Thuban/Model/save.py

# Copyright (c) 2001, 2002, 2003 by Intevation GmbH
# Authors:
# Jan-Oliver Wagner <[email protected]>
# Bernhard Herzog <[email protected]>
# Jonathan Coles <[email protected]>
#
# This program is free software under the GPL (>=v2)
# Read the file COPYING coming with Thuban for details.

"""
Functions to save a session to a file
"""

__version__ = "$Revision$"

# fix for people using python2.1
from __future__ import nested_scopes

import os
import string

import Thuban.Lib.fileutil

from Thuban.Model.color import Color 

from Thuban.Model.classification import *

#
# one level of indention
#
TAB = "    "

def relative_filename(dir, filename):
    """Return a filename relative to dir for the absolute file name absname.

    This is almost the same as the function in fileutil, except that dir
    can be an empty string in which case filename will be returned
    unchanged.
    """
    if dir:
        return Thuban.Lib.fileutil.relative_filename(dir, filename)
    else:
        return filename

def escape(data):
    """Escape &, \", ', <, and > in a string of data.
    """
    data = string.replace(data, "&", "&amp;")
    data = string.replace(data, "<", "&lt;")
    data = string.replace(data, ">", "&gt;")
    data = string.replace(data, '"', "&quot;")
    data = string.replace(data, "'", "&apos;")
    return data

class Saver:

    """Class to serialize a session into an XML file.

    Applications built on top of Thuban may derive from this class and
    override or extend the methods to save additional information. This
    additional information should take the form of additional attributes
    or elements whose names are prefixed with a namespace. To define a
    namespace derived classes should extend the write_session method to
    pass the namespaces to the default implementation.
    """


    def __init__(self, session):
        self.session = session

    def write(self, file_or_filename):
        """Write the session to a file.

        The argument may be either a file object or a filename. If it's
        a filename, the file will be opened for writing. Files of
        shapefiles will be stored as filenames relative to the directory
        the file is stored in (as given by os.path.dirname(filename)) if
        they have a common parent directory other than the root
        directory.

        If the argument is a file object (which is determined by the
        presence of a write method) all filenames will be absolut
        filenames.
        """

        # keep track of how many levels of indentation to write
        self.indent_level = 0 
        # track whether an element is currently open. see open_element().
        self.element_open = 0

        if hasattr(file_or_filename, "write"):
            # it's a file object
            self.file = file_or_filename
            self.dir = ""
        else:
            filename = file_or_filename
            self.dir = os.path.dirname(filename)
            self.file = open(filename, 'w')
        self.write_header()
        self.write_session(self.session)

        assert(self.indent_level == 0)

    def write_attribs(self, attrs):
        for name, value in attrs.items():
            self.file.write(' %s="%s"' % (escape(name), escape(value)))
    
    def open_element(self, element, attrs = {}):

        #
        # we note when an element is opened so that if two open_element()
        # calls are made successively we can end the currently open
        # tag and will later write a proper close tag. otherwise,
        # if a close_element() call is made directly after an open_element()
        # call we will close the tag with a />
        #
        if self.element_open == 1:
            self.file.write(">\n")

        self.element_open = 1

        # Helper function to write an element open tag with attributes
        self.file.write("%s<%s" % (TAB*self.indent_level, element))
        self.write_attribs(attrs)

        self.indent_level += 1

    def close_element(self, element):
        self.indent_level -= 1
        assert(self.indent_level >= 0)

        # see open_element() for an explanation
        if self.element_open == 1:
            self.element_open = 0
            self.file.write("/>\n")
        else:
            self.file.write("%s</%s>\n" % (TAB*self.indent_level, element))

    def write_element(self, element, attrs = {}):
        """write an element that won't need a closing tag"""
        self.open_element(element, attrs)
        self.close_element(element)

    def write_header(self):
        """Write the XML header"""
        self.file.write('<?xml version="1.0" encoding="UTF-8"?>\n')
        self.file.write('<!DOCTYPE session SYSTEM "thuban.dtd">\n')

    def write_session(self, session, attrs = None, namespaces = ()):
        """Write the session and its contents

        By default, write a session element with the title attribute and
        call write_map for each map contained in the session.

