Mercurial > fife-parpg
view engine/extensions/savers.py @ 148:72c25cc27d8b
For your convenience pools now have a function
called purgeLoadedResources exposed to python
which will delete all loaded resources that
have a ref count of zero.
You can use this after closing a map or something
alike. It may however impact performance, as
the next map may very well reload the same resources.
Just be aware of that. :-)
author | phoku@33b003aa-7bff-0310-803a-e67f0ece8222 |
---|---|
date | Sat, 11 Oct 2008 06:05:11 +0000 |
parents | 9a1529f9625e |
children | 48c99636453e |
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import os from xml.sax.saxutils import XMLGenerator from xml.sax.xmlreader import AttributesNSImpl from serializers import * 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()), } 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 = self.engine.getView().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)