mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-25 04:32:33 -06:00
288 lines
13 KiB
Python
288 lines
13 KiB
Python
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from direct.showbase.InputStateGlobal import inputState
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from direct.task.Task import Task
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from pandac.PandaModules import *
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import GravityWalker
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BattleStrafe = 0
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def ToggleStrafe():
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global BattleStrafe
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BattleStrafe = not BattleStrafe
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def SetStrafe(status):
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global BattleStrafe
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BattleStrafe = status
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class BattleWalker(GravityWalker.GravityWalker):
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def __init__(self):
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GravityWalker.GravityWalker.__init__(self)
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self.slideSpeed = 0
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self.advanceSpeed = 0
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def getSpeeds(self):
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return (self.speed, self.rotationSpeed, self.slideSpeed, self.advanceSpeed)
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def handleAvatarControls(self, task):
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"""
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Check on the arrow keys and update the avatar.
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"""
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# get the button states:
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run = inputState.isSet("run")
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forward = inputState.isSet("forward")
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reverse = inputState.isSet("reverse")
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turnLeft = inputState.isSet("turnLeft")
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turnRight = inputState.isSet("turnRight")
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slideLeft = inputState.isSet("slideLeft")
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slideRight = inputState.isSet("slideRight")
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jump = inputState.isSet("jump")
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# Check for Auto-Run
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if base.localAvatar.getAutoRun():
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forward = 1
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reverse = 0
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# Determine what the speeds are based on the buttons:
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self.speed=(forward and self.avatarControlForwardSpeed or
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reverse and -self.avatarControlReverseSpeed)
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# Slide speed is a scaled down version of forward speed
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self.slideSpeed=(slideLeft and -self.avatarControlForwardSpeed or
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slideRight and self.avatarControlForwardSpeed) * 0.5
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self.rotationSpeed=not (slideLeft or slideRight) and (
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(turnLeft and self.avatarControlRotateSpeed) or
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(turnRight and -self.avatarControlRotateSpeed))
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debugRunning = inputState.isSet("debugRunning")
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if(debugRunning):
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self.speed*=base.debugRunningMultiplier
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self.slideSpeed*=base.debugRunningMultiplier
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self.rotationSpeed*=1.25
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if self.needToDeltaPos:
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self.setPriorParentVector()
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self.needToDeltaPos = 0
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if self.wantDebugIndicator:
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self.displayDebugInfo()
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if self.lifter.isOnGround():
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if self.isAirborne:
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self.isAirborne = 0
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assert self.debugPrint("isAirborne 0 due to isOnGround() true")
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impact = self.lifter.getImpactVelocity()
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if impact < -30.0:
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messenger.send("jumpHardLand")
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self.startJumpDelay(0.3)
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else:
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messenger.send("jumpLand")
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if impact < -5.0:
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self.startJumpDelay(0.2)
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# else, ignore the little potholes.
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assert self.isAirborne == 0
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self.priorParent = Vec3.zero()
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if jump and self.mayJump:
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# The jump button is down and we're close
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# enough to the ground to jump.
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self.lifter.addVelocity(self.avatarControlJumpForce)
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messenger.send("jumpStart")
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self.isAirborne = 1
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assert self.debugPrint("isAirborne 1 due to jump")
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else:
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if self.isAirborne == 0:
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assert self.debugPrint("isAirborne 1 due to isOnGround() false")
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self.isAirborne = 1
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self.__oldPosDelta = self.avatarNodePath.getPosDelta(render)
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# How far did we move based on the amount of time elapsed?
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self.__oldDt = ClockObject.getGlobalClock().getDt()
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dt=self.__oldDt
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# Check to see if we're moving at all:
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self.moving = self.speed or self.slideSpeed or self.rotationSpeed or (self.priorParent!=Vec3.zero())
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if self.moving:
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distance = dt * self.speed
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slideDistance = dt * self.slideSpeed
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rotation = dt * self.rotationSpeed
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# Take a step in the direction of our previous heading.
