-- Begriffe, die mit dieser Funktion definiert werden, lassen sich aufaddieren function Zusatzbegriff(r) return setmetatable(r, { __add = function(a, b) local r={} local l={1,2,"V_max","H_erwarten","V_erwarten","Kurz"} for i=1,#l do if b[l[i]] ~= nil then r[l[i]]=b[l[i]] elseif a[l[i]] ~= nil then r[l[i]]=a[l[i]] end end return r end }) end -- HV-Signale der DR/DB Hp0={ false } Hp1={ true, Zugfahrt=true } Hp2={ true, Zugfahrt=true, V_max=40 } Vr0=Zusatzbegriff{ H_erwarten=true } Vr1=Zusatzbegriff{ } Vr2=Zusatzbegriff{ V_erwarten=40 } Kurz=Zusatzbegriff{ Kurz=true } -- OSJD/EZMG/Hl-Signale des Ostblocks -- V_erwarten=60 wird durch V_erwarten=40 signalisiert Hl1={ true, Zugfahrt=true } Hl2={ true, Zugfahrt=true, V_max=100 } Hl3a={ true, Zugfahrt=true, V_max=40 } Hl3b={ true, Zugfahrt=true, V_max=60 } Hl4={ true, Zugfahrt=true, V_erwarten=100 } Hl5={ true, Zugfahrt=true, V_max=100, V_erwarten=100 } Hl6a={ true, Zugfahrt=true, V_max=40, V_erwarten=100 } Hl6b={ true, Zugfahrt=true, V_max=60, V_erwarten=100 } Hl7={ true, Zugfahrt=true, V_erwarten=40 } Hl8={ true, Zugfahrt=true, V_max=100, V_erwarten=40 } Hl9a={ true, Zugfahrt=true, V_max=40, V_erwarten=40 } Hl9b={ true, Zugfahrt=true, V_max=60, V_erwarten=40 } Hl10={ true, Zugfahrt=true, H_erwarten=true } Hl11={ true, Zugfahrt=true, V_max=100, H_erwarten=true } Hl12a={ true, Zugfahrt=true, V_max=40, H_erwarten=true } Hl12b={ true, Zugfahrt=true, V_max=60, H_erwarten=true } Hl13={ false } -- Ks-Signalsystem ab 1994 -- Zs3/Zs3v aufaddieren! Ks1={ true, Zugfahrt=true } Ks1bl={ true, Zugfahrt=true, V_erwarten=160 } Ks2={ true, Zugfahrt=true, H_erwarten=true } Zs1={ true, Ersatzsignal=true } Zs7={ true, Vorsichtssignal=true, V_max=40 } Sh0={ false } Sh1={ true } Rangierfahrt={ true, V_max=25 } -- Ist Key 1 gleich nil -> Signal ignorieren Kennlicht={ } Aus={ } for i=2,15 do _G["Zs3_"..tostring(i)]=Zusatzbegriff{ V_max=i*10 } _G["Zs3v_"..tostring(i)]=Zusatzbegriff{ V_erwarten=i*10 } end SignalModellBegriffe = { ["HlSigAV40Betno_GK3"]={}, ["HlSigAV40BetnolaSch_GK3"]={}, ["HlSigAV60Betnor_GK3"]={Hl13,Hl1,Hl3b,Hl3a,Rangierfahrt,Zs1,Hl13,Aus}, ["HlSigAVmaxBetno_GK3"]={}, ["HlSigAVmaxBetnolaS_GK3"]={}, ["HlSigAZBetno_GK3"]={Hl13,Hl1,Hl4,Hl7,Hl10,Hl3a,Hl9a,Hl6a,Hl12a,Rangierfahrt,Zs1,Hl13}, ["HlSigAZBetnolaS_GK3"]={}, ["HlSigAZV40Betno_GK3"]={}, ["HlSigAZV40BetnolaS_GK3"]={}, ["HlSigAZV602Betno_GK3"]={Hl13,Hl1,Hl4,Hl7,Hl10,Hl3b,Hl6b,Hl9b,Hl12b,Hl3a,Hl6a,Hl9a,Hl12a,Rangierfahrt,Zs1,