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https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-26 05:02:31 -06:00
863 lines
36 KiB
Python
863 lines
36 KiB
Python
"""LerpInterval module: contains the LerpInterval class"""
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__all__ = [
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'LerpNodePathInterval', 'LerpPosInterval', 'LerpHprInterval',
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'LerpQuatInterval', 'LerpScaleInterval', 'LerpShearInterval',
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'LerpPosHprInterval', 'LerpPosQuatInterval',
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'LerpHprScaleInterval', 'LerpQuatScaleInterval',
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'LerpPosHprScaleInterval', 'LerpPosQuatScaleInterval',
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'LerpPosHprScaleShearInterval', 'LerpPosQuatScaleShearInterval',
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'LerpColorInterval', 'LerpColorScaleInterval',
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'LerpTexOffsetInterval', 'LerpTexRotateInterval', 'LerpTexScaleInterval',
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'LerpFunctionInterval', 'LerpFunc','LerpFunctionNoStateInterval','LerpFuncNS'
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]
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from pandac.PandaModules import *
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from direct.directnotify.DirectNotifyGlobal import *
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import Interval
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import LerpBlendHelpers
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#
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# Most of the intervals defined in this module--the group up here at
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# the front of the file--are now derived from a CInterval instead of
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# an Interval, so they can run in the low-level C++ code at high
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# performance.
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#
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class LerpNodePathInterval(CLerpNodePathInterval):
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# This is the base class for all of the lerps, defined below, that
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# affect a property on a NodePath, like pos or hpr.
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lerpNodePathNum = 1
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def __init__(self, name, duration, blendType, bakeInStart, fluid,
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nodePath, other):
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if name == None:
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name = '%s-%d' % (self.__class__.__name__, self.lerpNodePathNum)
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LerpNodePathInterval.lerpNodePathNum += 1
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else:
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# Allow the user to pass in a %d in the name and we'll go ahead
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# and uniquify the name for them.
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if "%d" in name:
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name = name % LerpNodePathInterval.lerpNodePathNum
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LerpNodePathInterval.lerpNodePathNum += 1
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blendType = self.stringBlendType(blendType)
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assert blendType != self.BTInvalid
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if other == None:
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other = NodePath()
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CLerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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def anyCallable(self, *params):
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# Returns true if any of the parameters listed is a callable
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# functor, false if none of them are. This is used by derived
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# classes to determine if a functor was passed in for a
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# parameter.
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for param in params:
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if callable(param):
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return 1
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return 0
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def setupParam(self, func, param):
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# Stores the indicated parameter by passing it to the given
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# function (probably a C++ setter function). If the param is
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# a callable functor, calls it; otherwise, uses the param
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# directly.
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if param != None:
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if callable(param):
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func(param())
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else:
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func(param)
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#####################################################################
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##
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## It is legal to pass in a functor (a callable Python function that
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## returns an appropriate value) for the any of the pos, hpr, scale,
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## or shear parameters in the intervals below. These will be
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## evaluated at the time the interval starts in order to determine
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## the actual final (or initial) position. However, doing so forces
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## the entire LerpInterval to be executed up in Python, instead of
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## down in the low-level C++ code, at some performance cost.
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##
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## If bakeInStart is true, the starting values (if unspecified) are
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## computed at the time the interval runs for the first time, and
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## then stored. If bakeInStart is false, the starting values are
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## recomputed each frame based on the current value and the time
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## delta since the last time the interval ran, which allows show code
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## to manipulate the node even while it is being lerped.
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##
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## If fluid is true for a LerpPos-style interval, then the pos is set
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## via NodePath.setFluidPos() instead of NodePath.setPos(), causing
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## the collision system to treat the motion as continuous and test
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## for collisions against the entire motion path, instead of as
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## discrete position updates. This has no meaning for Lerp intervals
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## that do not adjust pos.
