# -*- coding: utf-8 -*-
# ------------------------------------------------------------------------------
# Appy is a framework for building applications in the Python language.
# Copyright (C) 2007 Gaetan Delannay
# 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.
# ------------------------------------------------------------------------------
import xml.sax, difflib, types, cgi
from xml.parsers.expat import XML_PARAM_ENTITY_PARSING_NEVER
from xml.sax.handler import ContentHandler, ErrorHandler, feature_external_ges
from xml.sax.xmlreader import InputSource
from xml.sax import SAXParseException
from appy.shared import UnicodeBuffer
from appy.shared.errors import AppyError
from appy.shared.utils import sequenceTypes
from appy.shared.css import parseStyleAttribute
# Constants --------------------------------------------------------------------
xmlPrologue = '\n'
xhtmlPrologue = '\n'
CONVERSION_ERROR = '"%s" value "%s" could not be converted by the XML ' \
'unmarshaller.'
CUSTOM_CONVERSION_ERROR = 'Custom converter for "%s" values produced an ' \
'error while converting value "%s". %s'
XML_SPECIAL_CHARS = {'<': '<', '>': '>', '&': '&', '"': '"',
"'": '''}
XML_ENTITIES = {'lt': '<', 'gt': '>', 'amp': '&', 'quot': '"', 'apos': "'"}
HTML_ENTITIES = {
'iexcl': '¡', 'cent': '¢', 'pound': '£', 'curren': '€', 'yen': '¥',
'brvbar': 'Š', 'sect': '§', 'uml': '¨', 'copy':'©', 'ordf':'ª',
'laquo':'«', 'not':'¬', 'shy':'', 'reg':'®', 'macr':'¯', 'deg':'°',
'plusmn':'±', 'sup2':'²', 'sup3':'³', 'acute':'Ž',
'micro':'µ', 'para':'¶', 'middot':'·', 'cedil':'ž', 'sup1':'¹',
'ordm':'º', 'raquo':'»', 'frac14':'Œ', 'frac12':'œ', 'frac34':'Ÿ',
'iquest':'¿', 'Agrave':'À', 'Aacute':'Á', 'Acirc':'Â', 'Atilde':'Ã',
'Auml':'Ä', 'Aring':'Å', 'AElig':'Æ', 'Ccedil':'Ç', 'Egrave':'È',
'Eacute':'É', 'Ecirc':'Ê', 'Euml':'Ë', 'Igrave':'Ì', 'Iacute':'Í',
'Icirc':'Î', 'Iuml':'Ï', 'ETH':'Ð', 'Ntilde':'Ñ', 'Ograve':'Ò',
'Oacute':'Ó', 'Ocirc':'Ó', 'Otilde':'Õ', 'Ouml':'Ö', 'times':'×',
'Oslash':'Ø', 'Ugrave':'Ù', 'Uacute':'Ú', 'Ucirc':'Û', 'Uuml':'Ü',
'Yacute':'Ý', 'THORN':'Þ', 'szlig':'ß', 'agrave':'à', 'aacute':'á',
'acirc':'â', 'atilde':'ã', 'auml':'ä', 'aring':'å', 'aelig':'æ',
'ccedil':'ç', 'egrave':'è', 'eacute':'é', 'ecirc':'ê', 'euml':'ë',
'igrave':'ì', 'iacute':'í', 'icirc':'î', 'iuml':'ï', 'eth':'ð',
'ntilde':'ñ', 'ograve':'ò', 'oacute':'ó', 'ocirc':'ô', 'otilde':'õ',
'ouml':'ö', 'divide':'÷', 'oslash':'ø', 'ugrave':'ù', 'uacute':'ú',
'ucirc':'û', 'uuml':'ü', 'yacute':'ý', 'thorn':'þ', 'yuml':'ÿ',
'euro':'€', 'nbsp':' ', "rsquo":"'", "lsquo":"'", "ldquo":"'",
"rdquo":"'", 'ndash': '—', 'mdash': '—', 'oelig':'oe', 'quot': "'",
'mu': 'µ'}
import htmlentitydefs
for k, v in htmlentitydefs.entitydefs.iteritems():
if not HTML_ENTITIES.has_key(k) and not XML_ENTITIES.has_key(k):
HTML_ENTITIES[k] = ''
def escapeXml(s, format='xml', nsText='text'):
'''Returns p_s, whose XML special chars have been replaced with escaped XML
entities. If p_format is "odf", line breaks are converted to ODF line
breaks. In this case, it is needed to give the name of the "text"
namespace (p_nsText) as defined in the ODF document where the line breaks
must be inserted.'''
if isinstance(s, unicode):
res = u''
else:
res = ''
odf = format == 'odf'
for c in s:
if XML_SPECIAL_CHARS.has_key(c):
res += XML_SPECIAL_CHARS[c]
elif odf and (c == '\n'):
res += '<%s:line-break/>' % nsText
elif odf and (c == '\r'):
pass
else:
res += c
return res
def escapeXhtml(s):
'''Return p_s, whose XHTML special chars and carriage return chars have
been replaced with corresponding XHTML entities.'''
if isinstance(s, unicode):
res = u''
else:
res = ''
for c in s:
if XML_SPECIAL_CHARS.has_key(c):
res += XML_SPECIAL_CHARS[c]
elif c == '\n':
res += '
'
elif c == '\r':
pass
else:
res += c
return res
# ------------------------------------------------------------------------------
class XmlElement:
'''Represents an XML tag.'''
