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https://github.com/panda3d/panda3d.git
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*** empty log message ***
This commit is contained in:
Mike Goslin
parent
ad480dd783
commit
8e9e231bf1
@ -173,25 +173,32 @@ class Particles(ParticleSystem.ParticleSystem):
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def printParams(self):
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"""printParams(self)"""
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print "# Factory parameters"
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print "factory.setLifespanBase(%f)" % self.factory.getLifespanBase()
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print "factory.setLifespanSpread(%f)" % self.factory.getLifespanSpread()
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print "factory.setMassBase(%f)" % self.factory.getMassBase()
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print "factory.setMassSpread(%f)" % self.factory.getMassSpread()
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print "factory.setTerminalVelocityBase(%f)" % self.factory.getTerminalVelocityBase()
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print "factory.setTerminalVelocitySpread(%f)" % self.factory.getTerminalVelocitySpread()
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print '# Particles parameters'
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print 'import Particles'
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print 'p = Particles()'
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print 'p.setFactory(\"' + self.factoryType + '\")'
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print 'p.setRenderer(\"' + self.rendererType + '\")'
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print 'p.setEmitter(\"' + self.emitterType + '\")'
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print '# Factory parameters'
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print 'p.factory.setLifespanBase(%.4f)' % self.factory.getLifespanBase()
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print 'p.factory.setLifespanSpread(%.4f)' % self.factory.getLifespanSpread()
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print 'p.factory.setMassBase(%.4f)' % self.factory.getMassBase()
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print 'p.factory.setMassSpread(%.4f)' % self.factory.getMassSpread()
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print 'p.factory.setTerminalVelocityBase(%.4f)' % self.factory.getTerminalVelocityBase()
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print 'p.factory.setTerminalVelocitySpread(%.4f)' % self.factory.getTerminalVelocitySpread()
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if (self.factoryType == "PointParticleFactory"):
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print "# Point factory parameters"
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print '# Point factory parameters'
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elif (self.factoryType == "ZSpinParticleFactory"):
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print "# Z Spin factory parameters"
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print "factory.setInitialAngle(%f)" % self.factory.getInitialAngle()
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print "factory.setFinalAngle(%f)" % self.factory.getFinalAngle()
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print "factory.setInitialAngleSpread(%f)" % self.factory.getInitialAngleSpread()
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print "factory.setFinalAngleSpread(%f)" % self.factory.getFinalAngleSpread()
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print '# Z Spin factory parameters'
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print 'p.factory.setInitialAngle(%.4f)' % self.factory.getInitialAngle()
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print 'p.factory.setFinalAngle(%.4f)' % self.factory.getFinalAngle()
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print 'p.factory.setInitialAngleSpread(%.4f)' % self.factory.getInitialAngleSpread()
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print 'p.factory.setFinalAngleSpread(%.4f)' % self.factory.getFinalAngleSpread()
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elif (self.factoryType == "OrientedParticleFactory"):
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print "# Oriented factory parameters"
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print 'factory.setInitialOrientation(' + self.factory.getInitialOrientation + ')'
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print 'factory.setFinalOrientation(' + self.factory.getFinalOrientation + ')'
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print '# Oriented factory parameters'
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print 'p.factory.setInitialOrientation(%.4f)' % self.factory.getInitialOrientation()
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print 'p.factory.setFinalOrientation(%.4f)' % self.factory.getFinalOrientation()
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print "# Renderer parameters"
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alphaMode = self.renderer.getAlphaMode()
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@ -207,15 +214,15 @@ class Particles(ParticleSystem.ParticleSystem):
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elif (alphaMode ==
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BaseParticleRenderer.BaseParticleRenderer.PRALPHAUSER):
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aMode = "PR_ALPHA_USER"
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print 'renderer.setAlphaMode(BaseParticleRenderer.BaseParticleRenderer.' + aMode + ')'
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print 'renderer.setUserAlpha(%f)' % self.renderer.getUserAlpha()
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print 'p.renderer.setAlphaMode(BaseParticleRenderer.BaseParticleRenderer.' + aMode + ')'
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print 'p.renderer.setUserAlpha(%.2f)' % self.renderer.getUserAlpha()
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if (self.rendererType == "Point"):
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print "# Point parameters"
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print 'renderer.setPointSize(%f)' % self.renderer.getPointSize()
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print '# Point parameters'
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print 'p.renderer.setPointSize(%.2f)' % self.renderer.getPointSize()
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sColor = self.renderer.getStartColor()
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print ('renderer.setStartColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print ('p.renderer.setStartColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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sColor = self.renderer.getEndColor()
