#!/usr/bin/python """ This script converts DTDs to XML Schemas, according to the 20000407 WD. It can do simple reverse-engineering of attribute groups. """ # Todo # - make better names for attrgroups? # - make a SchemaWriter class (to hold common references) # - start doing reverse engineering to create modelGroups? from xml.parsers.xmlproc import xmldtd import sys, types, os.path, string usage = \ """ Usage: python dtd2schema.py [] Input file names can be URLs. If the output file name is omitted, it will be inferred from the input file name. Note that this inference does not work for URLs. """ version = "0.2" # ===== UTILITY FUNCTIONS class CountingDict: def __init__(self): self._items = {} def count(self, item): try: self._items[item] = self._items[item] + 1 except KeyError: self._items[item] = 1 def clear(self): self._items = {} def keys(self): return self._items.keys() def __getitem__(self, item): return self._items[item] def __delitem__(self, item): del self._items[item] class AttributeInfo: """This class holds information about reverse-engineered attribute groupings.""" def __init__(self): self._shared_attrs = {} self._shared_attrs_on_elem = {} self._count = CountingDict() self._groupnames = {} def count(self, attrname): self._count.count(attrname) def new_attr(self, elemname, attr): attrname = attr.get_name() self._count.count(attrname) if self._shared_attrs.has_key(attrname): shared = self._shared_attrs[attrname] if shared != None and not compare_attrs(shared, attr): self._shared_attrs[attrname] = None else: self._shared_attrs[attrname] = attr def remove_single_attributes(self): "Removes attributes that only occurred once." for attrname in self._shared_attrs.keys(): if self._shared_attrs.get(attrname) != None: if self._count[attrname] < 2: self._shared_attrs[attrname] = None self._count.clear() def find_groups(self, elem): shared = tuple(filter(self._shared_attrs.get, elem.get_attr_list())) self._shared_attrs_on_elem[elem.get_name()] = shared if shared: self._count.count(shared) def remove_single_groups(self): "Removes groups that only occurred once." for group in self._count.keys(): if self._count[group] < 2: del self._count[group] def get_groups(self): return self._count.keys() def get_attribute(self, name): return self._shared_attrs[name] def get_shared_attrs_on_elem(self, elemname): return self._shared_attrs_on_elem[elemname] def make_name(self, group): name = "group" + str(len(self._groupnames) + 1) self._groupnames[group] = name return name def get_group_name(self, group): return self._groupnames[group] def escape_attr_value(value): value = string.replace(value, '&', '&') value = string.replace(value, '"', '"') return string.replace(value, '<', '<') # ===== REVERSE ENGINEERING def compare_attrs(attr1, attr2): return attr1.get_name() == attr2.get_name() and \ attr1.get_type() == attr2.get_type() and \ attr1.get_decl() == attr2.get_decl() and \ attr1.get_default() == attr2.get_default() def find_attr_groups(dtd): # first pass: find attributes that occur more than once attrinfo = AttributeInfo() for elemname in dtd.get_elements(): elem = dtd.get_elem(elemname) for attrname in elem.get_attr_list(): attrinfo.new_attr(elemname, elem.get_attr(attrname)) attrinfo.remove_single_attributes() # second pass: group the recurring attributes for elemname in dtd.get_elements(): elem = dtd.get_elem(elemname) attrinfo.find_groups(elem) attrinfo.remove_single_groups() return attrinfo # ===== COMPONENT FUNCTIONS def write_attribute_group(out, group, attrinfo): groupname = attrinfo.make_name(group) out.write(' \n' % groupname) for attrname in group: write_attr(out, attrinfo.get_attribute(attrname)) out.write(' \n') declmap = {"#REQUIRED" : "required", "#IMPLIED" : "optional", "#DEFAULT" : "default", "#FIXED" : "fixed" } def write_attr(out, attr): value = attr.get_default() if value == None: value = '' else: value = ' value="%s"' % escape_attr_value(value) attrtype = attr.get_type() if type(attrtype) == types.ListType: out.write(' \n' % (attr.get_name(), declmap[attr.get_decl()], value)) out.write(' \n') for token in attrtype: out.write(' \n' % token) out.write(' \n') out.write(' \n') else: out.write(' \n' % (attr.get_name(), attrtype, declmap[attr.get_decl()], value)) def write_attributes(out, elem, attrinfo): attrnames = elem.get_attr_list() shared = attrinfo.get_shared_attrs_on_elem(elem.get_name()) or [] for attrname in attrnames: if not attrname in shared: write_attr(out, elem.get_attr(attrname)) if shared: out.write(' \n' % attrinfo.get_group_name(group)) def write_element_type(out, elem, attrinfo): cm = elem.get_content_model() if cm == ('', [('#PCDATA', '')], ''): if elem.get_attr_list() == []: out.write(' \n') else: out.write(' \n') write_attributes(out, elem, attrinfo) out.write(' \n') return content = '' if cm == ("", [], ""): content = ' content="empty"' elif cm != None and cm[1][0][0] == "#PCDATA": content = ' content="mixed"' out.write(' \n' % content) if cm == None: out.write(' \n') elif cm != ("", [], ""): write_cm(out, cm) write_attributes(out, elem, attrinfo) out.write(' \n') def write_cm(out, cm): (sep, cps, mod) = cm out.write(' \n') if sep == '' or sep == ',': wrapper = 'sequence' elif sep == '|': wrapper = 'choice' out.write(' <%s>\n' % wrapper) for cp in cps: if len(cp) == 2: (name, mod) = cp if name == "#PCDATA": continue if mod == '?': occurs = ' minOccurs="0" maxOccurs="1"' elif mod == '*': occurs = ' minOccurs="0" maxOccurs="*"' elif mod == '+': occurs = ' minOccurs="1" maxOccurs="*"' else: occurs = '' out.write(' \n' % (name, occurs)) elif len(cp) == 3: write_cm(out, cp) else: out.write(' \n' % (cp,)) out.write(' \n' % wrapper) out.write(' \n') # ===== MAIN PROGRAM # --- Interpreting command-line if len(sys.argv) < 2 or len(sys.argv) > 3: print usage sys.exit(1) infile = sys.argv[1] if len(sys.argv) == 3: outfile = sys.argv[2] else: ext = os.path.splitext(infile)[1] outfile = os.path.split(infile)[1] outfile = outfile[ : -len(ext)] + ".xsd" # --- Doing the job print "\ndtd2schema.py\n" # Load DTD print "Loading DTD..." dtd = xmldtd.load_dtd(infile) # Find attribute groups print "Doing reverse-engineering..." attrinfo = find_attr_groups(dtd) # Write out schema print "Writing out schema" out = open(outfile, "w") out.write('\n') out.write('\n\n') out.write('\n\n') if attrinfo: out.write('\n\n') for group in attrinfo.get_groups(): write_attribute_group(out, group, attrinfo) out.write("\n") out.write('\n\n') for elemname in dtd.get_elements(): elem = dtd.get_elem(elemname) out.write(' \n' % elemname) write_element_type(out, elem, attrinfo) out.write(' \n\n') notations = dtd.get_notations() if notations != []: out.write('\n\n\n\n') for notname in notations: (pubid, sysid) = dtd.get_notation(notname) if sysid == None: sysid = '' else: sysid = ' system="%s"' out.write(' \n' % (notname, pubid, sysid)) out.write('\n') out.close()