        The optional argument attrs is for additional attributes and, if
        given, should be a mapping from attribute names to attribute
        values. The values should not be XML-escaped yet.

        The optional argument namespaces, if given, should be a sequence
        of (name, URI) pairs. The namespaces are written as namespace
        attributes into the session element. This is mainly useful for
        derived classes that need to store additional information in a
        thuban session file.
        """
        if attrs is None:
            attrs = {}
        attrs["title"] = session.title
        for name, uri in namespaces:
            attrs["xmlns:" + name] = uri
        self.open_element("session", attrs)
        for map in session.Maps():
            self.write_map(map)
        self.close_element("session")

    def write_map(self, map):
        """Write the map and its contents.

        By default, write a map element element with the title
        attribute, call write_projection to write the projection
        element, call write_layer for each layer contained in the map
        and finally call write_label_layer to write the label layer.
        """
        write = self.file.write
        self.open_element('map title="%s"' % escape(map.title))
        self.write_projection(map.projection)
        for layer in map.Layers():
            self.write_layer(layer)
        self.write_label_layer(map.LabelLayer())
        self.close_element('map')

    def write_projection(self, projection):
        """Write the projection.
        """
        if projection and len(projection.params) > 0:
            self.open_element("projection")
            for param in projection.params:
                self.write_element('parameter value="%s"' % escape(param))
            self.close_element("projection")

    def write_layer(self, layer, attrs = None):
        """Write the layer.

        The optional argument attrs is for additional attributes and, if
        given, should be a mapping from attribute names to attribute
        values. The values should not be XML-escaped yet.
        """
        lc = layer.GetClassification()

        if attrs is None:
            attrs = {}

        attrs["title"]        = layer.title
        attrs["filename"]     = relative_filename(self.dir, layer.filename)
        attrs["stroke"]       = lc.GetDefaultStroke().hex()
        attrs["stroke_width"] = str(lc.GetDefaultStrokeWidth())
        attrs["fill"]         = lc.GetDefaultFill().hex()

        self.open_element("layer", attrs)
        self.write_classification(layer)
        self.close_element("layer")

    def write_classification(self, layer, attrs = None):
        if attrs is None:
            attrs = {}

        lc = layer.GetClassification()

        field = lc.GetField()
 
        #
        # there isn't a classification of anything 
        # so don't do anything
        #
        if field is None: return

        attrs["field"] = field
        self.open_element("classification", attrs)


#       self.open_element("clnull")
#       write_class_data(lc.GetDefaultData())
#       self.close_element("clnull")
            
        # just playing now with lambdas and dictionaries

        types = [[lambda p: 'clnull', 
                  lambda p: 'clnull'],
                 [lambda p: 'clpoint value="%s"' % 
                             str(p.GetValue()),
                  lambda p: 'clpoint'],
                 [lambda p: 'clrange min="%s" max="%s"' % 
                             (str(p.GetMin()), 
                              (str(p.GetMax()))),
                  lambda p: 'clrange']]

        def write_class_group(group):
            type = -1
            if isinstance(group, ClassGroupDefault): type = 0
            elif isinstance(group, ClassGroupSingleton): type = 1
            elif isinstance(group, ClassGroupRange): type = 2
            elif isinstance(group, ClassGroupMap):   type = 3
            assert(type >= 0)

            if type <= 2: 
                data = group.GetProperties()
                dict = {'stroke'      : data.GetStroke().hex(),
                        'stroke_width': str(data.GetStrokeWidth()),
                        'fill'        : data.GetFill().hex()}

                self.open_element(types[type][0](group))
                self.write_element("cldata", dict)
                self.close_element(types[type][1](group))
            else: pass # XXX: we need to handle maps

        for i in lc:
            write_class_group(i)

#       for i in lc:
#           t = i.GetType()
#           self.open_element(types[t][0](i))
#           write_class_data(i)
#           self.close_element(types[t][1](i))

#       for p in lc:
#           type = p.GetType()
#           if p == ClassData.DEFAULT:
#               lopen = lclose = 'clnull'
#           elif p == ClassData.POINTS:
#               lopen = 'clpoint value="%s"' % escape(str(p.GetValue()))
#               lclose = 'clpoint'
#           elif p == ClassData.RANGES:
#               lopen = 'clrange min="%s" max="%s"'
#                   % (escape(str(p.GetMin())), escape(str(p.GetMax()))))
#               lclose = 'clrange'

