''' Field coercian routines. To replace the field coercian routines, you must edit basenodes.py and node.py to import some other coercian routines. Basenodes.py is for use by the parser, node is used by each node as it checks the validity of its attributes. ''' import types, sys, string from utils import typeclasses, collapse class FieldCoercian: ''' A Field Coercian class allows for creating new behaviours when dealing with the conversion of fields to-and-from particular field types. This allows the programmer to use alternate representations of fields (such as matrix arrays) ''' def SFString( self, someobj, targetType=types.StringType, targetName='SFString', convertfunc=str ): ''' Allowable types: simple string -> unchanged instance ( an IS ) -> unchanged sequence of length == 1 where first element is a string -> returns first element sequence of length > 1 where all elements are strings -> returns string.join( someobj, '') ''' t = type(someobj) if t is targetType: return someobj if t in typeclasses.SequenceTypes: if len( someobj) == 1 and type( someobj[0] ) is targetType: return someobj[0] # elif len(someobj) > 1: try: return string.join( someobj, '') except: pass # is not a sequence of strings... ### if we get here, then an incorrect value was passed raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def MFString( self, someobj, targetType=types.StringType, targetName='SFString', convertfunc=str ): ''' Allowable Types: simple string -> wrapped in a list instance (an IS ) -> unchanged sequence of strings (of any length) -> equivalent list returned ''' t = type(someobj) if t is targetType: # a bare string... return [someobj] elif t in typeclasses.SequenceTypes: # is a sequence if not filter( lambda x, t=targetType: x is not t, map( type, someobj) ): # are all strings... if t is not types.ListType: return list( someobj ) else: return someobj ### if we get here, then an incorrect value was passed raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def SFBool( self, someobj, targetType=types.IntType, targetName='SFBool', convertfunc=int): ''' Allowable Types: instance (an IS) -> unchanged Any object which is testable for truth/falsehood -> 1 or 0 respectively SFBool should always succeed ''' if (type(someobj) in typeclasses.SequenceTypes): try: if hasattr( someobj[0], '__gi__'): return someobj[0] else: someobj = someobj[0] except IndexError: # is a null MFNode pass if someobj: return 1 else: return 0 def SFNode( self, someobj, targetType=types.InstanceType, targetName='SFNode', convertfunc=None): ''' Allowable Types: instance of a Node -> unchanged instance (an IS or USE) -> unchanged sequence of length == 1 where first element is as above -> return first element ''' if hasattr( someobj, '__gi__'): # about the only test I have without requiring that elements inherit from Node return someobj elif (type(someobj) in typeclasses.SequenceTypes): try: if hasattr( someobj[0], '__gi__'): return someobj[0] except IndexError: # is a null MFNode pass raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def MFNode( self, someobj, targetType=types.InstanceType, targetName='MFNode', convertfunc=None): ''' Allowable Types: instance (an IS) -> unchanged instance of a Node -> wrapped with a list sequence where all elements are nodes -> returned as list of same ''' if hasattr( someobj, '__gi__') and someobj.__gi__ != "IS": # is this a bare SFNode? wrap with a list and return return [someobj] elif hasattr( someobj, "__gi__"): # is this an IS node return someobj elif type(someobj) in typeclasses.SequenceTypes: try: map( getattr, someobj, ['__gi__']*len(someobj) ) # is this an IS node wrapped in a list? if len(someobj) == 1 and someobj[0].__gi__ == "IS": return someobj[0] # okay, assume is really nodes... if type(someobj) is types.ListType: return someobj else: return list(someobj) except AttributeError: # something isn't a node pass raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def SFNumber( self, someobj, targetType, targetName, convertfunc=int ): ''' Allowable Types: bare number -> numerically coerced to correct type instance ( an IS ) -> unchanged sequence of length == 1 where first element is a string -> returns first element ''' t = type(someobj) if t is targetType or t is types.InstanceType: return someobj elif t in typeclasses.NumericTypes: return convertfunc( someobj) elif t in typeclasses.SequenceTypes: if len( someobj) == 1 and type( someobj[0] ): return convertfunc( someobj[0] ) # ### if we get here, then an incorrect value was passed raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def MFInt32 ( self, someobject ): ''' Convert value into a MFInt32 field value (preferably an array, otherwise a list of integers) ''' t = type(someobject) value = None if t in typeclasses.SequenceTypes: # is a sequence try: value = map( int, someobject) except: try: value = map( int, collapse.collapse2_safe( someobject) ) except: pass elif t in typeclasses.NumericTypes or t is types.StringType: value = [int(someobject)] if value is None: ### if we get here, then an incorrect value was passed raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) return value SFImage = MFInt32 def MFFloat( self, someobject ): ''' Convert value into a MFFloat field value (preferably an array, otherwise a list of integers) ''' t = type(someobject) value = None if t in typeclasses.SequenceTypes: # is a sequence try: value = map( float, someobject) except: try: value = map( float, collapse.collapse2_safe( someobject)) except: pass elif t in typeclasses.NumericTypes or t is types.StringType: value = [float(someobj)] if value is None: ### if we get here, then an incorrect value was passed raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) return value def SFVec3f (self, value): ''' Create a new SFVec3f value from value ''' t = type(value) try: value = x,y,z = map (float, value) except ValueError: try: value = (x,y,z) = map( float, value[0] ) except (IndexError, ValueError): raise ValueError (''' Invalid value for field type SFVec3f: %s'''%(value)) return value def SFRotation(self, value): ''' Create a new SFRotation value from value ''' t = type(value) try: value = x,y,z, a = map (float, value) except ValueError: try: value = (x,y,z, a) = map( float, value[0] ) except (IndexError, ValueError): raise ValueError (''' Invalid value for field type SFRotation: %s'''%(value)) # get the normalized vector for x,y,z ## length = (x*x+y*y+z*z)**.5 or 0.0000 ## value = (x/length,y/length,z/length, a) return value def SFVec2f (self, value): ''' Create a new SFVec3f value from value ''' t = type(value) try: value = x,y = map (float, value) except ValueError: try: value = (x,y) = map( float, value[0] ) except (IndexError, ValueError): raise ValueError (''' Invalid value for field type SFVec3f: %s'''%(value)) return value def SFColor(self, value): ''' Create a new SFVec3f value from value ''' t = type(value) try: r,g,b = map (float, value) except ValueError: try: r,g,b = map( float, value[0] ) except (IndexError, ValueError): raise ValueError (''' Invalid value for field type SFColor: %s'''%(value)) r = max( (0.0, min((r,1.0))) ) g = max( (0.0, min((g,1.0))) ) b = max( (0.0, min((b,1.0))) ) return value def MFCompoundNumber( self, someobj, targetName='SFVec3f', convertfunc=float, type=type): ''' Allowable Types: instance ( an IS ) -> unchanged # instance ( a matrix ) -> reshaped (eventually) list of lists, sub-sequences of proper length -> unchanged sequence of numeric types of proper length -> converted to list, diced ''' ## if targetName == 'SFColor': ## import pdb ## pdb.set_trace() converter = getattr( self, targetName ) t = type( someobj) reporterror = 0 if t is types.InstanceType: return someobj elif t in typeclasses.SequenceTypes: if not someobj: return [] if type( someobj[0] ) is not types.StringType and type( someobj[0] ) in typeclasses.SequenceTypes: try: return map( converter, someobj ) except ValueError: pass elif type( someobj[0] ) in typeclasses.NumericTypes or type( someobj[0] ) is types.StringType: # a single-level list? base = map( convertfunc, someobj ) # if we get here, someobj is a list if targetName[-2:] == '2f': # vec2f tlen = 2 elif targetName[-2:] == 'on': # rotation tlen = 4 else: tlen = 3 value = [] while base: value.append( converter( base[:tlen]) ) del base[:tlen] return value raise ValueError, """Attempted to set value for an %s field which is not compatible: %s"""%( targetName, `someobj` ) def __call__( self, someobj, targetName): func, args = self.algomap[targetName] ## try: ## if targetName == 'SFInt32': ## import pdb ## pdb.set_trace() if hasattr( someobj, "__gi__") and someobj.__gi__ == "IS": return someobj else: return apply( func, (self, someobj)+args ) ## except TypeError: ## print someobj, targetName ## print func, args ## raise algomap = { \ 'SFString': (SFString, (types.StringType, 'SFString', str)), \ 'MFString': (MFString, (types.StringType, 'MFString', str)), \ 'SFInt32': (SFNumber, (types.IntType, 'SFInt32', int)), \ 'SFFloat': (SFNumber, (types.FloatType, 'SFFloat', float)), \ 'SFTime': (SFNumber, (types.FloatType, 'SFFloat', float)), \ 'SFColor': (SFColor, ()), \ 'SFVec2f': (SFVec2f, ()), \ 'SFVec3f': (SFVec3f, ()), \ 'SFNode': (SFNode, (types.InstanceType, 'SFNode', None)), \ 'SFBool': (SFBool, (types.IntType, 'SFBool', int)), \ 'SFNode': (SFNode, (types.InstanceType, 'SFNode', None)), \ 'MFInt32': (MFInt32, ()), \ 'SFImage': (MFInt32, ()), \ 'MFTime': (MFFloat, ()), \ 'MFFloat': (MFFloat, ()), \ 'MFColor': (MFCompoundNumber, ('SFColor', float)), \ 'MFVec2f': (MFCompoundNumber, ('SFVec2f', float)), \ 'MFVec3f': (MFCompoundNumber, ('SFVec3f', float)), \ 'SFRotation': (SFRotation, ()), \ 'MFRotation': (MFCompoundNumber, ('SFRotation', float)), \ 'MFNode': (MFNode, (types.InstanceType, 'MFNode', None)) \ } FIELDCOERCE = FieldCoercian ()