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##
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#####################################################################
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class LerpPosInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, pos, startPos = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(pos, startPos)
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if self.paramSetup:
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self.endPos = pos
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self.startPos = startPos
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self.inPython = 1
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else:
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self.setEndPos(pos)
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if startPos != None:
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self.setStartPos(startPos)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndPos, self.endPos)
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self.setupParam(self.setStartPos, self.startPos)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpHprInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, hpr,
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startHpr = None, startQuat = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(hpr, startHpr, startQuat)
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if self.paramSetup:
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self.endHpr = hpr
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.inPython = 1
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else:
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self.setEndHpr(hpr)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndHpr, self.endHpr)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpQuatInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, quat = None,
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startHpr = None, startQuat = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None, hpr = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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if not quat:
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# If we didn't specify a quat, we're allowed to specify a
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# hpr instead, which is converted to the equivalent quat.
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assert hpr
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quat = LOrientationf()
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quat.setHpr(hpr)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(quat, startHpr, startQuat)
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if self.paramSetup:
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self.endQuat = quat
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.inPython = 1
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else:
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self.setEndQuat(quat)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndQuat, self.endQuat)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpScaleInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, scale, startScale = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(scale, startScale)
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if self.paramSetup:
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self.endScale = scale
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self.startScale = startScale
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self.inPython = 1
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else:
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self.setEndScale(scale)
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if startScale != None:
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self.setStartScale(startScale)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndScale, self.endScale)
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self.setupParam(self.setStartScale, self.startScale)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpShearInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, shear, startShear = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(shear, startShear)
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if self.paramSetup:
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self.endShear = shear
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self.startShear = startShear
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self.inPython = 1
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else:
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self.setEndShear(shear)
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if startShear != None:
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self.setStartShear(startShear)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndShear, self.endShear)
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self.setupParam(self.setStartShear, self.startShear)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpPosHprInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, pos, hpr,
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startPos = None, startHpr = None, startQuat = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(pos, startPos, hpr, startHpr, startQuat)
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if self.paramSetup:
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self.endPos = pos
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self.startPos = startPos
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self.endHpr = hpr
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.inPython = 1
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else:
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self.setEndPos(pos)
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if startPos != None:
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self.setStartPos(startPos)
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self.setEndHpr(hpr)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndPos, self.endPos)
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self.setupParam(self.setStartPos, self.startPos)
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self.setupParam(self.setEndHpr, self.endHpr)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpPosQuatInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, pos, quat = None,
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startPos = None, startHpr = None, startQuat = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None, hpr = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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if not quat:
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# If we didn't specify a quat, we're allowed to specify a
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# hpr instead, which is converted to the equivalent quat.
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assert hpr
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quat = LOrientationf()
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quat.setHpr(hpr)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(pos, startPos, quat, startHpr, startQuat)
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if self.paramSetup:
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self.endPos = pos
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self.startPos = startPos
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self.endQuat = quat
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.inPython = 1
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else:
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self.setEndPos(pos)
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if startPos != None:
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self.setStartPos(startPos)
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self.setEndQuat(quat)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndPos, self.endPos)
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self.setupParam(self.setStartPos, self.startPos)
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self.setupParam(self.setEndQuat, self.endQuat)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpHprScaleInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, hpr, scale,
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startHpr = None, startQuat = None, startScale = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(hpr, startHpr, startQuat, scale, startScale)
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if self.paramSetup:
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self.endHpr = hpr
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.endScale = scale
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self.startScale = startScale
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self.inPython = 1
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else:
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self.setEndHpr(hpr)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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self.setEndScale(scale)
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if startScale != None:
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self.setStartScale(startScale)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndHpr, self.endHpr)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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self.setupParam(self.setEndScale, self.endScale)
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self.setupParam(self.setStartScale, self.startScale)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpQuatScaleInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, quat = None, scale = None,
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hpr = None,
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startHpr = None, startQuat = None, startScale = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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if not quat:
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# If we didn't specify a quat, we're allowed to specify a
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# hpr instead, which is converted to the equivalent quat.
