oga/ext/ragel/base_lexer.rl

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%%machine base_lexer;
%%{
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##
# 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.
#
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# The name of the callback to invoke should be an identifier starting with
# "id_". The identifier should be defined in the associated C and Java code.
# In case of C code its value should be a Symbol as a ID object, for Java
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# it should be a String. For example:
#
# ID id_foo = rb_intern("foo");
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#
# And for Java:
#
# String id_foo = "foo";
#
# ## Machine Transitions
#
# To transition from one machine to another always use `fnext` instead of
# `fcall` and `fret`. This removes the need for the code to keep track of a
# stack.
#
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newline = '\r\n' | '\n' | '\r';
action count_newlines {
if ( fc == '\n' ) lines++;
}
whitespace = [ \t];
ident_char = [a-zA-Z0-9\-_];
identifier = ident_char+;
# Comments
#
# http://www.w3.org/TR/html-markup/syntax.html#comments
#
# 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 = '<!--';
comment_end = '-->';
# Everything except "-" OR a single "-"
comment_allowed = (^'-'+ | '-') $count_newlines;
action start_comment {
callback_simple(id_on_comment_start);
fnext comment_body;
}
comment_body := |*
comment_allowed => {
callback(id_on_comment_body, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
};
comment_end => {
callback_simple(id_on_comment_end);
fnext main;
};
*|;
# CDATA
#
# http://www.w3.org/TR/html-markup/syntax.html#cdata-sections
#
# In HTML CDATA tags have no meaning/are not supported. Oga does
# support them but treats their contents as plain text.
#
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cdata_start = '<![CDATA[';
cdata_end = ']]>';
# Everything except "]" OR a single "]"
cdata_allowed = (^']'+ | ']') $count_newlines;
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action start_cdata {
callback_simple(id_on_cdata_start);
fnext cdata_body;
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}
cdata_body := |*
cdata_allowed => {
callback(id_on_cdata_body, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
};
cdata_end => {
callback_simple(id_on_cdata_end);
fnext main;
};
*|;
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# Processing Instructions
#
# http://www.w3.org/TR/xpath/#section-Processing-Instruction-Nodes
# http://en.wikipedia.org/wiki/Processing_Instruction
#
# These are tags meant to be used by parsers/libraries for custom behaviour.
# One example are the tags used by PHP: <?php and ?>. Note that the XML
# declaration tags (<?xml ?>) are not considered to be a processing
# instruction.
#
proc_ins_start = '<?' identifier;
proc_ins_end = '?>';
# Everything except "?" OR a single "?"
proc_ins_allowed = (^'?'+ | '?') $count_newlines;
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action start_proc_ins {
callback_simple(id_on_proc_ins_start);
callback(id_on_proc_ins_name, data, encoding, ts + 2, te);
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fnext proc_ins_body;
}
proc_ins_body := |*
proc_ins_allowed => {
callback(id_on_proc_ins_body, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
};
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proc_ins_end => {
callback_simple(id_on_proc_ins_end);
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fnext main;
};
*|;
# 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 = "'";
action emit_string {
callback(id_on_string_body, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
}
action start_string_squote {
callback_simple(id_on_string_squote);
fcall string_squote;
}
action start_string_dquote {
callback_simple(id_on_string_dquote);
fcall string_dquote;
}
string_squote := |*
^squote* $count_newlines => emit_string;
squote => {
callback_simple(id_on_string_squote);
fret;
};
*|;
string_dquote := |*
^dquote* $count_newlines => emit_string;
dquote => {
callback_simple(id_on_string_dquote);
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 = '<!DOCTYPE'i whitespace+;
action start_doctype {
callback_simple(id_on_doctype_start);
fnext doctype;
}
# Machine for processing inline rules of a doctype.
doctype_inline := |*
^']'* $count_newlines => {
callback(id_on_doctype_inline, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
};
']' => { fnext doctype; };
*|;
# Machine for processing doctypes. Doctype values such as the public
# and system IDs are treated as T_STRING tokens.
doctype := |*
'PUBLIC' | 'SYSTEM' => {
callback(id_on_doctype_type, data, encoding, ts, te);
};
