ORPA-pyOpenRPA/Resources/WPy64-3720/python-3.7.2.amd64/Lib/site-packages/pywinauto/xml_helpers.py

# GUI Application automation and testing library
# Copyright (C) 2006-2018 Mark Mc Mahon and Contributors
# https://github.com/pywinauto/pywinauto/graphs/contributors
# http://pywinauto.readthedocs.io/en/latest/credits.html
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# * Redistributions of source code must retain the above copyright notice, this
#   list of conditions and the following disclaimer.
#
# * Redistributions in binary form must reproduce the above copyright notice,
#   this list of conditions and the following disclaimer in the documentation
#   and/or other materials provided with the distribution.
#
# * Neither the name of pywinauto nor the names of its
#   contributors may be used to endorse or promote products derived from
#   this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
# OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

"""Module containing operations for reading and writing dialogs as XML"""
from __future__ import print_function
from __future__ import unicode_literals

from xml.etree.cElementTree import Element
from xml.etree.cElementTree import SubElement
from xml.etree.cElementTree import ElementTree

import six
import ctypes
import re
import bz2, base64
try:
    import PIL.Image
    PIL_imported = True
except ImportError:
    PIL_imported = False
from . import controls

# reported that they are not used - but in fact they are
# through a search of globals()
from .win32structures import LOGFONTW, RECT

class XMLParsingError(RuntimeError):
    """Wrap parsing Exceptions"""
    pass


#DONE: Make the dialog reading function not actually know about the
# types of each element (so that we can read the control properties
# without having to know each and every element type)
# probably need to store info on what type things are.
#
# - if it is a ctypes struct then there is a __type__ field
#   which says what kind of stuct it is
# - If it is an image then a "_IMG" is appeded to the the element tag
# - if it is a long then _LONG is appended to attribute name
# everything else is considered a string!

#-----------------------------------------------------------------------------
def _set_node_props(element, name, value):
    """Set the properties of the node based on the type of object"""
    # if it is a ctypes structure
    if isinstance(value, ctypes.Structure):

        # create an element for the structure
        struct_elem = SubElement(element, name)
        #clsModule = value.__class__.__module__
        cls_name = value.__class__.__name__
        struct_elem.set("__type__", "{0}".format(cls_name))

        # iterate over the fields in the structure
        for prop_name in value._fields_:
            prop_name = prop_name[0]
            item_val = getattr(value, prop_name)

            if isinstance(item_val, six.integer_types):
                prop_name += "_LONG"
                item_val = six.text_type(item_val)

            struct_elem.set(prop_name, _escape_specials(item_val))

    elif hasattr(value, 'tobytes') and hasattr(value, 'size'):
        try:
            # if the image is too big then don't try to
            # write it out - it would probably product a MemoryError
            # anyway
            if value.size[0] * value.size[1] > (5000*5000):
                raise MemoryError

            #print('type(value) = ' + str(type(value)))
            image_data = base64.encodestring(bz2.compress(value.tobytes())).decode('utf-8')
            _set_node_props(
                element,
                name + "_IMG",
                {
                    "mode": value.mode,
                    "size_x":value.size[0],
                    "size_y":value.size[1],
                    "data":image_data
                })

        # a system error is raised from time to time when we try to grab
        # the image of a control that has 0 height or width
        except (SystemError, MemoryError):
            pass


    elif isinstance(value, (list, tuple)):
        # add the element to hold the values
        # we do this to be able to support empty lists
        listelem = SubElement(element, name + "_LIST")

        for i, attrval in enumerate(value):
            _set_node_props(listelem, "%s_%05d"%(name, i), attrval)

    elif isinstance(value, dict):
        dict_elem = SubElement(element, name)

        for item_name, val in value.items():
            _set_node_props(dict_elem, item_name, val)

    else:
        if isinstance(value, bool):
            value = six.integer_types[-1](value)

        if isinstance(value, six.integer_types):
            name += "_LONG"

        element.set(name, _escape_specials(value))


#-----------------------------------------------------------------------------
def WriteDialogToFile(filename, props):
    """
    Write the props to the file

    props can be either a dialog or a dictionary
    """
    # if we are passed in a wrapped handle then
    # get the properties
    try:
        props[0].keys()
    except (TypeError, AttributeError):
        props = controls.get_dialog_props_from_handle(props)

    # build a tree structure
    root = Element("DIALOG")
    root.set("_version_", "2.0")
    for ctrl in props:
        ctrlelem = SubElement(root, "CONTROL")
        for name, value in sorted(ctrl.items()):
            _set_node_props(ctrlelem, name, value)

