Mercurial > fife-parpg
view engine/python/fife/extensions/savers.py @ 547:e59ece21ab3e
Item serialization will now assume some default values if they are not found in the save files.
The 'spawn' console command can now spawn items with default values.
Cleaned up some print statements.
| author | prock@33b003aa-7bff-0310-803a-e67f0ece8222 |
|---|---|
| date | Fri, 04 Jun 2010 21:01:34 +0000 |
| parents | 9d94f4676d17 |
| children | 6856cdb22351 |
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# -*- coding: utf-8 -*- # #################################################################### # Copyright (C) 2005-2009 by the FIFE team # http://www.fifengine.de # This file is part of FIFE. # # FIFE is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the # Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # #################################################################### import os from xml.sax.saxutils import XMLGenerator from xml.sax.xmlreader import AttributesNSImpl from fife.extensions.serializers import * from fife import fife MAPFORMAT = '1.0' fileExtensions = ('xml',) class ModelSaver: def __init__(self, filepath, engine, state = 0, datastate = 0): self.SModel, self.SMap, self.SLayer, self.SInstances, self.SObject, self.SAction = range(6) self.engine = engine self.model = self.engine.getModel() self.pool = self.engine.getImagePool() self.anim_pool = self.engine.getAnimationPool() if (state): self.state = state if (state == self.SMap): self.map = datastate else: assert 0, "Invalid initialization state." else: self.state = self.SModel self.stack = [ self.SModel ] self.datastack = [ ] self.file = open(filepath, 'w') self.xmlout = XMLGenerator(self.file, 'ascii') self.xmlout.startDocument() self.indent_level = '' self.nspace = None def startElement(self, name, attrs): self.file.write(self.indent_level) self.xmlout.startElementNS((None, name), name, attrs) self.file.write('\n') self.indent_level = self.indent_level + '\t' def endElement(self, name): self.indent_level = self.indent_level[0:(len(self.indent_level) - 1)] self.file.write(self.indent_level) self.xmlout.endElementNS((None, name), name) self.file.write('\n') def write_map(self, map, importList): assert self.state == self.SModel, "Declaration of <map> not at the top level." attr_vals = { (None, 'id'): map.getId(), (None, 'format'): MAPFORMAT, } attr_names = { (None, 'id'): 'id', (None, 'format'): 'format', } attrs = AttributesNSImpl(attr_vals, attr_names) self.startElement('map', attrs) self.state = self.SMap self.write_imports(map, importList) self.write_layers(map) self.write_camera(map) self.endElement('map') def write_imports(self, map, importList): for importdir in importList: self.write_importdir(root_subfile(map.getResourceFile(), importdir)) imports = [] for layer in map.getLayers(): for instance in layer.getInstances(): file = instance.getObject().getResourceFile() if not (file in imports): if not self.have_superdir(file, importList): imports.append(file) self.write_import(root_subfile(map.getResourceFile(), file)) def have_superdir(self, file, importList): '''returns true, if file is in directories given in importList''' for dir in importList: have = True for test in zip(dir.split(os.path.sep), file.split(os.path.sep)): if test[0] != test[1]: have = False if have: return True return False def write_import(self, file): attr_vals = { (None, 'file'): file, } attr_names = { (None, 'file'): 'file', } attrs = AttributesNSImpl(attr_vals, attr_names) self.file.write(self.indent_level) self.xmlout.startElementNS((None, 'import'), 'import', attrs) self.xmlout.endElementNS((None, 'import'), 'import') self.file.write('\n') def write_importdir(self, dir): attr_vals = { (None, 'dir'): dir, } attr_names = { (None, 'dir'): 'dir', } attrs = AttributesNSImpl(attr_vals, attr_names) self.file.write(self.indent_level) self.xmlout.startElementNS((None, 'import'), 'import', attrs) self.xmlout.endElementNS((None, 'import'), 'import') self.file.write('\n') def pathing_val_to_str(self, val): if val == fife.CELL_EDGES_AND_DIAGONALS: return "cell_edges_and_diagonals" if val == fife.FREEFORM: return "freeform" return "cell_edges_only" def write_layers(self, map): for layer in map.getLayers(): cellgrid = layer.getCellGrid() attr_vals = { (None, 'id'): layer.getId(), (None, 'grid_type'): cellgrid.getType(), (None, 'x_scale'): str(cellgrid.getXScale()), (None, 'y_scale'): str(cellgrid.getYScale()), (None, 'rotation'): str(cellgrid.getRotation()), (None, 'x_offset'): str(cellgrid.getXShift()), (None, 'y_offset'): str(cellgrid.getYShift()), (None, 'pathing'): self.pathing_val_to_str(layer.getPathingStrategy()), (None, 'transparency'): str(layer.getLayerTransparency()), } attr_names = { (None, 'id'): 'id', (None, 'grid_type'): 'grid_type', (None, 'scaling'): 'scaling', (None, 'rotation'): 'rotation', (None, 'x_offset'): 'x_offset', (None, 'y_offset'): 'y_offset', (None, 'pathing'): 'pathing', } attrs = AttributesNSImpl(attr_vals, attr_names) self.startElement('layer', attrs) self.write_instances(layer) self.endElement('layer') def write_instances(self, layer): attrs = AttributesNSImpl({}, {}) self.startElement('instances', attrs) for inst in layer.getInstances(): position = inst.getLocationRef().getExactLayerCoordinates() attr_vals = { (None, 'o'): inst.getObject().getId(), (None, 'x'): str(position.x), (None, 'y'): str(position.y), (None, 'z'): str(position.z), (None, 'r'): str(inst.getRotation()), } attr_names = { (None, 'o'): 'o', (None, 'x'): 'x', (None, 'y'): 'y', (None, 'z'): 'z', (None, 'r'): 'r', } nspace = inst.getObject().getNamespace() if nspace != self.nspace: attr_vals[(None, 'ns')] = inst.getObject().getNamespace() attr_names[(None, 'ns')] = 'ns' self.nspace = nspace instId = inst.getId() if instId: attr_vals[(None, 'id')] = inst.getId() attr_names[(None, 'id')] = 'id' attrs = AttributesNSImpl(attr_vals, attr_names) self.file.write(self.indent_level) self.xmlout.startElementNS((None, 'i'), 'i', attrs) self.xmlout.endElementNS((None, 'i'), 'i') self.file.write('\n') self.endElement('instances') # Save the linked camera of a map. def write_camera( self, map ): cameralist = map.getCameras() for cam in cameralist: if cam.getLocationRef().getMap().getId() == map.getId(): celldimensions = cam.getCellImageDimensions() viewport = cam.getViewPort(); attr_names = { (None, 'id'): 'id', (None, 'zoom'): 'zoom', (None, 'tilt'): 'tile', (None, 'rotation'): 'rotation', (None, 'ref_layer_id'): 'ref_layer_id', (None, 'ref_cell_width'): 'ref_cell_width', (None, 'ref_cell_height'): 'ref_cell_height', } attr_vals = { (None, 'id'): cam.getId(), (None, 'zoom'): str( cam.getZoom()), (None, 'tilt'): str( cam.getTilt()), (None, 'rotation'): str( cam.getRotation()), (None, 'ref_layer_id'): cam.getLocation().getLayer().getId(), (None, 'ref_cell_width'): str( celldimensions.x ), (None, 'ref_cell_height'): str( celldimensions.y ), } # add a viewport entry if the cam isn't full sized if not (viewport == self.engine.getRenderBackend().getArea()): attr_names[(None,'viewport')] = 'viewport' attr_vals[(None,'viewport')] = '%d,%d,%d,%d' % (viewport.x, viewport.y, viewport.w, viewport.h) attrs = AttributesNSImpl( attr_vals, attr_names ) self.startElement( 'camera', attrs ); self.endElement( 'camera' ); def flush(self): self.xmlout.endDocument() self.file.close() def saveMapFile(path, engine, map, importList=[]): map.setResourceFile(path) writer = ModelSaver(path, engine) writer.write_map(map, importList)