def __init__(self, elem, attrs=None, nsUri=None):
'''An XmlElement instance may represent:
- an already parsed tag (in this case, p_elem may be prefixed with a
namespace);
- the definition of an XML element (in this case, no namespace can be
found in p_elem; but a namespace URI may be defined in p_nsUri).'''
self.elem = elem
self.attrs = attrs
if elem.find(':') != -1:
self.ns, self.name = elem.split(':')
else:
self.ns = ''
self.name = elem
self.nsUri = nsUri
def equalsTo(self, other, namespaces=None):
'''Does p_elem == p_other? If a p_namespaces dict is given, p_other must
define a nsUri.'''
res = None
if namespaces:
res = self.elem == ('%s:%s' % (namespaces[other.nsUri], other.name))
else:
res = self.elem == other.elem
return res
def __repr__(self):
res = self.elem
if self.attrs:
res += '('
for attrName, attrValue in self.attrs.items():
res += '%s="%s"' % (attrName, attrValue)
res += ')'
return res
def getFullName(self, namespaces=None):
'''Gets the name of the element including the namespace prefix.'''
if not namespaces:
res = self.elem
else:
res = '%s:%s' % (namespaces[self.nsUri], self.name)
return res
class XmlEnvironment:
'''An XML environment remembers a series of elements during a SAX parsing.
This class is an abstract class that gathers basic things like
namespaces.'''
def __init__(self):
# This dict contains the xml namespace declarations encountered so far
self.namespaces = {} # ~{s_namespaceUri:s_namespaceName}~
self.currentElem = None # The currently parsed element
self.parser = None
def manageNamespaces(self, attrs):
'''Manages namespaces definitions encountered in p_attrs.'''
for attrName, attrValue in attrs.items():
if attrName.startswith('xmlns:'):
self.namespaces[attrValue] = attrName[6:]
def ns(self, nsUri):
'''Returns the namespace corresponding to o_nsUri.'''
return self.namespaces[nsUri]
class XmlParser(ContentHandler, ErrorHandler):
'''Basic expat-based XML parser that does things like :
- remembering the currently parsed element;
- managing namespace declarations.
This parser also knows about HTML entities.'''
def __init__(self, env=None, caller=None, raiseOnError=True):
'''p_env should be an instance of a class that inherits from
XmlEnvironment: it specifies the environment to use for this SAX
parser.'''
ContentHandler.__init__(self)
if not env: env = XmlEnvironment()
self.env = env
self.env.parser = self
self.caller = caller # The class calling this parser
self.parser = xml.sax.make_parser() # Fast, standard expat parser
self.res = None # The result of parsing.
# Raise or not an error when a parsing error is encountered.
self.raiseOnError = raiseOnError
# ContentHandler methods ---------------------------------------------------
def startDocument(self):
parser = self.parser._parser
parser.UseForeignDTD(True)
parser.SetParamEntityParsing(XML_PARAM_ENTITY_PARSING_NEVER)
def setDocumentLocator(self, locator):
self.locator = locator
return self.env
def endDocument(self):
return self.env
def startElement(self, elem, attrs):
self.env.manageNamespaces(attrs)
if self.env.currentElem == None:
self.env.currentElem = XmlElement(elem, attrs=attrs)
else:
# Reuse the exiting instance in order to avoid creating one instance
# every time an elem is met in the XML file.
self.env.currentElem.__init__(elem, attrs)
return self.env
def endElement(self, elem):
self.env.currentElem.__init__(elem)
return self.env
def characters(self, content):
return self.env
def skippedEntity(self, name):
'''This method is called every time expat does not recognize an entity.
We provide here support for HTML entities.'''
if HTML_ENTITIES.has_key(name):
self.characters(HTML_ENTITIES[name].decode('utf-8'))
else:
# Put a question mark instead of raising an exception.
self.characters('?')
# ErrorHandler methods ---------------------------------------------------
def error(self, error):
if self.raiseOnError: raise error
else: print('SAX error %s' % str(error))
def fatalError(self, error):
if self.raiseOnError: raise error
else: print('SAX fatal error %s' % str(error))
def warning(self, error): pass
def parse(self, xml, source='string'):
'''Parses a XML stream.
* If p_source is "string", p_xml must be a string containing
valid XML content.
* If p_source is "file": p_xml can be:
- a string containing the path to the XML file on disk;
- a file instance opened for reading. Note that in this case, this
method will close it.
