'##############
'Door Script
'##############
'Controls Doors
'(c) 2007-2009 Riger Hsmann
'(c) 2007-2009 Marcel Kuhnt
'Script Version: 1.1
'Omsi release: 1.0
'Needs:
'- elec
'Revision History:
'- Marcel Kuhnt 13.06.2009 Batterietrennschalter => elec_busbar_main
'- Marcel Kuhnt 21.06.2009 AI-Unterstzung hinzugeft
'- Riger Hsmann 24.10.2009 Ansteuerung des Kinderwagenwunsches modifiziert
'- Riger Hsmann 19.12.2009 Timer f Ausstiegst jetzt Timegap-basiert, Bugfix: T schlie腷 jetzt nur bei elec_busbar=1
'- R鈥iger Hsmann 22.09.2010 Door light trigger value set to 0.1
'- R鈥iger Hsmann 07.11.2010 Door speed based on reservoir pressure, air-operated doors made an option
'- Marcel Kuhnt 08.11.2010 AI procedure closing doors debugged
'- Riger Hsmann 21.11.2010 Front doors only operable when busbar on
'- Riger Hsmann 23.12.2010 External front door operation included, option: doors only operable with actual stop brake
'- Riger Hsmann 31.12.2010 Electric door function debugged
'- Riger Hsmann 05.01.2011 20h-switch
'- Riger Hsmann 07.01.2011 Backdoor manual switch sound debugged, 20h switch depending on bus type
'- Riger Hsmann 19.01.2011 Electric door support
'--------------------------------------------------------------------------------
{trigger:bus_doorfront0}
(L.L.elec_busbar_main) (L.L.bremse_halte_sw) (C.L.door_needs_stopbrake) ! && &&
(L.L.elec_busbar_main) (L.L.bremse_halte) (C.L.door_needs_stopbrake) && && ||
{if}
(M.L.trg_bus_doorfront0)
{endif}
1 (S.L.cockpit_tuertaster1)
{end}
{trigger:bus_doorfront0_off}
0 (S.L.cockpit_tuertaster1)
{end}
{trigger:bus_doorfront0_external}
(L.L.elec_busbar_avail)
{if}
(M.L.trg_bus_doorfront0)
{endif}
{end}
{trigger:bus_doorfront1}
(L.L.elec_busbar_main) (L.L.bremse_halte_sw) (C.L.door_needs_stopbrake) ! && &&
(L.L.elec_busbar_main) (L.L.bremse_halte) (C.L.door_needs_stopbrake) && && ||
{if}
(M.L.trg_bus_doorfront1)
{endif}
1 (S.L.cockpit_tuertaster2)
{end}
{trigger:bus_doorfront1_off}
0 (S.L.cockpit_tuertaster2)
{end}
{trigger:bus_dooraft}
(M.L.trg_bus_dooraft)
{end}
{trigger:bus_20h-switch}
(C.L.cockpit_has_20h_switch)
{if}
(M.L.trg_bus_20h-switch)
{endif}
{end}
{trigger:int_haltewunsch}
1 (S.L.haltewunsch)
{end}
{trigger:door_haltewunsch}
1 (S.L.haltewunsch) (S.L.door_haltewunsch_knopfdruck)
{end}
{trigger:door_haltewunsch_off}
0 (S.L.door_haltewunsch_knopfdruck)
{end}
{trigger:cp_schalter_kinderwagen}
(L.L.door_handsteuerung) ! (S.L.door_handsteuerung)
{if}
0 (S.L.door_kinderwagenwunsch)
(T.L.ev_kippschalter_ein)
{else}
(T.L.ev_kippschalter_aus)
{endif}
{end}
{trigger:door_kinderwagenwunsch}
(L.L.bremse_halte) (L.L.door_handsteuerung) ! &&
{if}
1 (S.L.door_kinderwagenwunsch)
{endif}
{end}
{macro
oor_Init}
1000 random 500 / 1 - (C.L.door_acc_var) * (C.L.fdoor_acc) + (S.L.doorAcc_0)
1000 random 500 / 1 - (C.L.door_acc_var) * (C.L.fdoor_acc) + (S.L.doorAcc_1)