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print ('renderer.setEndColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print ('p.renderer.setEndColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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blendType = self.renderer.getBlendType()
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bType = "unknown"
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if (blendType == PointParticleRenderer.PointParticleRenderer.PPONECOLOR):
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@ -224,7 +231,7 @@ class Particles(ParticleSystem.ParticleSystem):
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bType = "PP_BLEND_LIFE"
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elif (blendType == PointParticleRenderer.PointParticleRenderer.PPBLENDVEL):
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bType = "PP_BLEND_VEL"
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print 'renderer.setBlendType(PointParticleRenderer.PointParticleRenderer.' + bType + ')'
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print 'p.renderer.setBlendType(PointParticleRenderer.PointParticleRenderer.' + bType + ')'
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blendMethod = self.renderer.getBlendMethod()
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bMethod = "PP_NO_BLEND"
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if (blendMethod == BaseParticleRenderer.BaseParticleRenderer.PPNOBLEND):
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@ -233,44 +240,44 @@ class Particles(ParticleSystem.ParticleSystem):
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bMethod = "PP_BLEND_LINEAR"
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elif (blendMethod == BaseParticleRenderer.BaseParticleRenderer.PPBLENDCUBIC):
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bMethod = "PP_BLEND_CUBIC"
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print 'renderer.setBlendMethod(BaseParticleRenderer.BaseParticleRenderer.' + bMethod + ')'
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print 'p.renderer.setBlendMethod(BaseParticleRenderer.BaseParticleRenderer.' + bMethod + ')'
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elif (self.rendererType == "LineParticleRenderer"):
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print "# Line parameters"
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print '# Line parameters'
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sColor = self.renderer.getHeadColor()
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print ('renderer.setHeadColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print ('p.renderer.setHeadColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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sColor = self.renderer.getTailColor()
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print ('renderer.setTailColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print ('p.renderer.setTailColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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elif (self.rendererType == "GeomParticleRenderer"):
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print "# Geom parameters"
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print '# Geom parameters'
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node = self.renderer.getGeomNode()
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print 'renderer.setGeomNode(' + node.getName() + ')'
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print 'p.renderer.setGeomNode(' + node.getName() + ')'
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elif (self.rendererType == "SparkleParticleRenderer"):
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print "# Sparkle parameters"
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print '# Sparkle parameters'
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sColor = self.renderer.getCenterColor()
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print ('renderer.setCenterColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print ('p.renderer.setCenterColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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sColor = self.renderer.getEdgeColor()
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print ('renderer.setEdgeColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print 'renderer.setBirthRadius(%f)' % self.renderer.getBirthRadius()
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print 'renderer.setDeathRadius(%f)' % self.renderer.setDeathRadius()
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print ('p.renderer.setEdgeColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print 'p.renderer.setBirthRadius(%.4f)' % self.renderer.getBirthRadius()
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print 'p.renderer.setDeathRadius(%.4f)' % self.renderer.getDeathRadius()
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lifeScale = self.renderer.getLifeScale()
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lScale = "SP_NO_SCALE"
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if (lifeScale == SparkleParticleRenderer.SparkleParticleRenderer.SPSCALE):
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lScale = "SP_SCALE"
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print 'renderer.setLifeScale(SparkleParticleRenderer.SparkleParticleRenderer.' + lScale + ')'
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print 'p.renderer.setLifeScale(SparkleParticleRenderer.SparkleParticleRenderer.' + lScale + ')'
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elif (self.rendererType == "SpriteParticleRenderer"):
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print "# Sprite parameters"
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print '# Sprite parameters'
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tex = self.renderer.getTexture()
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print 'renderer.setTexture(loader.loadTexture(' + tex.getName() + '))'
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print 'p.renderer.setTexture(loader.loadTexture(\'' + tex.getName() + '\'))'
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sColor = self.renderer.getColor()
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print ('renderer.setColor(Colorf(%f, %f, %f, %f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print 'renderer.setXScaleFlag(%d)' % self.renderer.getXScaleFlag()
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print 'renderer.setYScaleFlag(%d)' % self.renderer.getYScaleFlag()
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print 'renderer.setAnimAngleFlag(%d)' % self.renderer.getAnimAngleFlag()
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print 'renderer.setInitialXScale(%f)' % self.renderer.getInitialXScale()
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print 'renderer.setFinalXScale(%f)' % self.renderer.getFinalXScale()
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print 'renderer.setInitialYScale(%f)' % self.renderer.getInitialYScale()
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print 'renderer.setFinalYScale(%f)' % self.renderer.getFinalYScale()
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print 'renderer.setNonanimatedTheta(%f)' % self.renderer.getNonanimatedTheta()
