def __call__(self, content, arguments=None):
content = u'\n'.join(content)
blockcode = moin_page.blockcode(
attrib={moin_page.class_: 'highlight'})
pygments.highlight(content, self.lexer, TreeFormatter(), blockcode)
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, data, contenttype=None, arguments=None):
"""
Function called by the converter to process the
conversion.
TODO: Add support for different arguments
"""
text = decode_data(data, contenttype)
content = normalize_split_text(text)
# Be sure we have empty string in the base url
self.base_url = ''
# We create an element tree from the HTML content
# The content is a list of string, line per line
# We can concatenate all in one string
html_str = ''
html_str = html_str.join(content)
html_tree = HTML(html_str)
# We should have a root element, which will be converted as <page>
# for the DOM Tree. It can be <html> or <div>.
# NB : If <html> used, it will be converted back to <div> after
# one roundtrip
if html_tree.tag.name != 'html' and html_tree.tag.name != 'div':
html_str = ''.join(['<div>', html_str, '</div>'])
html_tree = HTML(html_str)
# Start the conversion of the first element
# Every child of each element will be recursively convert too
element = self.do_children(html_tree)
# Add Global element to our DOM Tree
body = moin_page.body(children=element)
root = moin_page.page(children=[body])
return root
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
# as of py 2.7.x (and in the year 2013), the csv module seems to still
# have troubles with unicode, thus we encode to utf-8 ...
content = [line.encode('utf-8') for line in content]
dialect = csv.Sniffer().sniff(content[0])
reader = csv.reader(content, dialect)
# ... and decode back to unicode
rows = []
for encoded_row in reader:
row = []
for encoded_cell in encoded_row:
row.append(encoded_cell.decode('utf-8'))
if row:
rows.append(row)
head = None
cls = None
try:
# fragile function throws errors when csv file is incorrectly formatted
if csv.Sniffer().has_header('\n'.join(content)):
head = rows[0]
rows = rows[1:]
cls = 'moin-sortable'
except csv.Error as e:
head = [_('Error parsing CSV file:'), str(e)]
table = self.build_dom_table(rows, head=head, cls=cls)
body = moin_page.body(children=(table, ))
return moin_page.page(children=(body, ))
def __init__(self):
self.current_node = moin_page.body()
self.root = moin_page.page(children=(self.current_node, ))
self.path = [self.root, self.current_node]
self.header_size = 1
self.status = ['document']
self.footnotes = dict()
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
# as of py 2.7.x (and in the year 2013), the csv module seems to still
# have troubles with unicode, thus we encode to utf-8 ...
content = [line.encode('utf-8') for line in content]
dialect = csv.Sniffer().sniff(content[0])
reader = csv.reader(content, dialect)
# ... and decode back to unicode
rows = []
for encoded_row in reader:
row = []
for encoded_cell in encoded_row:
row.append(encoded_cell.decode('utf-8'))
if row:
rows.append(row)
head = None
cls = None
try:
# fragile function throws errors when csv file is incorrectly formatted
if csv.Sniffer().has_header('\n'.join(content)):
head = rows[0]
rows = rows[1:]
cls = 'moin-sortable'
except csv.Error as e:
head = [_('Error parsing CSV file:'), str(e)]
table = self.build_dom_table(rows, head=head, cls=cls)
body = moin_page.body(children=(table, ))
return moin_page.page(children=(body, ))
def parser(self, name, args, content):
if '/' in name:
type = Type(name)
else:
type = Type(type='x-moin',
subtype='format',
parameters={'name': name})
logging.debug("parser type: %r" % (type, ))
elem = moin_page.part(attrib={moin_page.content_type: type})
if args:
elem_arguments = moin_page.arguments()
elem.append(elem_arguments)
for key, value in args.items():
attrib = {}
if key:
attrib[moin_page.name] = key
elem_arg = moin_page.argument(attrib=attrib,
children=(value, ))
elem_arguments.append(elem_arg)
if content:
elem.append(moin_page.body(children=content))
return elem
def __call__(self, data, contenttype=None, arguments=None):
"""
Function called by the converter to process the
conversion.
TODO: Add support for different arguments
"""
text = decode_data(data, contenttype)
content = normalize_split_text(text)
# Be sure we have empty string in the base url
self.base_url = ''
# We create an element tree from the HTML content
# The content is a list of string, line per line
# We can concatenate all in one string
html_str = ''
html_str = html_str.join(content)
html_tree = HTML(html_str)
