#!/usr/bin/env python import os import sys from lxml import etree from lxml import objectify import re import StringIO # APPROACH: # There is no way get the original DOCTYPE declaration with lxml, thus # first I have to get it with regular expressions, after updating # the xml it is appended under the xml declaration # # A dummy_map tree is created to resolve some layers entities. # # That is, the script looks into the includes folder and resolves the layer # entities manually to append them at the end of the xml tree # and update them. # NOTE: It will only resolve entities that are declared like # # # If your entity name starts with `layer', the script will try to # find a file where to extract from the layers to be updated dummy_map = """ %s """ def name2expr(sym): if 'name' not in sym.attrib: return name = sym.attrib['name'] if re.match('^\[.*\]$',name) is None \ and '[' not in name \ and ']' not in name \ and not name.startswith("'") \ and not name.endswith("'") \ and re.match("^\'.*\'",name) is None: print >> sys.stderr,"Fixing %s" % name name = '[%s]' % name sym.attrib.pop('name') sym._setText(name) def fixup_pointsym(sym): if sym.attrib.get('width'): sym.attrib.pop('width') if sym.attrib.get('height'): sym.attrib.pop('height') if sym.attrib.get('type'): sym.attrib.pop('type') def fixup_sym_attributes(sym): if not hasattr(sym,'CssParameter'): return attrib = {} for css in sym.CssParameter: key = css.attrib.get('name') value = css.text attrib[key] = value sym.clear() # remove CssParameter elements for k,v in attrib.items(): # insert attributes instead sym.attrib[k] = v if __name__ == "__main__": # Required parameters: # map_xml_file: outdated stylesheet file # output_file: new stylesheet file # includes folder if len(sys.argv) < 4: print >> sys.stderr,'Usage: %s ' % sys.argv[0] sys.exit(1) xml = sys.argv[1] if sys.argv[3] is not None: includes_folder = sys.argv[3] # Get the good doctype with the unresolved external entities # since it is forever lost once the xml is parsed file = open(xml, 'r') xml_string = file.read() file.close() match = re.match(r'(?ims).*DOCTYPE.*\[.*\]\>', xml_string) good_doctype = "" if match: good_doctype = match.group() # Two trees. One with the unresolved entities... parser = objectify.makeparser(resolve_entities=False) # tree = objectify.parse(xml, parser=parser) # root = tree.getroot() # ...and another with the entities resolved. # This dummy tree expands the entities that I found and puts them # in a dictionary (entity) => resolved_entity # NOTE: `findall' makes the script very slow # First get the entities declared in the header temp_xml = ''.join([good_doctype, dummy_map % '']) expanded_tree = objectify.parse(StringIO.StringIO(temp_xml)) expanded_tree_string = etree.tostring(expanded_tree, pretty_print=True, xml_declaration=True, encoding="utf-8") match = re.match(r'(?ims).*DOCTYPE.*\[.*\]\>', expanded_tree_string) resolved_doctype = "" if match: resolved_doctype = match.group() doctype_entities = {} # e.g.: # for line in StringIO.StringIO(resolved_doctype).readlines(): entity_kv = re.match(r'(?ims)(.*ENTITY.*?(?P\b[a-z09].*?\b) .*\"(?P.*)\").*', line) # Only consider internal entities if (entity_kv is not None) and not (re.search("%", line)): doctype_entities[''.join(['&',entity_kv.groupdict()['entity_key']])] = entity_kv.groupdict()['entity_value'] layer_entities = [] for entity in doctype_entities: if re.search('layer', entity): layer_entities.append(entity) # Remove the layer entities fixed_xml_string = xml_string for layer in layer_entities: pattern = '(?ims)%s;' % layer fixed_xml_string = re.sub(pattern, '', fixed_xml_string) print "removed ", layer # Tree to be updated to be mapnik2 compliant tree = objectify.parse(StringIO.StringIO(fixed_xml_string), parser=parser) root = tree.getroot() for layer in layer_entities: file = open("%s/%s" % (includes_folder, doctype_entities[layer])) layer_xml_string = file.read() file.close() print "Found this layer:", layer # Parse without resolving entities layer_xml = ''.join([good_doctype, dummy_map % layer_xml_string]) layer_tree = objectify.parse(StringIO.StringIO(layer_xml), parser=parser) layer_root = layer_tree.getroot() layer_children = layer_root.getchildren() # Append this layer's styles and layers to the tree to be updated # print layer_children root.extend(layer_children) # Update the styles for style in root.Style: if len(style.Rule): # fix [name] thing for rule in style.Rule: if hasattr(rule,'TextSymbolizer'): for sym in rule.TextSymbolizer: name2expr(sym) if hasattr(rule,'ShieldSymbolizer'): for sym in rule.ShieldSymbolizer: name2expr(sym) if hasattr(rule,'PointSymbolizer'): for sym in rule.PointSymbolizer: fixup_pointsym(sym) if hasattr(rule,'LineSymbolizer') : for sym in rule.LineSymbolizer: fixup_sym_attributes(sym) if hasattr(rule,'PolygonSymbolizer') : for sym in rule.PolygonSymbolizer: fixup_sym_attributes(sym) if hasattr(rule,'RasterSymbolizer') : for sym in rule.RasterSymbolizer: fixup_sym_attributes(sym) if hasattr(rule,'BuildingSymbolizer') : for sym in rule.BuildingSymbolizer: fixup_sym_attributes(sym) updated_xml = etree.tostring(tree, pretty_print=True, xml_declaration=True, encoding="utf-8", standalone=True) # Insert the original doctype declaration fixed_updated_xml = re.sub(r'(?ims)^.*DOCTYPE.*\[.*\]\>', good_doctype, updated_xml) output_file = open(sys.argv[2], 'w') output_file.write(fixed_updated_xml) output_file.close() # print fixed_updated_xml