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# Copyright (c) 2001, 2002 by Intevation GmbH |
# Copyright (c) 2001, 2002, 2003 by Intevation GmbH |
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# Authors: |
# Authors: |
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# Jan-Oliver Wagner <[email protected]> |
# Jan-Oliver Wagner <[email protected]> |
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# Bernhard Herzog <[email protected]> |
# Bernhard Herzog <[email protected]> |
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__version__ = "$Revision$" |
__version__ = "$Revision$" |
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import os |
import os |
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import string |
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import Thuban.Lib.fileutil |
import Thuban.Lib.fileutil |
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from Thuban.Model.color import Color |
from Thuban.Model.color import Color |
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from Thuban.Model.layer import Layer, RasterLayer |
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from Thuban.Model.classification import * |
from Thuban.Model.classification import \ |
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ClassGroupDefault, ClassGroupSingleton, ClassGroupRange, ClassGroupMap |
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# |
from Thuban.Model.xmlwriter import XMLWriter |
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# one level of indention |
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# |
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TAB = " " |
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def relative_filename(dir, filename): |
def relative_filename(dir, filename): |
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"""Return a filename relative to dir for the absolute file name absname. |
"""Return a filename relative to dir for the absolute file name absname. |
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else: |
else: |
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return filename |
return filename |
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def escape(data): |
class SessionSaver(XMLWriter): |
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"""Escape &, \", ', <, and > in a string of data. |
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""" |
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data = string.replace(data, "&", "&") |
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data = string.replace(data, "<", "<") |
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data = string.replace(data, ">", ">") |
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data = string.replace(data, '"', """) |
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data = string.replace(data, "'", "'") |
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return data |
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class Saver: |
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"""Class to serialize a session into an XML file. |
"""Class to serialize a session into an XML file. |
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Applications built on top of Thuban may derive from this class and |
Applications built on top of Thuban may derive from this class and |
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override or extend the methods to save additinal information. This |
override or extend the methods to save additional information. This |
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additional information should take the form of additional attributes |
additional information should take the form of additional attributes |
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or elements whose names are prefixed with a namespace. To define a |
or elements whose names are prefixed with a namespace. To define a |
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namespace derived classes should extend the write_session method to |
namespace derived classes should extend the write_session method to |
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def __init__(self, session): |
def __init__(self, session): |
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XMLWriter.__init__(self) |
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self.session = session |
self.session = session |
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def write(self, file_or_filename): |
def write(self, file_or_filename): |
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"""Write the session to a file. |
XMLWriter.write(self, file_or_filename) |
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The argument may be either a file object or a filename. If it's |
self.write_header("session", "thuban.dtd") |
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a filename, the file will be opened for writing. Files of |
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shapefiles will be stored as filenames relative to the directory |
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the file is stored in (as given by os.path.dirname(filename)) if |
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they have a common parent directory other than the root |
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directory. |
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If the argument is a file object (which is determined by the |
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presence of a write method) all filenames will be absolut |
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filenames. |
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""" |
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# keep track of how many levels of indentation to write |
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self.indent_level = 0 |
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# track whether an element is currently open. see open_element(). |
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self.element_open = 0 |
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if hasattr(file_or_filename, "write"): |
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# it's a file object |
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self.file = file_or_filename |
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self.dir = "" |
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else: |
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filename = file_or_filename |
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self.dir = os.path.dirname(filename) |
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self.file = open(filename, 'w') |
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self.write_header() |
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self.write_session(self.session) |
self.write_session(self.session) |
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self.close() |
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assert(self.indent_level == 0) |
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def write_attribs(self, attrs): |
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for name, value in attrs.items(): |
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self.file.write(' %s="%s"' % (escape(name), value)) |
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def open_element(self, element, attrs = {}): |
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# |
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# we note when an element is opened so that if two open_element() |
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# calls are made successively we can end the currently open |
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# tag and will later write a proper close tag. otherwise, |
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# if a close_element() call is made directly after an open_element() |
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# call we will close the tag with a /> |
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# |
