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__ = "$Revision$"

import os

import Thuban.Lib.fileutil

from Thuban.Model.layer import Layer, RasterLayer

from Thuban.Model.classification import \
    ClassGroupDefault, ClassGroupSingleton, ClassGroupRange, ClassGroupMap
from Thuban.Model.transientdb import AutoTransientTable, TransientJoinedTable
from Thuban.Model.table import DBFTable, FIELDTYPE_STRING
from Thuban.Model.data import DerivedShapeStore, ShapefileStore

from Thuban.Model.xmlwriter import XMLWriter
from postgisdb import PostGISConnection, PostGISShapeStore

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 unify_filename(filename):
    """Return a 'unified' version of filename

    The .thuban files should be as platform independent as possible.
    Since they must contain filenames the filenames have to unified. We
    unify on unix-like filenames for now, which means we do nothing on a
    posix system and simply replace backslashes with slashes on windows
    """
    if os.name == "posix":
        return filename
    elif os.name == "nt":
        return "/".join(filename.split("\\"))
    else:
        raise RuntimeError("Unsupported platform for unify_filename: %s"
                           % os.name)

def sort_data_stores(stores):
    """Return a topologically sorted version of the sequence of data containers

    The list is sorted so that data containers that depend on other data
    containers have higher indexes than the containers they depend on.
    """
    if not stores:
        return []
    processed = {}
    result = []
    todo = stores[:]
    while todo:
        # It doesn't really matter which if the items of todo is
        # processed next, but if we take the first one, the order is
        # preserved to some degree which makes writing some of the test
        # cases easier.
        container = todo.pop(0)
        if id(container) in processed:
            continue
        deps = [dep for dep in container.Dependencies()
                    if id(dep) not in processed]
        if deps:
            todo.append(container)
            todo.extend(deps)
        else:
            result.append(container)
            processed[id(container)] = 1
    return result


class SessionSaver(XMLWriter):

    """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):
        XMLWriter.__init__(self)
        self.session = session
        # Map object ids to the ids used in the thuban files
        self.idmap = {}

    def get_id(self, obj):
        """Return the id used in the thuban file for the object obj"""
        return self.idmap.get(id(obj))

    def define_id(self, obj, value = None):
        if value is None:
            value = "D" + str(id(obj))
        self.idmap[id(obj)] = value
        return value

    def has_id(self, obj):
        return self.idmap.has_key(id(obj))

    def prepare_filename(self, filename):
        """Return the string to use when writing filename to the thuban file

        The returned string is a unified version (only slashes as
        directory separators, see unify_filename) of filename expressed
        relative to the directory the .thuban file is written to.
        """
        return unify_filename(relative_filename(self.dir, filename))

    def write(self, file_or_filename):
        XMLWriter.write(self, file_or_filename)

        self.write_header("session", "thuban-1.0.dtd")
        self.write_session(self.session)
        self.close()

    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
        # default name space
        attrs["xmlns"] = \
               "http://thuban.intevation.org/dtds/thuban-1.0-dev.dtd"
        self.open_element("session", attrs)
        self.write_db_connections(session)
        self.write_data_containers(session)
        for map in session.Maps():
            self.write_map(map)
        self.close_element("session")

    def write_db_connections(self, session):
        for conn in session.DBConnections():
            if isinstance(conn, PostGISConnection):
                self.write_element("dbconnection",
                                   {"id": self.define_id(conn),
                                    "dbtype": "postgis",
                                    "host": conn.host,
                                    "port": conn.port,
                                    "user": conn.user,
                                    "dbname": conn.dbname})
            else:
                raise ValueError("Can't handle db connection %r" % conn)

    def write_data_containers(self, session):
        containers = sort_data_stores(session.DataContainers())
        for container in containers:
            if isinstance(container, AutoTransientTable):
                # AutoTransientTable instances are invisible in the
                # thuban files. They're only used internally. To make
                # sure that containers depending on AutoTransientTable
                # instances refer to the right real containers we give
                # the AutoTransientTable instances the same id as the
                # source they depend on.
                self.define_id(container,
                               self.get_id(container.Dependencies()[0]))
                continue

