#!/usr/bin/env python
# -*- coding: utf-8 -*-
# This file is part of Beremiz, a Integrated Development Environment for
# programming IEC 61131-3 automates supporting plcopen standard and CanFestival.
#
# Copyright (C) 2007: Edouard TISSERANT and Laurent BESSARD
#
# See COPYING file for copyrights details.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
from __future__ import print_function
import os
import sys
import re
import datetime
from types import *
from xml.dom import minidom
from xml.sax.saxutils import escape, unescape, quoteattr
from lxml import etree
from new import classobj
from collections import OrderedDict
def CreateNode(name):
node = minidom.Node()
node.nodeName = name
node._attrs = {}
node.childNodes = []
return node
def NodeRenameAttr(node, old_name, new_name):
node._attrs[new_name] = node._attrs.pop(old_name)
def NodeSetAttr(node, name, value):
attr = minidom.Attr(name)
text = minidom.Text()
text.data = value
attr.childNodes[0] = text
node._attrs[name] = attr
"""
Regular expression models for checking all kind of string values defined in XML
standard
"""
Name_model = re.compile('([a-zA-Z_\:][\w\.\-\:]*)$')
Names_model = re.compile('([a-zA-Z_\:][\w\.\-\:]*(?: [a-zA-Z_\:][\w\.\-\:]*)*)$')
NMToken_model = re.compile('([\w\.\-\:]*)$')
NMTokens_model = re.compile('([\w\.\-\:]*(?: [\w\.\-\:]*)*)$')
QName_model = re.compile('((?:[a-zA-Z_][\w]*:)?[a-zA-Z_][\w]*)$')
QNames_model = re.compile('((?:[a-zA-Z_][\w]*:)?[a-zA-Z_][\w]*(?: (?:[a-zA-Z_][\w]*:)?[a-zA-Z_][\w]*)*)$')
NCName_model = re.compile('([a-zA-Z_][\w]*)$')
URI_model = re.compile('((?:http://|/)?(?:[\w.-]*/?)*)$')
LANGUAGE_model = re.compile('([a-zA-Z]{1,8}(?:-[a-zA-Z0-9]{1,8})*)$')
ONLY_ANNOTATION = re.compile("((?:annotation )?)")
"""
Regular expression models for extracting dates and times from a string
"""
time_model = re.compile('([0-9]{2}):([0-9]{2}):([0-9]{2}(?:\.[0-9]*)?)(?:Z)?$')
date_model = re.compile('([0-9]{4})-([0-9]{2})-([0-9]{2})((?:[\-\+][0-9]{2}:[0-9]{2})|Z)?$')
datetime_model = re.compile('([0-9]{4})-([0-9]{2})-([0-9]{2})[ T]([0-9]{2}):([0-9]{2}):([0-9]{2}(?:\.[0-9]*)?)((?:[\-\+][0-9]{2}:[0-9]{2})|Z)?$')
class xml_timezone(datetime.tzinfo):
def SetOffset(self, offset):
if offset == "Z":
self.__offset = timedelta(minutes=0)
self.__name = "UTC"
else:
sign = {"-": -1, "+": 1}[offset[0]]
hours, minutes = [int(val) for val in offset[1:].split(":")]
self.__offset = timedelta(minutes=sign * (hours * 60 + minutes))
self.__name = ""
def utcoffset(self, dt):
return self.__offset
def tzname(self, dt):
return self.__name
def dst(self, dt):
return ZERO
[
SYNTAXELEMENT, SYNTAXATTRIBUTE, SIMPLETYPE, COMPLEXTYPE, COMPILEDCOMPLEXTYPE,
ATTRIBUTESGROUP, ELEMENTSGROUP, ATTRIBUTE, ELEMENT, CHOICE, ANY, TAG, CONSTRAINT,
] = range(13)
def NotSupportedYet(type):
"""
Function that generates a function that point out to user that datatype
used is not supported by xmlclass yet
@param type: data type
@return: function generated
"""
def GetUnknownValue(attr):
raise ValueError("\"%s\" type isn't supported by \"xmlclass\" yet!" % type)
return GetUnknownValue
def getIndent(indent, balise):
"""
This function calculates the number of whitespace for indentation
"""
first = indent * 2
second = first + len(balise) + 1
return u'\t'.expandtabs(first), u'\t'.expandtabs(second)
def GetAttributeValue(attr, extract=True):
"""
Function that extracts data from a tree node
@param attr: tree node containing data to extract
@param extract: attr is a tree node or not
@return: data extracted as string
"""
if not extract:
return attr
if len(attr.childNodes) == 1:
return unicode(unescape(attr.childNodes[0].data))
else:
# content is a CDATA
text = u''
for node in attr.childNodes:
if not (node.nodeName == "#text" and node.data.strip() == u''):
text += unicode(unescape(node.data))
return text
def GetNormalizedString(attr, extract=True):
"""
Function that normalizes a string according to XML 1.0. Replace
tabulations, line feed and carriage return by white space
@param attr: tree node containing data to extract or data to normalize
@param extract: attr is a tree node or not
@return: data normalized as string
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
return value.replace("\t", " ").replace("\r", " ").replace("\n", " ")
def GetToken(attr, extract=True):
"""
Function that tokenizes a string according to XML 1.0. Remove any leading
and trailing white space and replace internal sequence of two or more
spaces by only one white space
@param attr: tree node containing data to extract or data to tokenize
@param extract: attr is a tree node or not
@return: data tokenized as string
"""
return " ".join([part for part in
GetNormalizedString(attr, extract).split(" ")
if part])
def GetHexInteger(attr, extract=True):
"""
Function that extracts an hexadecimal integer from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as an integer
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if len(value) % 2 != 0:
raise ValueError("\"%s\" isn't a valid hexadecimal integer!" % value)
try:
return int(value, 16)
except Exception:
raise ValueError("\"%s\" isn't a valid hexadecimal integer!" % value)
def GenerateIntegerExtraction(minInclusive=None, maxInclusive=None,
minExclusive=None, maxExclusive=None):
"""
Function that generates an extraction function for integer defining min and
max of integer value
@param minInclusive: inclusive minimum
@param maxInclusive: inclusive maximum
@param minExclusive: exclusive minimum
@param maxExclusive: exclusive maximum
@return: function generated
"""
def GetInteger(attr, extract=True):
"""
Function that extracts an integer from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as an integer
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
try:
# TODO: permit to write value like 1E2
value = int(value)
except Exception:
raise ValueError("\"%s\" isn't a valid integer!" % value)
if minInclusive is not None and value < minInclusive:
raise ValueError("\"%d\" isn't greater or equal to %d!" %
(value, minInclusive))
if maxInclusive is not None and value > maxInclusive:
raise ValueError("\"%d\" isn't lesser or equal to %d!" %
(value, maxInclusive))
if minExclusive is not None and value <= minExclusive:
raise ValueError("\"%d\" isn't greater than %d!" %
(value, minExclusive))
if maxExclusive is not None and value >= maxExclusive:
raise ValueError("\"%d\" isn't lesser than %d!" %
(value, maxExclusive))
return value
return GetInteger
def GenerateFloatExtraction(type, extra_values=[]):
"""
Function that generates an extraction function for float
@param type: name of the type of float
@return: function generated
"""
def GetFloat(attr, extract=True):
"""
Function that extracts a float from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a float
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value in extra_values:
return value
try:
return float(value)
except Exception:
raise ValueError("\"%s\" isn't a valid %s!" % (value, type))
return GetFloat
def GetBoolean(attr, extract=True):
"""
Function that extracts a boolean from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a boolean
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value == "true" or value == "1":
return True
elif value == "false" or value == "0":
return False
else:
raise ValueError("\"%s\" isn't a valid boolean!" % value)
def GetTime(attr, extract=True):
"""
Function that extracts a time from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a time
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
result = time_model.match(value)
if result:
values = result.groups()
time_values = [int(v) for v in values[:2]]
seconds = float(values[2])
time_values.extend([int(seconds), int((seconds % 1) * 1000000)])