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print ('p.renderer.setColor(Colorf(%.2f, %.2f, %.2f, %.2f))' % (sColor[0], sColor[1], sColor[2], sColor[3]))
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print 'p.renderer.setXScaleFlag(%d)' % self.renderer.getXScaleFlag()
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print 'p.renderer.setYScaleFlag(%d)' % self.renderer.getYScaleFlag()
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print 'p.renderer.setAnimAngleFlag(%d)' % self.renderer.getAnimAngleFlag()
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print 'p.renderer.setInitialXScale(%.4f)' % self.renderer.getInitialXScale()
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print 'p.renderer.setFinalXScale(%.4f)' % self.renderer.getFinalXScale()
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print 'p.renderer.setInitialYScale(%.4f)' % self.renderer.getInitialYScale()
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print 'p.renderer.setFinalYScale(%.4f)' % self.renderer.getFinalYScale()
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print 'p.renderer.setNonanimatedTheta(%.4f)' % self.renderer.getNonanimatedTheta()
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blendMethod = self.renderer.getAlphaBlendMethod()
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bMethod = "PP_NO_BLEND"
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if (blendMethod == BaseParticleRenderer.BaseParticleRenderer.PPNOBLEND):
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@ -279,10 +286,10 @@ class Particles(ParticleSystem.ParticleSystem):
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bMethod = "PP_BLEND_LINEAR"
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elif (blendMethod == BaseParticleRenderer.BaseParticleRenderer.PPBLENDCUBIC):
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bMethod = "PP_BLEND_CUBIC"
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print 'renderer.setAlphaBlendMethod(BaseParticleRenderer.BaseParticleRenderer.' + bMethod + ')'
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print 'setAlphaDisable(%d)' % self.renderer.getAlphaDisable()
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print 'p.renderer.setAlphaBlendMethod(BaseParticleRenderer.BaseParticleRenderer.' + bMethod + ')'
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print 'p.renderer.setAlphaDisable(%d)' % self.renderer.getAlphaDisable()
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print "# Emitter parameters"
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print '# Emitter parameters'
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emissionType = self.emitter.getEmissionType()
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eType = "unknown"
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if (emissionType == BaseParticleEmitter.BaseParticleEmitter.ETEXPLICIT):
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@ -291,58 +298,58 @@ class Particles(ParticleSystem.ParticleSystem):
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eType = "ET_RADIATE"
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elif (emissionType == BaseParticleEmitter.BaseParticleEmitter.ETCUSTOM):
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eType = "ET_CUSTOM"
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print 'emitter.setEmissionType(BaseParticleEmitter.BaseParticleEmitter.' + eType + ')'
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print 'emitter.setAmplitude(%f)' % self.emitter.getAmplitude()
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print 'emitter.setAmplitudeSpread(%f)' % self.emitter.getAmplitudeSpread()
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print 'p.emitter.setEmissionType(BaseParticleEmitter.BaseParticleEmitter.' + eType + ')'
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print 'p.emitter.setAmplitude(%.4f)' % self.emitter.getAmplitude()
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print 'p.emitter.setAmplitudeSpread(%.4f)' % self.emitter.getAmplitudeSpread()
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oForce = self.emitter.getOffsetForce()
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print ('emitter.setOffsetForce(Vec3(%f, %f, %f))' % (oForce[0], oForce[1], oForce[2]))
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print ('p.emitter.setOffsetForce(Vec3(%.4f, %.4f, %.4f))' % (oForce[0], oForce[1], oForce[2]))
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oForce = self.emitter.getExplicitLaunchVector()
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print ('emitter.setExplicitLaunchVector(Vec3(%f, %f, %f))' % (oForce[0], oForce[1], oForce[2]))
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print ('p.emitter.setExplicitLaunchVector(Vec3(%.4f, %.4f, %.4f))' % (oForce[0], oForce[1], oForce[2]))
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orig = self.emitter.getRadiateOrigin()
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print ('emitter.setRadiateOrigin(Point3(%f, %f, %f))' % (orig[0], orig[1], orig[2]))
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print ('p.emitter.setRadiateOrigin(Point3(%.4f, %.4f, %.4f))' % (orig[0], orig[1], orig[2]))
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if (self.emitterType == "BoxEmitter"):
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print "# Box parameters"
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print '# Box parameters'
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bound = self.emitter.getMinBound()
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print ('emitter.setMinBound(Point3(%f, %f, %f))' % (bound[0], bound[1], bound[2]))
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print ('p.emitter.setMinBound(Point3(%.4f, %.4f, %.4f))' % (bound[0], bound[1], bound[2]))
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bound = self.emitter.getMaxBound()
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print ('emitter.setMaxBound(Point3(%f, %f, %f))' % (bound[0], bound[1], bound[2]))
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print ('p.emitter.setMaxBound(Point3(%.4f, %.4f, %.4f))' % (bound[0], bound[1], bound[2]))
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elif (self.emitterType == "DiscEmitter"):
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print "# Disc parameters"
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print 'emitter.setRadius(%f)' % self.emitter.getRadius()
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print '# Disc parameters'
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print 'p.emitter.setRadius(%.4f)' % self.emitter.getRadius()
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if (eType == "ET_CUSTOM"):
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print 'emitter.setOuterAngle(%f)' % self.emitter.getOuterAngle()
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print 'emitter.setInnerAngle(%f)' % self.emitter.getInnerAngle()
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print 'emitter.setOuterMagnitude(%f)' % self.emitter.getOuterMagnitude()
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print 'emitter.setInnerMagnitude(%f)' % self.emitter.getInnerMagnitude()