#           self.open_element(lopen)
#           write_class_data(p)
#           self.close_element(lclose)
            
#       if lc.points != {}:
#           for p in lc.points.values():
#               self.open_element('clpoint value="%s"' % 
#                   (escape(str(p.GetValue()))))
#               write_class_data(p)
#               self.close_element('clpoint')
#          
#       if lc.ranges != []:
#           for p in lc.ranges:
#               self.open_element('clrange min="%s" max="%s"'
#                   % (escape(str(p.GetMin())), escape(str(p.GetMax()))))
#               write_class_data(p)
#               self.close_element('clrange')

        self.close_element("classification")

    def write_label_layer(self, layer):
        """Write the label layer.
        """
        labels = layer.Labels()
        if labels:
            self.open_element('labellayer')
            for label in labels:
                self.write_element(('label x="%g" y="%g" text="%s"'
                                    ' halign="%s" valign="%s"')
                                % (label.x, label.y, label.text, label.halign,
                                   label.valign))
            self.close_element('labellayer')


def save_session(session, file, saver_class = None):
    """Save the session session to a file.

    The file argument may either be a filename or an open file object.

    The optional argument saver_class is the class to use to serialize
    the session. By default or if it's None, the saver class will be
    Saver.

    If writing the session is successful call the session's
    UnsetModified method
    """
    if saver_class is None:
        saver_class = Saver
    saver = saver_class(session)
    saver.write(file)

