diff options
-rw-r--r-- | fw.lua | 129 |
1 files changed, 84 insertions, 45 deletions
@@ -14,6 +14,8 @@ monitortypes = {"Straight","Left Turn","Pedestrian"} modes = {"Sensor","Timer","Phase Lock"} panellock = {"Unlocked","Locked"} logmodes = {"Quiet","Normal","Verbose"} +pedrecallmodes = {"Never","Timer Only","Always"} +ltrecallmodes = {"No","Yes"} --Only accept digilines signals on the necessary channels local event_ok = false @@ -75,52 +77,55 @@ if event.type == "program" then mem.menu = "run" mem.monitor = 1 mem.monflash = false - if not mem.schedstart then mem.schedstart = 0 end - if not mem.schedend then mem.schedend = 0 end - if not mem.normalmode then - if mem.phaselocked then - mem.normalmode = 3 - else - mem.normalmode = 1 - end - end - if not mem.schedmode then mem.schedmode = 3 end - if not mem.ltatype then mem.ltatype = 1 end - if not mem.ltbtype then mem.ltbtype = 1 end - if not mem.ltctype then mem.ltctype = 1 end - if not mem.ltdtype then mem.ltdtype = 1 end - if not mem.pedatype then mem.pedatype = 1 end - if not mem.pedbtype then mem.pedbtype = 1 end - if not mem.pedctype then mem.pedctype = 1 end - if not mem.peddtype then mem.peddtype = 1 end - if not mem.signaltype then mem.signaltype = 2 end - if not mem.pedbuttontype then mem.pedbuttontype = 1 end - if not mem.allreda then mem.allreda = 2 end - if not mem.allredb then mem.allredb = 2 end - if not mem.yellowa then mem.yellowa = 3 end - if not mem.yellowb then mem.yellowb = 3 end - if not mem.minsidegreen then mem.minsidegreen = (mem.sidegreen or 7) end - if not mem.gapout then mem.gapout = 3 end - if not mem.maxsidegreen then mem.maxsidegreen = 20 end - if not mem.mindwell then mem.mindwell = 10 end - if not mem.pedwarn then mem.pedwarn = 7 end - if not mem.sideped then mem.sideped = 5 end - if not mem.llturn then mem.llturn = 4 end - if not mem.name then mem.name = "Unnamed Intersection" end - if not mem.logmode then mem.logmode = 2 end - if not mem.lock then mem.lock = 2 end mem.stats = {a = 0,b = 0,c = 0,d = 0,at = 0,bt = 0,ct = 0,dt = 0,ap = 0,bp = 0,cp = 0,dp = 0,cycles = 0,lastreset = os.time()} mem.det = {} mem.busy = false mem.preempt = nil mem.cycle = nil mem.currentphase = {a = "G",b = "R",c = "G",d = "R",at = "R",bt = "R",ct = "R",dt = "R",ap = "R",bp = "R",cp = "R",dp = "R"} - if not mem.phaselock then mem.phaselock = {a = "FR",b = "FR",c = "FR",d = "FR",at = "FR",bt = "FR",ct = "FR",dt = "FR",ap = "O",bp = "O",cp = "O",dp = "O"} end + mem.phaselock = {a = "FR",b = "FR",c = "FR",d = "FR",at = "FR",bt = "FR",ct = "FR",dt = "FR",ap = "O",bp = "O",cp = "O",dp = "O"} mem.phaselocked = false mem.faultlog = {} log("Chip programmed",true) end +if not mem.schedstart then mem.schedstart = 0 end +if not mem.schedend then mem.schedend = 0 end +if not mem.normalmode then + if mem.phaselocked then + mem.normalmode = 3 + else + mem.normalmode = 1 + end +end +if not mem.ltrecallmode then mem.ltrecallmode = 2 end +if not mem.pedrecallmode then mem.pedrecallmode = 2 end +if not mem.schedmode then mem.schedmode = 3 end +if not mem.ltatype then mem.ltatype = 1 end +if not mem.ltbtype then mem.ltbtype = 1 end +if not mem.ltctype then mem.ltctype = 1 end +if not mem.ltdtype then mem.ltdtype = 1 end +if not mem.pedatype then mem.pedatype = 1 end +if not mem.pedbtype then mem.pedbtype = 1 end +if not mem.pedctype then mem.pedctype = 1 end +if not mem.peddtype then mem.peddtype = 1 end +if not mem.signaltype