return datetime.time(*time_values)
else:
raise ValueError("\"%s\" isn't a valid time!" % value)
def GetDate(attr, extract=True):
"""
Function that extracts a date from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a date
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
result = date_model.match(value)
if result:
values = result.groups()
date_values = [int(v) for v in values[:3]]
if values[3] is not None:
tz = xml_timezone()
tz.SetOffset(values[3])
date_values.append(tz)
return datetime.date(*date_values)
else:
raise ValueError("\"%s\" isn't a valid date!" % value)
def GetDateTime(attr, extract=True):
"""
Function that extracts date and time from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as date and time
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
result = datetime_model.match(value)
if result:
values = result.groups()
datetime_values = [int(v) for v in values[:5]]
seconds = float(values[5])
datetime_values.extend([int(seconds), int((seconds % 1) * 1000000)])
if values[6] is not None:
tz = xml_timezone()
tz.SetOffset(values[6])
datetime_values.append(tz)
return datetime.datetime(*datetime_values)
else:
raise ValueError("\"%s\" isn't a valid datetime!" % value)
def GenerateModelNameExtraction(type, model):
"""
Function that generates an extraction function for string matching a model
@param type: name of the data type
@param model: model that data must match
@return: function generated
"""
def GetModelName(attr, extract=True):
"""
Function that extracts a string from a tree node or not and check that
string extracted or given match the model
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a string if matching
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
result = model.match(value)
if not result:
raise ValueError("\"%s\" isn't a valid %s!" % (value, type))
return value
return GetModelName
def GenerateLimitExtraction(min=None, max=None, unbounded=True):
"""
Function that generates an extraction function for integer defining min and
max of integer value
@param min: minimum limit value
@param max: maximum limit value
@param unbounded: value can be "unbounded" or not
@return: function generated
"""
def GetLimit(attr, extract=True):
"""
Function that extracts a string from a tree node or not and check that
string extracted or given is in a list of values
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a string
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value == "unbounded":
if unbounded:
return value
else:
raise ValueError("Member limit can't be defined to \"unbounded\"!")
try:
limit = int(value)
except Exception:
raise ValueError("\"%s\" isn't a valid value for this member limit!" % value)
if limit < 0:
raise ValueError("Member limit can't be negative!")
elif min is not None and limit < min:
raise ValueError("Member limit can't be lower than \"%d\"!" % min)
elif max is not None and limit > max:
raise ValueError("Member limit can't be upper than \"%d\"!" % max)
return limit
return GetLimit
def GenerateEnumeratedExtraction(type, list):
"""
Function that generates an extraction function for enumerated values
@param type: name of the data type
@param list: list of possible values
@return: function generated
"""
def GetEnumerated(attr, extract=True):
"""
Function that extracts a string from a tree node or not and check that
string extracted or given is in a list of values
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a string
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value in list:
return value
else:
raise ValueError(
"\"%s\" isn't a valid value for %s!" % (value, type))
return GetEnumerated
def GetNamespaces(attr, extract=True):
"""
Function that extracts a list of namespaces from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: list of namespaces
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value == "":
return []
elif value == "##any" or value == "##other":
namespaces = [value]
else:
namespaces = []
for item in value.split(" "):
if item == "##targetNamespace" or item == "##local":
namespaces.append(item)
else:
result = URI_model.match(item)
if result is not None:
namespaces.append(item)
else:
raise ValueError("\"%s\" isn't a valid value for namespace!" % value)
return namespaces
def GenerateGetList(type, list):
"""
Function that generates an extraction function for a list of values
@param type: name of the data type
@param list: list of possible values
@return: function generated
"""
def GetLists(attr, extract=True):
"""
Function that extracts a list of values from a tree node or a string
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: list of values
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
if value == "":
return []
elif value == "#all":
return [value]
else:
values = []
for item in value.split(" "):
if item in list:
values.append(item)
else:
raise ValueError(
"\"%s\" isn't a valid value for %s!" % (value, type))
return values
return GetLists
def GenerateModelNameListExtraction(type, model):
"""
Function that generates an extraction function for list of string matching
a model
@param type: name of the data type
@param model: model that list elements must match
@return: function generated
"""
def GetModelNameList(attr, extract=True):
"""
Function that extracts a list of string from a tree node or not and
check that all extracted items match the model
@param attr: tree node containing data to extract or data as a string
@param extract: attr is a tree node or not
@return: data as a list of string if matching
"""
if extract:
value = GetAttributeValue(attr)
else:
value = attr
values = []
for item in value.split(" "):
result = model.match(item)
if result is not None:
values.append(item)
else:
raise ValueError("\"%s\" isn't a valid value for %s!" % (value, type))
return values
return GetModelNameList
def GenerateAnyInfos(infos):
def GetTextElement(tree):
if infos["namespace"][0] == "##any":
return tree.xpath("p")[0]
return tree.xpath("ns:p", namespaces={"ns": infos["namespace"][0]})[0]
def ExtractAny(tree):
return GetTextElement(tree).text
def GenerateAny(tree, value):
GetTextElement(tree).text = etree.CDATA(value)
def InitialAny():
if infos["namespace"][0] == "##any":
element_name = "p"
else:
element_name = "{%s}p" % infos["namespace"][0]
p = etree.Element(element_name)
p.text = etree.CDATA("")
return p
return {
"type": COMPLEXTYPE,
"extract": ExtractAny,
"generate": GenerateAny,
"initial": InitialAny,
"check": lambda x: isinstance(x, (StringType, UnicodeType, etree.ElementBase))
}
def GenerateTagInfos(infos):
def ExtractTag(tree):
if len(tree._attrs) > 0:
raise ValueError("\"%s\" musn't have attributes!" % infos["name"])
if len(tree.childNodes) > 0:
raise ValueError("\"%s\" musn't have children!" % infos["name"])
if infos["minOccurs"] == 0:
return True
else:
return None
def GenerateTag(value, name=None, indent=0):
if name is not None and not (infos["minOccurs"] == 0 and value is None):
ind1, ind2 = getIndent(indent, name)
return ind1 + "<%s/>\n" % name
else:
return ""
return {
"type": TAG,
"extract": ExtractTag,
"generate": GenerateTag,
"initial": lambda: None,
"check": lambda x: x is None or infos["minOccurs"] == 0 and value
}
def FindTypeInfos(factory, infos):
if isinstance(infos, (UnicodeType, StringType)):
namespace, name = DecomposeQualifiedName(infos)
return factory.GetQualifiedNameInfos(name, namespace)
return infos
def GetElementInitialValue(factory, infos):
infos["elmt_type"] = FindTypeInfos(factory, infos["elmt_type"])
if infos["minOccurs"] == 1:
element_name = factory.etreeNamespaceFormat % infos["name"]
if infos["elmt_type"]["type"] == SIMPLETYPE:
def initial_value():
value = etree.Element(element_name)