1000 random 500 / 1 - (C.L.door_acc_var) * (C.L.bdoor_acc) + (S.L.doorAcc_2)
1000 random 500 / 1 - (C.L.door_acc_var) * (C.L.bdoor_acc) + (S.L.doorAcc_3)
1000 random 500 / 1 - (C.L.door_maxspeed_var) * (C.L.fdoor_maxspeed) + (S.L.doorMaxSpeed_0_norm)
1000 random 500 / 1 - (C.L.door_maxspeed_var) * (C.L.fdoor_maxspeed) + (S.L.doorMaxSpeed_1_norm)
1000 random 500 / 1 - (C.L.door_maxspeed_var) * (C.L.bdoor_maxspeed) + (S.L.doorMaxSpeed_2_norm)
1000 random 500 / 1 - (C.L.door_maxspeed_var) * (C.L.bdoor_maxspeed) + (S.L.doorMaxSpeed_3_norm)
(C.L.door_refl) (S.L.doorRefl_0)
(C.L.door_refl) (S.L.doorRefl_1)
(C.L.door_refl) (S.L.doorRefl_2)
(C.L.door_refl) (S.L.doorRefl_3)
{end}
{macro
oor_Frame}
(M.L.Door0_Calc)
(M.L.Door1_Calc)
(M.L.DoorAftCalc)
(M.L.Door2_Calc)
(M.L.Door3_Calc)
(L.L.door_0) 0.9 > (S.L.PAX_Entry0_Open)
(L.L.door_1) 0.9 > (S.L.PAX_Entry1_Open)
(L.L.door_2) 0.9 > (L.L.door_3) 0.9 > && (S.L.PAX_Exit0_Open) (S.L.PAX_Exit1_Open)
' "Dauerfeuer"-Haltewunsch er Kinderwagenschalter (macht genau dasselbe wie der "trigger:int_haltewunsch"):
(L.L.door_handsteuerung) (L.L.door_haltewunsch_knopfdruck) ||
{if}
1 (S.L.haltewunsch)
{endif}
' Setzen der Haltestellenbremse erst bei Stillstand des Busses:
(L.L.bremse_halte_sw) (L.L.door_20h_sw) ||
(L.L.bremse_halte) ! (L.L.Velocity) (C.L.Door_Bremse_Halte_MaxKMH) < && &&
{if}
(L.L.elec_busbar_main)
{if}
(T.L.ev_haltebremse_an)
1 (S.L.bremse_halte)
{endif}
{endif}
' Anhand dieser Bedingungen kann nun die Automatikt ge鐪fnet werden:
(M.L.DoorAft_Open)
' Tfreigabekriterium
(L.L.bremse_halte_sw) (L.L.bremse_halte) && (S.L.door_freigabe)
' Haltewunschlampe:
(L.L.haltewunsch) (L.L.door_2) 0.2 < (L.L.elec_busbar_main) && &&
{if}
1 (S.L.haltewunschlampe)
{else}
0 (S.L.haltewunschlampe) (S.L.haltewunsch)
{endif}
' Abfall des Kinderwagenwunsch-Relais bei fehlender Stromversorgung:
(L.L.elec_busbar_main) 0 =
{if}
0 (S.L.door_kinderwagenwunsch)
{endif}
' Beleuchtung der Einstiege
(L.L.elec_busbar_main)
{if}
(L.L.door_0) 0.1 > (L.L.door_1) 0.1 > || (S.L.door_light_1)
(L.L.door_2) 0.1 > (L.L.door_3) 0.1 > || (S.L.door_light_2)
{else}
0 (S.L.door_light_1) (S.L.door_light_2)
{endif}
' Druckabh鄚gige Tgeschwindigkeit
(C.L.door_druckluft)
{if}
(L.L.doorMaxSpeed_0_norm) (L.L.bremse_p_Tank04) 100000 - 850000 / (S.L.doorMaxSpeed_0)
(L.L.doorMaxSpeed_1_norm) (L.L.bremse_p_Tank04) 100000 - 850000 / (S.L.doorMaxSpeed_1)
(L.L.doorMaxSpeed_2_norm) (L.L.bremse_p_Tank04) 100000 - 850000 / (S.L.doorMaxSpeed_2)
(L.L.doorMaxSpeed_3_norm) (L.L.bremse_p_Tank04) 100000 - 850000 / (S.L.doorMaxSpeed_3)
{endif}
'----------------------
' AI-Ablauf:
(L.L.AI_Scheduled_AtStation) s0
1 =
{if}
'Wenn Ten ge鐪fnet werden sollen:
(L.L.Velocity) (C.L.Door_Bremse_Halte_MaxKMH) <
{if}
'Nur, wenn v < maxkmh, sonst warten
'Taster jeweils nur bet酹igen, falls noch nicht an
(L.L.bremse_halte_sw) !