'''
try:
from cStringIO import StringIO
except ImportError:
from StringIO import StringIO
self.parser.setContentHandler(self)
self.parser.setErrorHandler(self)
self.parser.setFeature(feature_external_ges, False)
inputSource = InputSource()
if source == 'string':
inputSource.setByteStream(StringIO(xml))
else:
if not isinstance(xml, file):
xml = file(xml)
inputSource.setByteStream(xml)
self.parser.parse(inputSource)
if isinstance(xml, file): xml.close()
return self.res
# ------------------------------------------------------------------------------
from appy.shared import UnmarshalledFile
from appy import Object
try:
from DateTime import DateTime
except ImportError:
DateTime = 'unicode'
class XmlUnmarshaller(XmlParser):
'''This class allows to parse a XML file and recreate the corresponding web
of Python objects. This parser assumes that the XML file respects this
convention: any tag may define in attribute "type" storing the type of
its content, which may be:
bool * int * float * long * DateTime * tuple * list * object
If "object" is specified, it means that the tag contains sub-tags, each
one corresponding to the value of an attribute for this object.
if "tuple" is specified, it will be converted to a list.'''
def __init__(self, classes={}, tagTypes={}, conversionFunctions={},
utf8=True):
XmlParser.__init__(self)
# self.classes below is a dict whose keys are tag names and values are
# Python classes. During the unmarshalling process, when an object is
# encountered, instead of creating an instance of Object, we will create
# an instance of the class specified in self.classes.
# Root tag is named "xmlPythonData" by default by the XmlMarshaller.
# This will not work if the object in the specified tag is not an
# Object instance (ie it is a list or tuple or simple value). Note that
# we will not call the constructor of the specified class. We will
# simply create an instance of Objects and dynamically change the class
# of the created instance to this class.
if not isinstance(classes, dict) and classes:
# The user may only need to define a class for the root tag
self.classes = {'xmlPythonData': classes}
else:
self.classes = classes
# We expect that the parsed XML file will follow some conventions
# (ie, a tag that corresponds to a list has attribute type="list" or a
# tag that corresponds to an object has attribute type="object".). If
# it is not the case of p_xmlContent, you can provide the missing type
# information in p_tagTypes. Here is an example of p_tagTypes:
# {"information": "list", "days": "list", "person": "object"}.
self.tagTypes = tagTypes
# The parser assumes that data is represented in some standard way. If
# it is not the case, you may provide, in this dict, custom functions
# allowing to convert values of basic types (long, float, DateTime...).
# Every such function must take a single arg which is the value to
# convert and return the converted value. Dict keys are strings
# representing types ('bool', 'int', 'unicode', etc) and dict values are
# conversion functions. Here is an example:
# {'int': convertInteger, 'DateTime': convertDate}
# NOTE: you can even invent a new basic type, put it in self.tagTypes,
# and create a specific conversionFunction for it. This way, you can
# for example convert strings that have specific values (in this case,
# knowing that the value is a 'string' is not sufficient).
self.conversionFunctions = conversionFunctions
self.utf8 = utf8
def convertAttrs(self, attrs):
'''Converts XML attrs to a dict.'''
res = {}
for k, v in attrs.items():
if ':' in k: # An attr prefixed with a namespace. Remove this.
k = k.split(':')[-1]
res[str(k)] = v
return res
def startDocument(self):
XmlParser.startDocument(self)
self.res = None # The resulting web of Python objects (Object instances)
self.env.containerStack = [] # The stack of current "containers" where
# to store the next parsed element. A container can be a list, a tuple,
# an object (the root object of the whole web or a sub-object).
self.env.currentBasicType = None # Will hold the name of the currently
# parsed basic type (unicode, float...)
self.env.currentContent = '' # We store here the content of tags.
containerTags = ('tuple', 'list', 'dict', 'object', 'file')
numericTypes = ('bool', 'int', 'float', 'long')
def startElement(self, elem, attrs):
# Remember the name of the previous element
previousElem = None
if self.env.currentElem:
previousElem = self.env.currentElem.name
e = XmlParser.startElement(self, elem, attrs)
# Determine the type of the element.
elemType = 'unicode' # Default value
if attrs.has_key('type'):
elemType = attrs['type']
elif self.tagTypes.has_key(elem):
elemType = self.tagTypes[elem]
if elemType in self.containerTags:
# I must create a new container object.
if elemType == 'object':
newObject = Object(**self.convertAttrs(attrs))
elif elemType == 'tuple': newObject = [] # Tuples become lists
elif elemType == 'list': newObject = []
elif elemType == 'dict': newObject = {}
elif elemType == 'file':
newObject = UnmarshalledFile()
if attrs.has_key('name'):
newObject.name = attrs['name']
if attrs.has_key('mimeType'):
newObject.mimeType = attrs['mimeType']
else: newObject = Object(**self.convertAttrs(attrs))
# Store the value on the last container, or on the root object.
self.storeValue(elem, newObject)
# Push the new object on the container stack
e.containerStack.append(newObject)
else:
# If we are already parsing a basic type, it means that we were
# wrong for our diagnotsic of the containing element: it was not
# basic. We will make the assumption that the containing element is
# then an object.
if e.currentBasicType:
# Previous elem was an object: create it on the stack.
newObject = Object()
self.storeValue(previousElem, newObject)
e.containerStack.append(newObject)
e.currentBasicType = elemType
def storeValue(self, name, value):
'''Stores the newly parsed p_value (contained in tag p_name) on the
current container in environment self.env.'''