# We should have a root element, which will be converted as <page>
# for the DOM Tree. It can be <html> or <div>.
# NB : If <html> used, it will be converted back to <div> after
# one roundtrip
if html_tree.tag.name != 'html' and html_tree.tag.name != 'div':
html_str = ''.join(['<div>', html_str, '</div>'])
html_tree = HTML(html_str)
# Start the conversion of the first element
# Every child of each element will be recursively convert too
element = self.do_children(html_tree)
# Add Global element to our DOM Tree
body = moin_page.body(children=element)
root = moin_page.page(children=[body])
return root
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
query_keys = {'do': 'get', 'rev': rev.revid}
attrib = {}
if arguments:
query = arguments.keyword.get(xinclude.href)
if query and query.query:
# query.query value is similar to "w=75" given a transclusion "{{jpeg||&w=75 class="top"}}"
query_keys.update(url_decode(query.query))
attrib = arguments.keyword
query = url_encode(query_keys, charset=CHARSET, encode_keys=True)
attrib.update({
moin_page.type_:
unicode(self.input_type),
xlink.href:
Iri(scheme='wiki', authority='', path='/' + item_name,
query=query),
})
obj = moin_page.object_(attrib=attrib, children=[
item_name,
])
body = moin_page.body(children=(obj, ))
return moin_page.page(children=(body, ))
def __init__(self):
self.current_node = moin_page.body()
self.root = moin_page.page(children=(self.current_node, ))
self.path = [self.root, self.current_node]
self.header_size = 1
self.status = ['document']
self.footnotes = dict()
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
content = u'\n'.join(content)
blockcode = moin_page.blockcode(attrib={moin_page.class_: 'highlight'})
pygments.highlight(content, self.lexer, TreeFormatter(), blockcode)
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
content = u'\n'.join(content)
blockcode = moin_page.blockcode(attrib={moin_page.class_: 'highlight'})
pygments.highlight(content, self.lexer, TreeFormatter(), blockcode)
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.fqname.value
attrib = {
xlink.href: Iri(scheme='wiki', authority='', path='/' + item_name, query='do=modify'),
}
a = moin_page.a(attrib=attrib, children=[_("%(item_name)s does not exist. Create it?", item_name=item_name)])
body = moin_page.body(children=(a, ))
return moin_page.page(children=(body, ))
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
attrib = {
xlink.href: Iri(scheme='wiki', authority='', path='/' + item_name,
query='do=get&rev={0}'.format(rev.revid)),
}
a = moin_page.a(attrib=attrib, children=[u"Download {0}.".format(item_name)])
body = moin_page.body(children=(a, ))
return moin_page.page(children=(body, ))
def __call__(self, content, arguments=None):
"""Parse the text and return DOM tree."""
blockcode = moin_page.blockcode()
for line in content:
if len(blockcode):
blockcode.append('\n')
blockcode.append(line.expandtabs())
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, content, arguments=None):
"""Parse the text and return DOM tree."""
blockcode = moin_page.blockcode()
for line in content:
if len(blockcode):
blockcode.append('\n')
blockcode.append(line.expandtabs())
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
blockcode = moin_page.blockcode()
for line in content:
if len(blockcode):
blockcode.append('\n')
blockcode.append(line.expandtabs())
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
blockcode = moin_page.blockcode()
for line in content:
if len(blockcode):
blockcode.append('\n')
blockcode.append(line.expandtabs())
body = moin_page.body(children=(blockcode, ))
return moin_page.page(children=(body, ))
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
attrib = {
moin_page.type_: unicode(self.input_type),
xlink.href: Iri(scheme='wiki', authority='', path='/' + item_name,
query='do=get&rev={0}'.format(rev.revid)),
}
obj = moin_page.object_(attrib=attrib, children=[u'Your Browser does not support HTML5 audio/video element.', ])
body = moin_page.body(children=(obj, ))
return moin_page.page(children=(body, ))
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
attrib = {
moin_page.type_: unicode(self.input_type),
xlink.href: Iri(
scheme="wiki", authority="", path="/" + item_name, query="do=get&rev={0}".format(rev.revid)
),
}
obj = moin_page.object_(attrib=attrib, children=[item_name])
body = moin_page.body(children=(obj,))
return moin_page.page(children=(body,))
def __call__(self, data, contenttype=None, arguments=None):
"""
Function called by the converter to process the
conversion.
TODO: Add support for different arguments
"""
text = decode_data(data, contenttype)
# data cleanup is not needed by html_out, but is needed by moinwiki_out; CKEditor adds unwanted \n\t
while '\t\t' in text:
text = text.replace('\t\t', '\t')
text = text.replace('\r\n\t', '').replace('\n\t', '')
content = normalize_split_text(text)
# Be sure we have empty string in the base url
self.base_url = ''
# We create an element tree from the HTML content
# The content is a list of string, line per line
# We can concatenate all in one string
html_str = u'\n'.join(content)
try:
html_tree = HTML(html_str)
except AssertionError as reason:
# we suspect user has created or uploaded malformed HTML, try to show input as preformatted code
msg = _('Error: malformed HTML: {reason}.').format(reason=reason)
msg = '<div class="error"><p><strong>%s</strong></p></div>' % msg
html_str = ''.join(['<html>', msg, '<pre>', html_str, '</pre></html>'])
try:
html_tree = HTML(html_str)
except ValueError:
msg = _('Error: malformed HTML. Try viewing source with Highlight or Modify links.')