    # after a successful save consider the session unmodified.
    session.UnsetModified()
1	# Copyright (c) 2001, 2002, 2003 by Intevation GmbH
2	# Authors:
3	# Jan-Oliver Wagner <[email protected]>
4	# Bernhard Herzog <[email protected]>
5	# Jonathan Coles <[email protected]>
6	#
7	# This program is free software under the GPL (>=v2)
8	# Read the file COPYING coming with Thuban for details.
9
10	"""
11	Functions to save a session to a file
12	"""
13
14	__version__ = "$Revision$"
15
16	# fix for people using python2.1
17	from __future__ import nested_scopes
18
19	import os
20	import string
21
22	import Thuban.Lib.fileutil
23
24	from Thuban.Model.color import Color
25
26	from Thuban.Model.classification import *
27
28	#
29	# one level of indention
30	#
31	TAB = " "
32
33	def relative_filename(dir, filename):
34	"""Return a filename relative to dir for the absolute file name absname.
35
36	This is almost the same as the function in fileutil, except that dir
37	can be an empty string in which case filename will be returned
38	unchanged.
39	"""
40	if dir:
41	return Thuban.Lib.fileutil.relative_filename(dir, filename)
42	else:
43	return filename
44
45	def escape(data):
46	"""Escape &, \", ', <, and > in a string of data.
47	"""
48	data = string.replace(data, "&", "&")
49	data = string.replace(data, "<", "<")
50	data = string.replace(data, ">", ">")
51	data = string.replace(data, '"', """)
52	data = string.replace(data, "'", "'")
53	return data
54
55	class Saver:
56
57	"""Class to serialize a session into an XML file.
58
59	Applications built on top of Thuban may derive from this class and
60	override or extend the methods to save additional information. This
61	additional information should take the form of additional attributes
62	or elements whose names are prefixed with a namespace. To define a
63	namespace derived classes should extend the write_session method to
64	pass the namespaces to the default implementation.
65	"""
66
67
68	def __init__(self, session):
69	self.session = session
70
71	def write(self, file_or_filename):
72	"""Write the session to a file.
73
74	The argument may be either a file object or a filename. If it's
75	a filename, the file will be opened for writing. Files of
76	shapefiles will be stored as filenames relative to the directory
77	the file is stored in (as given by os.path.dirname(filename)) if
78	they have a common parent directory other than the root
79	directory.
80
81	If the argument is a file object (which is determined by the
82	presence of a write method) all filenames will be absolut
83	filenames.
84	"""
85
86	# keep track of how many levels of indentation to write
87	self.indent_level = 0
88	# track whether an element is currently open. see open_element().
89	self.element_open = 0
90
91	if hasattr(file_or_filename, "write"):
92	# it's a file object
93	self.file = file_or_filename
94	self.dir = ""
95	else:
96	filename = file_or_filename
97	self.dir = os.path.dirname(filename)
98	self.file = open(filename, 'w')
99	self.write_header()
100	self.write_session(self.session)
101
102	assert(self.indent_level == 0)
103
104	def write_attribs(self, attrs):
105	for name, value in attrs.items():
106	self.file.write(' %s="%s"' % (escape(name), escape(value)))
107
108	def open_element(self, element, attrs = {}):
109
110	#
111	# we note when an element is opened so that if two open_element()
112	# calls are made successively we can end the currently open
113	# tag and will later write a proper close tag. otherwise,
114	# if a close_element() call is made directly after an open_element()
115	# call we will close the tag with a />
116	#
117	if self.element_open == 1:
118	self.file.write(">\n")
119
120	self.element_open = 1
121
122	# Helper function to write an element open tag with attributes
123	self.file.write("%s<%s" % (TAB*self.indent_level, element))
124	self.write_attribs(attrs)
125
126	self.indent_level += 1
127
128	def close_element(self, element):
129	self.indent_level -= 1
130	assert(self.indent_level >= 0)
131
132	# see open_element() for an explanation
133	if self.element_open == 1:
134	self.element_open = 0
135	self.file.write("/>\n")
136	else:
137	self.file.write("%s</%s>\n" % (TAB*self.indent_level, element))
138
139	def write_element(self, element, attrs = {}):
140	"""write an element that won't need a closing tag"""
141	self.open_element(element, attrs)
142	self.close_element(element)
143
144	def write_header(self):
145	"""Write the XML header"""
146	self.file.write('<?xml version="1.0" encoding="UTF-8"?>\n')
147	self.file.write('<!DOCTYPE session SYSTEM "thuban.dtd">\n')
148
149	def write_session(self, session, attrs = None, namespaces = ()):
150	"""Write the session and its contents
151
152	By default, write a session element with the title attribute and
153	call write_map for each map contained in the session.
154
155	The optional argument attrs is for additional attributes and, if
156	given, should be a mapping from attribute names to attribute
157	values. The values should not be XML-escaped yet.
158
159	The optional argument namespaces, if given, should be a sequence
160	of (name, URI) pairs. The namespaces are written as namespace
161	attributes into the session element. This is mainly useful for
162	derived classes that need to store additional information in a
163	thuban session file.
164	"""
165	if attrs is None:
166	attrs = {}
167	attrs["title"] = session.title
168	for name, uri in namespaces:
169	attrs["xmlns:" + name] = uri
