Poodletooth-iLand/dependencies/panda/direct/interval/FunctionInterval.py

443 lines
15 KiB
Python
Raw Normal View History

2015-03-03 16:10:12 -06:00
"""FunctionInterval module: contains the FunctionInterval class"""
__all__ = ['FunctionInterval', 'EventInterval', 'AcceptInterval', 'IgnoreInterval', 'ParentInterval', 'WrtParentInterval', 'PosInterval', 'HprInterval', 'ScaleInterval', 'PosHprInterval', 'HprScaleInterval', 'PosHprScaleInterval', 'Func', 'Wait']
from pandac.PandaModules import *
from direct.showbase.MessengerGlobal import *
from direct.directnotify.DirectNotifyGlobal import directNotify
import Interval
import types
#############################################################
### ###
### See examples of function intervals in IntervalTest.py ###
### ###
#############################################################
class FunctionInterval(Interval.Interval):
# Name counter
functionIntervalNum = 1
# Keep a list of function intervals currently in memory for
# Control-C-Control-V redefining. These are just weakrefs so they
# should not cause any leaks.
if __debug__:
import weakref
FunctionIntervals = weakref.WeakKeyDictionary()
@classmethod
def replaceMethod(self, oldFunction, newFunction):
import types
count = 0
for ival in self.FunctionIntervals:
# print 'testing: ', ival.function, oldFunction
# Note: you can only replace methods currently
if type(ival.function) == types.MethodType:
if (ival.function.im_func == oldFunction):
# print 'found: ', ival.function, oldFunction
ival.function = types.MethodType(newFunction,
ival.function.im_self,
ival.function.im_class)
count += 1
return count
# create FunctionInterval DirectNotify category
notify = directNotify.newCategory('FunctionInterval')
# Class methods
def __init__(self, function, **kw):
"""__init__(function, name = None, openEnded = 1, extraArgs = [])
"""
name = kw.pop('name', None)
openEnded = kw.pop('openEnded', 1)
extraArgs = kw.pop('extraArgs', [])
# Record instance variables
self.function = function
# Create a unique name for the interval if necessary
if name is None:
name = self.makeUniqueName(function)
assert isinstance(name, str)
# Record any arguments
self.extraArgs = extraArgs
self.kw = kw
# Initialize superclass
# Set openEnded true if privInitialize after end time cause interval
# function to be called. If false, privInitialize calls have no effect
# Event, Accept, Ignore intervals default to openEnded = 0
# Parent, Pos, Hpr, etc intervals default to openEnded = 1
Interval.Interval.__init__(self, name, duration = 0.0, openEnded = openEnded)
# For rebinding, let's remember this function interval on the class
if __debug__:
self.FunctionIntervals[self] = 1
@staticmethod
def makeUniqueName(func, suffix = ''):
name = 'Func-%s-%d' % (getattr(func, '__name__', str(func)), FunctionInterval.functionIntervalNum)
FunctionInterval.functionIntervalNum += 1
if suffix:
name = '%s-%s' % (name, str(suffix))
return name
def privInstant(self):
# Evaluate the function
self.function(*self.extraArgs, **self.kw)
# Print debug information
self.notify.debug(
'updateFunc() - %s: executing Function' % self.name)
### FunctionInterval subclass for throwing events ###
class EventInterval(FunctionInterval):
# Initialization
def __init__(self, event, sentArgs=[]):
"""__init__(event, sentArgs)
"""
def sendFunc(event = event, sentArgs = sentArgs):
messenger.send(event, sentArgs)
# Create function interval
FunctionInterval.__init__(self, sendFunc, name = event)
### FunctionInterval subclass for accepting hooks ###
class AcceptInterval(FunctionInterval):
# Initialization
def __init__(self, dirObj, event, function, name = None):
"""__init__(dirObj, event, function, name)
"""
def acceptFunc(dirObj = dirObj, event = event, function = function):
dirObj.accept(event, function)
# Determine name
if (name == None):
name = 'Accept-' + event
# Create function interval
FunctionInterval.__init__(self, acceptFunc, name = name)
### FunctionInterval subclass for ignoring events ###
class IgnoreInterval(FunctionInterval):
# Initialization
def __init__(self, dirObj, event, name = None):
"""__init__(dirObj, event, name)
"""
def ignoreFunc(dirObj = dirObj, event = event):