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if distance or slideDistance or self.priorParent != Vec3.zero():
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# rotMat is the rotation matrix corresponding to
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# our previous heading.
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rotMat=Mat3.rotateMatNormaxis(self.avatarNodePath.getH(), Vec3.up())
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if self.isAirborne:
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forward = Vec3.forward()
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else:
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contact = self.lifter.getContactNormal()
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forward = contact.cross(Vec3.right())
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# Consider commenting out this normalize. If you do so
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# then going up and down slops is a touch slower and
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# steeper terrain can cut the movement in half. Without
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# the normalize the movement is slowed by the cosine of
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# the slope (i.e. it is multiplied by the sign as a
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# side effect of the cross product above).
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forward.normalize()
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self.vel=Vec3(forward * distance)
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if slideDistance:
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if self.isAirborne:
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right = Vec3.right()
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else:
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right = forward.cross(contact)
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# See note above for forward.normalize()
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right.normalize()
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self.vel=Vec3(self.vel + (right * slideDistance))
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self.vel=Vec3(rotMat.xform(self.vel))
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step=self.vel + (self.priorParent * dt)
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self.avatarNodePath.setFluidPos(Point3(
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self.avatarNodePath.getPos()+step))
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self.avatarNodePath.setH(self.avatarNodePath.getH()+rotation)
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else:
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self.vel.set(0.0, 0.0, 0.0)
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if self.moving or jump:
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messenger.send("avatarMoving")
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return Task.cont
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if 0:
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def handleAvatarControls(self, task):
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# If targetNp is not available, revert back to GravityWalker.handleAvatarControls.
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# This situation occurs when the target dies, but we aren't switched out of
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# battle walker control mode.
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targetNp = self.avatarNodePath.currentTarget
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if not BattleStrafe or targetNp == None or targetNp.isEmpty():
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return GravityWalker.GravityWalker.handleAvatarControls(self, task)
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# get the button states:
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run = inputState.isSet("run")
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forward = inputState.isSet("forward")
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reverse = inputState.isSet("reverse")
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turnLeft = inputState.isSet("turnLeft")
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turnRight = inputState.isSet("turnRight")
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slide = inputState.isSet("slide")
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jump = inputState.isSet("jump")
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# Determine what the speeds are based on the buttons:
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self.advanceSpeed=(forward and self.avatarControlForwardSpeed or
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reverse and -self.avatarControlReverseSpeed)
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if run and self.advanceSpeed>0.0:
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self.advanceSpeed*=2.0 #*#
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# Should fSlide be renamed slideButton?
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self.slideSpeed=.15*(turnLeft and -self.avatarControlForwardSpeed or
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turnRight and self.avatarControlForwardSpeed)
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print 'slideSpeed: ', self.slideSpeed
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self.rotationSpeed=0
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self.speed=0
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debugRunning = inputState.isSet("debugRunning")
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if debugRunning:
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self.advanceSpeed*=4.0
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self.slideSpeed*=4.0
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self.rotationSpeed*=1.25
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if self.needToDeltaPos:
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self.setPriorParentVector()
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self.needToDeltaPos = 0
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if self.wantDebugIndicator:
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self.displayDebugInfo()
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if self.lifter.isOnGround():
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if self.isAirborne:
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self.isAirborne = 0
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assert self.debugPrint("isAirborne 0 due to isOnGround() true")
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impact = self.lifter.getImpactVelocity()
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if impact < -30.0:
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messenger.send("jumpHardLand")
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self.startJumpDelay(0.3)
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else:
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messenger.send("jumpLand")
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if impact < -5.0:
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self.startJumpDelay(0.2)
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# else, ignore the little potholes.
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assert self.isAirborne == 0
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self.priorParent = Vec3.zero()
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if jump and self.mayJump:
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# The jump button is down and we're close
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# enough to the ground to jump.