value.text = (infos["elmt_type"]["generate"](infos["elmt_type"]["initial"]()))
return value
else:
def initial_value():
value = infos["elmt_type"]["initial"]()
if infos["type"] != ANY:
DefaultElementClass.__setattr__(value, "tag", element_name)
value._init_()
return value
return [initial_value() for i in xrange(infos["minOccurs"])]
else:
return []
def GetContentInfos(name, choices):
for choice_infos in choices:
if choices_infos["type"] == "sequence":
for element_infos in choices_infos["elements"]:
if element_infos["type"] == CHOICE:
if GetContentInfos(name, element_infos["choices"]):
return choices_infos
elif element_infos["name"] == name:
return choices_infos
elif choice_infos["name"] == name:
return choices_infos
return None
def ComputeContentChoices(factory, name, infos):
choices = []
for choice in infos["choices"]:
if choice["type"] == "sequence":
choice["name"] = "sequence"
for sequence_element in choice["elements"]:
if sequence_element["type"] != CHOICE:
element_infos = factory.ExtractTypeInfos(sequence_element["name"], name, sequence_element["elmt_type"])
if element_infos is not None:
sequence_element["elmt_type"] = element_infos
elif choice["elmt_type"] == "tag":
choice["elmt_type"] = GenerateTagInfos(choice)
factory.AddToLookupClass(choice["name"], name, DefaultElementClass)
else:
choice_infos = factory.ExtractTypeInfos(choice["name"], name, choice["elmt_type"])
if choice_infos is not None:
choice["elmt_type"] = choice_infos
choices.append((choice["name"], choice))
return choices
def GenerateContentInfos(factory, name, choices):
choices_dict = {}
for choice_name, infos in choices:
if choice_name == "sequence":
for element in infos["elements"]:
if element["type"] == CHOICE:
element["elmt_type"] = GenerateContentInfos(factory, name, ComputeContentChoices(factory, name, element))
elif element["name"] in choices_dict:
raise ValueError("'%s' element defined two times in choice" % choice_name)
else:
choices_dict[element["name"]] = infos
else:
if choice_name in choices_dict:
raise ValueError("'%s' element defined two times in choice" % choice_name)
choices_dict[choice_name] = infos
prefix = ("%s:" % factory.TargetNamespace
if factory.TargetNamespace is not None else "")
choices_xpath = "|".join(map(lambda x: prefix + x, choices_dict.keys()))
def GetContentInitial():
content_name, infos = choices[0]
if content_name == "sequence":
content_value = []
for i in xrange(infos["minOccurs"]):
for element_infos in infos["elements"]:
content_value.extend(GetElementInitialValue(factory, element_infos))
else:
content_value = GetElementInitialValue(factory, infos)
return content_value
return {
"type": COMPLEXTYPE,
"choices_xpath": etree.XPath(choices_xpath, namespaces=factory.NSMAP),
"initial": GetContentInitial,
}
# -------------------------------------------------------------------------------
# Structure extraction functions
# -------------------------------------------------------------------------------
def DecomposeQualifiedName(name):
result = QName_model.match(name)
if not result:
raise ValueError("\"%s\" isn't a valid QName value!" % name)
parts = result.groups()[0].split(':')
if len(parts) == 1:
return None, parts[0]
return parts
def GenerateElement(element_name, attributes, elements_model,
accept_text=False):
def ExtractElement(factory, node):
attrs = factory.ExtractNodeAttrs(element_name, node, attributes)
children_structure = ""
children_infos = []
children = []
for child in node.childNodes:
if child.nodeName not in ["#comment", "#text"]:
namespace, childname = DecomposeQualifiedName(child.nodeName)
children_structure += "%s " % childname
result = elements_model.match(children_structure)
if not result:
raise ValueError("Invalid structure for \"%s\" children!. First element invalid." % node.nodeName)
valid = result.groups()[0]
if len(valid) < len(children_structure):
raise ValueError("Invalid structure for \"%s\" children!. Element number %d invalid." % (node.nodeName, len(valid.split(" ")) - 1))
for child in node.childNodes:
if child.nodeName != "#comment" and \
(accept_text or child.nodeName != "#text"):
if child.nodeName == "#text":
children.append(GetAttributeValue(node))
else:
namespace, childname = DecomposeQualifiedName(child.nodeName)
infos = factory.GetQualifiedNameInfos(childname, namespace)
if infos["type"] != SYNTAXELEMENT:
raise ValueError("\"%s\" can't be a member child!" % name)
if element_name in infos["extract"]:
children.append(infos["extract"][element_name](factory, child))
else:
children.append(infos["extract"]["default"](factory, child))
return node.nodeName, attrs, children
return ExtractElement
class ClassFactory(object):
"""
Class that generate class from an XML Tree
"""
def __init__(self, document, filepath=None, debug=False):
self.Document = document
if filepath is not None:
self.BaseFolder, self.FileName = os.path.split(filepath)
else:
self.BaseFolder = self.FileName = None
self.Debug = debug
# Dictionary for stocking Classes and Types definitions created from
# the XML tree
self.XMLClassDefinitions = {}
self.DefinedNamespaces = {}
self.NSMAP = {}
self.Namespaces = {}
self.SchemaNamespace = None
self.TargetNamespace = None
self.etreeNamespaceFormat = "%s"
self.CurrentCompilations = []
# Dictionaries for stocking Classes and Types generated
self.ComputeAfter = []
if self.FileName is not None:
self.ComputedClasses = {self.FileName: {}}
else:
self.ComputedClasses = {}
self.ComputedClassesInfos = {}
self.ComputedClassesLookUp = {}
self.EquivalentClassesParent = {}
self.AlreadyComputed = {}
def GetQualifiedNameInfos(self, name, namespace=None, canbenone=False):
if namespace is None:
if name in self.Namespaces[self.SchemaNamespace]:
return self.Namespaces[self.SchemaNamespace][name]
for space, elements in self.Namespaces.iteritems():
if space != self.SchemaNamespace and name in elements:
return elements[name]
parts = name.split("_", 1)
if len(parts) > 1:
group = self.GetQualifiedNameInfos(parts[0], namespace)
if group is not None and group["type"] == ELEMENTSGROUP:
elements = []
if "elements" in group:
elements = group["elements"]
elif "choices" in group:
elements = group["choices"]
for element in elements:
if element["name"] == parts[1]:
return element
if not canbenone:
raise ValueError("Unknown element \"%s\" for any defined namespaces!" % name)
elif namespace in self.Namespaces:
if name in self.Namespaces[namespace]:
return self.Namespaces[namespace][name]
parts = name.split("_", 1)
if len(parts) > 1:
group = self.GetQualifiedNameInfos(parts[0], namespace)
if group is not None and group["type"] == ELEMENTSGROUP:
elements = []
if "elements" in group:
elements = group["elements"]
elif "choices" in group:
elements = group["choices"]
for element in elements:
if element["name"] == parts[1]:
return element
if not canbenone:
raise ValueError("Unknown element \"%s\" for namespace \"%s\"!" % (name, namespace))
elif not canbenone:
raise ValueError("Unknown namespace \"%s\"!" % namespace)
return None
def SplitQualifiedName(self, name, namespace=None, canbenone=False):
if namespace is None:
if name in self.Namespaces[self.SchemaNamespace]:
return name, None
for space, elements in self.Namespaces.items():
if space != self.SchemaNamespace and name in elements:
return name, None
parts = name.split("_", 1)
if len(parts) > 1:
group = self.GetQualifiedNameInfos(parts[0], namespace)
if group is not None and group["type"] == ELEMENTSGROUP:
elements = []
if "elements" in group:
elements = group["elements"]
elif "choices" in group:
elements = group["choices"]
for element in elements:
if element["name"] == parts[1]:
return part[1], part[0]
if not canbenone:
raise ValueError("Unknown element \"%s\" for any defined namespaces!" % name)
elif namespace in self.Namespaces:
