from __future__ import unicode_literals from __future__ import absolute_import from . import util from . import odict from . import inlinepatterns def build_treeprocessors(md_instance, **kwargs): """ Build the default treeprocessors for Markdown. """ treeprocessors = odict.OrderedDict() treeprocessors["inline"] = InlineProcessor(md_instance) treeprocessors["prettify"] = PrettifyTreeprocessor(md_instance) return treeprocessors def isString(s): """ Check if it's string """ if not isinstance(s, util.AtomicString): return isinstance(s, util.string_type) return False class Treeprocessor(util.Processor): """ Treeprocessors are run on the ElementTree object before serialization. Each Treeprocessor implements a "run" method that takes a pointer to an ElementTree, modifies it as necessary and returns an ElementTree object. Treeprocessors must extend markdown.Treeprocessor. """ def run(self, root): """ Subclasses of Treeprocessor should implement a `run` method, which takes a root ElementTree. This method can return another ElementTree object, and the existing root ElementTree will be replaced, or it can modify the current tree and return None. """ pass # pragma: no cover class InlineProcessor(Treeprocessor): """ A Treeprocessor that traverses a tree, applying inline patterns. """ def __init__(self, md): self.__placeholder_prefix = util.INLINE_PLACEHOLDER_PREFIX self.__placeholder_suffix = util.ETX self.__placeholder_length = 4 + len(self.__placeholder_prefix) \ + len(self.__placeholder_suffix) self.__placeholder_re = util.INLINE_PLACEHOLDER_RE self.markdown = md self.inlinePatterns = md.inlinePatterns self.ancestors = [] def __makePlaceholder(self, type): """ Generate a placeholder """ id = "%04d" % len(self.stashed_nodes) hash = util.INLINE_PLACEHOLDER % id return hash, id def __findPlaceholder(self, data, index): """ Extract id from data string, start from index Keyword arguments: * data: string * index: index, from which we start search Returns: placeholder id and string index, after the found placeholder. """ m = self.__placeholder_re.search(data, index) if m: return m.group(1), m.end() else: return None, index + 1 def __stashNode(self, node, type): """ Add node to stash """ placeholder, id = self.__makePlaceholder(type) self.stashed_nodes[id] = node return placeholder def __handleInline(self, data, patternIndex=0): """ Process string with inline patterns and replace it with placeholders Keyword arguments: * data: A line of Markdown text * patternIndex: The index of the inlinePattern to start with Returns: String with placeholders. """ if not isinstance(data, util.AtomicString): startIndex = 0 while patternIndex < len(self.inlinePatterns): data, matched, startIndex = self.__applyPattern( self.inlinePatterns.value_for_index(patternIndex), data, patternIndex, startIndex) if not matched: patternIndex += 1 return data def __processElementText(self, node, subnode, isText=True): """ Process placeholders in Element.text or Element.tail of Elements popped from self.stashed_nodes. Keywords arguments: * node: parent node * subnode: processing node * isText: bool variable, True - it's text, False - it's tail Returns: None """ if isText: text = subnode.text subnode.text = None else: text = subnode.tail subnode.tail = None childResult = self.__processPlaceholders(text, subnode, isText) if not isText and node is not subnode: pos = list(node).index(subnode) + 1 else: pos = 0 childResult.reverse() for newChild in childResult: node.insert(pos, newChild[0]) def __processPlaceholders(self, data, parent, isText=True): """ Process string with placeholders and generate ElementTree tree. Keyword arguments: * data: string with placeholders instead of ElementTree elements. * parent: Element, which contains processing inline data Returns: list with ElementTree elements with applied inline patterns. """ def linkText(text): if text: if result: if result[-1][0].tail: result[-1][0].tail += text else: result[-1][0].tail = text elif not isText: if parent.tail: parent.tail += text else: parent.tail = text else: if parent.text: parent.text += text else: parent.text = text result = [] strartIndex = 0 while data: index = data.find(self.__placeholder_prefix, strartIndex) if index != -1: id, phEndIndex = self.__findPlaceholder(data, index) if id in self.stashed_nodes: node = self.stashed_nodes.get(id) if index > 0: text = data[strartIndex:index] linkText(text) if not isString(node): # it's Element for child in [node] + list(node): if child.tail: if child.tail.strip(): self.__processElementText( node, child, False ) if child.text: if child.text.strip(): self.__processElementText(child, child) else: # it's just a string linkText(node) strartIndex = phEndIndex continue strartIndex = phEndIndex result.append((node, self.ancestors[:])) else: # wrong placeholder end = index + len(self.