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self.lifter.addVelocity(self.avatarControlJumpForce)
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messenger.send("jumpStart")
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self.isAirborne = 1
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assert self.debugPrint("isAirborne 1 due to jump")
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else:
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if self.isAirborne == 0:
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assert self.debugPrint("isAirborne 1 due to isOnGround() false")
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self.isAirborne = 1
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self.__oldPosDelta = self.avatarNodePath.getPosDelta(render)
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# How far did we move based on the amount of time elapsed?
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self.__oldDt = ClockObject.getGlobalClock().getDt()
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dt=self.__oldDt
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# Before we do anything with position or orientation, make the avatar
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# face it's target. Only allow rMax degrees rotation per frame, so
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# we don't get an unnatural spinning effect
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curH = self.avatarNodePath.getH()
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self.avatarNodePath.headsUp(targetNp)
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newH = self.avatarNodePath.getH()
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delH = reduceAngle(newH-curH)
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rMax = 10
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if delH < -rMax:
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self.avatarNodePath.setH(curH-rMax)
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self.rotationSpeed=-self.avatarControlRotateSpeed
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elif delH > rMax:
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self.avatarNodePath.setH(curH+rMax)
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self.rotationSpeed=self.avatarControlRotateSpeed
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# Check to see if we're moving at all:
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self.moving = self.speed or self.slideSpeed or self.rotationSpeed or (self.priorParent!=Vec3.zero())
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if self.moving:
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distance = dt * self.speed
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slideDistance = dt * self.slideSpeed
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print 'slideDistance: ', slideDistance
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rotation = dt * self.rotationSpeed
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# Take a step in the direction of our previous heading.
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self.vel=Vec3(Vec3.forward() * distance +
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Vec3.right() * slideDistance)
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if self.vel != Vec3.zero() or self.priorParent != Vec3.zero():
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if 1:
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# rotMat is the rotation matrix corresponding to
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# our previous heading.
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rotMat=Mat3.rotateMatNormaxis(self.avatarNodePath.getH(), Vec3.up())
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step=(self.priorParent * dt) + rotMat.xform(self.vel)
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self.avatarNodePath.setFluidPos(Point3(
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self.avatarNodePath.getPos()+step))
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self.avatarNodePath.setH(self.avatarNodePath.getH()+rotation)
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else:
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self.vel.set(0.0, 0.0, 0.0)
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"""
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# Check to see if we're moving at all:
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self.moving = self.advanceSpeed or self.slideSpeed or self.rotationSpeed or (self.priorParent!=Vec3.zero())
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if self.moving:
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distance = dt * self.advanceSpeed
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slideDistance = dt * self.slideSpeed
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rotation = dt * self.rotationSpeed
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# Prevent avatar from getting too close to target
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d = self.avatarNodePath.getPos(targetNp)
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# TODO: make min distance adjust for current weapon
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if (d[0]*d[0]+d[1]*d[1] < 6.0 and distance > 0):
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# move the avatar sideways instead of forward
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slideDistance += .2
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distance = 0
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# Take a step in the direction of our previous heading.
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self.vel=Vec3(Vec3.forward() * distance +
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Vec3.right() * slideDistance)
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if self.vel != Vec3.zero() or self.priorParent != Vec3.zero():
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# rotMat is the rotation matrix corresponding to
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# our previous heading.
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rotMat=Mat3.rotateMatNormaxis(self.avatarNodePath.getH(), Vec3.up())
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step=rotMat.xform(self.vel) + (self.priorParent * dt)
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self.avatarNodePath.setFluidPos(Point3(
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self.avatarNodePath.getPos()+step))
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self.avatarNodePath.setH(self.avatarNodePath.getH()+rotation)
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else:
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self.vel.set(0.0, 0.0, 0.0)
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"""
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if self.moving or jump:
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messenger.send("avatarMoving")
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return Task.cont
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