msg = '<div class="error"><p><strong>%s</strong></p></div>' % msg
html_str = ''.join(['<html>', msg, '</html>'])
html_tree = HTML(html_str)
# We should have a root element, which will be converted as <page>
# for the DOM Tree.
# NB : If <html> used, it will be converted back to <div> after
# one roundtrip
if html_tree.tag.name != 'html':
html_str = ''.join(['<div>', html_str, '</div>'])
html_tree = HTML(html_str)
# Start the conversion of the first element
# Every child of each element will be recursively convert too
element = self.do_children(html_tree)
# Add Global element to our DOM Tree
body = moin_page.body(children=element)
root = moin_page.page(children=[body])
return root
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
attrib = {
xlink.href:
Iri(scheme='wiki',
authority='',
path='/' + item_name,
query='do=get&rev={0}'.format(rev.revid)),
}
a = moin_page.a(attrib=attrib,
children=[u"Download {0}.".format(item_name)])
body = moin_page.body(children=(a, ))
return moin_page.page(children=(body, ))
def handle_macro(self, elem, page):
type = elem.get(moin_page.content_type)
alt = elem.get(moin_page.alt)
# TODO
if not type or not type.startswith('x-moin/macro;name='):
return
name = type[18:]
context_block = elem.tag == moin_page.part
args_tree = None
for item in elem:
if item.tag.uri == moin_page.namespace:
if item.tag.name in ('body', 'inline-body'):
return
if item.tag.name == 'arguments':
args_tree = item
args = None
if args_tree:
args = Arguments()
for arg in args_tree:
key = arg.get(moin_page.name)
value = arg[0]
if key:
args.keyword[key] = value
else:
args.positional.append(value)
elem_body = context_block and moin_page.body() or moin_page.inline_body()
elem_error = moin_page.error()
cls = plugins.importPlugin(app.cfg, 'macro', name, function='Macro')
try:
macro = cls() # XXX refactor all macros so they are OK without "request"
ret = macro((), args, page, alt, context_block)
elem_body.append(ret)
except Exception, e:
# we do not want that a faulty macro aborts rendering of the page
# and makes the wiki UI unusable (by emitting a Server Error),
# thus, in case of exceptions, we just log the problem and return
# some standard text.
logger.exception("Macro %s raised an exception:" % name)
elem_error.append(_('<<%(macro_name)s: execution failed [%(error_msg)s] (see also the log)>>',
macro_name=name,
error_msg=unicode(e),
))
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ('style', 'class', ):
attrib[moin_page(key)] = value
body = moin_page.body(attrib=attrib)
stack = _Stack(body, iter_content=iter_content)
for line in iter_content:
data = dict(((str(k), v) for k, v in self.indent_re.match(line).groupdict().iteritems() if v is not None))
self.indent_repl(iter_content, stack, line, **data)
return body
def __call__(self, rev, contenttype=None, arguments=None):
self.item_name = rev.item.name
try:
contents = self.list_contents(rev.data)
contents = [(self.process_size(size),
self.process_datetime(dt),
self.process_name(name),
) for size, dt, name in contents]
table = self.build_dom_table(contents, head=[_("Size"), _("Timestamp"), _("Name")], cls='zebra')
body = moin_page.body(children=(table, ))
return moin_page.page(children=(body, ))
except ArchiveException as err:
logging.exception("An exception within archive file handling occurred:")
# XXX we also use a table for error reporting, could be
# something more adequate, though:
return self.build_dom_table([[str(err)]])
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ('style', ):
attrib[moin_page(key)] = value
body = moin_page.body(attrib=attrib)
stack = _Stack(body, iter_content=iter_content)
# Please note that the iterator can be modified by other functions
for line in iter_content:
match = self.block_re.match(line)
self._apply(match, 'block', iter_content, stack)
return body
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ("style",):
attrib[moin_page(key)] = value
body = moin_page.body(attrib=attrib)
stack = _Stack(body, iter_content=iter_content)
# Please note that the iterator can be modified by other functions
for line in iter_content:
match = self.block_re.match(line)
self._apply(match, "block", iter_content, stack)
return body
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ('style', ):
attrib[moin_page(key)] = value
elif key == '_old':
attrib[moin_page.class_] = value.replace('/', ' ')
body = moin_page.body(attrib=attrib)
stack = _Stack(body, iter_content=iter_content)
for line in iter_content:
data = dict(((str(k), v) for k, v in self.indent_re.match(line).groupdict().iteritems() if v is not None))
self.indent_repl(iter_content, stack, line, **data)
return body
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
attrib = {
moin_page.type_:
unicode(self.input_type),
xlink.href:
Iri(scheme='wiki',
authority='',
path='/' + item_name,
query='do=get&rev={0}'.format(rev.revid)),
}
obj = moin_page.object_(
attrib=attrib,
children=[
u'Your Browser does not support HTML5 audio/video element.',
])
body = moin_page.body(children=(obj, ))
return moin_page.page(children=(body, ))
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
content = normalize_split_text(text)