    # wrap it in an ElementTree instance, and save as XML
    tree = ElementTree(root)
    tree.write(filename, encoding="utf-8")


#-----------------------------------------------------------------------------
def _escape_specials(string):
    """Ensure that some characters are escaped before writing to XML"""
    # ensure it is unicode
    string = six.text_type(string)

    # escape backslashs
    string = string.replace('\\', r'\\')

    # escape non printable characters (chars below 30)
    for i in range(0, 32):
        string = string.replace(six.unichr(i), "\\%02d"%i)

    return string


#-----------------------------------------------------------------------------
def _un_escape_specials(string):
    """Replace escaped characters with real character"""
    # Unescape all the escape characters
    for i in range(0, 32):
        string = string.replace("\\%02d"%i, six.unichr(i))

    # convert doubled backslashes to a single backslash
    string = string.replace(r'\\', '\\')

    return six.text_type(string)


#-----------------------------------------------------------------------------
def _xml_to_struct(element, struct_type = None):
    """
    Convert an ElementTree to a ctypes Struct

    If struct_type is not specified then element['__type__']
    will be used for the ctypes struct type
    """
    # handle if we are passed in an element or a dictionary
    try:
        attribs = element.attrib
    except AttributeError:
        attribs = element

    # if the type has not been passed in
    if not struct_type:
        # get the type and create an instance of the type
        struct = globals()[attribs["__type__"]]()
    else:
        # create an instance of the type
        struct = globals()[struct_type]()

    # get the attribute and set them upper case
    struct_attribs = dict((at.upper(), at) for at in dir(struct))

    # for each of the attributes in the element
    for prop_name in attribs:

        # get the value
        val = attribs[prop_name]

        # if the value ends with "_long"
        if prop_name.endswith("_LONG"):
            # get an long attribute out of the value
            val = six.integer_types[-1](val)
            prop_name = prop_name[:-5]

        # if the value is a string
        elif isinstance(val, six.string_types):
            # make sure it if Unicode
            val = six.text_type(val)

        # now we can have all upper case attribute name
        # but structure name will not be upper case
        if prop_name.upper() in struct_attribs:
            prop_name = struct_attribs[prop_name.upper()]

            # set the appropriate attribute of the Struct
            setattr(struct, prop_name, val)

    # reutrn the struct
    return struct


#====================================================================
def _old_xml_to_titles(element):
    """For OLD XML files convert the titles as a list"""
    # get all the attribute names
    title_names = element.keys()

    # sort them to make sure we get them in the right order
    title_names.sort()

    # build up the array
    titles = []
    for name in title_names:
        val = element[name]
        val = val.replace('\\n', '\n')
        val = val.replace('\\x12', '\x12')
        val = val.replace('\\\\', '\\')

        titles.append(six.text_type(val))

    return titles


#====================================================================
# TODO: this function should be broken up into smaller functions
#       for each type of processing e.g.
#       ElementTo
def _extract_properties(properties, prop_name, prop_value):
    """
    Hmmm - confusing - can't remember exactly how
    all these similar functions call each other
    """
    # get the base property name and number if it in the form
    #  "PROPNAME_00001" = ('PROPNAME', 1)
    prop_name, reqd_index = _split_number(prop_name)

    # if there is no required index, and the property
    # was not already set - then just set it

    # if this is an indexed member of a list
    if reqd_index is None:
        # Have we hit a property with this name already
        if prop_name in properties:
            # try to append current value to the property
            try:
                properties[prop_name].append(prop_value)

            # if that fails then we need to make sure that
            # the curruen property is a list and then
            # append it
            except AttributeError:
                new_val = [properties[prop_name], prop_value]
                properties[prop_name] = new_val
        # No index, no previous property with that name
        #  - just set the property
        else:
            properties[prop_name] = prop_value

    # OK - so it HAS an index
    else:

        # make sure that the property is a list
        properties.setdefault(prop_name, [])

        # make sure that the list has enough elements
        while 1:
            if len(properties[prop_name]) <= reqd_index:
                properties[prop_name].append('')
            else:
                break

        # put our value in at the right index
        properties[prop_name][reqd_index] = prop_value


#====================================================================
def _get_attributes(element):
    """Get the attributes from an element"""
    properties = {}

    # get all the attributes
    for attrib_name, val in element.attrib.items():

        # if it is 'Long' element convert it to an long
        if attrib_name.endswith("_LONG"):
            val = six.integer_types[-1](val)
            attrib_name = attrib_name[:-5]

        else:
            # otherwise it is a string - make sure we get it as a unicode string
            val = _un_escape_specials(val)

