def cut(stl_file): actp.makerough(stl_file) npaths = actp.getnumpaths() for path in range(0, npaths): npoints = actp.getnumpoints(path) nbreaks = actp.getnumbreaks(path) nlinkpaths = actp.getnumlinkpths(path) z = actp.getz(path) start_pos = 0 FirstZDone = False for brk in range(0, nbreaks): brkpos = actp.getbreak(path, brk) for point in range(start_pos, brkpos): x, y = actp.getpoint(path, point) if FirstZDone == False: feed(x, y, z) FirstZDone = True else: feed(x, y) start_pos = brkpos nlinkpoints = actp.getnumlinkpoints(path, brk) for linkpoint in range(0, nlinkpoints): x, y, z = actp.getlinkpoint(path, brk, linkpoint) rapid(x, y, z)
import actp fout = open("test.tap", 'wb') fout.write("G90 G21 G17\n") actp.boundaryclear(21) actp.boundaryadd(-27.5, -27.5) actp.boundaryadd(27.5, -27.5) actp.boundaryadd(27.5, 27.5) actp.boundaryadd(-27.5, 27.5) actp.boundaryadd(-27.5, -27.5) actp.boundarybreak() actp.setstartpoint(-20, -10, 1, 1) actp.setminz(0) actp.makerough('cone with big cubod base.stl') npaths = actp.getnumpaths() for path in range(0, npaths): npoints = actp.getnumpoints(path) nbreaks = actp.getnumbreaks(path) nlinkpaths = actp.getnumlinkpths(path) z = actp.getz(path) start_pos = 0 first_z_done = False for brk in range(0, nbreaks): brkpos = actp.getbreak(path, brk) for point in range(start_pos, brkpos): x, y = actp.getpoint(path, point) #feed(x, y, z) if first_z_done == False:
import actp fout = open("test.tap", 'wb') fout.write("G90 G21 G17\n") actp.makerough('cone.stl') npaths = actp.getnumpaths() for path in range(0, npaths): npoints = actp.getnumpoints(path) nbreaks = actp.getnumbreaks(path) nlinkpaths = actp.getnumlinkpths(path) z = actp.getz(path) start_pos = 0 first_z_done = False for brk in range(0, nbreaks): brkpos = actp.getbreak(path, brk) for point in range(start_pos, brkpos): x, y = actp.getpoint(path, point) #feed(x, y, z) if first_z_done == False: fout.write("G0 X" + str(' %.4f' % x) + " Y " + str(' %.4f' % y) + " Z " + str(' %.4f' % z) + "\n") first_z_done = True else: fout.write("G1 X" + str(' %.4f' % x) + " Y " + str(' %.4f' % y) + "\n") start_pos = brkpos nlinkpoints = actp.getnumlinkpoints(path, brk) for linkpoint in range(0, nlinkpoints): x, y, z = actp.getlinkpoint(path, brk, linkpoint)
import actp fout = open("test.tap", 'wb') fout.write("G90 G21 G17\n") actp.makerough('cone.stl') npaths = actp.getnumpaths() for path in range(0, npaths): npoints = actp.getnumpoints(path) nbreaks = actp.getnumbreaks(path) nlinkpaths = actp.getnumlinkpths(path) z = actp.getz(path) start_pos = 0 first_z_done = False for brk in range(0, nbreaks): brkpos = actp.getbreak(path, brk) for point in range(start_pos, brkpos): x, y = actp.getpoint(path, point) #feed(x, y, z) if first_z_done == False: fout.write("G0 X" + str(' %.4f' % x) + " Y " + str(' %.4f' %y) + " Z " + str(' %.4f' %z) + "\n") first_z_done = True else: fout.write("G1 X" + str(' %.4f' % x) + " Y " + str(' %.4f' %y) + "\n") start_pos = brkpos nlinkpoints = actp.getnumlinkpoints(path, brk) for linkpoint in range(0, nlinkpoints): x, y, z = actp.getlinkpoint(path, brk, linkpoint) #rapid(x, y, z) fout.write("G0 X" + str(' %.4f' % x) + " Y " + str(' %.4f' %y) + " Z " + str(' %.4f' %z) + "\n")