Hl13,Aus}, ["HlSigAZV60Betno_GK3"]={Hl13,Hl7,Hl10,Hl9b,Hl12b,Hl9a,Hl12a,Rangierfahrt,Zs1,Hl13,Aus}, ["HlSigAZVmax2Betno_GK3"]={}, ["HlSigAZVmax2BetnolaS_GK3"]={}, ["HlSigAZVmaxBetno_GK3"]={}, ["HlSigAZVmaxBetnolaS_GK3"]={}, ["HlSigBlockBetno_GK3"]={}, ["HlSigBlockBetnolaS_GK3"]={}, ["HlSigBueSo16B_GK3"]={Hl13,Sh1,Aus}, ["HlSigEBetno_GK3"]={}, ["HlSigEBetnolaS_GK3"]={}, ["HlSigEV402Betno_GK3"]={}, ["HlSigEV402BetnolaS_GK3"]={}, ["HlSigEV40Betno_GK3"]={}, ["HlSigEV40BetnolaS_GK3"]={}, ["HlSigEV602Betno_GK3"]={Hl13,Hl1,Hl3b,Hl3a,Zs1,Hl13,Aus}, ["HlSigEV603Betno_GK3"]={Hl13,Hl7,Hl10,Hl9b,Hl12b,Hl9a,Hl12a,Zs1,Hl13,Aus}, ["HlSigEV60Betno_GK3"]={Hl13,Hl1,Hl4,Hl7,Hl10,Hl3b,Hl6b,Hl9b,Hl12b,Hl3a,Hl6a,Hl9a,Hl12a,Zs1,Hl13,Aus}, ["HlSigEVmax2Betno_GK3"]={}, ["HlSigEVmax2BetnolaS_GK3"]={}, ["HlSigEVmaxBetno_GK3"]={}, ["HlSigEVmaxBetnolaS_GK3"]={}, ["HlSig_A_Vmax"]={Hl1,Hl13}, ["HlSig_B"]={Hl1,Hl13}, ["HlSig_E_Vhalt"]={Hl10,Hl13}, ["Hl_Sig_A1_HK1"]={Hl13,Hl1,Zs1,Rangierfahrt,Hl13}, ["Hl_Sig_A2_HK1"]={Hl13,Hl1,Hl3a,Zs1,Rangierfahrt,Hl13}, ["Hl_Sig_A3_Ls_HK1"]={Hl13,Hl1,Hl3b,Hl3a,Zs1,Rangierfahrt,Hl13}, ["Hl_Sig_B_HK1"]={Hl13,Hl1,Zs1,Hl13}, ["Hl_Sig_E1_HK1"]={Hl13,Hl1,Hl7,Hl10,Hl3a,Hl9a,Hl12a,Zs1,Hl13}, ["Hl_Sig_E2_Ls_HK1"]={Hl13,Hl1,Hl4,Hl7,Hl10,Hl3b,Hl6b,Hl9b,Hl12b,Hl3a,Hl6a,Hl9a,Hl12a,Zs1,Hl13}, ["Hl_Sig_SB_HK1"]={Hl13,Hl1,Hl10,Hl13}, ["Hl_Sig_Vs40_HK1"]={Hl10,Hl7,Hl1}, ["Hl_Sig_Vs40_Wh_HK1"]={Hl10,Hl7,Hl1}, ["Hl_Sig_Vs60_HK1"]={Hl10,Hl7,Hl1}, ["Hl_Sig_Vs60_Wh_HK1"]={Hl10,Hl7,Hl1}, ["Hl_Sig_ZBF_1_1_HK1"]={Hl13,Kennlicht}, ["Hl_Sig_ZBF_1_2_HK1"]={Hl13,Kennlicht,Rangierfahrt,Hl13}, ["Hl_Sig_ZBF_2_1_HK1"]={Hl13,Kennlicht,Hl13}, ["Hl_Sig_ZBF_2_2_HK1"]={Hl13,Kennlicht,Rangierfahrt,Hl13}, ["Hl_Zwerg_Hl_HK1"]={Hl13,Hl1,Hl10,Hl3a,Zs1,Rangierfahrt}, ["Hl_Zwerg_Ra_HK1"]={Aus,Rangierfahrt}, ["HpSig_AZ_V40_Vs_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Vr2,Hp2+Vr0,Hp2+Vr1,Hp2+Vr2,Rangierfahrt}, ["HpSig_AZ_Vmax_Vs_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Vr2,Rangierfahrt}, ["HpSig_A_V100_69_V8"]={Hp0,Hp1,Hp1+Zs3_10,Hp2,Rangierfahrt}, ["HpSig_A_V100_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Zs3_10+Vr0,Hp1+Zs3_10+Vr1,Hp2+Vr0,Hp2+Vr1,Rangierfahrt}, ["HpSig_A_V40_69_V7"]={Hp0,Hp1,Hp2,Rangierfahrt}, ["HpSig_A_V40_EpIV"]={Hp2,Hp0}, ["HpSig_A_V40_Vr0_EpIV"]={Hp2+Vr0,Hp0}, ["HpSig_A_V40_Vs_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp2+Vr0,Hp2+Vr1,Rangierfahrt}, ["HpSig_A_V60_69_V8"]={Hp0,Hp1,Hp2+Zs3_6,Hp2