e = self.env
# Remove namespace prefix when relevant
if ':' in name: name = name.split(':')[-1]
# Change the class of the value if relevant
if (name in self.classes) and isinstance(value, Object):
value.__class__ = self.classes[name]
# Where must I store this value?
if not e.containerStack:
# I store the object at the root of the web.
self.res = value
else:
currentContainer = e.containerStack[-1]
if isinstance(currentContainer, list):
currentContainer.append(value)
elif isinstance(currentContainer, dict):
# If the current container is a dict, it means that p_value is
# a dict entry object named "entry" by convention and having
# attributes "k" and "v" that store, respectively, the key and
# the value of the entry. But this object is under construction:
# at this time, attributes "k" and "v" are not created yet. We
# will act in m_endElement, when the object will be finalized.
pass
elif isinstance(currentContainer, UnmarshalledFile):
currentContainer.content += value or ''
else:
# Current container is an object
if hasattr(currentContainer, name) and \
getattr(currentContainer, name):
# We have already encountered a sub-object with this name.
# Having several sub-objects with the same name, we will
# create a list.
attrValue = getattr(currentContainer, name)
if not isinstance(attrValue, list):
attrValue = [attrValue, value]
else:
attrValue.append(value)
else:
attrValue = value
setattr(currentContainer, name, attrValue)
def characters(self, content):
if not self.utf8:
content = content.encode('utf-8')
e = XmlParser.characters(self, content)
if e.currentBasicType:
e.currentContent += content
def endElement(self, elem):
e = XmlParser.endElement(self, elem)
if e.currentBasicType:
value = e.currentContent.strip()
if not value: value = None
else:
# If we have a custom converter for values of this type, use it.
if self.conversionFunctions.has_key(e.currentBasicType):
try:
value = self.conversionFunctions[e.currentBasicType](
value)
except Exception, err:
raise AppyError(CUSTOM_CONVERSION_ERROR % (
e.currentBasicType, value, str(err)))
# If not, try a standard conversion
elif e.currentBasicType in self.numericTypes:
try:
exec 'value = %s' % value
except SyntaxError:
raise AppyError(CONVERSION_ERROR % (
e.currentBasicType, value))
except NameError:
raise AppyError(CONVERSION_ERROR % (
e.currentBasicType, value))
# Check that the value is of the correct type. For instance,
# a float value with a comma in it could have been converted
# to a tuple instead of a float.
if not isinstance(value, eval(e.currentBasicType)):
raise AppyError(CONVERSION_ERROR % (
e.currentBasicType, value))
elif e.currentBasicType == 'DateTime':
value = DateTime(value)
elif e.currentBasicType == 'base64':
value = e.currentContent.decode('base64')
# Store the value on the last container
self.storeValue(elem, value)
# Clean the environment
e.currentBasicType = None
e.currentContent = ''
else:
elem = e.containerStack.pop()
# This element can be a temporary "entry" object representing a dict
# entry.
if e.containerStack:
lastContainer = e.containerStack[-1]
if isinstance(lastContainer, dict):
lastContainer[elem.k] = elem.v
# Alias: "unmarshall" -> "parse"
unmarshall = XmlParser.parse
# ------------------------------------------------------------------------------
class XmlMarshaller:
'''This class allows to produce a XML version of a Python object, which
respects some conventions as described in the doc of the corresponding
Unmarshaller (see above).'''
xmlEntities = {'<': '<', '>': '>', '&': '&', '"': '"',
"'": '''}
trueFalse = {True: 'True', False: 'False'}
fieldsToMarshall = 'all'
fieldsToExclude = []
atFiles = ('image', 'file') # Types of archetypes fields that contain files.
def __init__(self, cdata=False, dumpUnicode=False, conversionFunctions={},
dumpXmlPrologue=True, rootTag='xmlPythonData', namespaces={},
namespacedTags={}):
# If p_cdata is True, all string values will be dumped as XML CDATA.
self.cdata = cdata
# If p_dumpUnicode is True, the result will be unicode.
self.dumpUnicode = dumpUnicode
# The following dict stores specific conversion (=Python to XML)
# functions. A specific conversion function is useful when you are not
# happy with the way built-in converters work, or if you want to
# specify a specific way to represent, in XML, some particular Python
# object or value. In this dict, every key represents a given type
# (class names must be full-path class names); every value is a function
# accepting 2 args: first one is the UnicodeBuffer where the result is
# being dumped, while the second one is the Python object or value to
# dump.
self.conversionFunctions = conversionFunctions
# If dumpXmlPrologue is True, the XML prologue will be dumped.
self.dumpXmlPrologue = dumpXmlPrologue
# The name of the root tag
self.rootElementName = rootTag
# The namespaces that will be defined at the root of the XML message.
# It is a dict whose keys are namespace prefixes and whose values are
# namespace URLs. If you want to specify a default namespace, specify an
# entry with an empty string as a key.
self.namespaces = namespaces
# The following dict will tell which XML tags will get which namespace
# prefix ({s_tagName: s_prefix}). Special optional dict entry
# '*':s_prefix will indicate a default prefix that will be applied to
# any tag that does not have it own key in this dict.
self.namespacedTags = namespacedTags
self.objectType = None # Will be given by method m_marshal
def getTagName(self, name):
'''Returns the name of tag p_name as will be dumped. It can be p_name,
or p_name prefixed with a namespace prefix (will depend on
self.prefixedTags).'''