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assert hpr
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quat = LOrientationf()
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quat.setHpr(hpr)
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assert scale
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(quat, startHpr, startQuat, scale, startScale)
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if self.paramSetup:
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self.endQuat = quat
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.endScale = scale
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self.startScale = startScale
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self.inPython = 1
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else:
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self.setEndQuat(quat)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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self.setEndScale(scale)
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if startScale != None:
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self.setStartScale(startScale)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndQuat, self.endQuat)
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self.setupParam(self.setStartHpr, self.startHpr)
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self.setupParam(self.setStartQuat, self.startQuat)
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self.setupParam(self.setEndScale, self.endScale)
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self.setupParam(self.setStartScale, self.startScale)
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LerpNodePathInterval.privDoEvent(self, t, event)
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class LerpPosHprScaleInterval(LerpNodePathInterval):
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def __init__(self, nodePath, duration, pos, hpr, scale,
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startPos = None, startHpr = None, startQuat = None,
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startScale = None,
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other = None, blendType = 'noBlend',
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bakeInStart = 1, fluid = 0, name = None):
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LerpNodePathInterval.__init__(self, name, duration, blendType,
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bakeInStart, fluid, nodePath, other)
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# Check for functors in the input parameters.
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self.paramSetup = self.anyCallable(pos, startPos, hpr, startHpr,
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startQuat, scale, startScale)
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if self.paramSetup:
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self.endPos = pos
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self.startPos = startPos
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self.endHpr = hpr
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self.startHpr = startHpr
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self.startQuat = startQuat
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self.endScale = scale
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self.startScale = startScale
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self.inPython = 1
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else:
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self.setEndPos(pos)
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if startPos != None:
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self.setStartPos(startPos)
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self.setEndHpr(hpr)
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if startHpr != None:
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self.setStartHpr(startHpr)
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if startQuat != None:
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self.setStartQuat(startQuat)
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self.setEndScale(scale)
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if startScale != None:
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self.setStartScale(startScale)
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def privDoEvent(self, t, event):
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# This function is only used if Python functors were passed in
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# for some of the input parameters.
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if self.paramSetup and event == CInterval.ETInitialize:
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self.setupParam(self.setEndPos, self.endPos)
|
|
self.setupParam(self.setStartPos, self.startPos)
|
|
self.setupParam(self.setEndHpr, self.endHpr)
|
|
self.setupParam(self.setStartHpr, self.startHpr)
|
|
self.setupParam(self.setStartQuat, self.startQuat)
|
|
self.setupParam(self.setEndScale, self.endScale)
|
|
self.setupParam(self.setStartScale, self.startScale)
|
|
LerpNodePathInterval.privDoEvent(self, t, event)
|
|
|
|
class LerpPosQuatScaleInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, pos, quat = None, scale = None,
|
|
startPos = None, startHpr = None, startQuat = None,
|
|
startScale = None,
|
|
other = None, blendType = 'noBlend',
|
|
bakeInStart = 1, fluid = 0, name = None, hpr = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, fluid, nodePath, other)
|
|
|
|
if not quat:
|
|
# If we didn't specify a quat, we're allowed to specify a
|
|
# hpr instead, which is converted to the equivalent quat.
|
|
assert hpr
|
|
quat = LOrientationf()
|
|
quat.setHpr(hpr)
|
|
|
|
assert scale
|
|
|
|
# Check for functors in the input parameters.
|
|
self.paramSetup = self.anyCallable(pos, startPos, quat, startHpr,
|
|
startQuat, scale, startScale)
|
|
if self.paramSetup:
|
|
self.endPos = pos
|
|
self.startPos = startPos
|
|
self.endQuat = quat
|
|
self.startHpr = startHpr
|
|
self.startQuat = startQuat
|
|
self.endScale = scale
|
|
self.startScale = startScale
|
|
self.inPython = 1
|
|
else:
|
|
self.setEndPos(pos)
|
|
if startPos != None:
|
|
self.setStartPos(startPos)
|
|
self.setEndQuat(quat)
|
|
if startHpr != None:
|
|
self.setStartHpr(startHpr)
|
|
if startQuat != None:
|
|
self.setStartQuat(startQuat)
|
|
self.setEndScale(scale)
|
|
if startScale != None:
|
|
self.setStartScale(startScale)
|
|
|
|
def privDoEvent(self, t, event):