# as of py 2.7.x (and in the year 2013), the csv module seems to still
# have troubles with unicode, thus we encode to utf-8 ...
content = [line.encode('utf-8') for line in content]
dialect = csv.Sniffer().sniff(content[0])
reader = csv.reader(content, dialect)
# ... and decode back to unicode
rows = []
for encoded_row in reader:
row = []
for encoded_cell in encoded_row:
row.append(encoded_cell.decode('utf-8'))
if row:
rows.append(row)
table = self.build_dom_table(rows)
body = moin_page.body(children=(table, ))
return moin_page.page(children=(body, ))
def handle_macro(self, elem, page):
logging.debug("handle_macro elem: %r" % elem)
type = elem.get(moin_page.content_type)
alt = elem.get(moin_page.alt)
if not type:
return
type = Type(type)
if not (type.type == 'x-moin' and type.subtype == 'macro'):
logging.debug("not a macro, skipping: %r" % (type, ))
return
name = type.parameters['name']
context_block = elem.tag == moin_page.part
args = elem[0] if len(elem) else None
elem_body = context_block and moin_page.body() or moin_page.inline_body()
elem_error = moin_page.error()
try:
cls = plugins.importPlugin(app.cfg, 'macro', name, function='Macro')
macro = cls()
ret = macro((), args, page, alt, context_block)
elem_body.append(ret)
except PluginMissingError:
elem_error.append('<<%s>> %s' % (name, _('Error: invalid macro name.')))
except Exception as e:
# we do not want that a faulty macro aborts rendering of the page
# and makes the wiki UI unusable (by emitting a Server Error),
# thus, in case of exceptions, we just log the problem and return
# some standard text.
logging.exception("Macro {0} raised an exception:".format(name))
elem_error.append(_('<<%(macro_name)s: execution failed [%(error_msg)s] (see also the log)>>',
macro_name=name, error_msg=unicode(e), ))
if len(elem_body):
elem.append(elem_body)
if len(elem_error):
elem.append(elem_error)
def __call__(self, rev, contenttype=None, arguments=None):
item_name = rev.item.name
query_keys = {'do': 'get', 'rev': rev.revid}
attrib = {}
if arguments:
query = arguments.keyword.get(xinclude.href).query
if query:
query_keys.update(url_decode(query))
attrib = arguments.keyword
query = url_encode(query_keys, charset=CHARSET, encode_keys=True)
attrib.update({
moin_page.type_: unicode(self.input_type),
xlink.href: Iri(scheme='wiki', authority='', path='/' + item_name,
query=query),
})
obj = moin_page.object_(attrib=attrib, children=[item_name, ])
body = moin_page.body(children=(obj, ))
return moin_page.page(children=(body, ))
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ("style",):
attrib[moin_page(key)] = value
elif key == "_old":
attrib[moin_page.class_] = value.replace("/", " ")
body = moin_page.body(attrib=attrib)
stack = _Stack(body)
for line in iter_content:
match = self.indent_re.match(line)
if match:
data = dict(((str(k), v) for k, v in match.groupdict().iteritems() if v is not None))
self.indent_repl(iter_content, stack, line, **data)
else:
self.indent_repl(iter_content, stack, line, "", line)
return body
def __call__(self, rev, contenttype=None, arguments=None):
self.item_name = rev.item.name
try:
contents = self.list_contents(rev.data)
contents = [(
self.process_size(size),
self.process_datetime(dt),
self.process_name(name),
) for size, dt, name in contents]
table = self.build_dom_table(
contents,
head=[_("Size"), _("Timestamp"),
_("Name")],
cls='zebra')
body = moin_page.body(children=(table, ))
return moin_page.page(children=(body, ))
except ArchiveException as err:
logging.exception(
"An exception within archive file handling occurred:")
# XXX we also use a table for error reporting, could be
# something more adequate, though:
return self.build_dom_table([[str(err)]])
def parse_block(self, iter_content, arguments):
attrib = {}
if arguments:
for key, value in arguments.keyword.iteritems():
if key in ('style', ):
attrib[moin_page(key)] = value
elif key == '_old':
attrib[moin_page.class_] = value.replace('/', ' ')
body = moin_page.body(attrib=attrib)
stack = _Stack(body, iter_content=iter_content)
for line in iter_content:
match = self.indent_re.match(line)
if match:
data = dict(((str(k), v) for k, v in match.groupdict().iteritems() if v is not None))
self.indent_repl(iter_content, stack, line, **data)
else:
self.indent_repl(iter_content, stack, line, '', line)
return body
def parser(self, name, args, content):
if '/' in name:
type = Type(name)
else:
type = Type(type='x-moin', subtype='format', parameters={'name': name})
logging.debug("parser type: %r" % (type, ))
elem = moin_page.part(attrib={moin_page.content_type: type})
if args:
elem_arguments = moin_page.arguments()
elem.append(elem_arguments)
for key, value in args.items():
attrib = {}
if key:
attrib[moin_page.name] = key
elem_arg = moin_page.argument(attrib=attrib, children=(value, ))