# Determine the prefix
prefix = ''
if name in self.namespacedTags: prefix = self.namespacedTags[name]
elif '*' in self.namespacedTags: prefix = self.namespacedTags['*']
if prefix: return '%s:%s' % (prefix, name)
return name
def isAnObject(self, instance):
'''Returns True if p_instance is a class instance, False if it is a
basic type, or tuple, sequence, etc.'''
if instance.__class__.__name__ == 'LazyMap': return False
iType = type(instance)
if iType == types.InstanceType:
return True
elif iType.__name__ == 'ImplicitAcquirerWrapper':
# This is the case with Archetype instances
return True
elif iType.__class__.__name__ == 'ExtensionClass':
return True
return False
def isAList(self, value):
'''Is p_value a list?'''
return value.__class__.__name__ in ('list', 'PersistentList', 'LazyMap')
def isADict(self, value):
'''Is p_value a dict?'''
return value.__class__.__name__ in ('dict', 'PersistentMapping')
def dumpRootTag(self, res, instance):
'''Dumps the root tag.'''
# Dumps the name of the tag.
tagName = self.getTagName(self.rootElementName)
res.write('<'); res.write(tagName)
# Dumps namespace definitions if any
for prefix, url in self.namespaces.iteritems():
if not prefix:
pre = 'xmlns' # The default namespace
else:
pre = 'xmlns:%s' % prefix
res.write(' %s="%s"' % (pre, url))
# Dumps Appy- or Plone-specific attribute
if self.objectType != 'popo':
res.write(' type="object" id="%s"' % instance.UID())
res.write('>')
return tagName
def dumpString(self, res, s):
'''Dumps a string into the result.'''
if self.cdata: res.write('')
def dumpFile(self, res, v):
'''Dumps a file into the result.'''
if not v: return
# p_value contains the (possibly binary) content of a file. We will
# encode it in Base64, in one or several parts.
partTag = self.getTagName('part')
res.write('<%s type="base64" number="1">' % partTag)
if hasattr(v, 'data'):
# The file is an Archetypes file.
valueType = v.data.__class__.__name__
if valueType == 'Pdata':
# There will be several parts.
res.write(v.data.data.encode('base64'))
# Write subsequent parts
nextPart = v.data.next
nextPartNumber = 2
while nextPart:
res.write('' % partTag) # Close the previous part
res.write('<%s type="base64" number="%d">' % \
(partTag, nextPartNumber))
res.write(nextPart.data.encode('base64'))
nextPart = nextPart.next
nextPartNumber += 1
else:
res.write(v.data.encode('base64'))
else:
res.write(v.encode('base64'))
res.write('' % partTag)
def dumpDict(self, res, v):
'''Dumps the XML version of dict p_v.'''
for key, value in v.iteritems():
res.write('')
self.dumpField(res, 'k', key)
self.dumpField(res, 'v', value)
res.write('')
def dumpValue(self, res, value, fieldType, isRef=False):
'''Dumps the XML version of p_value to p_res.'''
# Use a custom function if one is defined for this type of value.
className = value.__class__.__name__
if className in self.conversionFunctions:
self.conversionFunctions[className](res, value)
return
# Use a standard conversion else.
if fieldType == 'file': self.dumpFile(res, value)
elif fieldType == 'dict': self.dumpDict(res, value)
elif isRef:
if value:
if self.objectType == 'appy':
suffix = '/xml'
else:
suffix = ''
if type(value) in sequenceTypes:
for elem in value:
self.dumpField(res, 'url', elem.absolute_url()+suffix)
else:
self.dumpField(res, 'url', value.absolute_url()+suffix)
elif fieldType in ('list', 'tuple'):
# The previous condition must be checked before this one because
# referred objects may be stored in lists or tuples, too.
for elem in value: self.dumpField(res, 'e', elem)
elif isinstance(value, basestring): self.dumpString(res, value)
elif isinstance(value, bool): res.write(self.trueFalse[value])
elif fieldType == 'object':
if hasattr(value, 'absolute_url'):
# Dump the URL to the object only
res.write(value.absolute_url())
else:
# Dump the entire object content
for k, v in value.__dict__.iteritems():
if not k.startswith('__'):
self.dumpField(res, k, v)
# Maybe we could add a parameter to the marshaller to know how
# to marshall objects (produce an ID, an URL, include the entire
# tag but we need to take care of circular references,...)
else:
res.write(value)
def dumpField(self, res, fieldName, fieldValue, fieldType='basic'):
'''Dumps in p_res, the value of the p_field for p_instance.'''
# As a preamble, manage special case of p_fieldName == "_any". In that
# case, p_fieldValue corresponds to a previously marshalled string that
# must be included as is here, without dumping the tag name.
if fieldName == '_any':
res.write(value)
return
# Now, dump "normal" fields.
fieldTag = self.getTagName(fieldName)
res.write('<'); res.write(fieldTag)
# Dump the type of the field as an XML attribute
fType = None # No type will mean "unicode".