,Rangierfahrt}, ["HpSig_A_V60_80_69_V8"]={Hp0,Hp1,Hp1+Zs3_8,Hp2+Zs3_6,Hp2,Rangierfahrt}, ["HpSig_A_V60_80_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Zs3_8+Vr0,Hp1+Zs3_8+Vr1,Hp2+Zs3_6+Vr0,Hp2+Zs3_6+Vr1,Hp2+Vr0,Hp2+Vr1,Rangierfahrt}, ["HpSig_A_V60_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp2+Zs3_6+Vr0,Hp2+Zs3_6+Vr1,Hp2+Vr0,Hp2+Vr1,Rangierfahrt}, ["HpSig_A_V80_69_V8"]={Hp0,Hp1,Hp1+Zs3_8,Hp2,Rangierfahrt}, ["HpSig_A_V80_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Zs3_8+Vr0,Hp1+Zs3_8+Vr1,Hp2+Vr0,Hp2+Vr1,Rangierfahrt}, ["HpSig_A_Vmax_69_V7"]={Hp0,Hp1,Rangierfahrt}, ["HpSig_A_Vmax_Vs_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1,Rangierfahrt}, ["HpSig_A_Vmax_Vr0_EpIV"]={Hp1+Vr0,Hp0}, ["HpSig_Ae_V100_69_V8"]={Hp0,Hp1,Hp1+Zs3_10,Rangierfahrt}, ["HpSig_Ae_V100_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Zs3_10+Vr0,Hp1+Zs3_10+Vr1,Rangierfahrt}, ["HpSig_Ae_V120_69_V8"]={Hp0,Hp1,Hp1+Zs3_12,Rangierfahrt}, ["HpSig_Ae_V80_69_V8"]={Hp0,Hp1,Hp1+Zs3_8,Rangierfahrt}, ["HpSig_Ae_V80_Vs_69_V8"]={Hp0,Hp1+Vr0,Hp1+Vr1,Hp1+Zs3_8+Vr0,Hp1+Zs3_8+Vr1,Rangierfahrt}, ["HpSig_B_69_V7"]={Hp0,Hp1}, ["HpSig_B_Vswg_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1}, ["HpSig_B_Vswg_oVSig_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1}, ["HpSig_B_Vswr_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1}, ["HpSig_B_Vswr_oVSig_69_V7"]={Hp0,Hp1+Vr0,Hp1+Vr1}, ["HpSig_B_oVSig_69_V7"]={Hp0,Hp1}, ["HpSig_EZ_V40_Vs_69_V7"]={}, ["HpSig_EZw_V40_Vr0_EpIV"]={Hp2+Vr0,Hp0}, ["HpSig_EZw_Vmax_Vr0_EpIV"]={Hp1,Hp0}, ["HpSig_E_V100_69_V8"]={Hp0,Hp1,Hp1+Zs3_10,Hp2}, ["HpSig_E_V100_Vs_69_V8"]={}, ["HpSig_E_V100_Vs_V60_69_V8"]={}, ["HpSig_E_V100_Vs_V60_l_69_V8"]={}, ["HpSig_E_V100_Vs_V80_69_V8"]={}, ["HpSig_E_V100_Vs_V80_l_69_V8"]={}, ["HpSig_E_V100_Vs_l_69_V8"]={}, ["HpSig_E_V100_l_69_V8"]={Hp0,Hp1,Hp1+Zs3_10,Hp2}, ["HpSig_E_V20_30_69_V8"]={}, ["HpSig_E_V20_30_l_69_V8"]={}, ["HpSig_E_V20_69_V8"]={}, ["HpSig_E_V20_l_69_V8"]={}, ["HpSig_E_V30_69_V8"]={}, ["HpSig_E_V30_l_69_V8"]={}, ["HpSig_E_V40_69_V7"]={}, ["HpSig_E_V40_Vr0_EpIV"]={Hp2+Vr0,Hp0}, ["HpSig_E_V40_Vs_69_V7"]={}, ["HpSig_E_V40_Vs_V100_69_V8"]={}, ["HpSig_E_V40_Vs_V100_l_69_V8"]={}, ["HpSig_E_V40_Vs_V20_30_69_V8"]={}, ["HpSig_E_V40_Vs_V20_30_l_69_V8"]={}, ["HpSig_E_V40_Vs_V20_69_V8"]={}, ["HpSig_E_V40_Vs_V20_l_69_V8"]={}, ["HpSig_E_V40_Vs_V30_69_V8"]={}, ["HpSig_E_V40_Vs_V30_l_69_V8"]={}, ["HpSig_E_V40_Vs_V60_69_V8"]={}, ["HpSig_E_V40_Vs_V60_80_69_V8