then mem.signaltype = 2 end +if not mem.pedbuttontype then mem.pedbuttontype = 1 end +if not mem.allreda then mem.allreda = 2 end +if not mem.allredb then mem.allredb = 2 end +if not mem.yellowa then mem.yellowa = 3 end +if not mem.yellowb then mem.yellowb = 3 end +if not mem.minsidegreen then mem.minsidegreen = (mem.sidegreen or 7) end +if not mem.gapout then mem.gapout = 3 end +if not mem.maxsidegreen then mem.maxsidegreen = 20 end +if not mem.mindwell then mem.mindwell = 10 end +if not mem.pedwarn then mem.pedwarn = 7 end +if not mem.sideped then mem.sideped = 5 end +if not mem.llturn then mem.llturn = 4 end +if not mem.name then mem.name = "Unnamed Intersection" end +if not mem.logmode then mem.logmode = 2 end +if not mem.lock then mem.lock = 2 end + --Handle special modes was_phaselocked = mem.phaselocked was_timed = mem.timed @@ -133,13 +138,26 @@ if was_phaselocked and not mem.phaselocked then interrupt(0,"tick") end if mem.timed then - mem.det = {a = true,b = true,c = true,d = true,ap = true,bp = true,cp = true,dp = true,at = true,bt = true,ct = true,dt = true} + mem.det.b = true + mem.det.d = true + if mem.ltrecallmode == 2 then + mem.det.at = true + mem.det.bt = true + mem.det.ct = true + mem.det.dt = true + end + if mem.pedrecallmode == 2 or mem.pedrecallmode == 3 then + mem.det.ap = true + mem.det.bp = true + mem.det.cp = true + mem.det.dp = true + end elseif was_timed then mem.det = {} end --Detector signal handling -if (not mem.timed and not mem.phaselocked and not mem.preempt) and event.type == "digiline" and string.sub(event.channel,1,9) == "detector_" then +if (not mem.phaselocked and not mem.preempt) and event.type == "digiline" and string.sub(event.channel,1,9) == "detector_" then local detname = string.sub(event.channel,10) if mem.stats[detname] then mem.stats[detname] = mem.stats[detname] + 1 @@ -165,6 +183,11 @@ if (not mem.timed and not mem.phaselocked and not mem.preempt) and event.type == else log("Detector "..detname.." activated",true) mem.det[detname] = true + if (detname == "b" or detname == "d") and mem.pedbtype == 2 and mem.pedrecallmode == 3 then + log("Performing pedestrian recall on ap and cp",true) + mem.det.ap = true + mem.det.cp = true + end end end @@ -288,7 +311,7 @@ if mem.busy and event.type == "interrupt" and event.iid == "tick" and not mem.ph setlight("d","G") if mem.ltbtype == 3 then setlight("bt","FY") end if mem.ltdtype == 3 then setlight("dt","FY") end - if (mem.det.ap and mem.pedatype ~= 1) or (mem.det.cp and mem.pedctype ~= 1) and not mem.preempt then + if (mem.det.ap and mem.pedatype ~= 1) or (mem.det.cp and mem.pedctype ~= 1) or mem.pedrecallmode == 3 and not mem.preempt then mem.cycle = "straight2.5" if mem.pedatype ~= 1 then setlight("ap","G") end if mem.pedctype ~= 1 then setlight("cp","G") end @@ -335,7 +358,7 @@ if mem.busy and event.type == "interrupt" and event.iid == "tick" and not mem.ph setlight("c","G") if mem.ltatype == 3 then setlight("at","FY") end if mem.ltctype == 3 then setlight("ct","FY") end - if (mem.det.bp and mem.pedbtype ~= 1) or (mem.det.dp and mem.peddtype ~= 1) then + if (mem.det.bp and mem.pedbtype ~= 1) or (mem.det.dp and mem.peddtype ~= 1) or (mem.pedrecallmode == 3 and not mem.wasped) then mem.cycle = "sideped1" if mem.ltatype == 3 and mem.pedbtype ~= 1 then setlight("at","R") end if mem.ltctype == 3 and mem.peddtype ~= 1 then setlight("ct","R") end @@ -345,6 +368,7 @@ if