            idvalue = self.define_id(container)
            if isinstance(container, ShapefileStore):
                self.define_id(container.Table(), idvalue)
                filename = self.prepare_filename(container.FileName())
                self.write_element("fileshapesource",
                                   {"id": idvalue, "filename": filename,
                                    "filetype": "shapefile"})
            elif isinstance(container, DerivedShapeStore):
                shapesource, table = container.Dependencies()
                self.write_element("derivedshapesource",
                                   {"id": idvalue,
                                    "shapesource": self.get_id(shapesource),
                                    "table": self.get_id(table)})
            elif isinstance(container, PostGISShapeStore):
                conn = container.DBConnection()
                self.write_element("dbshapesource",
                                   {"id": idvalue,
                                    "dbconn": self.get_id(conn),
                                    "tablename": container.TableName()})
            elif isinstance(container, DBFTable):
                filename = self.prepare_filename(container.FileName())
                self.write_element("filetable",
                                   {"id": idvalue,
                                    "title": container.Title(),
                                    "filename": filename,
                                    "filetype": "DBF"})
            elif isinstance(container, TransientJoinedTable):
                left, right = container.Dependencies()
                left_field = container.left_field
                right_field = container.right_field
                self.write_element("jointable",
                                   {"id": idvalue,
                                    "title": container.Title(),
                                    "right": self.get_id(right),
                                    "rightcolumn": right_field,
                                    "left": self.get_id(left),
                                    "leftcolumn": left_field,
                                    "jointype": container.JoinType()})
            else:
                raise ValueError("Can't handle container %r" % container)


    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.
        """
        self.open_element('map title="%s"' % self.encode(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:
            attrs = {"name": projection.GetName()}
            epsg = projection.EPSGCode()
            if epsg is not None:
                attrs["epsg"] = epsg
            self.open_element("projection", attrs)
            for param in projection.params:
                self.write_element('parameter value="%s"' % 
                                   self.encode(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.
        """

        if attrs is None:
            attrs = {}

        attrs["title"]   = layer.title
        attrs["visible"] = ("false", "true")[int(layer.Visible())]

        if isinstance(layer, Layer):
            attrs["shapestore"]   = self.get_id(layer.ShapeStore())

            lc = layer.GetClassification()
            attrs["stroke"] = lc.GetDefaultLineColor().hex()
            attrs["stroke_width"] = str(lc.GetDefaultLineWidth())
            attrs["fill"] = lc.GetDefaultFill().hex()

            self.open_element("layer", attrs)
            self.write_projection(layer.GetProjection())
            self.write_classification(layer)
            self.close_element("layer")
        elif isinstance(layer, RasterLayer):
            attrs["filename"] = self.prepare_filename(layer.filename)
            self.open_element("rasterlayer", attrs)
            self.write_projection(layer.GetProjection())
            self.close_element("rasterlayer")

    def write_classification(self, layer, attrs = None):
        """Write Classification information."""

        if attrs is None:
            attrs = {}

        lc = layer.GetClassification()

        field = layer.GetClassificationColumn()

        #
        # there isn't a classification of anything so do nothing
        #
        if field is None: return

        attrs["field"] = field
        attrs["field_type"] = str(layer.GetFieldType(field))
        self.open_element("classification", attrs)

        for g in lc:
            if isinstance(g, ClassGroupDefault):
                open_el  = 'clnull label="%s"' % self.encode(g.GetLabel())
                close_el = 'clnull'
            elif isinstance(g, ClassGroupSingleton):
                if layer.GetFieldType(field) == FIELDTYPE_STRING:
                    value = self.encode(g.GetValue())
                else:
                    value = str(g.GetValue())
                open_el  = 'clpoint label="%s" value="%s"' \
                           % (self.encode(g.GetLabel()), value)
                close_el = 'clpoint'
            elif isinstance(g, ClassGroupRange):
                open_el  = 'clrange label="%s" range="%s"' \
                          % (self.encode(g.GetLabel()), str(g.GetRange()))
                close_el = 'clrange'
            else:
                assert False, _("Unsupported group type in classification")
                continue

            data = g.GetProperties()
            dict = {'stroke'      : data.GetLineColor().hex(),
                    'stroke_width': str(data.GetLineWidth()),
                    'fill'        : data.GetFill().hex()}

            self.open_element(open_el)
            self.write_element("cldata", dict)
            self.close_element(close_el)

        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, 
                                   self.encode(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
    SessionSaver.