dirObj.ignore(event)
# Determine name
if (name == None):
name = 'Ignore-' + event
# Create function interval
FunctionInterval.__init__(self, ignoreFunc, name = name)
### Function Interval subclass for adjusting scene graph hierarchy ###
class ParentInterval(FunctionInterval):
# ParentInterval counter
parentIntervalNum = 1
# Initialization
def __init__(self, nodePath, parent, name = None):
"""__init__(nodePath, parent, name)
"""
def reparentFunc(nodePath = nodePath, parent = parent):
nodePath.reparentTo(parent)
# Determine name
if (name == None):
name = 'ParentInterval-%d' % ParentInterval.parentIntervalNum
ParentInterval.parentIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, reparentFunc, name = name)
### Function Interval subclass for adjusting scene graph hierarchy ###
class WrtParentInterval(FunctionInterval):
# WrtParentInterval counter
wrtParentIntervalNum = 1
# Initialization
def __init__(self, nodePath, parent, name = None):
"""__init__(nodePath, parent, name)
"""
def wrtReparentFunc(nodePath = nodePath, parent = parent):
nodePath.wrtReparentTo(parent)
# Determine name
if (name == None):
name = ('WrtParentInterval-%d' %
WrtParentInterval.wrtParentIntervalNum)
WrtParentInterval.wrtParentIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, wrtReparentFunc, name = name)
### Function Interval subclasses for instantaneous pose changes ###
class PosInterval(FunctionInterval):
# PosInterval counter
posIntervalNum = 1
# Initialization
def __init__(self, nodePath, pos, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, pos, duration, name)
"""
# Create function
def posFunc(np = nodePath, pos = pos, other = other):
if other:
np.setPos(other, pos)
else:
np.setPos(pos)
# Determine name
if (name == None):
name = 'PosInterval-%d' % PosInterval.posIntervalNum
PosInterval.posIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, posFunc, name = name)
class HprInterval(FunctionInterval):
# HprInterval counter
hprIntervalNum = 1
# Initialization
def __init__(self, nodePath, hpr, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, hpr, duration, name)
"""
# Create function
def hprFunc(np = nodePath, hpr = hpr, other = other):
if other:
np.setHpr(other, hpr)
else:
np.setHpr(hpr)
# Determine name
if (name == None):
name = 'HprInterval-%d' % HprInterval.hprIntervalNum
HprInterval.hprIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, hprFunc, name = name)
class ScaleInterval(FunctionInterval):
# ScaleInterval counter
scaleIntervalNum = 1
# Initialization
def __init__(self, nodePath, scale, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, scale, duration, name)
"""
# Create function
def scaleFunc(np = nodePath, scale = scale, other = other):
if other:
np.setScale(other, scale)
else:
np.setScale(scale)
# Determine name
if (name == None):
name = 'ScaleInterval-%d' % ScaleInterval.scaleIntervalNum
ScaleInterval.scaleIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, scaleFunc, name = name)
class PosHprInterval(FunctionInterval):
# PosHprInterval counter
posHprIntervalNum = 1
# Initialization
def __init__(self, nodePath, pos, hpr, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, pos, hpr, duration, name)
"""
# Create function
def posHprFunc(np = nodePath, pos = pos, hpr = hpr, other = other):
if other:
np.setPosHpr(other, pos, hpr)
else:
np.setPosHpr(pos, hpr)
# Determine name
if (name == None):
name = 'PosHprInterval-%d' % PosHprInterval.posHprIntervalNum
PosHprInterval.posHprIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, posHprFunc, name = name)
class HprScaleInterval(FunctionInterval):
# HprScaleInterval counter
hprScaleIntervalNum = 1
# Initialization
def __init__(self, nodePath, hpr, scale, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, hpr, scale, duration, other, name)
"""
# Create function
def hprScaleFunc(np=nodePath, hpr=hpr, scale=scale,
other = other):
if other:
np.setHprScale(other, hpr, scale)
else:
np.setHprScale(hpr, scale)
# Determine name
if (name == None):
name = ('HprScale-%d' %
HprScaleInterval.hprScaleIntervalNum)
HprScaleInterval.hprScaleIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, hprScaleFunc, name = name)
