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

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2015-03-03 16:10:12 -06:00
"""IndirectInterval module: contains the IndirectInterval class"""
__all__ = ['IndirectInterval']
from pandac.PandaModules import *
from direct.directnotify.DirectNotifyGlobal import *
import Interval
import LerpBlendHelpers
class IndirectInterval(Interval.Interval):
"""
This class can be used to play samples of another interval, so
that only a subset of the interval is played, or the time is
compressed, or some such nonsense.
It keeps a reference to the interval itself and repeatedly calls
setT() on it, rather than actually starting the interval or
copying its members like Sequence() or Parallel(). This means two
IndirectIntervals that operate on the same nested interval may
have some interaction that you should be aware of.
"""
# Interval counter
indirectIntervalNum = 1
notify = directNotify.newCategory('IndirectInterval')
# Class methods
def __init__(self, interval,
startT = 0, endT = None, playRate = 1,
duration = None, blendType = 'noBlend', name = None):
self.interval = interval
self.startAtStart = (startT == 0)
self.endAtEnd = (endT == None or endT == interval.getDuration())
if endT == None:
endT = interval.getDuration()
if duration == None:
duration = abs(endT - startT) / playRate
if (name == None):
name = ('IndirectInterval-%d' %
IndirectInterval.indirectIntervalNum)
IndirectInterval.indirectIntervalNum += 1
self.startT = startT
self.endT = endT
self.deltaT = endT - startT
self.blendType = LerpBlendHelpers.getBlend(blendType)
Interval.Interval.__init__(self, name, duration)
def __calcT(self, t):
return self.startT + self.deltaT * self.blendType(t / self.duration)
def privInitialize(self, t):
state = self.interval.getState()
if state == CInterval.SInitial or state == CInterval.SFinal:
self.interval.privInitialize(self.__calcT(t))
else:
self.interval.privStep(self.__calcT(t))
self.currT = t
self.state = CInterval.SStarted
self.interval.privPostEvent()
def privInstant(self):
state = self.interval.getState()
if (state == CInterval.SInitial or state == CInterval.SFinal) and \
self.endAtEnd:
self.interval.privInstant()
self.currT = self.getDuration()
self.interval.privPostEvent()
self.intervalDone()
else:
if state == CInterval.SInitial or state == CInterval.SFinal:
self.interval.privInitialize(self.startT)
else:
self.interval.privStep(self.startT)
self.privFinalize()
def privStep(self, t):
self.interval.privStep(self.__calcT(t))
self.currT = t
self.state = CInterval.SStarted
self.interval.privPostEvent()
def privFinalize(self):
if self.endAtEnd:
self.interval.privFinalize()
else:
self.interval.privStep(self.endT)
self.interval.privInterrupt()
self.currT = self.getDuration()
self.state = CInterval.SFinal
self.interval.privPostEvent()
self.intervalDone()
def privReverseInitialize(self, t):
state = self.interval.getState()
if state == CInterval.SInitial or state == CInterval.SFinal:
self.interval.privReverseInitialize(self.__calcT(t))
else:
self.interval.privStep(self.__calcT(t))
self.currT = t
self.state = CInterval.SStarted
self.interval.privPostEvent()
def privReverseInstant(self):
state = self.interval.getState()
if (state == CInterval.SInitial or state == CInterval.SFinal) and \
self.startAtStart:
self.interval.privReverseInstant()
self.currT = 0
self.interval.privPostEvent()
else:
if state == CInterval.SInitial or state == CInterval.SFinal:
self.interval.privReverseInitialize(self.endT)
else:
self.interval.privStep(self.endT)
self.privReverseFinalize()
def privReverseFinalize(self):
if self.startAtStart:
self.interval.privReverseFinalize()
else:
self.interval.privStep(self.endT)
self.interval.privInterrupt()
self.currT = 0
self.state = CInterval.SInitial
self.interval.privPostEvent()
def privInterrupt(self):
self.interval.privInterrupt()
self.interval.privPostEvent()