mem.busy and event.type == "interrupt" and event.iid == "tick" and not mem.ph interrupt(0,"tick") end else + mem.wasped = false interrupt(mem.mindwell,"tick") end elseif mem.cycle == "bdlead1" then @@ -516,13 +540,21 @@ if mem.busy and event.type == "interrupt" and event.iid == "tick" and not mem.ph if mem.peddtype ~= 1 then setlight("dp","G") end interrupt(mem.sideped,"tick") elseif mem.cycle == "sideped3" then - mem.cycle = "sideped4" - mem.det.bp = nil - mem.det.dp = nil - if mem.pedbtype ~= 1 then setlight("bp","FR") end - if mem.peddtype ~= 1 then setlight("dp","FR") end - interrupt(mem.pedwarn,"tick") + if not (mem.det.b or mem.det.d or mem.det.at or mem.det.bt or mem.det.ct or mem.det.dt or mem.det.ap or mem.det.cp) and (mem.pedrecallmode == 3 or mem.det.bp or mem.det.dp) then + mem.det.bp = nil + mem.det.dp = nil + interrupt(mem.sideped,"tick") + log("Extending bp/dp walk time",true) + else + mem.cycle = "sideped4" + mem.det.bp = nil + mem.det.dp = nil + if mem.pedbtype ~= 1 then setlight("bp","FR") end + if mem.peddtype ~= 1 then setlight("dp","FR") end + interrupt(mem.pedwarn,"tick") + end elseif mem.cycle == "sideped4" then + mem.wasped = true if mem.det.b or mem.det.d or mem.det.at or mem.det.bt or mem.det.ct or mem.det.dt or mem.det.ap or mem.det.cp then mem.cycle = "reset" interrupt(mem.allredb,"tick") @@ -535,6 +567,7 @@ if mem.busy and event.type == "interrupt" and event.iid == "tick" and not mem.ph elseif mem.cycle == "reset" then mem.cycle = nil mem.busy = false + mem.wasped = false --If someone shows up on AT/CT and turns immediately, --we shouldn't change for them unless we're completely idle or protected only if mem.ltatype ~= 2 then mem.det.at = nil end @@ -651,6 +684,8 @@ if event.type == "digiline" and event.channel == "touchscreen" then mem.menu = "main" elseif fields.save then mem.menu = "main" + mem.pedrecallmode = pivot(pedrecallmodes)[fields.pedrecall] + mem.ltrecallmode = pivot(ltrecallmodes)[fields.ltrecall] mem.allreda = tonumber(fields.allreda) or mem.allreda mem.allredb = tonumber(fields.allredb) or mem.allredb mem.yellowa = tonumber(fields.yellowa) or mem.yellowa @@ -824,6 +859,10 @@ elseif mem.menu == "timing" then table.insert(disp,{command="addfield",X=0.25,Y=4,W=2.25,H=1,name="yellowa",label="Yellow A/C->B/D",default=tostring(mem.yellowa)}) table.insert(disp,{command="addfield",X=0.25,Y=5.5,W=2.25,H=1,name="yellowb",label="Yellow B/D->A/C",default=tostring(mem.yellowb)}) table.insert(disp,{command="addfield",X=3.25,Y=1,W=2.25,H=1,name="mindwell",label="Minimum Dwell",default=tostring(mem.mindwell)}) + table.insert(disp,{command="addlabel",X=5.9,Y=0.45,label="Pedestrian Recall"}) + table.insert(disp,{command="adddropdown",X=5.9,Y=0.85,W=2.25,H=1,name="pedrecall",selected_id=mem.pedrecallmode,choices=pedrecallmodes}) + table.insert(disp,{command="addlabel",X=5.9,Y=1.95,label="LT Recall in Timer Mode"}) + table.insert(disp,{command="adddropdown",X=5.9,Y=2.35,W=2.25,H=1,name="ltrecall",selected_id=mem.ltrecallmode,choices=ltrecallmodes}) table.insert(disp,{command="addfield",X=3.25,Y=4,W=2.25,H=1,name="pedwarn",label="Pedestrian Warn",default=tostring(mem.pedwarn)}) table.insert(disp,{command="addfield",X=3.25,Y=5.5,W=2.25,H=1,name="sideped",label="B/D Pedestrian Walk",default=tostring(mem.sideped)}) table.insert(disp,{command="addfield",X=3.25,Y=2.5,W=2.25,H=1,name="llturn",label="Lead/Lag Turn",default=tostring(mem.llturn)}) |