if name in self.Namespaces[namespace]:
return name, None
parts = name.split("_", 1)
if len(parts) > 1:
group = self.GetQualifiedNameInfos(parts[0], namespace)
if group is not None and group["type"] == ELEMENTSGROUP:
elements = []
if "elements" in group:
elements = group["elements"]
elif "choices" in group:
elements = group["choices"]
for element in elements:
if element["name"] == parts[1]:
return parts[1], parts[0]
if not canbenone:
raise ValueError("Unknown element \"%s\" for namespace \"%s\"!" % (name, namespace))
elif not canbenone:
raise ValueError("Unknown namespace \"%s\"!" % namespace)
return None, None
def ExtractNodeAttrs(self, element_name, node, valid_attrs):
attrs = {}
for qualified_name, attr in node._attrs.items():
namespace, name = DecomposeQualifiedName(qualified_name)
if name in valid_attrs:
infos = self.GetQualifiedNameInfos(name, namespace)
if infos["type"] != SYNTAXATTRIBUTE:
raise ValueError("\"%s\" can't be a member attribute!" % name)
elif name in attrs:
raise ValueError("\"%s\" attribute has been twice!" % name)
elif element_name in infos["extract"]:
attrs[name] = infos["extract"][element_name](attr)
else:
attrs[name] = infos["extract"]["default"](attr)
elif namespace == "xmlns":
infos = self.GetQualifiedNameInfos("anyURI", self.SchemaNamespace)
value = infos["extract"](attr)
self.DefinedNamespaces[value] = name
self.NSMAP[name] = value
else:
raise ValueError("Invalid attribute \"%s\" for member \"%s\"!" % (qualified_name, node.nodeName))
for attr in valid_attrs:
if attr not in attrs and \
attr in self.Namespaces[self.SchemaNamespace] and \
"default" in self.Namespaces[self.SchemaNamespace][attr]:
if element_name in self.Namespaces[self.SchemaNamespace][attr]["default"]:
default = self.Namespaces[self.SchemaNamespace][attr]["default"][element_name]
else:
default = self.Namespaces[self.SchemaNamespace][attr]["default"]["default"]
if default is not None:
attrs[attr] = default
return attrs
def ReduceElements(self, elements, schema=False):
result = []
for child_infos in elements:
if child_infos is not None:
if "name" in child_infos[1] and schema:
self.CurrentCompilations.append(child_infos[1]["name"])
namespace, name = DecomposeQualifiedName(child_infos[0])
infos = self.GetQualifiedNameInfos(name, namespace)
if infos["type"] != SYNTAXELEMENT:
raise ValueError("\"%s\" can't be a member child!" % name)
element = infos["reduce"](self, child_infos[1], child_infos[2])
if element is not None:
result.append(element)
if "name" in child_infos[1] and schema:
self.CurrentCompilations.pop(-1)
annotations = []
children = []
for element in result:
if element["type"] == "annotation":
annotations.append(element)
else:
children.append(element)
return annotations, children
def AddComplexType(self, typename, infos):
if typename not in self.XMLClassDefinitions:
self.XMLClassDefinitions[typename] = infos
else:
raise ValueError("\"%s\" class already defined. Choose another name!" % typename)
def ParseSchema(self):
pass
def AddEquivalentClass(self, name, base):
if name != base:
equivalences = self.EquivalentClassesParent.setdefault(self.etreeNamespaceFormat % base, {})
equivalences[self.etreeNamespaceFormat % name] = True
def AddDistinctionBetweenParentsInLookupClass(
self, lookup_classes, parent, typeinfos):
parent = (self.etreeNamespaceFormat % parent
if parent is not None else None)
parent_class = lookup_classes.get(parent)
if parent_class is not None:
if isinstance(parent_class, ListType):
if typeinfos not in parent_class:
lookup_classes[parent].append(typeinfos)
elif parent_class != typeinfos:
lookup_classes[parent] = [typeinfos, parent_class]
else:
lookup_classes[parent] = typeinfos
def AddToLookupClass(self, name, parent, typeinfos):
lookup_name = self.etreeNamespaceFormat % name
if isinstance(typeinfos, (StringType, UnicodeType)):
self.AddEquivalentClass(name, typeinfos)
typeinfos = self.etreeNamespaceFormat % typeinfos
lookup_classes = self.ComputedClassesLookUp.get(lookup_name)
if lookup_classes is None:
self.ComputedClassesLookUp[lookup_name] = (typeinfos, parent)
elif isinstance(lookup_classes, DictType):
self.AddDistinctionBetweenParentsInLookupClass(
lookup_classes, parent, typeinfos)
else:
lookup_classes = {
self.etreeNamespaceFormat % lookup_classes[1]
if lookup_classes[1] is not None else None: lookup_classes[0]}
self.AddDistinctionBetweenParentsInLookupClass(
lookup_classes, parent, typeinfos)
self.ComputedClassesLookUp[lookup_name] = lookup_classes
def ExtractTypeInfos(self, name, parent, typeinfos):
if isinstance(typeinfos, (StringType, UnicodeType)):
namespace, type_name = DecomposeQualifiedName(typeinfos)
infos = self.GetQualifiedNameInfos(type_name, namespace)
if name != "base":
if infos["type"] == SIMPLETYPE:
self.AddToLookupClass(name, parent, DefaultElementClass)
elif namespace == self.TargetNamespace:
self.AddToLookupClass(name, parent, type_name)
if infos["type"] == COMPLEXTYPE:
type_name, parent = self.SplitQualifiedName(type_name, namespace)
result = self.CreateClass(type_name, parent, infos)
if result is not None and not isinstance(result, (UnicodeType, StringType)):
self.Namespaces[self.TargetNamespace][result["name"]] = result
return result
elif infos["type"] == ELEMENT and infos["elmt_type"]["type"] == COMPLEXTYPE:
type_name, parent = self.SplitQualifiedName(type_name, namespace)
result = self.CreateClass(type_name, parent, infos["elmt_type"])
if result is not None and not isinstance(result, (UnicodeType, StringType)):
self.Namespaces[self.TargetNamespace][result["name"]] = result
return result
else:
return infos
elif typeinfos["type"] == COMPLEXTYPE:
return self.CreateClass(name, parent, typeinfos)
elif typeinfos["type"] == SIMPLETYPE:
return typeinfos
def GetEquivalentParents(self, parent):
return reduce(lambda x, y: x + y,
[[p] + self.GetEquivalentParents(p)
for p in self.EquivalentClassesParent.get(parent, {}).keys()], [])
"""
Methods that generates the classes
"""
def CreateClasses(self):
self.ParseSchema()
for name, infos in self.Namespaces[self.TargetNamespace].items():
if infos["type"] == ELEMENT:
if not isinstance(infos["elmt_type"], (UnicodeType, StringType)) and \
infos["elmt_type"]["type"] == COMPLEXTYPE:
self.ComputeAfter.append((name, None, infos["elmt_type"], True))
while len(self.ComputeAfter) > 0:
result = self.CreateClass(*self.ComputeAfter.pop(0))
if result is not None and not isinstance(result, (UnicodeType, StringType)):
self.Namespaces[self.TargetNamespace][result["name"]] = result
elif infos["type"] == COMPLEXTYPE:
self.ComputeAfter.append((name, None, infos))
while len(self.ComputeAfter) > 0:
result = self.CreateClass(*self.ComputeAfter.pop(0))
if result is not None and \
not isinstance(result, (UnicodeType, StringType)):
self.Namespaces[self.TargetNamespace][result["name"]] = result
elif infos["type"] == ELEMENTSGROUP:
elements = []
if "elements" in infos:
elements = infos["elements"]
elif "choices" in infos:
elements = infos["choices"]
for element in elements:
if not isinstance(element["elmt_type"], (UnicodeType, StringType)) and \
element["elmt_type"]["type"] == COMPLEXTYPE:
self.ComputeAfter.append((element["name"], infos["name"], element["elmt_type"]))
while len(self.ComputeAfter) > 0:
result = self.CreateClass(*self.ComputeAfter.pop(0))
if result is not None and \
not isinstance(result, (UnicodeType, StringType)):
self.Namespaces[self.TargetNamespace][result["name"]] = result
for name, parents in self.ComputedClassesLookUp.iteritems():
if isinstance(parents, DictType):
computed_classes = parents.items()
elif parents[1] is not None:
computed_classes = [(self.etreeNamespaceFormat % parents[1], parents[0])]
else:
computed_classes = []
for parent, computed_class in computed_classes:
for equivalent_parent in self.GetEquivalentParents(parent):
if not isinstance(parents, DictType):
parents = dict(computed_classes)
self.ComputedClassesLookUp[name] = parents
parents[equivalent_parent] = computed_class
return self.ComputedClasses
def CreateClass(self, name, parent, classinfos, baseclass=False):
if parent is not None:
classname = "%s_%s" % (parent, name)
else:
classname = name
# Checks that classe haven't been generated yet
if self.AlreadyComputed.get(classname, False):
return self.ComputedClassesInfos.get(classname, None)
# If base classes haven't been generated
bases = []
base_infos = classinfos.get("base", None)
if base_infos is not None:
namespace, base_name = DecomposeQualifiedName(base_infos)
if namespace == self.TargetNamespace:
self.AddEquivalentClass(name, base_name)
result = self.ExtractTypeInfos("base", name, base_infos)
if result is None:
namespace, base_name = DecomposeQualifiedName(base_infos)
if self.AlreadyComputed.get(base_name, False):
self.ComputeAfter.append((name, parent, classinfos))
if self.TargetNamespace is not None:
return "%s:%s" % (self.TargetNamespace, classname)
else:
return classname
elif result is not None:
if self.FileName is not None:
classinfos["base"] = self.ComputedClasses[self.FileName].get(result["name"], None)
if classinfos["base"] is None:
for filename, classes in self.ComputedClasses.iteritems():
if filename != self.FileName:
classinfos["base"] = classes.get(result["name"], None)
if classinfos["base"] is not None:
break
else:
classinfos["base"] = self.ComputedClasses.get(result["name"], None)
if classinfos["base"] is None:
raise ValueError("No class found for base type")
bases.append(classinfos["base"])
bases.append(DefaultElementClass)
bases = tuple(bases)
classmembers = {"__doc__": classinfos.get("doc", ""), "IsBaseClass": baseclass}
self.AlreadyComputed[classname] = True
for attribute in classinfos["attributes"]:
infos = self.ExtractTypeInfos(attribute["name"], name, attribute["attr_type"])
if infos is not None:
if infos["type"] != SIMPLETYPE:
raise ValueError("\"%s\" type is not a simple type!" % attribute["attr_type"])
attrname = attribute["name"]
if attribute["use"] == "optional":
classmembers["add%s" % attrname] = generateAddMethod(attrname, self, attribute)
classmembers["delete%s" % attrname] = generateDeleteMethod(attrname)
classmembers["set%s" % attrname] = generateSetMethod(attrname)
classmembers["get%s" % attrname] = generateGetMethod(attrname)
else:
raise ValueError("\"%s\" type unrecognized!" % attribute["attr_type"])
attribute["attr_type"] = infos
for element in classinfos["elements"]:
if element["type"] == CHOICE:
elmtname = element["name"]
choices = ComputeContentChoices(self, name, element)
classmembers["get%schoices" % elmtname] = generateGetChoicesMethod(element["choices"])
if element["maxOccurs"] == "unbounded" or element["maxOccurs"] > 1:
classmembers["append%sbytype" % elmtname] = generateAppendChoiceByTypeMethod(element["maxOccurs"], self, element["choices"])
classmembers["insert%sbytype" % elmtname] = generateInsertChoiceByTypeMethod(element["maxOccurs"], self, element["choices"])
else:
classmembers["set%sbytype" % elmtname] = generateSetChoiceByTypeMethod(self, element["choices"])
infos = GenerateContentInfos(self, name, choices)
elif element["type"] == ANY:
elmtname = element["name"] = "anyText"
element["minOccurs"] = element["maxOccurs"] = 1
infos = GenerateAnyInfos(element)
else:
elmtname = element["name"]
if element["elmt_type"] == "tag":
infos = GenerateTagInfos(element)
self.AddToLookupClass(element["name"], name, DefaultElementClass)
else:
infos = self.ExtractTypeInfos(element["name"], name, element["elmt_type"])
if infos is not None:
element["elmt_type"] = infos
if element["maxOccurs"] == "unbounded" or element["maxOccurs"] > 1:
classmembers["append%s" % elmtname] = generateAppendMethod(elmtname, element["maxOccurs"], self, element)
classmembers["insert%s" % elmtname] = generateInsertMethod(elmtname, element["maxOccurs"], self, element)
classmembers["remove%s" % elmtname] = generateRemoveMethod(elmtname, element["minOccurs"])
classmembers["count%s" % elmtname] = generateCountMethod(elmtname)
else:
if element["minOccurs"] == 0:
classmembers["add%s" % elmtname] = generateAddMethod(elmtname, self, element)
classmembers["delete%s" % elmtname] = generateDeleteMethod(elmtname)
classmembers["set%s" % elmtname] = generateSetMethod(elmtname)
classmembers["get%s" % elmtname] = generateGetMethod(elmtname)
classmembers["_init_"] = generateInitMethod(self, classinfos)
classmembers["StructurePattern"] = GetStructurePattern(classinfos)
classmembers["getElementAttributes"] = generateGetElementAttributes(self, classinfos)
classmembers["getElementInfos"] = generateGetElementInfos(self, classinfos)
classmembers["setElementValue"] = generateSetElementValue(self, classinfos)
class_definition = classobj(str(name), bases, classmembers)
setattr(class_definition, "__getattr__", generateGetattrMethod(self, class_definition, classinfos))
setattr(class_definition, "__setattr__", generateSetattrMethod(self, class_definition, classinfos))
class_infos = {
"type": COMPILEDCOMPLEXTYPE,
"name": classname,
"initial": generateClassCreateFunction(class_definition),
}
if self.FileName is not None:
self.ComputedClasses[self.FileName][classname] = class_definition
else:
self.ComputedClasses[classname] = class_definition
self.ComputedClassesInfos[classname] = class_infos
self.AddToLookupClass(name, parent, class_definition)
self.AddToLookupClass(classname, None, class_definition)
return class_infos
"""
Methods that print the classes generated
"""
def PrintClasses(self):
items = self.ComputedClasses.items()
items.sort()
if self.FileName is not None:
for filename, classes in items:
print("File '%s':" % filename)
class_items = classes.items()
class_items.sort()
for classname, xmlclass in class_items:
print("%s: %s" % (classname, str(xmlclass)))
else:
for classname, xmlclass in items:
print("%s: %s" % (classname, str(xmlclass)))
def PrintClassNames(self):
classnames = self.XMLClassDefinitions.keys()
classnames.sort()
for classname in classnames:
print(classname)
def ComputeMultiplicity(name, infos):
"""
Method that generate the method for generating the xml tree structure model by
following the attributes list defined
"""
if infos["minOccurs"] == 0:
if infos["maxOccurs"] == "unbounded":
return "(?:%s)*" % name
elif infos["maxOccurs"] == 1:
return "(?:%s)?" % name
else:
return "(?:%s){,%d}" % (name, infos["maxOccurs"])
elif infos["minOccurs"] == 1:
if infos["maxOccurs"] == "unbounded":
return "(?:%s)+" % name
elif infos["maxOccurs"] == 1:
return "(?:%s)" % name
else:
return "(?:%s){1,%d}" % (name, infos["maxOccurs"])
else:
if infos["maxOccurs"] == "unbounded":
return "(?:%s){%d,}" % (name, infos["minOccurs"], name)
else:
return "(?:%s){%d,%d}" % (name,
infos["minOccurs"],
infos["maxOccurs"])
def GetStructurePattern(classinfos):
base_structure_pattern = (
classinfos["base"].StructurePattern.pattern[:-1]
if "base" in classinfos else "")
elements = []
for element in classinfos["elements"]:
if element["type"] == ANY:
infos = element.copy()
infos["minOccurs"] = 0
elements.append(ComputeMultiplicity("#text |#cdata-section |\w* ", infos))
elif element["type"] == CHOICE:
choices = []
for infos in element["choices"]:
if infos["type"] == "sequence":
structure = "(?:%s)" % GetStructurePattern(infos)
else:
structure = "%s " % infos["name"]
choices.append(ComputeMultiplicity(structure, infos))
elements.append(ComputeMultiplicity("|".join(choices), element))
elif element["name"] == "content" and element["elmt_type"]["type"] == SIMPLETYPE:
elements.append("(?:#text |#cdata-section )?")