"]={}, ["HpSig_E_V40_Vs_V60_80_l_69_V8"]={}, ["HpSig_E_V40_Vs_V60_l_69_V8"]={}, ["HpSig_E_V40_Vs_V80_69_V8"]={}, ["HpSig_E_V40_Vs_V80_l_69_V8"]={}, ["HpSig_E_V40_Vs_l_69_V7"]={}, ["HpSig_E_V40_l_69_V7"]={}, ["HpSig_E_V60_69_V8"]={}, ["HpSig_E_V60_80_69_V8"]={}, ["HpSig_E_V60_80_Vs_69_V8"]={}, ["HpSig_E_V60_80_Vs_l_69_V8"]={}, ["HpSig_E_V60_80_l_69_V8"]={}, ["HpSig_E_V60_Vs_69_V8"]={}, ["HpSig_E_V60_Vs_l_69_V8"]={}, ["HpSig_E_V60_l_69_V8"]={}, ["HpSig_E_V80_69_V8"]={}, ["HpSig_E_V80_I_69_V8_"]={}, ["HpSig_E_V80_Vs_69_V8"]={}, ["HpSig_E_V80_Vs_l_69_V8"]={}, ["HpSig_E_V80_l_69_V8"]={}, ["HpSig_E_Vmax_Vr0_EpIV"]={Hp1+Vr0,Hp0}, ["KS_HS_A_RI1"]={}, ["KS_HS_A_Zs3_RI1"]={}, ["KS_HS_E_RI1"]={}, ["KS_HS_E_Zs3_RI1"]={}, ["KS_HS_R_RI1"]={}, ["KS_MA_A_RI1"]={}, ["KS_MA_A_Zs3_RI1"]={}, ["KS_MA_A_Zs3_Zs3v_RI1"]={}, ["KS_MA_A_Zs3v_RI1"]={}, ["KS_MA_E_RI1"]={}, ["KS_MA_E_Zs3_RI1"]={}, ["KS_MA_E_Zs3_Zs3v_RI1"]={}, ["KS_MA_E_Zs3v_RI1"]={}, ["KS_VS2_RI1"]={}, ["KS_VSW_RI1"]={}, ["KS_VSW_Zs3v_RI1"]={}, ["KS_VS_RI1"]={}, ["KS_VS_Zs3v_RI1"]={}, ["KabKaSchSignalA_TB1"]={}, ["KabKaSchSignalB_TB1"]={}, ["KabKaSchSignal_TB1"]={}, ["KsMastSigZs32_GK3"]={}, ["KsMastSigZs3_GK3"]={}, ["KsMastSigZs3v2_GK3"]={}, ["KsMastSigZs3v_GK3"]={}, ["KsMastSigZs6Zs13_GK3"]={}, ["KsSigAKAMASKl_GK3"]={}, ["KsSigAKAMASKlli_GK3"]={}, ["KsSigAKAMAS_GK3"]={}, ["KsSigAKAMASli_GK3"]={}, ["KsSigAKA_GK3"]={}, ["KsSigAKAli_GK3"]={}, ["KsSigALAMASKl_GK3"]={}, ["KsSigALAMASKlli_GK3"]={}, ["KsSigALAMAS_GK3"]={}, ["KsSigALAMASli_GK3"]={}, ["KsSigALA_GK3"]={}, ["KsSigALAli_GK3"]={}, ["KsSigAMASKl_GK3"]={}, ["KsSigAMAS_GK3"]={}, ["KsSigAVKAMASKl_GK3"]={}, ["KsSigAVKAMASKlli_GK3"]={}, ["KsSigAVKAMAS_GK3"]={}, ["KsSigAVKAMASli_GK3"]={}, ["KsSigAVKA_GK3"]={}, ["KsSigAVKAli_GK3"]={}, ["KsSigAVLAMASKl_GK3"]={}, ["KsSigAVLAMASKlli_GK3"]={}, ["KsSigAVLAMAS_GK3"]={}, ["KsSigAVLAMASli_GK3"]={}, ["KsSigAVLA_GK3"]={}, ["KsSigAVLAli_GK3"]={}, ["KsSigAVMASKl_GK3"]={}, ["KsSigAVMAS_GK3"]={}, ["KsSigAV_GK3"]={}, ["KsSigA_GK3"]={}, ["KsSigBKAMAS_GK3"]={}, ["KsSigBKAMASli_GK3"]={}, ["KsSigBKA_GK3"]={}, ["KsSigBKAli_GK3"]={}, ["KsSigBLAMAS_GK3"]={}, ["KsSigBLAMASli_GK3"]={}, ["KsSigBLA_GK3"]={}, ["KsSigBLAli_GK3"]={}, ["KsSigBMAS_GK3"]={}, ["KsSigBVKAMASKl_GK3"]={}, ["KsSigBVKAMASKlli_GK3"]={}, ["KsSigBVKAMAS_GK3"]={}, ["KsSigBVKAMASli_GK3"]={}, ["KsSigBVKA_GK3"]={}, ["KsSigBVKAli_GK3"]={}, ["KsSigBVLAMASKl_GK3"]={}, ["KsSigBVLAMASKlli_GK3"]={}, ["KsSigBVLAMAS_GK3"]={}, ["KsSigBVLAMASli_GK3