|
|
# This function is only used if Python functors were passed in
|
|
# for some of the input parameters.
|
|
if self.paramSetup and event == CInterval.ETInitialize:
|
|
self.setupParam(self.setEndPos, self.endPos)
|
|
self.setupParam(self.setStartPos, self.startPos)
|
|
self.setupParam(self.setEndQuat, self.endQuat)
|
|
self.setupParam(self.setStartHpr, self.startHpr)
|
|
self.setupParam(self.setStartQuat, self.startQuat)
|
|
self.setupParam(self.setEndScale, self.endScale)
|
|
self.setupParam(self.setStartScale, self.startScale)
|
|
LerpNodePathInterval.privDoEvent(self, t, event)
|
|
|
|
class LerpPosHprScaleShearInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, pos, hpr, scale, shear,
|
|
startPos = None, startHpr = None, startQuat = None,
|
|
startScale = None, startShear = None,
|
|
other = None, blendType = 'noBlend',
|
|
bakeInStart = 1, fluid = 0, name = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, fluid, nodePath, other)
|
|
# Check for functors in the input parameters.
|
|
self.paramSetup = self.anyCallable(pos, startPos, hpr, startHpr,
|
|
startQuat, scale, startScale,
|
|
shear, startShear)
|
|
if self.paramSetup:
|
|
self.endPos = pos
|
|
self.startPos = startPos
|
|
self.endHpr = hpr
|
|
self.startHpr = startHpr
|
|
self.startQuat = startQuat
|
|
self.endScale = scale
|
|
self.startScale = startScale
|
|
self.endShear = shear
|
|
self.startShear = startShear
|
|
self.inPython = 1
|
|
else:
|
|
self.setEndPos(pos)
|
|
if startPos != None:
|
|
self.setStartPos(startPos)
|
|
self.setEndHpr(hpr)
|
|
if startHpr != None:
|
|
self.setStartHpr(startHpr)
|
|
if startQuat != None:
|
|
self.setStartQuat(startQuat)
|
|
self.setEndScale(scale)
|
|
if startScale != None:
|
|
self.setStartScale(startScale)
|
|
self.setEndShear(shear)
|
|
if startShear != None:
|
|
self.setStartShear(startShear)
|
|
|
|
def privDoEvent(self, t, event):
|
|
# This function is only used if Python functors were passed in
|
|
# for some of the input parameters.
|
|
if self.paramSetup and event == CInterval.ETInitialize:
|
|
self.setupParam(self.setEndPos, self.endPos)
|
|
self.setupParam(self.setStartPos, self.startPos)
|
|
self.setupParam(self.setEndHpr, self.endHpr)
|
|
self.setupParam(self.setStartHpr, self.startHpr)
|
|
self.setupParam(self.setStartQuat, self.startQuat)
|
|
self.setupParam(self.setEndScale, self.endScale)
|
|
self.setupParam(self.setStartScale, self.startScale)
|
|
self.setupParam(self.setEndShear, self.endShear)
|
|
self.setupParam(self.setStartShear, self.startShear)
|
|
LerpNodePathInterval.privDoEvent(self, t, event)
|
|
|
|
class LerpPosQuatScaleShearInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, pos, quat = None, scale = None,
|
|
shear = None,
|
|
startPos = None, startHpr = None, startQuat = None,
|
|
startScale = None, startShear = None,
|
|
other = None, blendType = 'noBlend',
|
|
bakeInStart = 1, fluid = 0, name = None, hpr = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, fluid, nodePath, other)
|
|
|
|
if not quat:
|
|
# If we didn't specify a quat, we're allowed to specify a
|
|
# hpr instead, which is converted to the equivalent quat.
|
|
assert hpr
|
|
quat = LOrientationf()
|
|
quat.setHpr(hpr)
|
|
|
|
assert scale
|
|
assert shear
|
|
|
|
# Check for functors in the input parameters.
|
|
self.paramSetup = self.anyCallable(pos, startPos, quat, startHpr,
|
|
startQuat, scale, startScale,
|
|
shear, startShear)
|
|
if self.paramSetup:
|
|
self.endPos = pos
|
|
self.startPos = startPos
|
|
self.endQuat = quat
|
|
self.startHpr = startHpr
|
|
self.startQuat = startQuat
|
|
self.endScale = scale
|
|
self.startScale = startScale
|
|
self.endShear = shear
|
|
self.startShear = startShear
|
|
self.inPython = 1
|
|
else:
|
|
self.setEndPos(pos)
|
|
if startPos != None:
|
|
self.setStartPos(startPos)
|
|
self.setEndQuat(quat)
|
|
if startHpr != None:
|
|
self.setStartHpr(startHpr)
|
|
if startQuat != None:
|
|
self.setStartQuat(startQuat)
|
|
self.setEndScale(scale)
|
|
if startScale != None:
|
|
self.setStartScale(startScale)
|
|
self.setEndShear(shear)
|
|
if startShear != None:
|
|
self.setStartShear(startShear)
|
|
|
|
def privDoEvent(self, t, event):
|
|
# This function is only used if Python functors were passed in
|
|
# for some of the input parameters.
|
|
if self.paramSetup and event == CInterval.ETInitialize:
|
|
self.setupParam(self.setEndPos, self.endPos)
|
|
self.setupParam(self.setStartPos, self.startPos)
|
|
self.setupParam(self.setEndQuat, self.endQuat)
|
|
self.setupParam(self.setStartHpr, self.startHpr)
|
|
self.setupParam(self.setStartQuat, self.startQuat)
|
|
self.setupParam(self.setEndScale, self.endScale)
|
|
self.setupParam(self.setStartScale, self.startScale)
|
|
self.setupParam(self.setEndShear, self.endShear)
|
|
self.setupParam(self.setStartShear, self.startShear)
|
|
LerpNodePathInterval.privDoEvent(self, t, event)
|
|
|
|
class LerpColorInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, color, startColor = None,
|
|
other = None, blendType = 'noBlend',
|
|
bakeInStart = 1, name = None, override = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, 0, nodePath, other)
|
|
self.setEndColor(color)
|
|
if startColor != None:
|
|
self.setStartColor(startColor)
|
|
if override != None:
|
|
self.setOverride(override)
|
|
|
|
class LerpColorScaleInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, colorScale, startColorScale = None,
|
|
other = None, blendType = 'noBlend',
|
|
bakeInStart = 1, name = None, override = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, 0, nodePath, other)
|
|
self.setEndColorScale(colorScale)
|
|
if startColorScale != None:
|
|
self.setStartColorScale(startColorScale)
|
|
if override != None:
|
|
self.setOverride(override)
|
|
|
|
class LerpTexOffsetInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, texOffset, startTexOffset = None,
|
|
other = None, blendType = 'noBlend',
|
|
textureStage = None,
|
|
bakeInStart = 1, name = None, override = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, 0, nodePath, other)
|
|
self.setEndTexOffset(texOffset)
|
|
if startTexOffset != None:
|
|
self.setStartTexOffset(startTexOffset)
|
|
if textureStage != None:
|
|
self.setTextureStage(textureStage)
|
|
if override != None:
|
|
self.setOverride(override)
|
|
|
|
class LerpTexRotateInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, texRotate, startTexRotate = None,
|
|
other = None, blendType = 'noBlend',
|
|
textureStage = None,
|
|
bakeInStart = 1, name = None, override = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, 0, nodePath, other)
|
|
self.setEndTexRotate(texRotate)
|
|
if startTexRotate != None:
|
|
self.setStartTexRotate(startTexRotate)
|
|
if textureStage != None:
|
|
self.setTextureStage(textureStage)
|
|
if override != None:
|
|
self.setOverride(override)
|
|
|
|
class LerpTexScaleInterval(LerpNodePathInterval):
|
|
def __init__(self, nodePath, duration, texScale, startTexScale = None,
|
|
other = None, blendType = 'noBlend',
|
|
textureStage = None,
|
|
bakeInStart = 1, name = None, override = None):
|
|
LerpNodePathInterval.__init__(self, name, duration, blendType,
|
|
bakeInStart, 0, nodePath, other)
|
|
self.setEndTexScale(texScale)
|
|
if startTexScale != None:
|
|
self.setStartTexScale(startTexScale)
|
|
if textureStage != None:
|
|
self.setTextureStage(textureStage)
|
|
if override != None:
|
|
self.setOverride(override)
