from opencamlib import ocl, camvtk # note 2018.08: # the Weave class is not provided to python, so this deprecated example script won't run if __name__ == "__main__": print(ocl.version()) myscreen = camvtk.VTKScreen() a = ocl.Point(0,1,0.3) myscreen.addActor(camvtk.Point(center=(a.x,a.y,a.z), color=(1,0,1))) b = ocl.Point(1,0.5,0.3) myscreen.addActor(camvtk.Point(center=(b.x,b.y,b.z), color=(1,0,1))) c = ocl.Point(0,0,0.1) myscreen.addActor(camvtk.Point(center=(c.x,c.y,c.z), color=(1,0,1))) myscreen.addActor( camvtk.Line(p1=(a.x,a.y,a.z),p2=(c.x,c.y,c.z)) ) myscreen.addActor( camvtk.Line(p1=(c.x,c.y,c.z),p2=(b.x,b.y,b.z)) ) myscreen.addActor( camvtk.Line(p1=(a.x,a.y,a.z),p2=(b.x,b.y,b.z)) ) t = ocl.Triangle(b,c,a) s = ocl.STLSurf() s.addTriangle(t) # a one-triangle STLSurf cutter = ocl.CylCutter(0.3, 5) #cutter = ocl.BallCutter(0.4, 5) #cutter = ocl.BullCutter(0.4, 0.1, 5) print("fiber...") fiber_range=4 Nmax = 100 yvals = [float(n-float(Nmax)/2)/Nmax*fiber_range for n in range(0,Nmax+1)] xvals = [float(n-float(Nmax)/2)/Nmax*fiber_range for n in range(0,Nmax+1)] zmin = -0.1 zmax = 0.5 zNmax = 5 dz = (zmax-zmin)/(zNmax-1) zvals=[ 0.23] #zvals.append(0.2) #for n in range(0,zNmax): # zvals.append(zmin+n*dz) bpc_x = ocl.BatchPushCutter() bpc_y = ocl.BatchPushCutter() bpc_x.setXDirection() bpc_y.setYDirection() bpc_x.setSTL(s) bpc_y.setSTL(s) bpc_x.setCutter(cutter) bpc_y.setCutter(cutter) # create fibers for zh in zvals: for y in yvals: f1 = ocl.Point(-0.5,y,zh) # start point of fiber f2 = ocl.Point(1.5,y,zh) # end point of fiber f = ocl.Fiber( f1, f2) bpc_x.appendFiber(f) for x in xvals: f1 = ocl.Point(x,-0.5,zh) # start point of fiber f2 = ocl.Point(x,1.5,zh) # end point of fiber f = ocl.Fiber( f1, f2) bpc_y.appendFiber(f) # run bpc_x.run() bpc_y.run() clpoints = bpc_x.getCLPoints() clp2 = bpc_y.getCLPoints() clpoints+=clp2 xfibers = bpc_x.getFibers() yfibers = bpc_y.getFibers() fibers = xfibers+yfibers print(" got ",len(xfibers)," xfibers") print(" got ",len(yfibers)," yfibers") print("rendering fibers and CL-points.") w = ocl.Weave() print("push fibers to Weave...",) for f in fibers: w.addFiber(f) print("done.") print("Weave build()...",) w.build() print("done") print("face_traverse...") w.face_traverse() print("done.") w_clpts = w.getCLPoints() w_ipts = w.getIPoints() w_edges = w.getEdges() w_loop = w.getLoops() print(" weave: got ", len(w_clpts)," CL-points and ", len(w_ipts)," internal points") print(" got: ", len(w_edges), " edges") print(" got: ", len(w_loop), " loop points") #zoffset = 0.0 #for p in w_clpts: # myscreen.addActor( camvtk.Sphere(center=(p.x,p.y,p.z+zoffset), radius=0.0031, color=camvtk.red ) ) previous = 0 # draw the loop as a yellow line for loop in w_loop: np = 0 for p in loop: #myscreen.addActor( camvtk.Sphere(center=(p.x,p.y,p.z+zoffset2), radius=0.006, color=camvtk.pink ) ) if np is not 0: myscreen.addActor( camvtk.Line( p1=(previous.x,previous.y, previous.z), p2=(p.x,p.y,p.z), color=camvtk.yellow) ) np=np+1 previous = p # draw edges of weave ne = 0 zoffset=0.1 dzoffset = 0.0005 for e in w_edges: p1 = e[0] p2 = e[1] myscreen.addActor( camvtk.Line( p1=( p1.x,p1.y,p1.z+zoffset+ne*dzoffset), p2=(p2.x,p2.y,p2.z+zoffset+ne*dzoffset) ) ) ne = ne+1 print("done.") myscreen.camera.SetPosition(0.5, 3, 2) myscreen.camera.SetFocalPoint(0.5, 0.5, 0) camvtk.drawArrows(myscreen,center=(-0.5,-0.5,-0.5)) camvtk.drawOCLtext(myscreen) myscreen.render() myscreen.iren.Start() #raw_input("Press Enter to terminate")