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if self.element_open == 1: |
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self.file.write(">\n") |
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self.element_open = 1 |
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# Helper function to write an element open tag with attributes |
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self.file.write("%s<%s" % (TAB*self.indent_level, element)) |
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self.write_attribs(attrs) |
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self.indent_level += 1 |
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def close_element(self, element): |
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self.indent_level -= 1 |
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assert(self.indent_level >= 0) |
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# see open_element() for an explanation |
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if self.element_open == 1: |
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self.element_open = 0 |
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self.file.write("/>\n") |
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else: |
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self.file.write("%s</%s>\n" % (TAB*self.indent_level, element)) |
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def write_element(self, element, attrs = {}): |
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"""write an element that won't need a closing tag""" |
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self.open_element(element, attrs) |
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self.close_element(element) |
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def write_header(self): |
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"""Write the XML header""" |
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self.file.write('<?xml version="1.0" encoding="UTF-8"?>\n') |
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self.file.write('<!DOCTYPE session SYSTEM "thuban.dtd">\n') |
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def write_session(self, session, attrs = None, namespaces = ()): |
def write_session(self, session, attrs = None, namespaces = ()): |
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"""Write the session and its contents |
"""Write the session and its contents |
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element, call write_layer for each layer contained in the map |
element, call write_layer for each layer contained in the map |
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and finally call write_label_layer to write the label layer. |
and finally call write_label_layer to write the label layer. |
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""" |
""" |
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write = self.file.write |
self.open_element('map title="%s"' % self.encode(map.title)) |
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self.open_element('map title="%s"' % escape(map.title)) |
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self.write_projection(map.projection) |
self.write_projection(map.projection) |
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for layer in map.Layers(): |
for layer in map.Layers(): |
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self.write_layer(layer) |
self.write_layer(layer) |
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"""Write the projection. |
"""Write the projection. |
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""" |
""" |
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if projection and len(projection.params) > 0: |
if projection and len(projection.params) > 0: |
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self.open_element("projection") |
self.open_element("projection", {"name": projection.GetName()}) |
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for param in projection.params: |
for param in projection.params: |
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self.write_element('parameter value="%s"' % escape(param)) |
self.write_element('parameter value="%s"' % |
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self.encode(param)) |
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self.close_element("projection") |
self.close_element("projection") |
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def write_layer(self, layer, attrs = None): |
def write_layer(self, layer, attrs = None): |
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given, should be a mapping from attribute names to attribute |
given, should be a mapping from attribute names to attribute |
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values. The values should not be XML-escaped yet. |
values. The values should not be XML-escaped yet. |
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""" |
""" |
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lc = layer.GetClassification() |
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if attrs is None: |
if attrs is None: |
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attrs = {} |
attrs = {} |
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attrs["title"] = layer.title |
attrs["title"] = layer.title |
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attrs["filename"] = relative_filename(self.dir, layer.filename) |
attrs["visible"] = ("false", "true")[int(layer.Visible())] |
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attrs["stroke"] = lc.GetDefaultStroke().hex() |
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attrs["stroke_width"] = str(lc.GetDefaultStrokeWidth()) |
if isinstance(layer, Layer): |
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attrs["fill"] = lc.GetDefaultFill().hex() |
attrs["filename"] = relative_filename(self.dir, |
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layer.ShapeStore().FileName()) |
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self.open_element("layer", attrs) |
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self.write_classification(layer) |
lc = layer.GetClassification() |
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self.close_element("layer") |
attrs["stroke"] = lc.GetDefaultLineColor().hex() |
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attrs["stroke_width"] = str(lc.GetDefaultLineWidth()) |
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attrs["fill"] = lc.GetDefaultFill().hex() |
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self.open_element("layer", attrs) |
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self.write_projection(layer.GetProjection()) |
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self.write_classification(layer) |
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self.close_element("layer") |
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elif isinstance(layer, RasterLayer): |
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attrs["filename"] = relative_filename(self.dir, layer.filename) |
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self.open_element("rasterlayer", attrs) |
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self.write_projection(layer.GetProjection()) |
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self.close_element("rasterlayer") |
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def write_classification(self, layer, attrs = None): |
def write_classification(self, layer, attrs = None): |
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if attrs is None: |
if attrs is None: |
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if field is None: return |
if field is None: return |
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attrs["field"] = field |
attrs["field"] = field |
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attrs["field_type"] = str(lc.GetFieldType()) |
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self.open_element("classification", attrs) |
self.open_element("classification", attrs) |
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# self.open_element("clnull") |