elem_arguments.append(elem_arg)
if content:
elem.append(moin_page.body(children=content))
return elem
class Converter(object):
# {{{ html conversion
# HTML tags which can be converted directly to the moin_page namespace
symmetric_tags = set(['div', 'p', 'strong', 'code', 'quote', 'blockquote'])
# HTML tags to define a list, except dl which is a little bit different
list_tags = set(['ul', 'ol'])
# HTML tags which can be convert without attributes in a different DOM tag
simple_tags = { # Emphasis
'em': moin_page.emphasis,
'i': moin_page.emphasis,
# Strong
'b': moin_page.strong,
'strong': moin_page.strong,
# Code and Blockcode
'pre': moin_page.blockcode,
'tt': moin_page.code,
'samp': moin_page.code,
# Lists
'dl': moin_page.list_item,
'dt': moin_page.list_item_label,
'dd': moin_page.list_item_body,
# Table - th and td require special processing for alignment of cell contents
'table': moin_page.table,
'thead': moin_page.table_header,
'tbody': moin_page.table_body,
'tr': moin_page.table_row,
}
# HTML Tag which does not have equivalence in the DOM Tree
# But we keep the information using <span element>
inline_tags = set(['abbr', 'acronym', 'address', 'dfn', 'kbd'])
# HTML tags which are completely ignored by our converter.
# We even do not process children of these elements.
ignored_tags = set([
'applet',
'area',
'button',
'caption',
'center',
'fieldset',
'form',
'frame',
'frameset',
'head',
'iframe',
'input',
'isindex',
'label',
'legend',
'link',
'map',
'menu',
'noframes',
'noscript',
'optgroup',
'option',
'param',
'script',
'select',
'style',
'textarea',
'title',
'var',
])
# standard_attributes are html attributes which are used
# directly in the DOM tree, without any conversion
standard_attributes = set(['title', 'class', 'style'])
# Regular expression to detect an html heading tag
heading_re = re.compile('h[1-6]')
def new(self, tag, attrib, children):
"""
Return a new element for the DOM Tree
"""
return ET.Element(tag, attrib=attrib, children=children)
def new_copy(self, tag, element, attrib):
"""
Function to copy one element to the DOM Tree.
It first converts the child of the element,
and the element itself.
"""
attrib_new = self.convert_attributes(element)
attrib.update(attrib_new)
children = self.do_children(element)
return self.new(tag, attrib, children)
def new_copy_symmetric(self, element, attrib):
"""
Create a new QName, with the same tag of the element,
but with a different namespace.
Then, we handle the copy normally.
"""
tag = ET.QName(element.tag, moin_page)
return self.new_copy(tag, element, attrib)
def convert_attributes(self, element):
result = {}
for key, value in element.attrib.iteritems():
if key in self.standard_attributes:
result[html(key)] = value
if key == 'id':
result[xml('id')] = value
return result
def visit_heading(self, element):
"""
Function to convert an heading tag into a proper
element in our moin_page namespace
"""
heading_level = element.tag[1]
key = moin_page('outline-level')
attrib = {}
attrib[key] = heading_level
return self.new_copy(moin_page.h, element, attrib)
def visit_br(self, element):
return moin_page.line_break()
def visit_big(self, element):
key = moin_page('font-size')
attrib = {}
attrib[key] = '120%'
return self.new_copy(moin_page.span, element, attrib)
def visit_small(self, element):
key = moin_page('font-size')
attrib = {}
attrib[key] = '85%'
return self.new_copy(moin_page.span, element, attrib)
def visit_sub(self, element):
key = moin_page('baseline-shift')
attrib = {}
attrib[key] = 'sub'
return self.new_copy(moin_page.span, element, attrib)
def visit_sup(self, element):
key = moin_page('baseline-shift')
attrib = {}
attrib[key] = 'super'
return self.new_copy(moin_page.span, element, attrib)
def visit_u(self, element):
key = moin_page('text-decoration')
attrib = {}
attrib[key] = 'underline'
return self.new_copy(moin_page.span, element, attrib)
def visit_ins(self, element):
key = moin_page('text-decoration')
attrib = {}
attrib[key] = 'underline'
return self.new_copy(moin_page.span, element, attrib)
def visit_del(self, element):
key = moin_page('text-decoration')
attrib = {}
attrib[key] = 'line-through'
return self.new_copy(moin_page.span, element, attrib)
def visit_s(self, element):
key = moin_page('text-decoration')
attrib = {}
attrib[key] = 'line-through'
return self.new_copy(moin_page.span, element, attrib)
def visit_strike(self, element):
key = moin_page('text-decoration')
attrib = {}
attrib[key] = 'line-through'
return self.new_copy(moin_page.span, element, attrib)
def visit_hr(self, element, default_class=u'moin-hr3'):
return self.new_copy(moin_page.separator, element,
{moin_page.class_: default_class})
def visit_img(self, element):
"""
<img src="URI" /> --> <object xlink:href="URI />
"""
attrib = {}
