%%machine base_lexer; %%{ ## # Base grammar for the XML lexer. # # This grammar is shared between the C and Java extensions. As a result of # this you should **not** include language specific code in Ragel # actions/callbacks. # # To call back in to Ruby you can use one of the following two functions: # # * callback # * callback_simple # # The first function takes 5 arguments: # # * The name of the Ruby method to call. # * The input data. # * The encoding of the input data. # * The start of the current buffer. # * The end of the current buffer. # # The function callback_simple only takes one argument: the name of the # method to call. This function should be used for callbacks that don't # require any values. # # When you call a method in Ruby make sure that said method is defined as # an instance method in the `Oga::XML::Lexer` class. newline = '\n' | '\r\n'; whitespace = [ \t]; identifier = [a-zA-Z0-9\-_:]+; # Strings # # Strings in HTML can either be single or double quoted. If a string # starts with one of these quotes it must be closed with the same type # of quote. dquote = '"'; squote = "'"; # Machine for processing double quoted strings. string_dquote := |* ^dquote+ => { callback("on_string", data, encoding, ts, te); }; dquote => { fret; }; *|; # Machine for processing single quoted strings. string_squote := |* ^squote+ => { callback("on_string", data, encoding, ts, te); }; squote => { fret; }; *|; # DOCTYPES # # http://www.w3.org/TR/html-markup/syntax.html#doctype-syntax # # These rules support the 3 flavours of doctypes: # # 1. Normal doctypes, as introduced in the HTML5 specification. # 2. Deprecated doctypes, the more verbose ones used prior to HTML5. # 3. Legacy doctypes # doctype_start = ' { callback("on_doctype_type", data, encoding, ts, te); }; # Lex the public/system IDs as regular strings. dquote => { fcall string_dquote; }; squote => { fcall string_squote; }; # Whitespace inside doctypes is ignored since there's no point in # including it. whitespace; identifier => { callback("on_doctype_name", data, encoding, ts, te); }; '>' => { callback_simple("on_doctype_end"); fret; }; *|; # CDATA # # http://www.w3.org/TR/html-markup/syntax.html#cdata-sections # # CDATA tags are broken up into 3 parts: the start, the content and the # end tag. # # In HTML CDATA tags have no meaning/are not supported. Oga does # support them but treats their contents as plain text. # cdata_start = ''; action start_cdata { callback_simple("on_cdata_start"); fcall cdata; } # Machine that for processing the contents of CDATA tags. Everything # inside a CDATA tag is treated as plain text. cdata := |* any* cdata_end => { callback("on_text", data, encoding, ts, te - 3); callback_simple("on_cdata_end"); fret; }; *|; # Comments # # http://www.w3.org/TR/html-markup/syntax.html#comments # # Comments are lexed into 3 parts: the start tag, the content and the # end tag. # # Unlike the W3 specification these rules *do* allow character # sequences such as `--` and `->`. Putting extra checks in for these # sequences would actually make the rules/actions more complex. # comment_start = ''; action start_comment { callback_simple("on_comment_start"); fcall comment; } # Machine used for processing the contents of a comment. Everything # inside a comment is treated as plain text (similar to CDATA tags). comment := |* any* comment_end => { callback("on_text", data, encoding, ts, te - 3); callback_simple("on_comment_end"); fret; }; *|; # XML declaration tags # # http://www.w3.org/TR/REC-xml/#sec-prolog-dtd # xml_decl_start = ''; action start_xml_decl { callback_simple("on_xml_decl_start"); fcall xml_decl; } # Machine that processes the contents of an XML declaration tag. xml_decl := |* xml_decl_end => { callback_simple("on_xml_decl_end"); fret; }; # Attributes and their values (e.g. version="1.0"). identifier => { callback("on_attribute", data, encoding, ts, te); }; dquote => { fcall string_dquote; }; squote => { fcall string_squote; }; any; *|; # Elements # # http://www.w3.org/TR/html-markup/syntax.html#syntax-elements # # Action that creates the tokens for the opening tag, name and # namespace (if any). Remaining work is delegated to a dedicated # machine. action start_element { callback("on_element_start", data, encoding, ts + 1, te); fcall element_head; } element_start = '<' identifier; # Machine used for processing the characters inside a element head. An # element head is everything between ``. # # For example, in `

` the element head is ` foo="bar"`. # element_head := |* whitespace | '='; newline => { callback_simple("on_newline"); }; # Attribute names. identifier => { callback("on_attribute", data, encoding, ts, te); }; # Attribute values. dquote => { fcall string_dquote; }; squote => { fcall string_squote; }; # The closing character of the open tag. ('>' | '/') => { fhold; fret; }; *|; main := |* element_start => start_element; doctype_start => start_doctype; cdata_start => start_cdata; comment_start => start_comment; xml_decl_start => start_xml_decl; # Enter the body of the tag. If HTML mode is enabled and the current # element is a void element we'll close it and bail out. '>' => { callback_simple("on_element_open_end"); }; # Regular closing tags. '' => { callback_simple("on_element_end"); }; # Self closing elements that are not handled by the HTML mode. '/>' => { callback_simple("on_element_end"); }; # Note that this rule should be declared at the very bottom as it # will otherwise take precedence over the other rules. ^('<' | '>')+ => { callback("on_text", data, encoding, ts, te); }; *|; }%%