } elsif ($token =~ /^\@($QName)$/o) { $step = XML::XPath::Step->new($self, 'attribute', XML::XPath::Step::test_attr_qname, $1); } } elsif ($token =~ /^($NCName):\*$/o) { # ns:* $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_ncwild, $1); } elsif ($token =~ /^$QNWild$/o) { # * $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_any, $token); } elsif ($token =~ /^$QName$/o) { # name:name $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_qname, $token); } elsif ($token eq 'comment()') { $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_nt_comment); } elsif ($token eq 'text()') { $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_nt_text); } elsif ($token eq 'node()') { $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_nt_node); } elsif ($token eq 'processing-instruction()') { $self->{_tokpos}++; $step = XML::XPath::Step->new($self, 'child', XML::XPath::Step::test_nt_pi); } elsif ($token =~ /^$AXIS_NAME($NCWild|$QName|$QNWild|$NODE_TYPE)$/o) { my $axis = $1; $self->{_tokpos}++; $token = $2; if ($token eq 'processing-instruction') { match($self, $tokens, '\\(', 1); match($self, $tokens, $LITERAL); $self->{_curr_match} =~ /^["'](.*)["']$/; $step = XML::XPath::Step->new($self, $axis, XML::XPath::Step::test_nt_pi, XML::XPath::Literal->new($1)); match($self, $tokens, '\\)', 1); } elsif ($token =~ /^($NCName):\*$/o) { # ns:* $step = XML::XPath::Step->new($self, $axis, (($axis eq 'attribute') ? XML::XPath::Step::test_attr_ncwild : XML::XPath::Step::test_ncwild), $1); } elsif ($token =~ /^$QNWild$/o) { # * $step = XML::XPath::Step->new($self, $axis, (($axis eq 'attribute') ? XML::XPath::Step::test_attr_any : XML::XPath::Step::test_any), $token); } elsif ($token =~ /^$QName$/o) { # name:name $step = XML::XPath::Step->new($self, $axis, (($axis eq 'attribute') ? XML::XPath::Step::test_attr_qname : XML::XPath::Step::test_qname), $token); } elsif ($token eq 'comment()') { $step = XML::XPath::Step->new($self, $axis, XML::XPath::Step::test_nt_comment); } elsif ($token eq 'text()') { $step = XML::XPath::Step->new($self, $axis, XML::XPath::Step::test_nt_text); } elsif ($token eq 'node()') { $step = XML::XPath::Step->new($self, $axis, XML::XPath::Step::test_nt_node); } elsif ($token eq 'processing-instruction()') { $step = XML::XPath::Step->new($self, $axis, XML::XPath::Step::test_nt_pi); } else { die "Shouldn't get here"; } } else { die "token $token doesn't match format of a 'Step'\n"; } while (match($self, $tokens, '\\[')) { push @{$step->{predicates}}, Expr($self, $tokens); match($self, $tokens, '\\]', 1); } return $step; } } sub is_step { my ($self, $tokens) = @_; my $token = $tokens->[$self->{_tokpos}]; return unless defined $token; debug("SUB: Checking if '$token' is a step\n"); local $^W; if ($token eq 'processing-instruction') { return 1; } elsif ($token =~ /^\@($NCWild|$QName|$QNWild)$/o) { return 1; } elsif ($token =~ /^($NCWild|$QName|$QNWild)$/o && $tokens->[$self->{_tokpos}+1] ne '(') { return 1; } elsif ($token =~ /^$NODE_TYPE$/o) { return 1; } elsif ($token =~ /^$AXIS_NAME($NCWild|$QName|$QNWild|$NODE_TYPE)$/o) { return 1; } debug("SUB: '$token' not a step\n"); return; } sub debug { return unless $XML::XPath::Debug; my ($pkg, $file, $line, $sub) = caller(1); $sub =~ s/^$pkg\:://; while (@_) { my $x = shift; $x =~ s/\bPKG\b/$pkg/g; $x =~ s/\bLINE\b/$line/g; $x =~ s/\bSUB\b/$sub/g; print STDERR $x; } } 1;