"]={}, ["KsSigBVLA_GK3"]={}, ["KsSigBVLAli_GK3"]={}, ["KsSigBVMASKl_GK3"]={}, ["KsSigBVMAS_GK3"]={}, ["KsSigBV_GK3"]={}, ["KsSigB_GK3"]={}, ["KsSigVSigKA_GK3"]={}, ["KsSigVSigKAli_GK3"]={}, ["KsSigVSigLA_GK3"]={}, ["KsSigVSigLAli_GK3"]={}, ["KsSigVSigWdhKA_GK3"]={}, ["KsSigVSigWdhKAli_GK3"]={}, ["KsSigVSigWdhLA_GK3"]={}, ["KsSigVSigWdhLAli_GK3"]={}, ["KsSigVSigWdh_GK3"]={}, ["KsSigVSig_GK3"]={}, ["KsSigVSigverkKA_GK3"]={}, ["KsSigVSigverkKAli_GK3"]={}, ["KsSigVSigverkLA_GK3"]={}, ["KsSigVSigverkLAli_GK3"]={}, ["KsSigVSigverk_GK3"]={}, ["PI5_HP01_Form"]={Hp0,Hp1}, ["PI5_HP01_Form_oVSig"]={Hp0,Hp1}, ["PI5_HP02_Form"]={Hp0,Hp1,Hp2}, ["PI5_HP02_Form_V60T"]={Hp0,Hp1,Hp2+Zs3_6}, ["PI5_HP02_Form_V60T_oVSig"]={Hp0,Hp1,Hp2+Zs3_6}, ["PI5_HP02_Form_Vr0"]={Hp0,Hp1,Hp1+Vr2,Hp2+Vr0}, ["PI5_HP02_Form_Vr0_oVSig"]={Hp0,Hp1,Hp1+Vr2,Hp2+Vr0}, ["PI5_HP02_Form_oVSig"]={Hp0,Hp1,Hp2}, ["PI5_RaSig_mech"]={}, ["PI5_ShSig_Form"]={}, ["ShSig_Form"]={Sh1,Sh0}, ["ShSig_Licht_EpIV"]={Sh1,Sh0}, ["ShSig_Licht_EpIV_kl"]={Sh1,Sh0}, ["SperrSig_DS100_RI1"]={Hp0,Kennlicht,Rangierfahrt,Sh1}, ["SperrSig_DS100_haeng2_RI1"]={Hp0,Kennlicht,Rangierfahrt,Sh1}, ["SperrSig_DS100_haeng_RI1"]={Hp0,Kennlicht,Rangierfahrt,Sh1}, ["SperrSig_DS100_hoch_RI1"]={Hp0,Kennlicht,Rangierfahrt,Sh1}, ["Wartesignal_DR_alt_HK1"]={Sh0,Rangierfahrt}, ["Wartesignal_DR_neu_HK1"]={Sh0,Rangierfahrt}, } -- Die Begriffe von den AH1-69er Signalen generieren wir aus dem Namen. Scheiss Tipperei! do for Modell, _ in pairs(SignalModellBegriffe) do if string.match(Modell, "HpSig_.*_V[78]$") then local Begriffe = {} local Typ, HS, VS = string.match(Modell, "HpSig_(%a*)_([^s]*)Vsw?g?r?_(.*)69_V[78]") if not Typ then Typ, HS = string.match(Modell, "HpSig_(%a*)_([^s]*)69_V[78]") end local function MitVr(a) if VS then table.insert(Begriffe, a+Vr0) table.insert(Begriffe, a+Vr1) if string.match(VS, "V60_80") then table.insert(Begriffe, a+Vr1+Zs3v_8) table.insert(Begriffe, a+Vr2+Zs3v_6) elseif string.match(VS, "V60") and (not a.V_max or a.V_max >= 60 or string.match(HS, "V40")) then table.insert(Begriffe, a+Vr2+Zs3v_6) elseif string.match(VS, "V80") and (not a.V_max or a.V_max >= 80 or string.match(HS, "V40"))then table.insert(Begriffe, a+Vr1+Zs3v_8) elseif string.match(VS, "V100") then table.insert(Begriffe, a+Vr1+Zs3v_10) end if string.match(Typ,"E") or Typ == "AZ" then table.insert(Begriffe, a+Vr2) end if string.match(VS, "V20_30") and (not a.V_max or a.V_max >= 30)then