{if}
(M.L.trg_bus_dooraft)
{endif}
(L.L.doorTarget_0) ! (L.L.door_AI_timer) 0.3 > &&
{if}
(M.L.trg_bus_doorfront0)
{endif}
(L.L.doorTarget_1) ! (L.L.door_AI_timer) 0.6 > &&
{if}
(M.L.trg_bus_doorfront1)
{endif}
{else}
0 (S.L.door_AI_timer)
{endif}
(L.L.door_AI_timer) (L.S.Timegap) + (S.L.door_AI_timer)
{else}
l0 -1 =
{if}
'Wenn Ten geschlossen werden sollen:
'Taster jeweils nur bet酹igen, falls noch nicht aus:
(L.L.doorTarget_1)
{if}
(M.L.trg_bus_doorfront1)
0 (S.L.door_AI_timer)
{endif}
(L.L.doorTarget_0) (L.L.door_AI_timer) 0.3 > &&
{if}
(M.L.trg_bus_doorfront0)
{endif}
'Haltestellenbremse erst wegnehmen, wenn alle Ten zu. Dann auch erst den Bus AI-m魠ig freigeben:
(L.L.door_0) 0.1 <
(L.L.door_1) 0.1 < &&
(L.L.door_2) 0.1 < &&
{if}
(L.L.bremse_halte_sw) (L.L.door_AI_timer) 0.3 > &&
{if}
(M.L.trg_bus_dooraft)
{endif}
(L.L.bremse_halte_sw) !
{if}
0 (S.L.AI_Scheduled_AtStation)
{endif}
{else}
'Sollte eine der Ten auf sein und die Haltestellenbremse aus, dann sofort diese einlegen
(L.L.bremse_halte_sw) !
{if}
(M.L.trg_bus_dooraft)
{endif}
(L.L.doorTarget_0) !
(L.L.doorTarget_1) ! &&
{if}
0 (S.L.door_AI_timer)
{endif}
{endif}
(L.L.door_AI_timer) (L.S.Timegap) + (S.L.door_AI_timer)
{endif}
{endif}
{end}
{macro
oor0_Calc}
(C.L.electric_doors)
{if}
(L.L.doorTarget_0)
{if}
(L.L.door_0) (F.L.door_0_opn_speed) (S.L.doorMaxSpeed_0)
{else}
(L.L.door_0) (F.L.door_0_cls_speed) (S.L.doorMaxSpeed_0)
{endif}
(C.L.fdoor_acc) (S.L.doorAcc_0)
(L.L.doorTarget_0) ! (L.L.doorSpeed_0) s0 abs 0.05 > (L.L.door_0) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_0) <
{if}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * - (S.L.doorSpeed_0)
{else}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * + (S.L.doorSpeed_0)
{endif}
(L.L.door_0) (L.L.doorSpeed_0) (L.S.Timegap) * + (S.L.door_0)
{else}
(L.L.doorSpeed_0) abs 0.05 > (L.L.door_0) 1 < || (L.L.doorTarget_0) &&
{if}
l0 (L.L.doorMaxSpeed_0) <
{if}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * + (S.L.doorSpeed_0)
{else}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * - (S.L.doorSpeed_0)
{endif}
(L.L.door_0) (L.L.doorSpeed_0) (L.S.Timegap) * + (S.L.door_0)
{else}
0 (S.L.doorSpeed_0)
{endif}
{endif}
{else}
(L.L.doorTarget_0) ! (L.L.doorSpeed_0) s0 abs 0.05 > (L.L.door_0) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_0) <
{if}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * - (S.L.doorSpeed_0)
{endif}
(L.L.door_0) (L.L.doorSpeed_0) (L.S.Timegap) * + (S.L.door_0)
{else}