|
|
|
|
|
|
|
|
|
|
#
|
|
# The remaining intervals defined in this module are the old-school
|
|
# Python-based intervals.
|
|
#
|
|
|
|
|
|
class LerpFunctionNoStateInterval(Interval.Interval):
|
|
"""
|
|
Class used to execute a function over time. Function can access fromData
|
|
and toData to perform blend. If fromData and toData not specified, will
|
|
execute the given function passing in values ranging from 0 to 1
|
|
|
|
This is different from a standard LerpFunction, in that it assumes
|
|
the function is not modifying any state that needs to be kept; so
|
|
that it will only call the function while the lerp is actually
|
|
running, and will not be guaranteed to call the function with its
|
|
final value of the lerp. In particular, if the lerp interval
|
|
happens to get skipped over completely, it will not bother to call
|
|
the function at all.
|
|
"""
|
|
|
|
# Interval counter
|
|
lerpFunctionIntervalNum = 1
|
|
# create LerpFunctionInterval DirectNotify category
|
|
notify = directNotify.newCategory('LerpFunctionNoStateInterval')
|
|
# Class methods
|
|
def __init__(self, function, duration = 0.0, fromData = 0, toData = 1,
|
|
blendType = 'noBlend', extraArgs = [], name = None):
|
|
"""__init__(function, duration, fromData, toData, name)
|
|
"""
|
|
# Record instance variables
|
|
self.function = function
|
|
self.fromData = fromData
|
|
self.toData = toData
|
|
self.blendType = LerpBlendHelpers.getBlend(blendType)
|
|
self.extraArgs = extraArgs
|
|
# Generate unique name if necessary
|
|
if (name == None):
|
|
name = ('LerpFunctionInterval-%d' %
|
|
LerpFunctionNoStateInterval.lerpFunctionIntervalNum)
|
|
LerpFunctionNoStateInterval.lerpFunctionIntervalNum += 1
|
|
else:
