Exemplo n.º 1
0
def add(element1, element2):
    """Add element2 to element1, modify element1 in place and return it. 
    
    This function modifies the node in place to make ensure there are not 
    too many copies created in complicated programs. 
    
    The reason this function also returns the element is to allow this function
    to be used in compound statements, for example: 
    
        add(node1, invert(add(node2, node3)))"""
    
    newtag = Tag.addTags(element1.tag, element2.tag)
    
    #have to wrap the attributes in dict() to avoid a bus error
    newattribs = Attrib.addAttribs(dict(element1.attrib), dict(element2.attrib))
    
    element1.tag = newtag
    element1.text = Text.addText(element1.text, element2.text)
    element1.tail = Text.addText(element1.tail, element2.tail)
    
    for i in element1.attrib:
        del element1.attrib[i]
    for key in newattribs.keys():
        try:
            element1.set(key, newattribs[key])
        except TypeError:
            log = logging.getLogger()
            log.error('TypeError: %s' % str(sys.exc_info()[1]))
            log.error('key = %s\tnewattribs[key] = %s' % (str(key), str(newattribs[key])))
            raise
        
    return element1
Exemplo n.º 2
0
def isUnitEvent(event):
    if event.getEventName() == "StartElementEvent":
        if Tag.isUnitTag(event.tag) and Attrib.isUnitAttrib(event.attr) and Text.isUnitText(event.text):
            return True
        else:
            return False
    
    elif event.getEventName() == "EndElementEvent":
        if Tag.isUnitTag(event.tag) and Text.isUnitText(event.text):
            return True
        else:
            return False
    
    else:
        raise TypeError("Invalid event type: %s" % str(event1))
Exemplo n.º 3
0
def invert(element1):
    """Invert the element, modify in place and return it.
    
    This function modifies the node in place to make ensure there are not 
    too many copies created in complicated programs. 
    
    The reason this function also returns the element is to allow this function
    to be used in compound statements, for example: 
    
        add(node1, invert(add(node2, node3)))
        
    """
    
#    inverted = lxml.etree.Element(Tag.tagInverse(element1.tag), )
    element1.tag = Tag.tagInverse(element1.tag) 
    element1.text = Text.textInverse(element1.text)
    element1.tail = Text.textInverse(element1.tail)
    newattribs = Attrib.attribInverse(dict(element1.attrib))
    for i in element1.attrib:
        del element1.attrib[i]
    for j in newattribs:
        element1.set(j, newattribs[j])
        
    return element1
Exemplo n.º 4
0
def addEvents(event1, event2):
    """Add the two events and return a new event. Raise TypeError if the event
    types do not match."""    
    import TreeGroup.Common.Attrib as Attrib
    import TreeGroup.Common.Tag as Tag
    import TreeGroup.Common.Text as Text
    
    if not type(event1) == type(event2):
        print("%s != %s" % (type(event1), type(event2)))
        raise TypeError
    
    if event1.getEventName() == "StartElementEvent":
        newevent = StartElementEvent(Tag.addTags(event1.tag, event2.tag), Attrib.addAttribs(event1.attr, event2.attr), Text.addText(event1.text, event2.text))
        return newevent
    
    elif event1.getEventName() == "EndElementEvent":
        newevent = EndElementEvent(Tag.addTags(event1.tag, event2.tag), Text.addText(event1.text, event2.text))
        return newevent
    
    else:
        raise TypeError("Invalid event type: %s" % str(event1))
Exemplo n.º 5
0
 def __eq__(self, o):
     if type(self) == type(o) and Tag.equal(self.tag, o.tag) and Text.equal(self.text, o.text):
         return True
     else:
         return False