if fieldType == 'file': fType = 'file'
elif fieldType == 'ref': fType = 'list'
elif isinstance(fieldValue, bool): fType = 'bool'
elif isinstance(fieldValue, int): fType = 'int'
elif isinstance(fieldValue, float): fType = 'float'
elif isinstance(fieldValue, long): fType = 'long'
elif isinstance(fieldValue, tuple): fType = 'tuple'
elif self.isAList(fieldValue): fType = 'list'
elif self.isADict(fieldValue): fType = 'dict'
elif fieldValue.__class__.__name__ == 'DateTime': fType = 'DateTime'
elif self.isAnObject(fieldValue): fType = 'object'
if self.objectType != 'popo':
if fType: res.write(' type="%s"' % fType)
# Dump other attributes if needed
if fType in ('list', 'tuple'):
length = 0
if fieldValue: length = len(fieldValue)
res.write(' count="%d"' % length)
if fType == 'file':
if hasattr(fieldValue, 'content_type'):
res.write(' mimeType="%s"' % fieldValue.content_type)
if hasattr(fieldValue, 'filename'):
res.write(' name="')
self.dumpString(res, fieldValue.filename)
res.write('"')
res.write('>')
# Dump the field value
self.dumpValue(res, fieldValue, fType, isRef=(fieldType=='ref'))
res.write('')
def marshall(self, instance, objectType='popo', conversionFunctions={}):
'''Returns in a UnicodeBuffer the XML version of p_instance. If
p_instance corresponds to a Plain Old Python Object, specify 'popo'
for p_objectType. If p_instance corresponds to an Archetypes object
(Zope/Plone), specify 'archetype' for p_objectType. if p_instance is
a Appy object, specify "appy" as p_objectType. If p_instance is not
an instance at all, but another Python data structure or basic type,
p_objectType is ignored.'''
self.objectType = objectType
# Call the XmlMarshaller constructor if it hasn't been called yet.
if not hasattr(self, 'cdata'):
XmlMarshaller.__init__(self)
if conversionFunctions:
self.conversionFunctions.update(conversionFunctions)
# Create the buffer where the XML result will be dumped.
res = UnicodeBuffer()
# Dump the XML prologue if required
if self.dumpXmlPrologue:
res.write(xmlPrologue)
if self.isAnObject(instance):
# Dump the root tag
rootTagName = self.dumpRootTag(res, instance)
# Dump the fields of this root object
if objectType == 'popo':
for fieldName, fieldValue in instance.__dict__.iteritems():
mustDump = False
if fieldName in self.fieldsToExclude:
mustDump = False
elif self.fieldsToMarshall == 'all':
mustDump = True
else:
if (type(self.fieldsToMarshall) in sequenceTypes) \
and (fieldName in self.fieldsToMarshall):
mustDump = True
if mustDump:
self.dumpField(res, fieldName, fieldValue)
elif objectType == 'archetype':
for field in instance.schema.fields():
# Dump only needed fields
mustDump = False
if field.getName() in self.fieldsToExclude:
mustDump = False
elif (self.fieldsToMarshall == 'all') and \
(field.schemata != 'metadata'):
mustDump = True
elif self.fieldsToMarshall == 'all_with_metadata':
mustDump = True
else:
if (type(self.fieldsToMarshall) in sequenceTypes) \
and (field.getName() in self.fieldsToMarshall):
mustDump = True
if mustDump:
fieldType = 'basic'
if field.type in self.atFiles:
fieldType = 'file'
elif field.type == 'reference':
fieldType = 'ref'
self.dumpField(res, field.getName(),field.get(instance),
fieldType=fieldType)
elif objectType == 'appy':
for field in instance.getAppyTypes('view', None):
# Dump only needed fields
if (field.type == 'Computed') and not field.plainText:
# Ignore fields used for producing custom chunks of HTML
# within the web UI.
continue
if field.name in self.fieldsToExclude: continue
if (type(self.fieldsToMarshall) in sequenceTypes) \
and (field.name not in self.fieldsToMarshall): continue
# Determine field type and value
fieldType = 'basic'
if field.type == 'File':
fieldType = 'file'
v = field.getValue(instance)
if v: v = v._zopeFile
elif field.type == 'Ref':
fieldType = 'ref'
v = field.getValue(instance, type='zobjects')
else:
v = field.getValue(instance)
self.dumpField(res, field.name, v, fieldType=fieldType)
# Dump the object history.
if hasattr(instance.aq_base, 'workflow_history'):
histTag = self.getTagName('history')
eventTag = self.getTagName('event')
res.write('<%s type="list">' % histTag)
key = instance.workflow_history.keys()[0]
history = instance.workflow_history[key]
for event in history:
res.write('<%s type="object">' % eventTag)
for k, v in event.iteritems():
self.dumpField(res, k, v)
res.write('' % eventTag)
res.write('' % histTag)
self.marshallSpecificElements(instance, res)
res.write('')
else:
self.dumpField(res, self.rootElementName, instance)
# Return the result
res = res.getValue()
if not self.dumpUnicode:
res = res.encode('utf-8')
return res
def marshallSpecificElements(self, instance, res):
'''You can use this marshaller as a base class for creating your own.
In this case, this method will be called by the marshall method
for allowing your concrete marshaller to insert more things in the
result. p_res is the UnicodeBuffer buffer where the result of the
marshalling process is currently dumped; p_instance is the instance
currently marshalled.'''
