def test_stop(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[14] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[14], self.events[18]) assert decoder.move_cumul_up(slice, 1) == 500 assert decoder.move_cumul_up(slice, 2) == 500 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 500, 500, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[19]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[19], self.events[19] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[20]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[20]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[20] + 200 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during piercing slice = decoder.from_to(self.timeline, plasma_start + 1, cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma fired all along and z move enough with THC slice = decoder.from_to(self.timeline, plasma_start + 5, self.events[21]) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 1000 # no XY after stop slice = decoder.from_to(self.timeline, self.events[21] + 60, decoder.end(self.timeline)) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.plasma_is_always(slice, 'off') # final position assert decoder.get_position(self.timeline, decoder.end(self.timeline))[2] == 10000
def test_THC_clamp(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[20] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[20], self.events[21]) assert decoder.move_cumul_up(slice, 1) == 1000 assert decoder.move_cumul_up(slice, 2) == 1000 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 1000, 1000, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[21]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[21], self.events[21] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[22]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[22]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') #define overrun time slice = decoder.from_to(self.timeline, self.events[22], decoder.end(self.timeline)) overrun = decoder.when_is_position_reached(slice, None, None, 10000) # plasma until overrun slice = decoder.from_to(self.timeline, plasma_start + 5, overrun) assert decoder.plasma_is_always(slice, 'on') #overrun kill slice = decoder.from_to(self.timeline, overrun + 2, decoder.end(self.timeline)) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 assert decoder.plasma_is_always(slice, 'off')
def test_G28_during_cut(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[19] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[19], self.events[20]) assert decoder.move_cumul_up(slice, 1) == 1000 assert decoder.move_cumul_up(slice, 2) == 1500 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 1000, 1500, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[20]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[13], self.events[20] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[21]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[21]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[21] + 200 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during piercing slice = decoder.from_to(self.timeline, plasma_start + 1, cut_start - 1) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 assert decoder.plasma_is_always(slice, 'on') # stop after piercing slice = decoder.from_to(self.timeline, cut_start + 50, decoder.end(self.timeline)) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 assert decoder.plasma_is_always(slice, 'off')
def test_M3_no_M5(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[13] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[13], self.events[14]) assert decoder.move_cumul_up(slice, 1) == 1000 assert decoder.move_cumul_up(slice, 2) == 1000 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 1000, 1000, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[14]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[14], self.events[14] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[15]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[15]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[15] + 200 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during piercing slice = decoder.from_to(self.timeline, plasma_start + 1, cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # reach intermediate positions slice = decoder.from_to(self.timeline, plasma_start, decoder.end(self.timeline)) assert decoder.when_is_position_reached(self.timeline, 3000, 1000, None) != -1 assert decoder.when_is_position_reached(self.timeline, 3000, 3000, None) != -1 # reach cutoff position slice = decoder.from_to(self.timeline, self.events[15], decoder.end(self.timeline)) plasma_stop = decoder.when_is_position_reached(slice, 0, 0, None) assert plasma_stop != -1 # plasma fired all along and z move enough with THC slice = decoder.from_to(self.timeline, plasma_start + 5, plasma_stop) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 4000 # no plasma after cut off slice = decoder.from_to(self.timeline, plasma_stop + 80, decoder.end(self.timeline)) assert decoder.plasma_is_always(slice, 'off') # final position assert decoder.get_position(self.timeline, decoder.end(self.timeline)) == (0, 0, 10000)
def test_plasma_timeout(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[12] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[12], self.events[13]) assert decoder.move_cumul_up(slice, 1) == 1000 assert decoder.move_cumul_up(slice, 2) == 1000 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 1000, 1000, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[13]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[13], self.events[13] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[14]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[14]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) plasma_stop = plasma_start + 1000 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during ignition try slice = decoder.from_to(self.timeline, plasma_start + 1, plasma_stop) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma during 1 sec slice = decoder.from_to(self.timeline, plasma_start + 5, plasma_stop - 5) assert decoder.plasma_is_always(slice, 'on') # plasma stop when timeout slice = decoder.from_to(self.timeline, plasma_start + 1000 + 5, self.events[17]) assert decoder.plasma_is_always(slice, 'off') # plasma restart on resume and z move enough with THC plasma_stop_2 = decoder.when_is_position_reached( self.timeline, 2000, 2000, None) assert plasma_stop_2 != -1 slice = decoder.from_to(self.timeline, self.events[18], plasma_stop_2) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 3000 # no move during ignition cut_start = self.events[18] + 200 slice = decoder.from_to(self.timeline, self.events[18], cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma stop after cutoff slice = decoder.from_to(self.timeline, plasma_stop_2 + 2, decoder.end(self.timeline)) assert decoder.plasma_is_always(slice, 'off') # final position assert decoder.get_position(self.timeline, decoder.end(self.timeline)) == (0, 0, 10000)