170	self.open_element("session", attrs)
171	for map in session.Maps():
172	self.write_map(map)
173	self.close_element("session")
174
175	def write_map(self, map):
176	"""Write the map and its contents.
177
178	By default, write a map element element with the title
179	attribute, call write_projection to write the projection
180	element, call write_layer for each layer contained in the map
181	and finally call write_label_layer to write the label layer.
182	"""
183	write = self.file.write
184	self.open_element('map title="%s"' % escape(map.title))
185	self.write_projection(map.projection)
186	for layer in map.Layers():
187	self.write_layer(layer)
188	self.write_label_layer(map.LabelLayer())
189	self.close_element('map')
190
191	def write_projection(self, projection):
192	"""Write the projection.
193	"""
194	if projection and len(projection.params) > 0:
195	self.open_element("projection")
196	for param in projection.params:
197	self.write_element('parameter value="%s"' % escape(param))
198	self.close_element("projection")
199
200	def write_layer(self, layer, attrs = None):
201	"""Write the layer.
202
203	The optional argument attrs is for additional attributes and, if
204	given, should be a mapping from attribute names to attribute
205	values. The values should not be XML-escaped yet.
206	"""
207	lc = layer.GetClassification()
208
209	if attrs is None:
210	attrs = {}
211
212	attrs["title"] = layer.title
213	attrs["filename"] = relative_filename(self.dir, layer.filename)
214	attrs["stroke"] = lc.GetDefaultStroke().hex()
215	attrs["stroke_width"] = str(lc.GetDefaultStrokeWidth())
216	attrs["fill"] = lc.GetDefaultFill().hex()
217
218	self.open_element("layer", attrs)
219	self.write_classification(layer)
220	self.close_element("layer")
221
222	def write_classification(self, layer, attrs = None):
223	if attrs is None:
224	attrs = {}
225
226	lc = layer.GetClassification()
227
228	field = lc.GetField()
229
230	#
231	# there isn't a classification of anything
232	# so don't do anything
233	#
234	if field is None: return
235
236	attrs["field"] = field
237	self.open_element("classification", attrs)
238
239
240	# self.open_element("clnull")
241	# write_class_data(lc.GetDefaultData())
242	# self.close_element("clnull")
243
244	# just playing now with lambdas and dictionaries
245
246	types = [[lambda p: 'clnull',
247	lambda p: 'clnull'],
248	[lambda p: 'clpoint value="%s"' %
249	str(p.GetValue()),
250	lambda p: 'clpoint'],
251	[lambda p: 'clrange min="%s" max="%s"' %
252	(str(p.GetMin()),
253	(str(p.GetMax()))),
254	lambda p: 'clrange']]
255
256	def write_class_group(group):
257	type = -1
258	if isinstance(group, ClassGroupDefault): type = 0
259	elif isinstance(group, ClassGroupSingleton): type = 1
260	elif isinstance(group, ClassGroupRange): type = 2
261	elif isinstance(group, ClassGroupMap): type = 3
262	assert(type >= 0)
263
264	if type <= 2:
265	data = group.GetProperties()
266	dict = {'stroke' : data.GetStroke().hex(),
267	'stroke_width': str(data.GetStrokeWidth()),
268	'fill' : data.GetFill().hex()}
269
270	self.open_element(types[type][0](group))
271	self.write_element("cldata", dict)
272	self.close_element(types[type][1](group))
273	else: pass # XXX: we need to handle maps
274
275	for i in lc:
276	write_class_group(i)
277
278	# for i in lc:
279	# t = i.GetType()
280	# self.open_element(types[t][0](i))
281	# write_class_data(i)
282	# self.close_element(types[t][1](i))
283
284	# for p in lc:
285	# type = p.GetType()
286	# if p == ClassData.DEFAULT:
287	# lopen = lclose = 'clnull'
288	# elif p == ClassData.POINTS:
289	# lopen = 'clpoint value="%s"' % escape(str(p.GetValue()))
290	# lclose = 'clpoint'
291	# elif p == ClassData.RANGES:
292	# lopen = 'clrange min="%s" max="%s"'
293	# % (escape(str(p.GetMin())), escape(str(p.GetMax()))))
294	# lclose = 'clrange'
295
296	# self.open_element(lopen)
297	# write_class_data(p)
298	# self.close_element(lclose)
299
300	# if lc.points != {}:
301	# for p in lc.points.values():
302	# self.open_element('clpoint value="%s"' %
303	# (escape(str(p.GetValue()))))
304	# write_class_data(p)
305	# self.close_element('clpoint')
306	#
307	# if lc.ranges != []:
308	# for p in lc.ranges:
309	# self.open_element('clrange min="%s" max="%s"'
310	# % (escape(str(p.GetMin())), escape(str(p.GetMax()))))
311	# write_class_data(p)
312	# self.close_element('clrange')
313
314	self.close_element("classification")
315
316	def write_label_layer(self, layer):
317	"""Write the label layer.
318	"""
319	labels = layer.Labels()
320	if labels:
321	self.open_element('labellayer')
322	for label in labels:
323	self.write_element(('label x="%g" y="%g" text="%s"'
324	' halign="%s" valign="%s"')
325	% (label.x, label.y, label.text, label.halign,
326	label.valign))
327	self.close_element('labellayer')
328
329
330
331	def save_session(session, file, saver_class = None):
332	"""Save the session session to a file.
333
334	The file argument may either be a filename or an open file object.
335
336	The optional argument saver_class is the class to use to serialize
337	the session. By default or if it's None, the saver class will be
338	Saver.
339
340	If writing the session is successful call the session's
341	UnsetModified method
342	"""
343	if saver_class is None:
344	saver_class = Saver
345	saver = saver_class(session)
346	saver.write(file)
347
348	# after a successful save consider the session unmodified.
349	session.UnsetModified()
Name	Value
svn:eol-style	native
svn:keywords	Author Date Id Revision