(L.L.doorSpeed_0) abs 0.05 > (L.L.door_0) 1 < || (L.L.doorTarget_0) &&
{if}
l0 (L.L.doorMaxSpeed_0) <
{if}
(L.L.doorSpeed_0) (L.L.doorAcc_0) (L.S.Timegap) * + (S.L.doorSpeed_0)
{endif}
(L.L.door_0) (L.L.doorSpeed_0) (L.S.Timegap) * + (S.L.door_0)
{else}
0 (S.L.doorSpeed_0)
{endif}
{endif}
{endif}
(L.L.door_0) 1 >
{if}
(T.L.ev_doorhitopen_0)
1 (S.L.door_0)
(L.L.doorSpeed_0) /-/ (L.L.doorRefl_0) * (S.L.doorSpeed_0)
{else}
(L.L.door_0) 0 <
{if}
(T.L.ev_doorhitclose_0)
0 (S.L.door_0)
(L.L.doorSpeed_0) /-/ (L.L.doorRefl_0) * (S.L.doorSpeed_0)
{endif}
{endif}
{end}
{macro
oor1_Calc}
(C.L.electric_doors)
{if}
(L.L.doorTarget_1)
{if}
(L.L.door_1) (F.L.door_1_opn_speed) (S.L.doorMaxSpeed_1)
{else}
(L.L.door_1) (F.L.door_1_cls_speed) (S.L.doorMaxSpeed_1)
{endif}
(C.L.fdoor_acc) (S.L.doorAcc_1)
(L.L.doorTarget_1) ! (L.L.doorSpeed_1) s0 abs 0.05 > (L.L.door_1) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_1) <
{if}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * - (S.L.doorSpeed_1)
{else}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * + (S.L.doorSpeed_1)
{endif}
(L.L.door_1) (L.L.doorSpeed_1) (L.S.Timegap) * + (S.L.door_1)
{else}
(L.L.doorSpeed_1) abs 0.05 > (L.L.door_1) 1 < || (L.L.doorTarget_1) &&
{if}
l0 (L.L.doorMaxSpeed_1) <
{if}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * + (S.L.doorSpeed_1)
{else}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * - (S.L.doorSpeed_1)
{endif}
(L.L.door_1) (L.L.doorSpeed_1) (L.S.Timegap) * + (S.L.door_1)
{else}
0 (S.L.doorSpeed_1)
{endif}
{endif}
{else}
(L.L.doorTarget_1) ! (L.L.doorSpeed_1) s0 abs 0.05 > (L.L.door_1) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_1) <
{if}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * - (S.L.doorSpeed_1)
{endif}
(L.L.door_1) (L.L.doorSpeed_1) (L.S.Timegap) * + (S.L.door_1)
{else}
(L.L.doorSpeed_1) abs 0.05 > (L.L.door_1) 1 < || (L.L.doorTarget_1) &&
{if}
l0 (L.L.doorMaxSpeed_1) <
{if}
(L.L.doorSpeed_1) (L.L.doorAcc_1) (L.S.Timegap) * + (S.L.doorSpeed_1)
{endif}
(L.L.door_1) (L.L.doorSpeed_1) (L.S.Timegap) * + (S.L.door_1)
{else}
0 (S.L.doorSpeed_1)
{endif}
{endif}
{endif}
(L.L.door_1) 1 >
{if}
(T.L.ev_doorhitopen_1)
1 (S.L.door_1)
(L.L.doorSpeed_1) /-/ (L.L.doorRefl_1) * (S.L.doorSpeed_1)
{else}
(L.L.door_1) 0 <
{if}
(T.L.ev_doorhitclose_1)
0 (S.L.door_1)
(L.L.doorSpeed_1) /-/ (L.L.doorRefl_1) * (S.L.doorSpeed_1)
{endif}
{endif}
{end}
{macro
oorAft_Open}
(L.L.haltewunsch) (L.L.bremse_halte) &&
{if}
(L.L.doorTarget_23) !