class PosHprScaleInterval(FunctionInterval):
# PosHprScaleInterval counter
posHprScaleIntervalNum = 1
# Initialization
def __init__(self, nodePath, pos, hpr, scale, duration = 0.0,
name = None, other = None):
"""__init__(nodePath, pos, hpr, scale, duration, other, name)
"""
# Create function
def posHprScaleFunc(np=nodePath, pos=pos, hpr=hpr, scale=scale,
other = other):
if other:
np.setPosHprScale(other, pos, hpr, scale)
else:
np.setPosHprScale(pos, hpr, scale)
# Determine name
if (name == None):
name = ('PosHprScale-%d' %
PosHprScaleInterval.posHprScaleIntervalNum)
PosHprScaleInterval.posHprScaleIntervalNum += 1
# Create function interval
FunctionInterval.__init__(self, posHprScaleFunc, name = name)
class Func(FunctionInterval):
def __init__(self, *args, **kw):
function = args[0]
assert hasattr(function, '__call__')
extraArgs = args[1:]
kw['extraArgs'] = extraArgs
FunctionInterval.__init__(self, function, **kw)
class Wait(WaitInterval):
def __init__(self, duration):
WaitInterval.__init__(self, duration)
"""
SAMPLE CODE
from IntervalGlobal import *
i1 = Func(base.transitions.fadeOut)
i2 = Func(base.transitions.fadeIn)
def caughtIt():
print 'Caught here-is-an-event'
class DummyAcceptor(DirectObject):
pass
da = DummyAcceptor()
i3 = Func(da.accept, 'here-is-an-event', caughtIt)
i4 = Func(messenger.send, 'here-is-an-event')
i5 = Func(da.ignore, 'here-is-an-event')
# Using a function
def printDone():
print 'done'
i6 = Func(printDone)
# Create track
t1 = Sequence([
# Fade out
(0.0, i1),
# Fade in
(2.0, i2),
# Accept event
(4.0, i3),
# Throw it,
(5.0, i4),
# Ignore event
(6.0, i5),
# Throw event again and see if ignore worked
(7.0, i4),
# Print done
(8.0, i6)], name = 'demo')
# Play track
t1.play()
### Specifying interval start times during track construction ###
# Interval start time can be specified relative to three different points:
# PREVIOUS_END
# PREVIOUS_START
# TRACK_START
startTime = 0.0
def printStart():
global startTime
startTime = globalClock.getFrameTime()
print 'Start'
def printPreviousStart():
global startTime
currTime = globalClock.getFrameTime()
print 'PREVIOUS_END %0.2f' % (currTime - startTime)
def printPreviousEnd():
global startTime
currTime = globalClock.getFrameTime()
print 'PREVIOUS_END %0.2f' % (currTime - startTime)
def printTrackStart():
global startTime
currTime = globalClock.getFrameTime()
print 'TRACK_START %0.2f' % (currTime - startTime)
i1 = Func(printStart)
# Just to take time
i2 = LerpPosInterval(camera, 2.0, Point3(0, 10, 5))
# This will be relative to end of camera move
i3 = FunctionInterval(printPreviousEnd)
# Just to take time
i4 = LerpPosInterval(camera, 2.0, Point3(0, 0, 5))
# This will be relative to the start of the camera move
i5 = FunctionInterval(printPreviousStart)
# This will be relative to track start
i6 = FunctionInterval(printTrackStart)
# Create the track, if you don't specify offset type in tuple it defaults to
# relative to TRACK_START (first entry below)
t2 = Track([(0.0, i1), # i1 start at t = 0, duration = 0.0
(1.0, i2, TRACK_START), # i2 start at t = 1, duration = 2.0
(2.0, i3, PREVIOUS_END), # i3 start at t = 5, duration = 0.0
(1.0, i4, PREVIOUS_END), # i4 start at t = 6, duration = 2.0
(3.0, i5, PREVIOUS_START), # i5 start at t = 9, duration = 0.0
(10.0, i6, TRACK_START)], # i6 start at t = 10, duration = 0.0
name = 'startTimeDemo')
t2.play()
smiley = loader.loadModel('models/misc/smiley')
from direct.actor import Actor
donald = Actor.Actor()
donald.loadModel("phase_6/models/char/donald-wheel-1000")
donald.loadAnims({"steer":"phase_6/models/char/donald-wheel-wheel"})
donald.reparentTo(render)
seq = Sequence(Func(donald.setPos, 0, 0, 0),
donald.actorInterval('steer', duration=1.0),
donald.posInterval(1, Point3(0, 0, 1)),
Parallel(donald.actorInterval('steer', duration=1.0),
donald.posInterval(1, Point3(0, 0, 0)),
),
Wait(1.0),
Func(base.toggleWireframe),
Wait(1.0),
Parallel(donald.actorInterval('steer', duration=1.0),
donald.posInterval(1, Point3(0, 0, -1)),
Sequence(donald.hprInterval(1, Vec3(180, 0, 0)),
donald.hprInterval(1, Vec3(0, 0, 0)),
),
),
Func(base.toggleWireframe),
Func(messenger.send, 'hello'),
)
"""