url = Iri(element.attrib.get('src'))
if element.attrib.get('alt'):
attrib[html.alt] = element.attrib.get('alt')
if url.scheme is None:
# img tag
target = Iri(scheme='wiki.local',
path=element.attrib.get("src"),
fragment=None)
attrib[xinclude.href] = target
new_node = xinclude.include(attrib=attrib)
else:
# object tag
attrib[xlink.href] = url
new_node = moin_page.object(attrib)
return new_node
def visit_object(self, element):
"""
<object data="href"></object> --> <object xlink="href" />
"""
key = xlink('href')
attrib = {}
if self.base_url:
attrib[key] = ''.join([self.base_url, element.get(html.data)])
else:
attrib[key] = element.get(html.data)
# Convert the href attribute into unicode
attrib[key] = unicode(attrib[key])
return moin_page.object(attrib)
def visit_inline(self, element):
"""
For some specific inline tags (defined in inline_tags)
We just return <span element="tag.name">
"""
key = html.class_
attrib = {}
attrib[key] = ''.join(['html-', element.tag.name])
return self.new_copy(moin_page.span, element, attrib)
def visit_li(self, element):
"""
NB : A list item (<li>) is like the following snippet::
<list-item>
<list-item-label>label</list-item-label>
<list-item-body>Body</list-item-body>
</list-item>
For <li> element, there is no label
"""
list_item_body = ET.Element(moin_page.list_item_body,
attrib={},
children=self.do_children(element))
return ET.Element(moin_page.list_item,
attrib={},
children=[list_item_body])
def visit_list(self, element):
"""
Convert a list of item (whatever the type : ordered or unordered)
So we have html code like::
<ul>
<li>Item 1</li>
<li>Item 2</li>
</ul>
Which will be converted to::
<list>
<list-item>
<list-item-body>Item 1</list-item-body>
</list-item>
<list-item>
<list-item-body>Item 2</list-item-body>
</list-item>
</list>
"""
# We will define the appropriate attribute
# according to the type of the list
attrib = {}
if element.tag == "ul" or element.tag == "dir":
attrib[moin_page('item-label-generate')] = 'unordered'
elif element.tag == "ol":
attrib[moin_page('item-label-generate')] = 'ordered'
return ET.Element(moin_page.list,
attrib=attrib,
children=self.do_children(element))
def visit_a(self, element):
key = xlink('href')
attrib = {}
href = postproc_text(self.markdown, element.attrib.get("href"))
if allowed_uri_scheme(href):
attrib[key] = href
else:
return href
return self.new_copy(moin_page.a, element, attrib)
def convert_align_to_class(self, attrib):
attr = {}
alignment = attrib.get('align')
if alignment in (u'right', u'center', u'left'):
attr[moin_page.class_] = alignment
return attr
def visit_th(self, element):
attrib = self.convert_align_to_class(element.attrib)
return self.new_copy(html.th, element, attrib=attrib)
def visit_td(self, element):
attrib = self.convert_align_to_class(element.attrib)
return self.new_copy(html.td, element, attrib=attrib)
def visit(self, element):
# Our element can be converted directly, just by changing the namespace
if element.tag in self.symmetric_tags:
return self.new_copy_symmetric(element, attrib={})
# Our element is enough simple to just change the tag name
if element.tag in self.simple_tags:
return self.new_copy(self.simple_tags[element.tag],
element,
attrib={})
# Our element defines a list
if element.tag in self.list_tags:
return self.visit_list(element)
# We convert our element as a span tag with element attribute
if element.tag in self.inline_tags:
return self.visit_inline(element)
# We have a heading tag
if self.heading_re.match(element.tag):
return self.visit_heading(element)
# Otherwise we need a specific procedure to handle it
method_name = 'visit_' + element.tag
method = getattr(self, method_name, None)
if method:
return method(element)
# We should ignore this tag
if element.tag in self.ignored_tags:
logging.info("INFO : Ignored tag : {0}".format(element.tag))
return
logging.info("INFO : Unhandled tag : {0}".format(element.tag))
return
def do_children(self, element, add_lineno=False):
new = []
# markdown parser surrounds child nodes with unwanted u"\n" children, here we remove leading \n
if hasattr(
element,
"text") and element.text is not None and element.text != u'\n':
new.append(postproc_text(self.markdown, element.text))
for child in element:
r = self.visit(child)
if r is None:
r = ()
elif not isinstance(r, (list, tuple)):
if add_lineno and self.line_numbers:
r.attrib[html.data_lineno] = self.line_numbers.popleft()
r = (r, )
new.extend(r)
# markdown parser surrounds child nodes with unwanted u"\n" children, here we drop trailing \n
if hasattr(
child,
"tail") and child.tail is not None and child.tail != u'\n':
new.append(postproc_text(self.markdown, child.tail))
return new
# }}}
def count_lines(self, text):
"""
Create a list of line numbers corresponding to the first line of each markdown block.