types = [[lambda p: 'clnull label="%s"' % self.encode(p.GetLabel()), |
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# write_class_data(lc.GetDefaultData()) |
lambda p: 'clnull'], |
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# self.close_element("clnull") |
[lambda p: 'clpoint label="%s" value="%s"' % |
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(self.encode(p.GetLabel()), str(p.GetValue())), |
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# just playing now with lambdas and dictionaries |
lambda p: 'clpoint'], |
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[lambda p: 'clrange label="%s" range="%s"' % |
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types = {ClassData.DEFAULT: |
(self.encode(p.GetLabel()), |
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[lambda p: 'clnull', |
str(p.GetRange())), |
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lambda p: 'clnull'], |
lambda p: 'clrange']] |
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ClassData.POINT: |
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[lambda p: 'clpoint value="%s"' % |
def write_class_group(group): |
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str(p.GetValue()), |
type = -1 |
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lambda p: 'clpoint'], |
if isinstance(group, ClassGroupDefault): type = 0 |
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ClassData.RANGE: |
elif isinstance(group, ClassGroupSingleton): type = 1 |
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[lambda p: 'clrange min="%s" max="%s"' % |
elif isinstance(group, ClassGroupRange): type = 2 |
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(str(p.GetMin()), |
elif isinstance(group, ClassGroupMap): type = 3 |
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(str(p.GetMax()))), |
assert type >= 0 |
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lambda p: 'clrange']} |
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if type <= 2: |
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def write_class_data(data): |
data = group.GetProperties() |
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dict = {'stroke' : data.GetStroke().hex(), |
dict = {'stroke' : data.GetLineColor().hex(), |
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'stroke_width': str(data.GetStrokeWidth()), |
'stroke_width': str(data.GetLineWidth()), |
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'fill' : data.GetFill().hex()} |
'fill' : data.GetFill().hex()} |
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t = data.GetType() |
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self.open_element(types[t][0](data)) |
self.open_element(types[type][0](group)) |
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self.write_element("cldata", dict) |
self.write_element("cldata", dict) |
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self.close_element(types[t][1](data)) |
self.close_element(types[type][1](group)) |
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else: pass # XXX: we need to handle maps |
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for i in lc: |
for i in lc: |
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write_class_data(i) |
write_class_group(i) |
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# for i in lc: |
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# t = i.GetType() |
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# self.open_element(types[t][0](i)) |
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# write_class_data(i) |
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# self.close_element(types[t][1](i)) |
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# for p in lc: |
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# type = p.GetType() |
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# if p == ClassData.DEFAULT: |
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# lopen = lclose = 'clnull' |
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# elif p == ClassData.POINTS: |
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# lopen = 'clpoint value="%s"' % escape(str(p.GetValue())) |
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# lclose = 'clpoint' |
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# elif p == ClassData.RANGES: |
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# lopen = 'clrange min="%s" max="%s"' |
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# % (escape(str(p.GetMin())), escape(str(p.GetMax())))) |
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# lclose = 'clrange' |
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# self.open_element(lopen) |
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# write_class_data(p) |
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# self.close_element(lclose) |
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# if lc.points != {}: |
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# for p in lc.points.values(): |
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# self.open_element('clpoint value="%s"' % |
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# (escape(str(p.GetValue())))) |
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# write_class_data(p) |
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# self.close_element('clpoint') |
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# |
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# if lc.ranges != []: |
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# for p in lc.ranges: |
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# self.open_element('clrange min="%s" max="%s"' |
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# % (escape(str(p.GetMin())), escape(str(p.GetMax())))) |
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# write_class_data(p) |
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# self.close_element('clrange') |
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self.close_element("classification") |
self.close_element("classification") |
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for label in labels: |
for label in labels: |
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self.write_element(('label x="%g" y="%g" text="%s"' |
self.write_element(('label x="%g" y="%g" text="%s"' |
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' halign="%s" valign="%s"') |
' halign="%s" valign="%s"') |
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% (label.x, label.y, label.text, label.halign, |
% (label.x, label.y, |
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self.encode(label.text), |
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label.halign, |
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label.valign)) |
label.valign)) |
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self.close_element('labellayer') |
self.close_element('labellayer') |
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The optional argument saver_class is the class to use to serialize |
The optional argument saver_class is the class to use to serialize |
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the session. By default or if it's None, the saver class will be |
the session. By default or if it's None, the saver class will be |
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Saver. |
SessionSaver. |
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If writing the session is successful call the session's |
If writing the session is successful call the session's |
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UnsetModified method |
UnsetModified method |
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""" |
""" |
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if saver_class is None: |
if saver_class is None: |
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saver_class = Saver |
saver_class = SessionSaver |
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saver = saver_class(session) |
saver = saver_class(session) |
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saver.write(file) |
saver.write(file) |
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