Esempio n. 1
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        def curva(t):  # return par(t,0.0)
            p = par(t, 0.0)
            return (0.98 * p[0], 0.98 * p[1], 0.0)

        def puntos(u):
            return Vec3(cos(u) * sin(u / 2.0), sin(u / 2.0) * sin(u), -cos(u / 2.0))

        cm = Curve3D(curva, (-pi, pi, 200), color=_1(255, 255, 255), width=3)
        aceleracion_cm = cm.attachField("aceleracion", puntos).setLengthFactor(1).setWidthFactor(0.5)
        aceleracion_cm.animation.setDuration(12000)

        self.addChild(mobius)
        self.addChild(cm)
        self.addChild(Arrow((-1, 0, 0), (0, 0, 0), 0.02))

        self.setupAnimations([aceleracion_cm])


class Superficies4(Chapter):
    def __init__(self):
        super(Superficies4, self).__init__(u"Isometría y orientación de superficies")

        figuras = [Helicoide, Catenoide, Mobius]

        for f in figuras:
            self.addPage(f())


if __name__ == "__main__":
    visor = main(Superficies4)
Esempio n. 2
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        self.parent.setDrawStyle(SoQtViewer.VIEW_AS_IS)

    def getGui(self):
        return self.gui

    def setupGui(self):
        pass

    def setupPages(self):
        ## ==============
        ## Una clase de python
        ## con un atributo root de openinventor
        cubo = Cubo()
        self.objetos.append(cubo)
        ## ==================
        ## un objeto de openinventor directamente
        esfera = SoSphere()
        self.objetos.append(esfera)



if __name__ == "__main__":
    app = main(sys.argv)

    window = Simetrias3D()
    window.resize(700,700)
    window.rotor.on = False
    window.show()
    window.ui.show()
    SoQt.mainLoop()
Esempio n. 3
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            tangent_arrow.animateArrow(t)
            curvature_arrow.animateArrow(t)

        Slider(rangep=('t', 0,1.0,0,40),func=setSyncParam, duration=4000, parent=self)
        #self.setupAnimations( [ AnimationGroup( objects, (1000,0,999) ) ] )



class CurvaturasNormales(Chapter):

    def __init__(self):
        Chapter.__init__(self, name="Curvatura y secciones normales")

        figuras = [
            Elipsoide1,
            Elipsoide2,
            Elipsoide3,
            Cilindro,
            Hiperboloide,
            Toro1,
            Toro2,
            Toro3
        ]

        for f in figuras:
            self.addPage(f())


if __name__ == "__main__":
    visor = main(CurvaturasNormales)
Esempio n. 4
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        params = [stereo, stereo2]

        ## no queremos los controles
        for i, p in enumerate(params):
            p.parameters['t%d' % (i + 1)].hide()

        anims = [
            p.parameters['t%d' % (i + 1)].asAnimation()
            for i, p in enumerate(params)
        ]
        self.setupAnimations(anims)


class Superficies1(Chapter):
    def __init__(self):
        super(Superficies1,
              self).__init__("Superficies y sus parametrizaciones")

        figuras = [
            Plano1, ParaboloideEliptico, ParaboloideHiperbolico,
            LasilladelMono, Superficiecuartica, Conoderevolucion, Esfera,
            EsferaCasquetes
        ]

        for f in figuras:
            self.addPage(f())


if __name__ == "__main__":
    visor = main(Superficies1)