The markdown parser does not provide text line numbers nor is there an easy way to
add line numbers. As an alternative, we try to split the input text into the same blocks
as the parser does, then calculate the starting line number of each block. The list will be
processed by the do_children method above.
This method has unresolved problems caused by splitting the text into blocks based upon
the presence of 2 adjacent line end characters, including:
* blank lines within lists create separate blocks
* omitting a blank line after a heading combines 2 elements into one block
* using more than one blank lines between blocks
The net result is we either have too few or too many line numbers in the generated list which
will cause the double-click-to-edit autoscroll textarea to sometimes be off by several lines.
TODO: revisit this when the parsing errors documented in contrib/serialized/items.moin
(markdown item) are fixed.
"""
line_numbers = deque()
lineno = 1
in_blockquote = False
blocks = text.split(u'\n\n')
for block in blocks:
if not block:
# bump count because empty blocks will be discarded
lineno += 2
continue
line_count = block.count(u'\n')
# detect and fix the problem of interspersed blank lines within blockquotes
if block.startswith(u' ') or block.startswith(u'\n '):
if in_blockquote:
lineno += line_count + 2
continue
in_blockquote = True
else:
in_blockquote = False
if block.startswith(u'\n'):
lineno += 1
line_numbers.append(lineno)
lineno += line_count + 2 - 1 # -1 is already in count
else:
line_numbers.append(lineno)
lineno += line_count + 2
self.line_numbers = line_numbers
def embedded_markup(self, text):
"""
Per http://meta.stackexchange.com/questions/1777/what-html-tags-are-allowed-on-stack-exchange-sites
markdown markup allows users to specify several "safe" HTML tags within a document. These tags include:
a b blockquote code del dd dl dt em h1 h2 h3 i img kbd li ol p pre s sup sub strong strike ul br hr
In addition, some markdown extensions output raw HTML tags (e.g. fenced outputs "<pre><code>...").
To prevent the <, > characters from being escaped, the embedded tags are converted to nodes by using
the converter in html_in.py.
"""
try:
# work around a possible bug - there is a traceback if HTML document has no tags
p_text = html_in_converter(u'<p>%s</p>' % text)
except AssertionError:
# html_in converter (EmeraldTree) throws exceptions on markup style links: "Some text <http://moinmo.in> more text"
p_text = text
if not isinstance(
p_text, unicode
) and p_text.tag == moin_page.page and p_text[
0].tag == moin_page.body and p_text[0][0].tag == moin_page.p:
# will fix possible problem of P node having block children later
return p_text[0][0]
return p_text
def convert_embedded_markup(self, node):
"""
Recurse through tree looking for embedded markup.
:param node: a tree node
"""
for idx, child in enumerate(node):
if isinstance(child, unicode):
if u'<' in child:
node[idx] = self.embedded_markup(
child
) # child is immutable string, so must do node[idx]
else:
# do not convert markup within a <pre> tag
if not child.tag == moin_page.blockcode:
self.convert_embedded_markup(child)
def convert_invalid_p_nodes(self, node):
"""
Processing embedded HTML tags within markup or output from extensions with embedded markup can
result in invalid HTML output caused by <p> tags enclosing a block element.
The solution is to search for these occurances and change the <p> tag to a <div>.
:param node: a tree node
"""
for child in node:
if not isinstance(child, unicode):
if child.tag == moin_page.p and len(child):
for grandchild in child:
if not isinstance(
grandchild,
unicode) and grandchild.tag in BLOCK_ELEMENTS:
child.tag = moin_page.div
self.convert_invalid_p_nodes(child)
def __init__(self):
self.markdown = Markdown(extensions=[
'extra',
'toc',
])
@classmethod
def _factory(cls, input, output, **kw):
return cls()
def __call__(self, data, contenttype=None, arguments=None):
text = decode_data(data, contenttype)
# {{{ stolen from Markdown.convert
# Fixup the source text
try:
text = unicode(text)
except UnicodeDecodeError, e:
# Customise error message while maintaining original traceback
e.reason += '. -- Note: Markdown only accepts unicode input!'