else:
elements.append(ComputeMultiplicity("%s " % element["name"], element))
if classinfos.get("order", True) or len(elements) == 0:
return re.compile(base_structure_pattern + "".join(elements) + "$")
else:
raise ValueError("XSD structure not yet supported!")
def generateClassCreateFunction(class_definition):
"""
Method that generate the method for creating a class instance
"""
def classCreatefunction():
return class_definition()
return classCreatefunction
def generateGetattrMethod(factory, class_definition, classinfos):
attributes = dict([(attr["name"], attr) for attr in classinfos["attributes"] if attr["use"] != "prohibited"])
optional_attributes = dict([(attr["name"], True) for attr in classinfos["attributes"] if attr["use"] == "optional"])
elements = dict([(element["name"], element) for element in classinfos["elements"]])
def getattrMethod(self, name):
if name in attributes:
attribute_infos = attributes[name]
attribute_infos["attr_type"] = FindTypeInfos(factory, attribute_infos["attr_type"])
value = self.get(name)
if value is not None:
return attribute_infos["attr_type"]["extract"](value, extract=False)
elif "fixed" in attribute_infos:
return attribute_infos["attr_type"]["extract"](attribute_infos["fixed"], extract=False)
elif "default" in attribute_infos:
return attribute_infos["attr_type"]["extract"](attribute_infos["default"], extract=False)
return None
elif name in elements:
element_infos = elements[name]
element_infos["elmt_type"] = FindTypeInfos(factory, element_infos["elmt_type"])
if element_infos["type"] == CHOICE:
content = element_infos["elmt_type"]["choices_xpath"](self)
if element_infos["maxOccurs"] == "unbounded" or element_infos["maxOccurs"] > 1:
return content
elif len(content) > 0:
return content[0]
return None
elif element_infos["type"] == ANY:
return element_infos["elmt_type"]["extract"](self)
elif name == "content" and element_infos["elmt_type"]["type"] == SIMPLETYPE:
return element_infos["elmt_type"]["extract"](self.text, extract=False)
else:
element_name = factory.etreeNamespaceFormat % name
if element_infos["maxOccurs"] == "unbounded" or element_infos["maxOccurs"] > 1:
values = self.findall(element_name)
if element_infos["elmt_type"]["type"] == SIMPLETYPE:
return map(lambda value:
element_infos["elmt_type"]["extract"](value.text, extract=False),
values)
return values
else:
value = self.find(element_name)
if element_infos["elmt_type"]["type"] == SIMPLETYPE:
return element_infos["elmt_type"]["extract"](value.text, extract=False)
return value
elif "base" in classinfos:
return classinfos["base"].__getattr__(self, name)
return DefaultElementClass.__getattribute__(self, name)
return getattrMethod
def generateSetattrMethod(factory, class_definition, classinfos):
attributes = dict([(attr["name"], attr) for attr in classinfos["attributes"] if attr["use"] != "prohibited"])
optional_attributes = dict([(attr["name"], True) for attr in classinfos["attributes"] if attr["use"] == "optional"])
elements = OrderedDict([(element["name"], element) for element in classinfos["elements"]])
def setattrMethod(self, name, value):
if name in attributes:
attribute_infos = attributes[name]
attribute_infos["attr_type"] = FindTypeInfos(factory, attribute_infos["attr_type"])
if optional_attributes.get(name, False):
default = attribute_infos.get("default", None)
if value is None or value == default:
self.attrib.pop(name, None)
return
elif "fixed" in attribute_infos:
return
return self.set(name, attribute_infos["attr_type"]["generate"](value))
elif name in elements:
element_infos = elements[name]
element_infos["elmt_type"] = FindTypeInfos(factory, element_infos["elmt_type"])
if element_infos["type"] == ANY:
element_infos["elmt_type"]["generate"](self, value)
elif name == "content" and element_infos["elmt_type"]["type"] == SIMPLETYPE:
self.text = element_infos["elmt_type"]["generate"](value)
else:
prefix = ("%s:" % factory.TargetNamespace
if factory.TargetNamespace is not None else "")
element_xpath = (prefix + name
if name != "content"
else elements["content"]["elmt_type"]["choices_xpath"].path)
for element in self.xpath(element_xpath, namespaces=factory.NSMAP):
self.remove(element)
if value is not None:
element_idx = elements.keys().index(name)
if element_idx > 0:
previous_elements_xpath = "|".join(map(
lambda x: prefix + x
if x != "content"
else elements["content"]["elmt_type"]["choices_xpath"].path,
elements.keys()[:element_idx]))
insertion_point = len(self.xpath(previous_elements_xpath, namespaces=factory.NSMAP))
else:
insertion_point = 0
if not isinstance(value, ListType):
value = [value]
for element in reversed(value):
if element_infos["elmt_type"]["type"] == SIMPLETYPE:
tmp_element = etree.Element(factory.etreeNamespaceFormat % name)
tmp_element.text = element_infos["elmt_type"]["generate"](element)
element = tmp_element
self.insert(insertion_point, element)
elif "base" in classinfos:
return classinfos["base"].__setattr__(self, name, value)
else:
raise AttributeError("'%s' can't have an attribute '%s'." % (self.__class__.__name__, name))
return setattrMethod
def gettypeinfos(name, facets):
if "enumeration" in facets and facets["enumeration"][0] is not None:
return facets["enumeration"][0]
elif "maxInclusive" in facets:
limits = {"max": None, "min": None}
if facets["maxInclusive"][0] is not None:
limits["max"] = facets["maxInclusive"][0]
elif facets["maxExclusive"][0] is not None:
limits["max"] = facets["maxExclusive"][0] - 1
if facets["minInclusive"][0] is not None:
limits["min"] = facets["minInclusive"][0]
elif facets["minExclusive"][0] is not None:
limits["min"] = facets["minExclusive"][0] + 1
if limits["max"] is not None or limits["min"] is not None:
return limits
return name
def generateGetElementAttributes(factory, classinfos):
def getElementAttributes(self):
attr_list = []
if "base" in classinfos:
attr_list.extend(classinfos["base"].getElementAttributes(self))
for attr in classinfos["attributes"]:
if attr["use"] != "prohibited":
attr_params = {
"name": attr["name"],
"use": attr["use"],
"type": gettypeinfos(attr["attr_type"]["basename"], attr["attr_type"]["facets"]),
"value": getattr(self, attr["name"], "")}
attr_list.append(attr_params)
return attr_list
return getElementAttributes
def generateGetElementInfos(factory, classinfos):
attributes = dict([(attr["name"], attr) for attr in classinfos["attributes"] if attr["use"] != "prohibited"])
elements = dict([(element["name"], element) for element in classinfos["elements"]])
def getElementInfos(self, name, path=None, derived=False):
attr_type = "element"
value = None
use = "required"
children = []
if path is not None:
parts = path.split(".", 1)
if parts[0] in attributes:
if len(parts) != 1:
raise ValueError("Wrong path!")