def test_transfer_loss(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[14] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[14], self.events[15]) assert decoder.move_cumul_up(slice, 1) == 500 assert decoder.move_cumul_up(slice, 2) == 500 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 500, 500, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[15]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[15], self.events[15] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[16]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[16]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[16] + 200 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during piercing slice = decoder.from_to(self.timeline, plasma_start + 1, cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma until transfer loss slice = decoder.from_to(self.timeline, plasma_start + 5, self.events[17]) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 1000 # plasma stop when transfer lost slice = decoder.from_to(self.timeline, self.events[17] + 2, self.events[22]) assert decoder.plasma_is_always(slice, 'off') paused = decoder.when_is_position_reached(self.timeline, 5000, 3000, 10000) assert paused != -1 # define probing time probing_time_2 = decoder.when_is_position_reached( self.timeline, 4000, 6000, 10000) assert probing_time_2 != -1 # z move down slice = decoder.from_to(self.timeline, probing_time_2, self.events[22]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[22], self.events[22] + 2) min_pos_time_2 = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time_2, self.events[23]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # plasma restart on resume and z move enough with THC plasma_stop_2 = decoder.when_is_position_reached( self.timeline, 8000, 5000, None) assert plasma_stop_2 != -1 slice = decoder.from_to(self.timeline, self.events[23], plasma_stop_2) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 2000 # no move during ignition cut_start_2 = self.events[23] + 200 slice = decoder.from_to(self.timeline, self.events[23], cut_start_2) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma stop after cutoff slice = decoder.from_to(self.timeline, plasma_stop_2 + 2, decoder.end(self.timeline)) assert decoder.plasma_is_always(slice, 'off') # final position assert decoder.get_position(self.timeline, decoder.end(self.timeline)) == (0, 0, 10000)
def test_y_back(self): slice = decoder.from_to(self.timeline, self.events[9], self.events[10]) assert decoder.move_cumul_up(slice, 2) == 500 assert decoder.move_cumul_down(slice, 2) > 100
def test_pause(self): # shift positions according to autohome decoder.apply_autohome(self.timeline, self.events[14] + 2) self.timeline[3] += 10000 # motors reach probing position slice = decoder.from_to(self.timeline, self.events[14], self.events[18]) assert decoder.move_cumul_up(slice, 1) == 500 assert decoder.move_cumul_up(slice, 2) == 500 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 500, 500, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[18]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[18], self.events[18] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[19]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[19]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[19] + 200 slice = decoder.from_to(self.timeline, 0, plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during piercing slice = decoder.from_to(self.timeline, plasma_start + 1, cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # reach cutoff position plasma_stop = decoder.when_is_position_reached(self.timeline, 5000, 3000, None) assert plasma_stop != -1 # plasma fired all along and z move enough with THC slice = decoder.from_to(self.timeline, plasma_start + 5, plasma_stop) assert decoder.plasma_is_always(slice, 'on') assert decoder.move_cumul(slice, 3) > 3000 # wait for resume slice = decoder.from_to(self.timeline, plasma_stop, self.events[22]) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 # z goes back to top slice = decoder.from_to(self.timeline, plasma_stop, self.events[22]) assert decoder.max_pos(slice, 3) == 10000 # define probing time probing_time = decoder.when_is_position_reached( self.timeline, 4000, 6000, 10000) assert probing_time != -1 # z move down slice = decoder.from_to(self.timeline, probing_time, self.events[23]) assert decoder.move_cumul_down(slice, 3) > 100 assert decoder.move_cumul_up(slice, 3) == 0 # z stopped and move 3mm up slice = decoder.from_to(self.timeline, self.events[23], self.events[23] + 2) min_pos_time = decoder.when_is_lowest_position_reached(slice, 3) slice = decoder.from_to(self.timeline, min_pos_time, self.events[24]) assert decoder.move_cumul_down(slice, 3) == 0 assert decoder.move_cumul_up(slice, 3) == 300 # no plasma before cut slice = decoder.from_to(self.timeline, min_pos_time, self.events[24]) plasma_start = decoder.when_is_highest_position_reached(slice, 3) cut_start = self.events[24] + 200 slice = decoder.from_to(self.timeline, self.events[21], plasma_start) assert decoder.plasma_is_always(slice, 'off') # no move during ignition cut_start = self.events[24] + 200 slice = decoder.from_to(self.timeline, self.events[24], cut_start) assert decoder.move_cumul(slice, 1) == 0 assert decoder.move_cumul(slice, 2) == 0 assert decoder.move_cumul(slice, 3) == 0 # plasma stop after cutoff slice = decoder.from_to(self.timeline, self.events[25], decoder.end(self.timeline)) assert decoder.plasma_is_always(slice, 'off') # final position assert decoder.get_position(self.timeline, decoder.end(self.timeline)) == (0, 0, 10000)
def test_y_move_down(self): slice = decoder.from_to(self.timeline, self.events[8], self.events[9]) assert decoder.move_cumul_up(slice, 2) == 0 assert decoder.move_diff(slice, 2) < -100
def test_x_back(self): slice = decoder.from_to(self.timeline, self.events[7], self.events[8]) assert decoder.move_cumul_up(slice, 1) == 500 assert decoder.move_cumul_down(slice, 1) > 100
def test_x_move_down(self): slice = decoder.from_to(self.timeline, self.events[6], self.events[7]) assert decoder.move_cumul_up(slice, 1) == 0 assert decoder.move_diff(slice, 1) < -100
def test_z_stop_2(self): slice = decoder.from_to(self.timeline, self.events[6] + 1, self.events[6] + 200) assert decoder.move_cumul_up(slice, 3) == 0
def test_z_back(self): slice = decoder.from_to(self.timeline, self.events[5], self.events[6]) assert decoder.move_cumul_down(slice, 3) == 500 assert decoder.move_cumul_up(slice, 3) > 100