        _extract_properties(properties, attrib_name, val)

    return properties


#====================================================================
number = re.compile(r"^(.*)_(\d{5})$")
def _split_number(prop_name):
    """
    Return (string, number) for a prop_name in the format string_number

    The number part has to be 5 digits long
    None is returned if there is no _number part

    e.g.
    >>> _split_number("NoNumber")
    ('NoNumber', None)
    >>> _split_number("Anumber_00003")
    ('Anumber', 3)
    >>> _split_number("notEnoughDigits_0003")
    ('notEnoughDigits_0003', None)
    """
    found = number.search(prop_name)

    if not found:
        return prop_name, None

    return found.group(1), int(found.group(2))


#====================================================================
def _read_xml_structure(control_element):
    """
    Convert an element into nested Python objects

    The values will be returned in a dictionary as following:

     - the attributes will be items of the dictionary
       for each subelement

       + if it has a __type__ attribute then it is converted to a
         ctypes structure
       + if the element tag ends with _IMG then it is converted to
         a PIL image

     - If there are elements with the same name or attributes with
       ordering e.g. texts_00001, texts_00002 they will be put into a
       list (in the correct order)
    """

    # get the attributes for the current element
    properties = _get_attributes(control_element)

    for elem in control_element:
        # if it is a ctypes structure
        if "__type__" in elem.attrib:
            # create a new instance of the correct type

            # grab the data
            propval = _xml_to_struct(elem)

        elif elem.tag.endswith("_IMG"):
            elem.tag = elem.tag[:-4]

            # get image Attribs
            img = _get_attributes(elem)
            data = bz2.decompress(base64.decodestring(img['data'].encode('utf-8')))

            if PIL_imported is False:
                raise RuntimeError('PIL is not installed!')
            propval = PIL.Image.frombytes(
                img['mode'],
                (img['size_x'], img['size_y']),
                data)

        elif elem.tag.endswith("_LIST"):
            # All this is just to handle the edge case of
            # an empty list
            elem.tag = elem.tag[:-5]

            # read the structure
            propval = _read_xml_structure(elem)

            # if it was empty then convert the returned dict
            # to a list
            if propval == {}:
                propval = list()

            # otherwise extract the list out of the returned dict
            else:
                propval = propval[elem.tag]

        else:
            propval = _read_xml_structure(elem)

        _extract_properties(properties, elem.tag, propval)

    return properties


#====================================================================
def ReadPropertiesFromFile(filename):
    """Return a list of controls from XML file filename"""
    parsed = ElementTree().parse(filename)

    # Return the list that has been stored under 'CONTROL'
    props =  _read_xml_structure(parsed)['CONTROL']
    if not isinstance(props, list):
        props = [props]

    # it is an old XML so let's fix it up a little
    if not ("_version_" in parsed.attrib.keys()):

        # find each of the control elements
        for ctrl_prop in props:

            ctrl_prop['fonts'] = [_xml_to_struct(ctrl_prop['FONT'], "LOGFONTW"), ]

            ctrl_prop['rectangle'] = \
                _xml_to_struct(ctrl_prop["RECTANGLE"], "RECT")

            ctrl_prop['client_rects'] = [
                _xml_to_struct(ctrl_prop["CLIENTRECT"], "RECT"),]

            ctrl_prop['texts'] = _old_xml_to_titles(ctrl_prop["TITLES"])

            ctrl_prop['class_name'] = ctrl_prop['CLASS']
            ctrl_prop['context_help_id'] = ctrl_prop['HELPID']
            ctrl_prop['control_id'] = ctrl_prop['CTRLID']
            ctrl_prop['exstyle'] = ctrl_prop['EXSTYLE']
            ctrl_prop['friendly_class_name'] = ctrl_prop['FRIENDLYCLASS']
            ctrl_prop['is_unicode'] = ctrl_prop['ISUNICODE']
            ctrl_prop['is_visible'] = ctrl_prop['ISVISIBLE']
            ctrl_prop['style'] = ctrl_prop['STYLE']
            ctrl_prop['user_data'] = ctrl_prop['USERDATA']

            for prop_name in [
                'CLASS',
                'CLIENTRECT',
                'CTRLID',
                'EXSTYLE',
                'FONT',
                'FRIENDLYCLASS',
                'HELPID',
                'ISUNICODE',
                'ISVISIBLE',
                'RECTANGLE',
                'STYLE',
                'TITLES',
                'USERDATA',
                ]:
                del(ctrl_prop[prop_name])

    return props