(L.L.bremse_halte_sw) &&
{if}
(T.L.ev_doortriggeropen_2)
1 (S.L.doorTarget_23)
(C.L.door_druckluft)
{if}
(L.L.bremse_p_Tank04) 100000 - 0.96 * 100000 + (S.L.bremse_p_Tank04)
{endif}
{endif}
0 (S.L.doorAftLastOpen)
{endif}
{end}
{macro
oorAftCalc}
(L.L.bremse_halte_sw) !
(L.L.door_20h_sw) ! &&
(L.L.door_2) 0 = &&
(L.L.door_3) 0 = &&
(L.L.elec_busbar_main) ! ||
(L.L.bremse_halte) &&
{if}
0 (S.L.bremse_halte) (S.L.doorAftLastOpen)
(T.L.ev_haltebremse_aus)
{endif}
(L.L.elec_busbar_main)
{if}
(L.L.bremse_halte)
{if}
(L.L.doorAftLastOpen) (L.S.Timegap) + (S.L.doorAftLastOpen)
{endif}
(L.L.doorTarget_23)
(L.L.doorAftLastOpen) (C.L.doorAftOpenTime) > &&
{if}
(T.L.ev_doortriggerclose_2)
0 (S.L.doorTarget_23)
(C.L.door_druckluft)
{if}
(L.L.bremse_p_Tank04) 100000 - 0.96 * 100000 + (S.L.bremse_p_Tank04)
{endif}
{endif}
{endif}
{end}
{macro
oor2_Calc}
(C.L.electric_doors)
{if}
(L.L.doorTarget_23)
{if}
(L.L.door_2) (F.L.door_2_opn_speed) (S.L.doorMaxSpeed_2)
{else}
(L.L.door_2) (F.L.door_2_cls_speed) (S.L.doorMaxSpeed_2)
{endif}
(C.L.bdoor_acc) (S.L.doorAcc_2)
(L.L.doorTarget_23) ! (L.L.doorSpeed_2) s0 abs 0.05 > (L.L.door_2) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_2) <
{if}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * - (S.L.doorSpeed_2)
{else}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * + (S.L.doorSpeed_2)
{endif}
(L.L.door_2) (L.L.doorSpeed_2) (L.S.Timegap) * + (S.L.door_2)
{else}
(L.L.doorSpeed_2) abs 0.05 > (L.L.door_2) 1 < || (L.L.doorTarget_23) &&
{if}
l0 (L.L.doorMaxSpeed_2) <
{if}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * + (S.L.doorSpeed_2)
{else}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * - (S.L.doorSpeed_2)
{endif}
(L.L.door_2) (L.L.doorSpeed_2) (L.S.Timegap) * + (S.L.door_2)
{else}
0 (S.L.doorSpeed_2)
{endif}
{endif}
{else}
(L.L.doorTarget_23) ! (L.L.doorSpeed_2) s0 abs 0.05 > (L.L.door_2) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_2) <
{if}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * - (S.L.doorSpeed_2)
{endif}
(L.L.door_2) (L.L.doorSpeed_2) (L.S.Timegap) * + (S.L.door_2)
{else}
(L.L.doorSpeed_2) abs 0.05 > (L.L.door_2) 1 < || (L.L.doorTarget_23) &&
{if}
l0 (L.L.doorMaxSpeed_2) <
{if}
(L.L.doorSpeed_2) (L.L.doorAcc_2) (L.S.Timegap) * + (S.L.doorSpeed_2)
{endif}
(L.L.door_2) (L.L.doorSpeed_2) (L.S.Timegap) * + (S.L.door_2)
{else}
0 (S.L.doorSpeed_2)
{endif}
{endif}
{endif}
(L.L.door_2) 1 >
{if}
(T.L.ev_doorhitopen_2)
1 (S.L.door_2)
(L.L.doorSpeed_2) /-/ (L.L.doorRefl_2) * (S.L.doorSpeed_2)
{else}
(L.L.door_2) 0 <
{if}
(T.L.ev_doorhitclose_2)
0 (S.L.door_2)
(L.L.doorSpeed_2) /-/ (L.L.doorRefl_2) * (S.L.doorSpeed_2)
{endif}
{endif}
{end}
{macro
oor3_Calc}