attr_type = gettypeinfos(attributes[parts[0]]["attr_type"]["basename"],
attributes[parts[0]]["attr_type"]["facets"])
value = getattr(self, parts[0], "")
elif parts[0] in elements:
if elements[parts[0]]["elmt_type"]["type"] == SIMPLETYPE:
if len(parts) != 1:
raise ValueError("Wrong path!")
attr_type = gettypeinfos(elements[parts[0]]["elmt_type"]["basename"],
elements[parts[0]]["elmt_type"]["facets"])
value = getattr(self, parts[0], "")
elif parts[0] == "content":
return self.content.getElementInfos(self.content.getLocalTag(), path)
else:
attr = getattr(self, parts[0], None)
if attr is None:
raise ValueError("Wrong path!")
if len(parts) == 1:
return attr.getElementInfos(parts[0])
else:
return attr.getElementInfos(parts[0], parts[1])
elif "content" in elements:
if len(parts) > 0:
return self.content.getElementInfos(name, path)
elif "base" in classinfos:
classinfos["base"].getElementInfos(name, path)
else:
raise ValueError("Wrong path!")
else:
if not derived:
children.extend(self.getElementAttributes())
if "base" in classinfos:
children.extend(classinfos["base"].getElementInfos(self, name, derived=True)["children"])
for element_name, element in elements.items():
if element["minOccurs"] == 0:
use = "optional"
if element_name == "content" and element["type"] == CHOICE:
attr_type = [(choice["name"], None) for choice in element["choices"]]
if self.content is None:
value = ""
else:
value = self.content.getLocalTag()
if self.content is not None:
children.extend(self.content.getElementInfos(value)["children"])
elif element["elmt_type"]["type"] == SIMPLETYPE:
children.append({
"name": element_name,
"require": element["minOccurs"] != 0,
"type": gettypeinfos(element["elmt_type"]["basename"],
element["elmt_type"]["facets"]),
"value": getattr(self, element_name, None)})
else:
instance = getattr(self, element_name, None)
if instance is None:
instance = element["elmt_type"]["initial"]()
children.append(instance.getElementInfos(element_name))
return {"name": name, "type": attr_type, "value": value, "use": use, "children": children}
return getElementInfos
def generateSetElementValue(factory, classinfos):
attributes = dict([(attr["name"], attr) for attr in classinfos["attributes"] if attr["use"] != "prohibited"])
elements = dict([(element["name"], element) for element in classinfos["elements"]])
def setElementValue(self, path, value):
if path is not None:
parts = path.split(".", 1)
if parts[0] in attributes:
if len(parts) != 1:
raise ValueError("Wrong path!")
if attributes[parts[0]]["attr_type"]["basename"] == "boolean":
setattr(self, parts[0], value)
elif attributes[parts[0]]["use"] == "optional" and value == "":
if "default" in attributes[parts[0]]:
setattr(self, parts[0],
attributes[parts[0]]["attr_type"]["extract"](
attributes[parts[0]]["default"], False))
else:
setattr(self, parts[0], None)
else:
setattr(self, parts[0], attributes[parts[0]]["attr_type"]["extract"](value, False))
elif parts[0] in elements:
if elements[parts[0]]["elmt_type"]["type"] == SIMPLETYPE:
if len(parts) != 1:
raise ValueError("Wrong path!")
if elements[parts[0]]["elmt_type"]["basename"] == "boolean":
setattr(self, parts[0], value)
elif attributes[parts[0]]["minOccurs"] == 0 and value == "":
setattr(self, parts[0], None)
else:
setattr(self, parts[0], elements[parts[0]]["elmt_type"]["extract"](value, False))
else:
instance = getattr(self, parts[0], None)
if instance is None and elements[parts[0]]["minOccurs"] == 0:
instance = elements[parts[0]]["elmt_type"]["initial"]()
setattr(self, parts[0], instance)
if instance is not None:
if len(parts) > 1:
instance.setElementValue(parts[1], value)
else:
instance.setElementValue(None, value)
elif "content" in elements:
if len(parts) > 0:
self.content.setElementValue(path, value)
elif "base" in classinfos:
classinfos["base"].setElementValue(self, path, value)
elif "content" in elements:
if value == "":
if elements["content"]["minOccurs"] == 0:
self.setcontent([])
else:
raise ValueError("\"content\" element is required!")
else:
self.setcontentbytype(value)
return setElementValue
def generateInitMethod(factory, classinfos):
"""
Methods that generates the different methods for setting and getting the attributes
"""
def initMethod(self):
if "base" in classinfos:
classinfos["base"]._init_(self)
for attribute in classinfos["attributes"]:
attribute["attr_type"] = FindTypeInfos(factory, attribute["attr_type"])
if attribute["use"] == "required":
self.set(attribute["name"], attribute["attr_type"]["generate"](attribute["attr_type"]["initial"]()))
for element in classinfos["elements"]:
if element["type"] != CHOICE:
element_name = (
etree.QName(factory.NSMAP["xhtml"], "p")
if element["type"] == ANY
else factory.etreeNamespaceFormat % element["name"])
initial = GetElementInitialValue(factory, element)
if initial is not None:
map(self.append, initial)
return initMethod
def generateSetMethod(attr):
def setMethod(self, value):
setattr(self, attr, value)
return setMethod
def generateGetMethod(attr):
def getMethod(self):
return getattr(self, attr, None)
return getMethod
def generateAddMethod(attr, factory, infos):
def addMethod(self):
if infos["type"] == ATTRIBUTE:
infos["attr_type"] = FindTypeInfos(factory, infos["attr_type"])
if "default" not in infos:
setattr(self, attr, infos["attr_type"]["initial"]())
elif infos["type"] == ELEMENT:
infos["elmt_type"] = FindTypeInfos(factory, infos["elmt_type"])
value = infos["elmt_type"]["initial"]()
DefaultElementClass.__setattr__(value, "tag", factory.etreeNamespaceFormat % attr)
setattr(self, attr, value)
value._init_()
else:
raise ValueError("Invalid class attribute!")