# ------------------------------------------------------------------------------
class XmlHandler(ContentHandler):
'''This handler is used for producing, in self.res, a readable XML
(with carriage returns) and for removing some tags that always change
(like dates) from a file that need to be compared to another file.'''
def __init__(self, xmlTagsToIgnore, xmlAttrsToIgnore):
ContentHandler.__init__(self)
self.res = unicode(xmlPrologue)
self.namespaces = {} # ~{s_namespaceUri:s_namespaceName}~
self.indentLevel = -1
self.tabWidth = 3
self.tagsToIgnore = xmlTagsToIgnore
self.attrsToIgnore = xmlAttrsToIgnore
self.ignoring = False # Some content must be ignored, and not dumped
# into the result.
def isIgnorable(self, elem):
'''Is p_elem an ignorable element ?'''
res = False
for tagName in self.tagsToIgnore:
if isinstance(tagName, list) or isinstance(tagName, tuple):
# We have a namespace
nsUri, elemName = tagName
try:
nsName = self.ns(nsUri)
elemFullName = '%s:%s' % (nsName, elemName)
except KeyError:
elemFullName = ''
else:
# No namespace
elemFullName = tagName
if elemFullName == elem:
res = True
break
return res
def setDocumentLocator(self, locator):
self.locator = locator
def endDocument(self):
pass
def dumpSpaces(self):
self.res += '\n' + (' ' * self.indentLevel * self.tabWidth)
def manageNamespaces(self, attrs):
'''Manage namespaces definitions encountered in attrs'''
for attrName, attrValue in attrs.items():
if attrName.startswith('xmlns:'):
self.namespaces[attrValue] = attrName[6:]
def ns(self, nsUri):
return self.namespaces[nsUri]
def startElement(self, elem, attrs):
self.manageNamespaces(attrs)
# Do we enter into a ignorable element ?
if self.isIgnorable(elem):
self.ignoring = True
else:
if not self.ignoring:
self.indentLevel += 1
self.dumpSpaces()
self.res += '<%s' % elem
attrsNames = attrs.keys()
attrsNames.sort()
for attrToIgnore in self.attrsToIgnore:
if attrToIgnore in attrsNames:
attrsNames.remove(attrToIgnore)
for attrName in attrsNames:
self.res += ' %s="%s"' % (attrName, attrs[attrName])
self.res += '>'
def endElement(self, elem):
if self.isIgnorable(elem):
self.ignoring = False
else:
if not self.ignoring:
self.dumpSpaces()
self.indentLevel -= 1
self.res += '' % elem
def characters(self, content):
if not self.ignoring:
self.res += content.replace('\n', '')
# ------------------------------------------------------------------------------
class XmlComparator:
'''Compares 2 XML files and produces a diff.'''
def __init__(self, fileNameA, fileNameB, areXml=True, xmlTagsToIgnore=(),
xmlAttrsToIgnore=()):
self.fileNameA = fileNameA
self.fileNameB = fileNameB
self.areXml = areXml # Can also diff non-XML files.
self.xmlTagsToIgnore = xmlTagsToIgnore
self.xmlAttrsToIgnore = xmlAttrsToIgnore
def filesAreIdentical(self, report=None, encoding=None):
'''Compares the 2 files and returns True if they are identical (if we
ignore xmlTagsToIgnore and xmlAttrsToIgnore).
If p_report is specified, it must be an instance of
appy.shared.test.TestReport; the diffs will be dumped in it.'''
# Perform the comparison
differ = difflib.Differ()
if self.areXml:
f = file(self.fileNameA)
contentA = f.read()
f.close()
f = file(self.fileNameB)
contentB = f.read()
f.close()
xmlHandler = XmlHandler(self.xmlTagsToIgnore, self.xmlAttrsToIgnore)
xml.sax.parseString(contentA, xmlHandler)
contentA = xmlHandler.res.split('\n')
xmlHandler = XmlHandler(self.xmlTagsToIgnore, self.xmlAttrsToIgnore)
xml.sax.parseString(contentB, xmlHandler)
contentB = xmlHandler.res.split('\n')
else:
f = file(self.fileNameA)
contentA = f.readlines()
f.close()
f = file(self.fileNameB)
contentB = f.readlines()
f.close()
diffResult = list(differ.compare(contentA, contentB))
# Analyse, format and report the result.
atLeastOneDiff = False
lastLinePrinted = False
i = -1
for line in diffResult:
i += 1
if line and (line[0] != ' '):
if not atLeastOneDiff:
msg = 'Difference(s) detected between files %s and %s:' % \
(self.fileNameA, self.fileNameB)
if report: report.say(msg, encoding='utf-8')
else: print(msg)
atLeastOneDiff = True
if not lastLinePrinted:
if report: report.say('...')
else: print('...')
if self.areXml:
if report: report.say(line, encoding=encoding)
else: print(line)
else:
if report: report.say(line[:-1], encoding=encoding)
else: print(line[:-1])
lastLinePrinted = True
else:
lastLinePrinted = False
return not atLeastOneDiff
# ------------------------------------------------------------------------------
class XhtmlCleaner(XmlParser):
'''This class cleans XHTML content, so it becomes ready to be stored into a
Appy-compliant format.'''
class Error(Exception): pass
# Tags that will never be in the result, content included.
tagsToIgnoreWithContent = ('style', 'colgroup', 'head')
# Tags that will be removed from the result, but whose content will be kept,
tagsToIgnoreKeepContent = ('x', 'html', 'body')
allTagsToIgnore = tagsToIgnoreWithContent + tagsToIgnoreKeepContent
# Additional tags that will be removed, but content kept, if keepStyles is
# False.
tagsToIgnoreKeepContentDropStyles = ('font', 'center')
# Attributes to ignore, if keepStyles if False.
attrsToIgnore = ('align', 'valign', 'cellpadding', 'cellspacing', 'width',
'height', 'bgcolor', 'lang', 'border', 'class', 'rules',
'id', 'name')