(C.L.electric_doors)
{if}
(L.L.doorTarget_23)
{if}
(L.L.door_3) (F.L.door_3_opn_speed) (S.L.doorMaxSpeed_3)
{else}
(L.L.door_3) (F.L.door_3_cls_speed) (S.L.doorMaxSpeed_3)
{endif}
(C.L.bdoor_acc) (S.L.doorAcc_3)
(L.L.doorTarget_23) ! (L.L.doorSpeed_3) s0 abs 0.05 > (L.L.door_3) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_3) <
{if}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * - (S.L.doorSpeed_3)
{else}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * + (S.L.doorSpeed_3)
{endif}
(L.L.door_3) (L.L.doorSpeed_3) (L.S.Timegap) * + (S.L.door_3)
{else}
(L.L.doorSpeed_3) abs 0.05 > (L.L.door_3) 1 < || (L.L.doorTarget_23) &&
{if}
l0 (L.L.doorMaxSpeed_3) <
{if}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * + (S.L.doorSpeed_3)
{else}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * - (S.L.doorSpeed_3)
{endif}
(L.L.door_3) (L.L.doorSpeed_3) (L.S.Timegap) * + (S.L.door_3)
{else}
0 (S.L.doorSpeed_3)
{endif}
{endif}
{else}
(L.L.doorTarget_23) ! (L.L.doorSpeed_3) s0 abs 0.05 > (L.L.door_3) 0 > || &&
{if}
l0 /-/ (L.L.doorMaxSpeed_3) <
{if}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * - (S.L.doorSpeed_3)
{endif}
(L.L.door_3) (L.L.doorSpeed_3) (L.S.Timegap) * + (S.L.door_3)
{else}
(L.L.doorSpeed_3) abs 0.05 > (L.L.door_3) 1 < || (L.L.doorTarget_23) &&
{if}
l0 (L.L.doorMaxSpeed_3) <
{if}
(L.L.doorSpeed_3) (L.L.doorAcc_3) (L.S.Timegap) * + (S.L.doorSpeed_3)
{endif}
(L.L.door_3) (L.L.doorSpeed_3) (L.S.Timegap) * + (S.L.door_3)
{else}
0 (S.L.doorSpeed_3)
{endif}
{endif}
{endif}
(L.L.door_3) 1 >
{if}
(T.L.ev_doorhitopen_3)
1 (S.L.door_3)
(L.L.doorSpeed_3) /-/ (L.L.doorRefl_3) * (S.L.doorSpeed_3)
{else}
(L.L.door_3) 0 <
{if}
(T.L.ev_doorhitclose_3)
0 (S.L.door_3)
(L.L.doorSpeed_3) /-/ (L.L.doorRefl_3) * (S.L.doorSpeed_3)
{endif}
{endif}
{end}
{macro:trg_bus_doorfront0}
(L.L.doorTarget_0) ! (S.L.doorTarget_0)
{if}
(T.L.ev_doortriggeropen_0)
{else}
(T.L.ev_doortriggerclose_0)
{endif}
(C.L.door_druckluft)
{if}
(L.L.bremse_p_Tank04) 100000 - 0.98 * 100000 + (S.L.bremse_p_Tank04)
{endif}
{end}
{macro:trg_bus_doorfront1}
(L.L.doorTarget_1) ! (S.L.doorTarget_1)
{if}
(T.L.ev_doortriggeropen_1)
{else}
(T.L.ev_doortriggerclose_1)
{endif}
(C.L.door_druckluft)
{if}
(L.L.bremse_p_Tank04) 100000 - 0.98 * 100000 + (S.L.bremse_p_Tank04)
{endif}
{end}
{macro:trg_bus_dooraft}
(L.L.bremse_halte_sw) ! (S.L.bremse_halte_sw)
(L.L.bremse_halte_sw)
{if}
(T.L.ev_haltebremse_sw_an)
{else}
(T.L.ev_haltebremse_sw_aus)
{endif}
{end}
{macro:trg_bus_20h-switch}
(L.L.door_20h_sw) ! (S.L.door_20h_sw)
(L.L.door_20h_sw)
{if}
(T.L.ev_haltebremse_sw_an)
{else}
(T.L.ev_haltebremse_sw_aus)
{endif}
{end}
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