# Starts a set of inline doctype rules.
'[' => { fnext doctype_inline; };
# Lex the public/system IDs as regular strings.
squote => start_string_squote;
dquote => start_string_dquote;
# Whitespace inside doctypes is ignored since there's no point in
# including it.
whitespace;
identifier => {
callback(id_on_doctype_name, data, encoding, ts, te);
};
'>' => {
callback_simple(id_on_doctype_end);
fnext main;
};
*|;
# XML declaration tags
#
# http://www.w3.org/TR/REC-xml/#sec-prolog-dtd
#
xml_decl_start = '<?xml';
xml_decl_end = '?>';
action start_xml_decl {
callback_simple(id_on_xml_decl_start);
fnext xml_decl;
}
# Machine that processes the contents of an XML declaration tag.
xml_decl := |*
xml_decl_end => {
callback_simple(id_on_xml_decl_end);
fnext main;
};
# Attributes and their values (e.g. version="1.0").
identifier => {
callback(id_on_attribute, data, encoding, ts, te);
};
squote => start_string_squote;
dquote => start_string_dquote;
any;
*|;
# Elements
#
# http://www.w3.org/TR/html-markup/syntax.html#syntax-elements
#
# Lexing of elements is broken up into different machines that handle the
# name/namespace, contents of the open tag and the body of an element. The
# body of an element is lexed using the `main` machine.
#
element_start = '<' ident_char;
element_end = '</' identifier (':' identifier)* '>';
action start_element {
callback_simple(id_on_element_start);
fhold;
fnext element_name;
}
action close_element {
callback_simple(id_on_element_end);
}
# Machine used for lexing the name/namespace of an element.
element_name := |*
identifier ':' => {
callback(id_on_element_ns, data, encoding, ts, te - 1);
};
identifier => {
callback(id_on_element_name, data, encoding, ts, te);
fnext element_head;
};
*|;
# Machine used for processing the contents of an element's starting tag.
# This includes the name, namespace and attributes.
element_head := |*
whitespace | '=';
newline => {
callback_simple(id_advance_line);
};
# Attribute names and namespaces.
identifier ':' => {
callback(id_on_attribute_ns, data, encoding, ts, te - 1);
};
identifier => {
callback(id_on_attribute, data, encoding, ts, te);
};
# Attribute values.
squote => start_string_squote;
dquote => start_string_dquote;
# We're done with the open tag of the element.
'>' => {
callback_simple(id_on_element_open_end);
if ( literal_html_element_p() )
{
fnext literal_html_element;
}
else
{
fnext main;
}
};
# Self closing tags.
'/>' => {
callback_simple(id_on_element_end);
fnext main;
};
*|;
# Text
#
# http://www.w3.org/TR/xml/#syntax
# http://www.w3.org/TR/html-markup/syntax.html#text-syntax
#
# Text content is everything leading up to certain special tags such as "</"
# and "<?".
action start_text {
fhold;
fnext text;
}
# These characters terminate a T_TEXT sequence and instruct Ragel to jump
# back to the main machine.
#
# Note that this only works if each sequence is exactly 2 characters
# long. Because of this "<!" is used instead of "<!--".
terminate_text = '</' | '<!' | '<?' | element_start;
allowed_text = (any* -- terminate_text) $count_newlines;
text := |*
terminate_text | allowed_text => {
callback(id_on_text, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
fnext main;
};
# Text followed by a special tag, such as "foo<!--"
allowed_text %{ mark = p; } terminate_text => {
callback(id_on_text, data, encoding, ts, mark);
p = mark - 1;
mark = 0;
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
fnext main;
};
*|;
# Certain tags in HTML can contain basically anything except for the literal
# closing tag. Two examples are script and style tags. As a result of this
# we can't use the regular text machine.
literal_html_closing_tags = '</script>' | '</style>';
literal_html_allowed = (any* -- literal_html_closing_tags) $count_newlines;
literal_html_element := |*
literal_html_allowed => {
callback(id_on_text, data, encoding, ts, te);
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
};
literal_html_allowed %{ mark = p; } literal_html_closing_tags => {
callback(id_on_text, data, encoding, ts, mark);
p = mark - 1;
mark = 0;
if ( lines > 0 )
{
advance_line(lines);
lines = 0;
}
fnext main;
};
*|;
# The main machine aka the entry point of Ragel.
main := |*
doctype_start => start_doctype;
xml_decl_start => start_xml_decl;
comment_start => start_comment;
cdata_start => start_cdata;
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proc_ins_start => start_proc_ins;
element_start => start_element;
element_end => close_element;
any => start_text;
*|;
}%%