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print 'emitter.setCubicLerping(%d)' % self.emitter.getCubicLerping()
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print 'p.emitter.setOuterAngle(%.4f)' % self.emitter.getOuterAngle()
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print 'p.emitter.setInnerAngle(%.4f)' % self.emitter.getInnerAngle()
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print 'p.emitter.setOuterMagnitude(%.4f)' % self.emitter.getOuterMagnitude()
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print 'p.emitter.setInnerMagnitude(%.4f)' % self.emitter.getInnerMagnitude()
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print 'p.emitter.setCubicLerping(%d)' % self.emitter.getCubicLerping()
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elif (self.emitterType == "LineEmitter"):
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print "# Line parameters"
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print '# Line parameters'
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point = self.emitter.getEndpoint1()
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print ('emitter.setEndpoint1(Point3(%f, %f, %f))' % (point[0], point[1], point[2]))
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print ('p.emitter.setEndpoint1(Point3(%.4f, %.4f, %.4f))' % (point[0], point[1], point[2]))
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point = self.emitter.getEndpoint2()
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print ('emitter.setEndpoint2(Point3(%f, %f, %f))' % (point[0], point[1], point[2]))
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print ('p.emitter.setEndpoint2(Point3(%.4f, %.4f, %.4f))' % (point[0], point[1], point[2]))
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elif (self.emitterType == "PointEmitter"):
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print "# Point parameters"
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print '# Point parameters'
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point = self.emitter.getLocation()
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print ('emitter.setLocation(Point3(%f, %f, %f))' % (point[0], point[1], point[2]))
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print ('p.emitter.setLocation(Point3(%.4f, %.4f, %.4f))' % (point[0], point[1], point[2]))
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elif (self.emitterType == "RectangleEmitter"):
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print "# Rectangle parameters"
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print '# Rectangle parameters'
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bound = self.emitter.getMinBound()
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print ('emitter.setMinBound(Point2(%f, %f))' % (point[0], point[1]))
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print ('p.emitter.setMinBound(Point2(%.4f, %.4f))' % (point[0], point[1]))
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bound = self.emitter.getMaxBound()
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print ('emitter.setMaxBound(Point2(%f, %f))' % (point[0], point[1]))
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print ('p.emitter.setMaxBound(Point2(%.4f, %.4f))' % (point[0], point[1]))
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elif (self.emitterType == "RingEmitter"):
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print "# Ring parameters"
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print 'emitter.setRadius(%f)' % self.emitter.getRadius()
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print '# Ring parameters'
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print 'p.emitter.setRadius(%.4f)' % self.emitter.getRadius()
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if (eType == "ET_CUSTOM"):
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print 'emitter.setAngle(%f)' % self.emitter.getAngle()
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print 'p.emitter.setAngle(%.4f)' % self.emitter.getAngle()
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elif (self.emitterType == "SphereSurfaceEmitter"):
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print "# Sphere Surface parameters"
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print 'emitter.setRadius(%f)' % self.emitter.getRadius()
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print '# Sphere Surface parameters'
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print 'p.emitter.setRadius(%.4f)' % self.emitter.getRadius()
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elif (self.emitterType == "SphereVolumeEmitter"):
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print "# Sphere Volume parameters"
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print 'emitter.setRadius(%f)' % self.emitter.getRadius()
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print '# Sphere Volume parameters'
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print 'p.emitter.setRadius(%.4f)' % self.emitter.getRadius()
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elif (self.emitterType == "TangentRingEmitter"):
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print "# Tangent Ring parameters"
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print 'emitter.setRadius(%f)' % self.emitter.getRadius()
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print '# Tangent Ring parameters'
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print 'p.emitter.setRadius(%.4f)' % self.emitter.getRadius()
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@ -5,8 +5,8 @@ from MessengerGlobal import *
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from TaskManagerGlobal import *
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from EventManagerGlobal import *
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from PythonUtil import *
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#from ParticleManagerGlobal import *
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#from PhysicsManagerGlobal import *
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from ParticleManagerGlobal import *
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from PhysicsManagerGlobal import *
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import Task
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import EventManager
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import math
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@ -105,8 +105,8 @@ class ShowBase:
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self.taskMgr = taskMgr
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#self.particleMgr = particleMgr
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#self.physicsMgr = physicsMgr
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self.particleMgr = particleMgr
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self.physicsMgr = physicsMgr
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self.createAudioManager()
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self.createRootPanel()
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