table.insert(Begriffe, a+Vr2+Zs3v_3) table.insert(Begriffe, a+Vr2+Zs3v_2) elseif string.match(VS, "V30") and (not a.V_max or a.V_max >= 30)then table.insert(Begriffe, a+Vr2+Zs3v_3) elseif string.match(VS, "V20") and (not a.V_max or a.V_max >= 20)then table.insert(Begriffe, a+Vr2+Zs3v_2) end else table.insert(Begriffe, a) end end table.insert(Begriffe, Hp0) MitVr(Hp1) if string.match(HS, "V100") then MitVr(Hp1+Zs3_10) elseif string.match(HS, "V60_80") then MitVr(Hp1+Zs3_8) MitVr(Hp2+Zs3_6) elseif string.match(HS, "V60") then MitVr(Hp2+Zs3_6) elseif string.match(HS, "V80") then MitVr(Hp1+Zs3_8) end if not string.match(HS, "Vmax") and Typ ~= "Ae" then MitVr(Hp2) end if string.match(HS, "V20_30") then MitVr(Hp2+Zs3_3) MitVr(Hp2+Zs3_2) elseif string.match(HS, "V20") then MitVr(Hp2+Zs3_2) elseif string.match(HS, "V30") then MitVr(Hp2+Zs3_3) end if string.match(Typ, "A") then table.insert(Begriffe, Rangierfahrt) end SignalModellBegriffe[Modell]=Begriffe end end end function BegriffErklaeren(Begriff) if Begriff == nil then return "nil", "" end if Begriff[1]==false then return "Halt", "" elseif Begriff[1]==nil then return "Abgeschaltet", "" end local txt = "Fahrt" local farbe = "" if Begriff.H_erwarten ~= nil or Begriff.V_max then farbe = "" end if Begriff.Ersatzsignal or Begriff.Vorsichtssignal then farbe = "" end if Begriff.Vorsichtssignal then txt = txt.." auf Sicht" end if Begriff.V_max then txt = txt.." mit "..tostring(Begriff.V_max).." km/h" end if Begriff.V_erwarten then txt = txt..", "..tostring(Begriff.V_erwarten).." km/h erwarten" end if Begriff.H_erwarten ~= nil then txt = txt..", Halt erwarten" end if Begriff.kurz then txt = txt.." (kurzer Bremsweg)" end return txt, farbe end function SignalmodelleAusAnlagendatei(Datei) local fd = io.open(Datei, "r") local xml = fd:read("*a") Signalmodelle={} for capture in string.gmatch(xml, " Stellung[props[i]] then return true end if StlgB[props[i]] < StlgA[props[i]] then return true end end if StlgB[props[i]] and Stellung[props[i]] and StlgB[props[i]] < Stellung[props[i]] then if StlgA[props[i]] == nil then return false end if StlgA[props[i]] > Stellung[props[i]] then return false end if StlgA[props[i]] < StlgB[props[i]] then return false end end end end end return false end) -- Begriff aktiv schalten... der Wert in unserer Indextabelle ist der Index in die Begriffstabelle -- und damit auch genau der Wert, den EEP fuer die numerische Stellung braucht EEPSetSignal(ID, order[1], 1) return true end