    If writing the session is successful call the session's
    UnsetModified method
    """
    if saver_class is None:
        saver_class = SessionSaver
    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	import os
17
18	import Thuban.Lib.fileutil
19
20	from Thuban.Model.layer import Layer, RasterLayer
21
22	from Thuban.Model.classification import \
23	ClassGroupDefault, ClassGroupSingleton, ClassGroupRange, ClassGroupMap
24	from Thuban.Model.transientdb import AutoTransientTable, TransientJoinedTable
25	from Thuban.Model.table import DBFTable, FIELDTYPE_STRING
26	from Thuban.Model.data import DerivedShapeStore, ShapefileStore
27
28	from Thuban.Model.xmlwriter import XMLWriter
29	from postgisdb import PostGISConnection, PostGISShapeStore
30
31	def relative_filename(dir, filename):
32	"""Return a filename relative to dir for the absolute file name absname.
33
34	This is almost the same as the function in fileutil, except that dir
35	can be an empty string in which case filename will be returned
36	unchanged.
37	"""
38	if dir:
39	return Thuban.Lib.fileutil.relative_filename(dir, filename)
40	else:
41	return filename
42
43
44	def unify_filename(filename):
45	"""Return a 'unified' version of filename
46
47	The .thuban files should be as platform independent as possible.
48	Since they must contain filenames the filenames have to unified. We
49	unify on unix-like filenames for now, which means we do nothing on a
50	posix system and simply replace backslashes with slashes on windows
51	"""
52	if os.name == "posix":
53	return filename
54	elif os.name == "nt":
55	return "/".join(filename.split("\\"))
56	else:
57	raise RuntimeError("Unsupported platform for unify_filename: %s"
58	% os.name)
59
60	def sort_data_stores(stores):
61	"""Return a topologically sorted version of the sequence of data containers
62
63	The list is sorted so that data containers that depend on other data
64	containers have higher indexes than the containers they depend on.
65	"""
66	if not stores:
67	return []
68	processed = {}
69	result = []
70	todo = stores[:]
71	while todo:
72	# It doesn't really matter which if the items of todo is
73	# processed next, but if we take the first one, the order is
74	# preserved to some degree which makes writing some of the test
75	# cases easier.
76	container = todo.pop(0)
77	if id(container) in processed:
78	continue
79	deps = [dep for dep in container.Dependencies()
80	if id(dep) not in processed]
81	if deps:
82	todo.append(container)
83	todo.extend(deps)
84	else:
85	result.append(container)
86	processed[id(container)] = 1
87	return result
88
89
90	class SessionSaver(XMLWriter):
91
92	"""Class to serialize a session into an XML file.
93
94	Applications built on top of Thuban may derive from this class and
95	override or extend the methods to save additional information. This
96	additional information should take the form of additional attributes
97	or elements whose names are prefixed with a namespace. To define a
98	namespace derived classes should extend the write_session method to
99	pass the namespaces to the default implementation.
100	"""
101
102
103	def __init__(self, session):
104	XMLWriter.__init__(self)
105	self.session = session
106	# Map object ids to the ids used in the thuban files
107	self.idmap = {}
108
109	def get_id(self, obj):
110	"""Return the id used in the thuban file for the object obj"""
111	return self.idmap.get(id(obj))
112
113	def define_id(self, obj, value = None):
114	if value is None:
115	value = "D" + str(id(obj))
116	self.idmap[id(obj)] = value
117	return value
118
119	def has_id(self, obj):
120	return self.idmap.has_key(id(obj))
121
122	def prepare_filename(self, filename):
123	"""Return the string to use when writing filename to the thuban file
124
125	The returned string is a unified version (only slashes as
126	directory separators, see unify_filename) of filename expressed
127	relative to the directory the .thuban file is written to.
128	"""
129	return unify_filename(relative_filename(self.dir, filename))
130
131	def write(self, file_or_filename):
132	XMLWriter.write(self, file_or_filename)
133
134	self.write_header("session", "thuban-1.0.dtd")
135	self.write_session(self.session)
136	self.close()
137