raise
text = text.replace(md_util.STX, "").replace(md_util.ETX, "")
text = text.replace("\r\n", "\n").replace("\r", "\n") + "\n\n"
text = text.expandtabs(self.markdown.tab_length)
text = re.sub(r'(?<=\n) +\n', '\n', text)
self.count_lines(text)
# Split into lines and run the line preprocessors.
lines = text.split("\n")
for prep in self.markdown.preprocessors.values():
lines = prep.run(lines)
# Parse the high-level elements.
md_root = self.markdown.parser.parseDocument(lines).getroot()
# Run the tree-processors
for treeprocessor in self.markdown.treeprocessors.values():
new_md_root = treeprocessor.run(md_root)
if new_md_root:
md_root = new_md_root
# }}}
# md_root is a list of plain old Python ElementTree objects.
add_lineno = bool(flaskg and flaskg.add_lineno_attr)
converted = self.do_children(md_root, add_lineno=add_lineno)
body = moin_page.body(children=converted)
root = moin_page.page(children=[body])
self.convert_embedded_markup(root)
self.convert_invalid_p_nodes(root)
return root
def __call__(self, data, contenttype=None, arguments=None):
"""
Convert markdown to moin DOM.
data is a pointer to an open file (ProtectedRevision object)
contenttype is likely == u'text/x-markdown;charset=utf-8'
arguments is not used
Markdown processing takes place in five steps:
1. A bunch of "preprocessors" munge the input text.
2. BlockParser() parses the high-level structural elements of the
pre-processed text into an ElementTree.
3. A bunch of "treeprocessors" are run against the ElementTree. One
such treeprocessor runs InlinePatterns against the ElementTree,
detecting inline markup.
4. Some post-processors are run against the ElementTree nodes containing text
and the ElementTree is converted to an EmeraldTree.
5. The root of the EmeraldTree is returned.
"""
# read the data from wiki storage and convert to unicode
text = decode_data(data, contenttype)
# Normalize whitespace for consistent parsing. - copied from NormalizeWhitespace in markdown/preprocessors.py
text = text.replace(md_util.STX, "").replace(md_util.ETX, "")
text = text.replace("\r\n", "\n").replace("\r", "\n") + "\n\n"
text = text.expandtabs(self.markdown.tab_length)
text = re.sub(r'(?<=\n) +\n', '\n', text)
# save line counts for start of each block, used later for edit autoscroll
self.count_lines(text)
# {{{ stolen from Markdown.convert
# Split into lines and run the line preprocessors.
lines = text.split("\n")
for prep in self.markdown.preprocessors.values():
lines = prep.run(lines)
# Parse the high-level elements, md_root is an ElementTree object
md_root = self.markdown.parser.parseDocument(lines).getroot()
# Run the tree-processors
for treeprocessor in self.markdown.treeprocessors.values():
new_md_root = treeprocessor.run(md_root)
if new_md_root:
md_root = new_md_root
# }}} end stolen from Markdown.convert
add_lineno = bool(flaskg and flaskg.add_lineno_attr)
# run markdown post processors and convert from ElementTree to an EmeraldTree object
converted = self.do_children(md_root, add_lineno=add_lineno)
# convert html embedded in text strings to EmeraldTree nodes
self.convert_embedded_markup(converted)
# convert P-tags containing block elements to DIV-tags
self.convert_invalid_p_nodes(converted)
body = moin_page.body(children=converted)
root = moin_page.page(children=[body])
return root
def handle_macro(self, elem, page):
logging.debug("handle_macro elem: %r" % elem)
type = elem.get(moin_page.content_type)
alt = elem.get(moin_page.alt)
if not type:
return
type = Type(type)
if not (type.type == 'x-moin' and type.subtype == 'macro'):
logging.debug("not a macro, skipping: %r" % type)
return
name = type.parameters['name']
context_block = elem.tag == moin_page.part
args_tree = None
for item in elem:
if item.tag.uri == moin_page.namespace:
if item.tag.name in ('body', 'inline-body'):
return
if item.tag.name == 'arguments':
args_tree = item
args = None
if args_tree:
args = Arguments()
for arg in args_tree:
key = arg.get(moin_page.name)
value = arg[0]
if key:
args.keyword[key] = value
else:
args.positional.append(value)
elem_body = context_block and moin_page.body() or moin_page.inline_body()
elem_error = moin_page.error()
try:
cls = plugins.importPlugin(app.cfg, 'macro', name, function='Macro')
macro = cls()
ret = macro((), args, page, alt, context_block)
elem_body.append(ret)
except PluginMissingError:
elem_error.append('<<%s>> %s' % (name, _('Error: invalid macro name.')))
except Exception as e:
# we do not want that a faulty macro aborts rendering of the page
# and makes the wiki UI unusable (by emitting a Server Error),
# thus, in case of exceptions, we just log the problem and return
# some standard text.
logger.exception("Macro {0} raised an exception:".format(name))
elem_error.append(_('<<%(macro_name)s: execution failed [%(error_msg)s] (see also the log)>>',
macro_name=name,
error_msg=unicode(e),
))
if len(elem_body):
elem.append(elem_body)
if len(elem_error):
elem.append(elem_error)