"""OnscreenGeom module: contains the OnscreenGeom class""" __all__ = ['OnscreenGeom'] from pandac.PandaModules import * import DirectGuiGlobals as DGG from direct.showbase.DirectObject import DirectObject import string,types class OnscreenGeom(DirectObject, NodePath): def __init__(self, geom = None, pos = None, hpr = None, scale = None, color = None, parent = None, sort = 0): """ Make a geom node from string or a node path, put it into the 2d sg and set it up with all the indicated parameters. The parameters are as follows: geom: the actual geometry to display or a file name. This may be omitted and specified later via setGeom() if you don't have it available. pos: the x, y, z position of the geometry on the screen. This maybe a 3-tuple of floats or a vector. y should be zero hpr: the h, p, r of the geometry on the screen. This maybe a 3-tuple of floats or a vector. scale: the size of the geometry. This may either be a single float, a 3-tuple of floats, or a vector, specifying a different x, y, z scale. y should be 1 color: the (r, g, b, a) color of the geometry. This is normally a 4-tuple of floats or ints. parent: the NodePath to parent the geometry to initially. """ # We ARE a node path. Initially, we're an empty node path. NodePath.__init__(self) if parent == None: parent = aspect2d self.setGeom(geom, parent = parent, sort = sort, color = color) # Adjust pose # Set pos if (isinstance(pos, types.TupleType) or isinstance(pos, types.ListType)): apply(self.setPos, pos) elif isinstance(pos, VBase3): self.setPos(pos) # Hpr if (isinstance(hpr, types.TupleType) or isinstance(hpr, types.ListType)): apply(self.setHpr, hpr) elif isinstance(hpr, VBase3): self.setPos(hpr) # Scale if (isinstance(scale, types.TupleType) or isinstance(scale, types.ListType)): apply(self.setScale, scale) elif isinstance(scale, VBase3): self.setPos(scale) elif (isinstance(scale, types.FloatType) or isinstance(scale, types.IntType)): self.setScale(scale) def setGeom(self, geom, parent = NodePath(), transform = None, sort = 0, color = None): # Get the original parent, transform, and sort, if any, so we can # preserve them across this call. if not self.isEmpty(): parent = self.getParent() if transform == None: # If we're replacing a previous image, we throw away # the new image's transform in favor of the original # image's transform. transform = self.getTransform() sort = self.getSort() if color == None and self.hasColor(): color = self.getColor() self.removeNode() # Assign geometry if isinstance(geom, NodePath): self.assign(geom.copyTo(parent, sort)) elif isinstance(geom, types.StringTypes): self.assign(loader.loadModel(geom)) self.reparentTo(parent, sort) if not self.isEmpty(): if transform: self.setTransform(transform.compose(self.getTransform())) # Set color, if specified if color: self.setColor(color[0], color[1], color[2], color[3]) def getGeom(self): return self def configure(self, option=None, **kw): for option, value in kw.items(): # Use option string to access setter function try: setter = getattr(self, 'set' + option[0].upper() + option[1:]) if (((setter == self.setPos) or (setter == self.setHpr) or (setter == self.setScale)) and (isinstance(value, types.TupleType) or isinstance(value, types.ListType))): apply(setter, value) else: setter(value) except AttributeError: print 'OnscreenText.configure: invalid option:', option # Allow index style references def __setitem__(self, key, value): apply(self.configure, (), {key: value}) def cget(self, option): # Get current configuration setting. # This is for compatibility with DirectGui functions getter = getattr(self, 'get' + option[0].upper() + option[1:]) return getter() # Allow index style refererences __getitem__ = cget def destroy(self): self.removeNode()