|
|
# Allow the user to pass in a %d in the name and we'll go ahead
|
|
# and uniquify the name for them.
|
|
if "%d" in name:
|
|
name = name % LerpFunctionNoStateInterval.lerpFunctionIntervalNum
|
|
LerpFunctionNoStateInterval.lerpFunctionIntervalNum += 1
|
|
|
|
# Initialize superclass
|
|
Interval.Interval.__init__(self, name, duration)
|
|
|
|
#def privDoEvent(self,t,event):
|
|
|
|
#print "doing event",t,event
|
|
#bt = self.blendType(t/self.duration)
|
|
#data = (self.fromData * (1 - bt)) + (self.toData * bt)
|
|
## Evaluate function
|
|
#apply(self.function, [data] + self.extraArgs)
|
|
#self.state = CInterval.SStarted
|
|
#self.currT = t
|
|
|
|
def privStep(self, t):
|
|
# Evaluate the function
|
|
#print "doing priv step",t
|
|
if (t >= self.duration):
|
|
# Set to end value
|
|
if (t > self.duration):
|
|
print "after end"
|
|
#apply(self.function, [self.toData] + self.extraArgs)
|
|
elif self.duration == 0.0:
|
|
# Zero duration, just use endpoint
|
|
apply(self.function, [self.toData] + self.extraArgs)
|
|
else:
|
|
# In the middle of the lerp, compute appropriate blended value
|
|
bt = self.blendType(t/self.duration)
|
|
data = (self.fromData * (1 - bt)) + (self.toData * bt)
|
|
# Evaluate function
|
|
apply(self.function, [data] + self.extraArgs)
|
|
|
|
# Print debug information
|
|
# assert self.notify.debug('updateFunc() - %s: t = %f' % (self.name, t))
|
|
|
|
self.state = CInterval.SStarted
|
|
self.currT = t
|
|
|
|
# New interface
|
|
class LerpFuncNS(LerpFunctionNoStateInterval):
|
|
def __init__(self, *args, **kw):
|
|
LerpFunctionNoStateInterval.__init__(self, *args, **kw)
|
|
|
|
|
|
class LerpFunctionInterval(Interval.Interval):
|
|
"""
|
|
Class used to execute a function over time. Function can access fromData
|
|
and toData to perform blend. If fromData and toData not specified, will
|
|
execute the given function passing in values ranging from 0 to 1
|
|
"""
|
|
|
|
# Interval counter
|
|
lerpFunctionIntervalNum = 1
|
|
# create LerpFunctionInterval DirectNotify category
|
|
notify = directNotify.newCategory('LerpFunctionInterval')
|
|
# Class methods
|
|
def __init__(self, function, duration = 0.0, fromData = 0, toData = 1,
|
|
blendType = 'noBlend', extraArgs = [], name = None):
|
|
"""__init__(function, duration, fromData, toData, name)
|
|
"""
|
|
# Record instance variables
|
|
self.function = function
|
|
self.fromData = fromData
|
|
self.toData = toData
|
|
self.blendType = LerpBlendHelpers.getBlend(blendType)
|
|
self.extraArgs = extraArgs
|
|
# Generate unique name if necessary
|
|
if (name == None):
|
|
name = ('LerpFunctionInterval-%s-%d' %
|
|
(function.__name__,
|
|
LerpFunctionInterval.lerpFunctionIntervalNum))
|
|
LerpFunctionInterval.lerpFunctionIntervalNum += 1
|
|
else:
|
|
# Allow the user to pass in a %d in the name and we'll go ahead
|
|
# and uniquify the name for them.
|
|
if "%d" in name:
|
|
name = name % LerpFunctionInterval.lerpFunctionIntervalNum
|
|
LerpFunctionInterval.lerpFunctionIntervalNum += 1
|
|
|
|
# Initialize superclass
|
|
Interval.Interval.__init__(self, name, duration)
|
|
|
|
def privStep(self, t):
|
|
# Evaluate the function
|
|
#print "doing priv step",t
|
|
if (t >= self.duration):
|
|
# Set to end value
|
|
apply(self.function, [self.toData] + self.extraArgs)
|
|
elif self.duration == 0.0:
|
|
# Zero duration, just use endpoint
|
|
apply(self.function, [self.toData] + self.extraArgs)
|
|
else:
|
|
# In the middle of the lerp, compute appropriate blended value
|
|
bt = self.blendType(t/self.duration)
|
|
data = (self.fromData * (1 - bt)) + (self.toData * bt)
|
|
# Evaluate function
|
|
apply(self.function, [data] + self.extraArgs)
|
|
|
|
# Print debug information
|
|
# assert self.notify.debug('updateFunc() - %s: t = %f' % (self.name, t))
|
|
|
|
self.state = CInterval.SStarted
|
|
self.currT = t
|
|
|
|
# New interface
|
|
class LerpFunc(LerpFunctionInterval):
|
|
def __init__(self, *args, **kw):
|
|
LerpFunctionInterval.__init__(self, *args, **kw)
|