return addMethod
def generateDeleteMethod(attr):
def deleteMethod(self):
setattr(self, attr, None)
return deleteMethod
def generateAppendMethod(attr, maxOccurs, factory, infos):
def appendMethod(self, value):
infos["elmt_type"] = FindTypeInfos(factory, infos["elmt_type"])
attr_list = getattr(self, attr)
if maxOccurs == "unbounded" or len(attr_list) < maxOccurs:
if len(attr_list) == 0:
setattr(self, attr, [value])
else:
attr_list[-1].addnext(value)
else:
raise ValueError("There can't be more than %d values in \"%s\"!" % (maxOccurs, attr))
return appendMethod
def generateInsertMethod(attr, maxOccurs, factory, infos):
def insertMethod(self, index, value):
infos["elmt_type"] = FindTypeInfos(factory, infos["elmt_type"])
attr_list = getattr(self, attr)
if maxOccurs == "unbounded" or len(attr_list) < maxOccurs:
if len(attr_list) == 0:
setattr(self, attr, [value])
elif index == 0:
attr_list[0].addprevious(value)
else:
attr_list[min(index - 1, len(attr_list) - 1)].addnext(value)
else:
raise ValueError("There can't be more than %d values in \"%s\"!" % (maxOccurs, attr))
return insertMethod
def generateGetChoicesMethod(choice_types):
def getChoicesMethod(self):
return [choice["name"] for choice in choice_types]
return getChoicesMethod
def generateSetChoiceByTypeMethod(factory, choice_types):
choices = dict([(choice["name"], choice) for choice in choice_types])
def setChoiceMethod(self, content_type):
if content_type not in choices:
raise ValueError("Unknown \"%s\" choice type for \"content\"!" % content_type)
choices[content_type]["elmt_type"] = FindTypeInfos(factory, choices[content_type]["elmt_type"])
new_content = choices[content_type]["elmt_type"]["initial"]()
DefaultElementClass.__setattr__(new_content, "tag", factory.etreeNamespaceFormat % content_type)
self.content = new_content
return new_content
return setChoiceMethod
def generateAppendChoiceByTypeMethod(maxOccurs, factory, choice_types):
choices = dict([(choice["name"], choice) for choice in choice_types])
def appendChoiceMethod(self, content_type):
if content_type not in choices:
raise ValueError("Unknown \"%s\" choice type for \"content\"!" % content_type)
choices[content_type]["elmt_type"] = FindTypeInfos(factory, choices[content_type]["elmt_type"])
if maxOccurs == "unbounded" or len(self.content) < maxOccurs:
new_element = choices[content_type]["elmt_type"]["initial"]()
DefaultElementClass.__setattr__(new_element, "tag", factory.etreeNamespaceFormat % content_type)
self.appendcontent(new_element)
return new_element
else:
raise ValueError("There can't be more than %d values in \"content\"!" % maxOccurs)
return appendChoiceMethod
def generateInsertChoiceByTypeMethod(maxOccurs, factory, choice_types):
choices = dict([(choice["name"], choice) for choice in choice_types])
def insertChoiceMethod(self, index, content_type):
if content_type not in choices:
raise ValueError("Unknown \"%s\" choice type for \"content\"!" % content_type)
choices[type]["elmt_type"] = FindTypeInfos(factory, choices[content_type]["elmt_type"])
if maxOccurs == "unbounded" or len(self.content) < maxOccurs:
new_element = choices[content_type]["elmt_type"]["initial"]()
DefaultElementClass.__setattr__(new_element, "tag", factory.etreeNamespaceFormat % content_type)
self.insertcontent(index, new_element)
return new_element
else:
raise ValueError("There can't be more than %d values in \"content\"!" % maxOccurs)
return insertChoiceMethod
def generateRemoveMethod(attr, minOccurs):
def removeMethod(self, index):
attr_list = getattr(self, attr)
if len(attr_list) > minOccurs:
self.remove(attr_list[index])
else:
raise ValueError("There can't be less than %d values in \"%s\"!" % (minOccurs, attr))
return removeMethod
def generateCountMethod(attr):
def countMethod(self):
return len(getattr(self, attr))
return countMethod
"""
This function generate a xml parser from a class factory
"""
NAMESPACE_PATTERN = re.compile("xmlns(?:\:[^\=]*)?=\"[^\"]*\" ")
class DefaultElementClass(etree.ElementBase):
StructurePattern = re.compile("$")
def _init_(self):
pass
def getLocalTag(self):
return etree.QName(self.tag).localname
def tostring(self):
return NAMESPACE_PATTERN.sub("", etree.tostring(self, pretty_print=True, encoding='utf-8')).decode('utf-8')
class XMLElementClassLookUp(etree.PythonElementClassLookup):
def __init__(self, classes, *args, **kwargs):
etree.PythonElementClassLookup.__init__(self, *args, **kwargs)
self.LookUpClasses = classes
def GetElementClass(self, element_tag, parent_tag=None, default=DefaultElementClass):
element_class = self.LookUpClasses.get(element_tag, (default, None))
if not isinstance(element_class, DictType):
if isinstance(element_class[0], (StringType, UnicodeType)):
return self.GetElementClass(element_class[0], default=default)
return element_class[0]
element_with_parent_class = element_class.get(parent_tag, default)
if isinstance(element_with_parent_class, (StringType, UnicodeType)):
return self.GetElementClass(element_with_parent_class, default=default)
return element_with_parent_class
def lookup(self, document, element):
parent = element.getparent()
element_class = self.GetElementClass(
element.tag, parent.tag if parent is not None else None)
if isinstance(element_class, ListType):
children = "".join([
"%s " % etree.QName(child.tag).localname
for child in element])
for possible_class in element_class:
if isinstance(possible_class, (StringType, UnicodeType)):
possible_class = self.GetElementClass(possible_class)
if possible_class.StructurePattern.match(children) is not None:
return possible_class
return element_class[0]
return element_class
class XMLClassParser(etree.XMLParser):
def __init__(self, namespaces, default_namespace_format, base_class, xsd_schema, *args, **kwargs):
etree.XMLParser.__init__(self, *args, **kwargs)
self.DefaultNamespaceFormat = default_namespace_format
self.NSMAP = namespaces
targetNamespace = etree.QName(default_namespace_format % "d").namespace
if targetNamespace is not None:
self.RootNSMAP = {
name if targetNamespace != uri else None: uri
for name, uri in namespaces.iteritems()}
else:
self.RootNSMAP = namespaces
self.BaseClass = base_class
self.XSDSchema = xsd_schema
def set_element_class_lookup(self, class_lookup):
etree.XMLParser.set_element_class_lookup(self, class_lookup)
self.ClassLookup = class_lookup
def LoadXMLString(self, xml_string):
tree = etree.fromstring(xml_string, self)
if not self.XSDSchema.validate(tree):
error = self.XSDSchema.error_log.last_error
return tree, (error.line, error.message)
return tree, None
def Dumps(self, xml_obj):
return etree.tostring(xml_obj, encoding='utf-8')
def Loads(self, xml_string):
return etree.fromstring(xml_string, self)
def CreateRoot(self):
if self.BaseClass is not None:
root = self.makeelement(
self.DefaultNamespaceFormat % self.BaseClass[0],
nsmap=self.RootNSMAP)
root._init_()
return root
return None
def GetElementClass(self, element_tag, parent_tag=None):
return self.ClassLookup.GetElementClass(
self.DefaultNamespaceFormat % element_tag,
self.DefaultNamespaceFormat % parent_tag
if parent_tag is not None else parent_tag,
None)
def CreateElement(self, element_tag, parent_tag=None, class_idx=None):
element_class = self.GetElementClass(element_tag, parent_tag)
if isinstance(element_class, ListType):
if class_idx is not None and class_idx < len(element_class):
new_element = element_class[class_idx]()
else:
raise ValueError("No corresponding class found!")
else:
new_element = element_class()
DefaultElementClass.__setattr__(new_element, "tag", self.DefaultNamespaceFormat % element_tag)
new_element._init_()
return new_element
def GenerateParser(factory, xsdstring):
ComputedClasses = factory.CreateClasses()
if factory.FileName is not None:
ComputedClasses = ComputedClasses[factory.FileName]
BaseClass = [(name, XSDclass) for name, XSDclass in ComputedClasses.items() if XSDclass.IsBaseClass]
parser = XMLClassParser(
factory.NSMAP,
factory.etreeNamespaceFormat,
BaseClass[0] if len(BaseClass) == 1 else None,
etree.XMLSchema(etree.fromstring(xsdstring)),
strip_cdata=False, remove_blank_text=True)
class_lookup = XMLElementClassLookUp(factory.ComputedClassesLookUp)
parser.set_element_class_lookup(class_lookup)
return parser