138	def write_session(self, session, attrs = None, namespaces = ()):
139	"""Write the session and its contents
140
141	By default, write a session element with the title attribute and
142	call write_map for each map contained in the session.
143
144	The optional argument attrs is for additional attributes and, if
145	given, should be a mapping from attribute names to attribute
146	values. The values should not be XML-escaped yet.
147
148	The optional argument namespaces, if given, should be a sequence
149	of (name, URI) pairs. The namespaces are written as namespace
150	attributes into the session element. This is mainly useful for
151	derived classes that need to store additional information in a
152	thuban session file.
153	"""
154	if attrs is None:
155	attrs = {}
156	attrs["title"] = session.title
157	for name, uri in namespaces:
158	attrs["xmlns:" + name] = uri
159	# default name space
160	attrs["xmlns"] = \
161	"http://thuban.intevation.org/dtds/thuban-1.0-dev.dtd"
162	self.open_element("session", attrs)
163	self.write_db_connections(session)
164	self.write_data_containers(session)
165	for map in session.Maps():
166	self.write_map(map)
167	self.close_element("session")
168
169	def write_db_connections(self, session):
170	for conn in session.DBConnections():
171	if isinstance(conn, PostGISConnection):
172	self.write_element("dbconnection",
173	{"id": self.define_id(conn),
174	"dbtype": "postgis",
175	"host": conn.host,
176	"port": conn.port,
177	"user": conn.user,
178	"dbname": conn.dbname})
179	else:
180	raise ValueError("Can't handle db connection %r" % conn)
181
182	def write_data_containers(self, session):
183	containers = sort_data_stores(session.DataContainers())
184	for container in containers:
185	if isinstance(container, AutoTransientTable):
186	# AutoTransientTable instances are invisible in the
187	# thuban files. They're only used internally. To make
188	# sure that containers depending on AutoTransientTable
189	# instances refer to the right real containers we give
190	# the AutoTransientTable instances the same id as the
191	# source they depend on.
192	self.define_id(container,
193	self.get_id(container.Dependencies()[0]))
194	continue
195
196	idvalue = self.define_id(container)
197	if isinstance(container, ShapefileStore):
198	self.define_id(container.Table(), idvalue)
199	filename = self.prepare_filename(container.FileName())
200	self.write_element("fileshapesource",
201	{"id": idvalue, "filename": filename,
202	"filetype": "shapefile"})
203	elif isinstance(container, DerivedShapeStore):
204	shapesource, table = container.Dependencies()
205	self.write_element("derivedshapesource",
206	{"id": idvalue,
207	"shapesource": self.get_id(shapesource),
208	"table": self.get_id(table)})
209	elif isinstance(container, PostGISShapeStore):
210	conn = container.DBConnection()
211	self.write_element("dbshapesource",
212	{"id": idvalue,
213	"dbconn": self.get_id(conn),
214	"tablename": container.TableName()})
215	elif isinstance(container, DBFTable):
216	filename = self.prepare_filename(container.FileName())
217	self.write_element("filetable",
218	{"id": idvalue,
219	"title": container.Title(),
220	"filename": filename,
221	"filetype": "DBF"})
222	elif isinstance(container, TransientJoinedTable):
223	left, right = container.Dependencies()
224	left_field = container.left_field
225	right_field = container.right_field
226	self.write_element("jointable",
227	{"id": idvalue,
228	"title": container.Title(),
229	"right": self.get_id(right),
230	"rightcolumn": right_field,
231	"left": self.get_id(left),
232	"leftcolumn": left_field,
233	"jointype": container.JoinType()})
234	else:
235	raise ValueError("Can't handle container %r" % container)
236
237
238	def write_map(self, map):
239	"""Write the map and its contents.
240
241	By default, write a map element element with the title
242	attribute, call write_projection to write the projection
243	element, call write_layer for each layer contained in the map
244	and finally call write_label_layer to write the label layer.
245	"""
246	self.open_element('map title="%s"' % self.encode(map.title))
247	self.write_projection(map.projection)
248	for layer in map.Layers():
249	self.write_layer(layer)
