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Direktori : /proc/thread-self/root/proc/thread-self/root/opt/alt/ruby26/lib64/ruby/2.6.0/rexml/light/ |
Current File : //proc/thread-self/root/proc/thread-self/root/opt/alt/ruby26/lib64/ruby/2.6.0/rexml/light/node.rb |
# frozen_string_literal: false require_relative '../xmltokens' # [ :element, parent, name, attributes, children* ] # a = Node.new # a << "B" # => <a>B</a> # a.b # => <a>B<b/></a> # a.b[1] # => <a>B<b/><b/><a> # a.b[1]["x"] = "y" # => <a>B<b/><b x="y"/></a> # a.b[0].c # => <a>B<b><c/></b><b x="y"/></a> # a.b.c << "D" # => <a>B<b><c>D</c></b><b x="y"/></a> module REXML module Light # Represents a tagged XML element. Elements are characterized by # having children, attributes, and names, and can themselves be # children. class Node NAMESPLIT = /^(?:(#{XMLTokens::NCNAME_STR}):)?(#{XMLTokens::NCNAME_STR})/u PARENTS = [ :element, :document, :doctype ] # Create a new element. def initialize node=nil @node = node if node.kind_of? String node = [ :text, node ] elsif node.nil? node = [ :document, nil, nil ] elsif node[0] == :start_element node[0] = :element elsif node[0] == :start_doctype node[0] = :doctype elsif node[0] == :start_document node[0] = :document end end def size if PARENTS.include? @node[0] @node[-1].size else 0 end end def each size.times { |x| yield( at(x+4) ) } end def name at(2) end def name=( name_str, ns=nil ) pfx = '' pfx = "#{prefix(ns)}:" if ns _old_put(2, "#{pfx}#{name_str}") end def parent=( node ) _old_put(1,node) end def local_name namesplit @name end def local_name=( name_str ) _old_put( 1, "#@prefix:#{name_str}" ) end def prefix( namespace=nil ) prefix_of( self, namespace ) end def namespace( prefix=prefix() ) namespace_of( self, prefix ) end def namespace=( namespace ) @prefix = prefix( namespace ) pfx = '' pfx = "#@prefix:" if @prefix.size > 0 _old_put(1, "#{pfx}#@name") end def []( reference, ns=nil ) if reference.kind_of? String pfx = '' pfx = "#{prefix(ns)}:" if ns at(3)["#{pfx}#{reference}"] elsif reference.kind_of? Range _old_get( Range.new(4+reference.begin, reference.end, reference.exclude_end?) ) else _old_get( 4+reference ) end end def =~( path ) XPath.match( self, path ) end # Doesn't handle namespaces yet def []=( reference, ns, value=nil ) if reference.kind_of? String value = ns unless value at( 3 )[reference] = value elsif reference.kind_of? Range _old_put( Range.new(3+reference.begin, reference.end, reference.exclude_end?), ns ) else if value _old_put( 4+reference, ns, value ) else _old_put( 4+reference, ns ) end end end # Append a child to this element, optionally under a provided namespace. # The namespace argument is ignored if the element argument is an Element # object. Otherwise, the element argument is a string, the namespace (if # provided) is the namespace the element is created in. def << element if node_type() == :text at(-1) << element else newnode = Node.new( element ) newnode.parent = self self.push( newnode ) end at(-1) end def node_type _old_get(0) end def text=( foo ) replace = at(4).kind_of?(String)? 1 : 0 self._old_put(4,replace, normalizefoo) end def root context = self context = context.at(1) while context.at(1) end def has_name?( name, namespace = '' ) at(3) == name and namespace() == namespace end def children self end def parent at(1) end def to_s end private def namesplit return if @name.defined? at(2) =~ NAMESPLIT @prefix = '' || $1 @name = $2 end def namespace_of( node, prefix=nil ) if not prefix name = at(2) name =~ NAMESPLIT prefix = $1 end to_find = 'xmlns' to_find = "xmlns:#{prefix}" if not prefix.nil? ns = at(3)[ to_find ] ns ? ns : namespace_of( @node[0], prefix ) end def prefix_of( node, namespace=nil ) if not namespace name = node.name name =~ NAMESPLIT $1 else ns = at(3).find { |k,v| v == namespace } ns ? ns : prefix_of( node.parent, namespace ) end end end end end