# CSS attributes to keep even if keepStyles if False. These attributes can
# be used by pod (to align a paragraph, center/resize an image...).
cssAttrsToKeep = ('width', 'height', 'float', 'text-align',
'font-style', 'font-weight')
# Attrs to add, if not present, to ensure good formatting, be it at the web
# or ODT levels.
attrsToAdd = {'table': {'cellspacing':'0', 'cellpadding':'6', 'border':'1'},
'tr': {'valign': 'top'}}
# Tags that require a line break to be inserted after them.
lineBreakTags = ('p', 'li', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'td')
# No-end tags
noEndTags = ('br', 'img')
def __init__(self, keepStyles=True):
XmlParser.__init__(self)
self.keepStyles = keepStyles
# Compute tags to ignore, which may vary according to p_keepStyles.
self.tagsToIgnore = self.allTagsToIgnore
if not keepStyles:
self.tagsToIgnore += self.tagsToIgnoreKeepContentDropStyles
def clean(self, s):
'''Cleaning XHTML code is done for 2 reasons:
1. The main objective is to format XHTML p_s to be storable in the
ZODB according to Appy rules.
a. Every or
must be on a single line (ending with a
carriage return); else, appy.shared.diff will not be able to
compute XHTML diffs;
b. Optimize size: HTML comments are removed.
2. If p_keepStyles (or m_clean) is False, some style-related
information will be removed, in order to get a standardized
content that can be dumped in an elegant and systematic manner
into a POD template.
'''
self.env.currentContent = ''
# The stack of currently parsed elements (will contain only ignored
# ones).
self.env.currentElems = []
# 'ignoreTag' is True if we must ignore the currently walked tag.
self.env.ignoreTag = False
# 'ignoreContent' is True if, within the currently ignored tag, we must
# also ignore its content.
self.env.ignoreContent = False
try:
res = self.parse('%s' % s).encode('utf-8')
except SAXParseException, e:
raise self.Error(str(e))
return res
def cleanStyleAttribute(self, value):
'''p_value contains some CSS attributes from a "style" attribute. We
keep those that pod can manage.'''
res = []
for name, v in parseStyleAttribute(value):
if name in self.cssAttrsToKeep:
res.append('%s: %s' % (name, v))
return '; '.join(res)
def startDocument(self):
# The result will be cleaned XHTML, joined from self.res.
XmlParser.startDocument(self)
self.res = []
def endDocument(self):
self.res = ''.join(self.res)
def startElement(self, elem, attrs):
e = self.env
# Dump any previously gathered content if any
if e.currentContent:
self.res.append(e.currentContent)
e.currentContent = ''
if e.ignoreTag and e.ignoreContent: return
if elem in self.tagsToIgnore:
e.ignoreTag = True
if elem in self.tagsToIgnoreWithContent:
e.ignoreContent = True
else:
e.ignoreContent = False
e.currentElems.append( (elem, e.ignoreContent) )
return
# Add a line break before the start tag if required (ie: xhtml differ
# needs to get paragraphs and other elements on separate lines).
if (elem in self.lineBreakTags) and self.res and \
(self.res[-1][-1] != '\n'):
prefix = '\n'
else:
prefix = ''
res = '%s<%s' % (prefix, elem)
# Include the found attributes, excepted those that must be ignored.
for name, value in attrs.items():
if not self.keepStyles:
if name in self.attrsToIgnore: continue
elif name == 'style':
value = self.cleanStyleAttribute(value)
if not value: continue
res += ' %s="%s"' % (name, value)
# Include additional attributes if required.
if elem in self.attrsToAdd:
for name, value in self.attrsToAdd[elem].iteritems():
res += ' %s="%s"' % (name, value)
# Close the tag if it is a no-end tag
if elem in self.noEndTags:
suffix = '/>'
else:
suffix = '>'
self.res.append('%s%s' % (res, suffix))
def endElement(self, elem):
e = self.env
if e.ignoreTag and (elem in self.tagsToIgnore):
# Pop the currently ignored tag
e.currentElems.pop()
if e.currentElems:
# Keep ignoring tags.
e.ignoreContent = e.currentElems[-1][1]
else:
# Stop ignoring elems
e.ignoreTag = e.ignoreContent = False
elif e.ignoreTag and e.ignoreContent:
# This is the end of a sub-tag within a region that we must ignore.
pass
else:
if self.env.currentContent:
self.res.append(self.env.currentContent)
# Close the tag only if it is a no-end tag.
if elem not in self.noEndTags:
# Add a line break after the end tag if required (ie: xhtml
# differ needs to get paragraphs and other elements on separate
# lines).
if (elem in self.lineBreakTags) and self.res and \
(self.res[-1][-1] != '\n'):
suffix = '\n'
else:
suffix = ''
self.res.append('%s' % (elem, suffix))
self.env.currentContent = ''
def characters(self, content):
if self.env.ignoreContent: return
# Remove blanks that ckeditor may add just after a start tag or
# between tags.
if not self.env.currentContent or \
self.env.currentContent[-1] in ('\n', ' '):
# I give here to lstrip an explicit list of what is to be considered
# as blank chars, because I do not want unicode NBSP chars to be in
# this list.
toAdd = content.lstrip(u' \n\r\t')
else:
toAdd = content
# Re-transform XML special chars to entities.
self.env.currentContent += cgi.escape(toAdd)
# ------------------------------------------------------------------------------