250	self.write_label_layer(map.LabelLayer())
251	self.close_element('map')
252
253	def write_projection(self, projection):
254	"""Write the projection.
255	"""
256	if projection and len(projection.params) > 0:
257	attrs = {"name": projection.GetName()}
258	epsg = projection.EPSGCode()
259	if epsg is not None:
260	attrs["epsg"] = epsg
261	self.open_element("projection", attrs)
262	for param in projection.params:
263	self.write_element('parameter value="%s"' %
264	self.encode(param))
265	self.close_element("projection")
266
267	def write_layer(self, layer, attrs = None):
268	"""Write the layer.
269
270	The optional argument attrs is for additional attributes and, if
271	given, should be a mapping from attribute names to attribute
272	values. The values should not be XML-escaped yet.
273	"""
274
275	if attrs is None:
276	attrs = {}
277
278	attrs["title"] = layer.title
279	attrs["visible"] = ("false", "true")[int(layer.Visible())]
280
281	if isinstance(layer, Layer):
282	attrs["shapestore"] = self.get_id(layer.ShapeStore())
283
284	lc = layer.GetClassification()
285	attrs["stroke"] = lc.GetDefaultLineColor().hex()
286	attrs["stroke_width"] = str(lc.GetDefaultLineWidth())
287	attrs["fill"] = lc.GetDefaultFill().hex()
288
289	self.open_element("layer", attrs)
290	self.write_projection(layer.GetProjection())
291	self.write_classification(layer)
292	self.close_element("layer")
293	elif isinstance(layer, RasterLayer):
294	attrs["filename"] = self.prepare_filename(layer.filename)
295	self.open_element("rasterlayer", attrs)
296	self.write_projection(layer.GetProjection())
297	self.close_element("rasterlayer")
298
299	def write_classification(self, layer, attrs = None):
300	"""Write Classification information."""
301
302	if attrs is None:
303	attrs = {}
304
305	lc = layer.GetClassification()
306
307	field = layer.GetClassificationColumn()
308
309	#
310	# there isn't a classification of anything so do nothing
311	#
312	if field is None: return
313
314	attrs["field"] = field
315	attrs["field_type"] = str(layer.GetFieldType(field))
316	self.open_element("classification", attrs)
317
318	for g in lc:
319	if isinstance(g, ClassGroupDefault):
320	open_el = 'clnull label="%s"' % self.encode(g.GetLabel())
321	close_el = 'clnull'
322	elif isinstance(g, ClassGroupSingleton):
323	if layer.GetFieldType(field) == FIELDTYPE_STRING:
324	value = self.encode(g.GetValue())
325	else:
326	value = str(g.GetValue())
327	open_el = 'clpoint label="%s" value="%s"' \
328	% (self.encode(g.GetLabel()), value)
329	close_el = 'clpoint'
330	elif isinstance(g, ClassGroupRange):
331	open_el = 'clrange label="%s" range="%s"' \
332	% (self.encode(g.GetLabel()), str(g.GetRange()))
333	close_el = 'clrange'
334	else:
335	assert False, _("Unsupported group type in classification")
336	continue
337
338	data = g.GetProperties()
339	dict = {'stroke' : data.GetLineColor().hex(),
340	'stroke_width': str(data.GetLineWidth()),
341	'fill' : data.GetFill().hex()}
342
343	self.open_element(open_el)
344	self.write_element("cldata", dict)
345	self.close_element(close_el)
346
347	self.close_element("classification")
348
349	def write_label_layer(self, layer):
350	"""Write the label layer.
351	"""
352	labels = layer.Labels()
353	if labels:
354	self.open_element('labellayer')
355	for label in labels:
356	self.write_element(('label x="%g" y="%g" text="%s"'
357	' halign="%s" valign="%s"')
358	% (label.x, label.y,
359	self.encode(label.text),
360	label.halign,
361	label.valign))
362	self.close_element('labellayer')
363
364
365
366	def save_session(session, file, saver_class = None):
367	"""Save the session session to a file.
368
369	The file argument may either be a filename or an open file object.
370
371	The optional argument saver_class is the class to use to serialize
372	the session. By default or if it's None, the saver class will be
373	SessionSaver.
374
375	If writing the session is successful call the session's
376	UnsetModified method
377	"""
378	if saver_class is None:
379	saver_class = SessionSaver
380	saver = saver_class(session)
381	saver.write(file)
382
383	# after a successful save consider the session unmodified.
384	session.UnsetModified()
Name	Value
svn:eol-style	native
svn:keywords	Author Date Id Revision