# Properties under /consumables/fuel/tank[n]: # + level-gal_us - Current fuel load. Can be set by user code. # + level-lbs - OUTPUT ONLY property, do not try to set # + selected - boolean indicating tank selection. # + density-ppg - Fuel density, in lbs/gallon. # + capacity-gal_us - Tank capacity # # Properties under /engines/engine[n]: # + fuel-consumed-lbs - Output from the FDM, zeroed by this script # + out-of-fuel - boolean, set by this code. UPDATE_PERIOD = 0.3; fuelUpdate = func { if(getprop("/sim/freeze/fuel")) { return registerTimer(); } AllEngines = props.globals.getNode("engines").getChildren("engine"); # Sum the consumed fuel total = 0; foreach(e; AllEngines) { fuel = e.getNode("fuel-consumed-lbs", 1); consumed = fuel.getValue(); if(consumed == nil) { consumed = 0; } total = total + consumed; fuel.setDoubleValue(0); } # Unfortunately, FDM initialization hasn't happened when we start # running. Wait for the FDM to start running before we set any output # properties. This also prevents us from mucking with FDMs that # don't support this fuel scheme. if(total == 0) { return registerTimer(); } if(!initialized) { initialize(); } AllTanks = props.globals.getNode("consumables/fuel").getChildren("tank"); # Build a list of selected tanks. Note the filtering for # "zero-capacity" tanks. The FlightGear code likes to define # zombie tanks that have no meaning to the FDM, so we have to take # measures to ignore them here. selectedTanks = []; foreach(t; AllTanks) { cap = t.getNode("capacity-gal_us", 1).getValue(); if(cap != nil and cap > 0.01) { if(t.getNode("selected", 1).getBoolValue()) { append(selectedTanks, t); } } } # Subtract fuel from tanks, set auxilliary properties. Set out-of-fuel # when any one tank is dry. outOfFuel = 0; if(size(selectedTanks) == 0) { outOfFuel = 1; } else { fuelPerTank = total / size(selectedTanks); foreach(t; selectedTanks) { ppg = t.getNode("density-ppg").getValue(); lbs = t.getNode("level-gal_us").getValue() * ppg; lbs = lbs - fuelPerTank; if(lbs < 0) { lbs = 0; outOfFuel = 1; } gals = lbs / ppg; t.getNode("level-gal_us").setDoubleValue(gals); t.getNode("level-lbs").setDoubleValue(lbs); } } # Total fuel properties gals = lbs = cap = 0; foreach(t; AllTanks) { cap = cap + t.getNode("capacity-gal_us").getValue(); gals = gals + t.getNode("level-gal_us").getValue(); lbs = lbs + t.getNode("level-lbs").getValue(); } setprop("/consumables/fuel/total-fuel-gals", gals); setprop("/consumables/fuel/total-fuel-lbs", lbs); setprop("/consumables/fuel/total-fuel-norm", gals/cap); foreach(e; AllEngines) { e.getNode("out-of-fuel").setBoolValue(outOfFuel); } registerTimer(); } # Initalize: Make sure all needed properties are present and accounted # for, and that they have sane default values. initialized = 0; initialize = func { AllEngines = props.globals.getNode("engines").getChildren("engine"); AllTanks = props.globals.getNode("consumables/fuel").getChildren("tank"); foreach(e; AllEngines) { e.getNode("fuel-consumed-lbs", 1).setDoubleValue(0); e.getNode("out-of-fuel", 1).setBoolValue(0); } foreach(t; AllTanks) { initDoubleProp(t, "level-gal_us", 0); initDoubleProp(t, "level-lbs", 0); initDoubleProp(t, "capacity-gal_us", 0.01); # Not zero (div/zero issue) initDoubleProp(t, "density-ppg", 6.0); # gasoline if(t.getNode("selected") == nil) { t.getNode("selected", 1).setBoolValue(1); } } initialized = 1; } initDoubleProp = func { node = arg[0]; prop = arg[1]; val = arg[2]; if(node.getNode(prop) != nil) { val = num(node.getNode(prop).getValue()); } node.getNode(prop, 1).setDoubleValue(val); } # Fire it up registerTimer = func { settimer(fuelUpdate, UPDATE_PERIOD); } registerTimer();