__placeholder_prefix) linkText(data[strartIndex:end]) strartIndex = end else: text = data[strartIndex:] if isinstance(data, util.AtomicString): # We don't want to loose the AtomicString text = util.AtomicString(text) linkText(text) data = "" return result def __applyPattern(self, pattern, data, patternIndex, startIndex=0): """ Check if the line fits the pattern, create the necessary elements, add it to stashed_nodes. Keyword arguments: * data: the text to be processed * pattern: the pattern to be checked * patternIndex: index of current pattern * startIndex: string index, from which we start searching Returns: String with placeholders instead of ElementTree elements. """ for exclude in pattern.ANCESTOR_EXCLUDES: if exclude.lower() in self.ancestors: return data, False, 0 match = pattern.getCompiledRegExp().match(data[startIndex:]) leftData = data[:startIndex] if not match: return data, False, 0 node = pattern.handleMatch(match) if node is None: return data, True, len(leftData)+match.span(len(match.groups()))[0] if not isString(node): if not isinstance(node.text, util.AtomicString): # We need to process current node too for child in [node] + list(node): if not isString(node): if child.text: self.ancestors.append(child.tag.lower()) child.text = self.__handleInline( child.text, patternIndex + 1 ) self.ancestors.pop() if child.tail: child.tail = self.__handleInline( child.tail, patternIndex ) placeholder = self.__stashNode(node, pattern.type()) return "%s%s%s%s" % (leftData, match.group(1), placeholder, match.groups()[-1]), True, 0 def __build_ancestors(self, parent, parents): """Build the ancestor list.""" ancestors = [] while parent is not None: if parent is not None: ancestors.append(parent.tag.lower()) parent = self.parent_map.get(parent) ancestors.reverse() parents.extend(ancestors) def run(self, tree, ancestors=None): """Apply inline patterns to a parsed Markdown tree. Iterate over ElementTree, find elements with inline tag, apply inline patterns and append newly created Elements to tree. If you don't want to process your data with inline paterns, instead of normal string, use subclass AtomicString: node.text = markdown.AtomicString("This will not be processed.") Arguments: * tree: ElementTree object, representing Markdown tree. * ancestors: List of parent tag names that preceed the tree node (if needed). Returns: ElementTree object with applied inline patterns. """ self.stashed_nodes = {} # Ensure a valid parent list, but copy passed in lists # to ensure we don't have the user accidentally change it on us. tree_parents = [] if ancestors is None else ancestors[:] self.parent_map = dict((c, p) for p in tree.iter() for c in p) stack = [(tree, tree_parents)] while stack: currElement, parents = stack.pop() self.ancestors = parents self.__build_ancestors(currElement, self.ancestors) insertQueue = [] for child in currElement: if child.text and not isinstance( child.text, util.AtomicString ): self.ancestors.append(child.tag.lower()) text = child.text child.text = None lst = self.__processPlaceholders( self.__handleInline(text), child ) for l in lst: self.parent_map[l[0]] = child stack += lst insertQueue.append((child, lst)) self.ancestors.pop() if child.tail: tail = self.__handleInline(child.tail) dumby = util.etree.Element('d') child.tail = None tailResult = self.__processPlaceholders(tail, dumby, False) if dumby.tail: child.tail = dumby.tail pos = list(currElement).index(child) + 1 tailResult.reverse() for newChild in tailResult: self.parent_map[newChild[0]] = currElement currElement.insert(pos, newChild[0]) if len(child): self.parent_map[child] = currElement stack.append((child, self.ancestors[:])) for element, lst in insertQueue: if self.markdown.enable_attributes: if element.text and isString(element.text): element.text = inlinepatterns.handleAttributes( element.text, element ) i = 0 for obj in lst: newChild = obj[0] if self.markdown.enable_attributes: # Processing attributes if newChild.tail and isString(newChild.tail): newChild.tail = inlinepatterns.handleAttributes( newChild.tail, element ) if newChild.text and isString(newChild.text): newChild.text = inlinepatterns.handleAttributes( newChild.text, newChild ) element.insert(i, newChild) i += 1 return tree class PrettifyTreeprocessor(Treeprocessor): """ Add linebreaks to the html document. """ def _prettifyETree(self, elem): """ Recursively add linebreaks to ElementTree children. """ i = "\n" if util.isBlockLevel(elem.tag) and elem.tag not in ['code', 'pre']: if (not elem.text or not elem.text.strip()) \ and len(elem) and util.isBlockLevel(elem[0].tag): elem.text = i for e in elem: if util.isBlockLevel(e.tag): self._prettifyETree(e) if not elem.tail or not elem.tail.strip(): elem.tail = i if not elem.tail or not elem.tail.strip(): elem.tail = i def run(self, root): """ Add linebreaks to ElementTree root object. """ self._prettifyETree(root) # Do
's seperately as they are often in the middle of # inline content and missed by _prettifyETree. brs = root.iter('br') for br in brs: if not br.tail or not br.tail.strip(): br.tail = '\n' else: br.tail = '\n%s' % br.tail # Clean up extra empty lines at end of code blocks. pres = root.iter('pre') for pre in pres: if len(pre) and pre[0].tag == 'code': pre[0].text = util.AtomicString(pre[0].text.rstrip() + '\n')