var startEngine = func {
    var sel = props.globals.getNode("/sim/input/selected");
    var engs = props.globals.getNode("/controls/engines").getChildren("engine");
    for(var i=0; i<size(engs); i+=1) {
        var select = sel.getChild("engine", i);
        if(select != nil and select.getValue() != 0) {
            engs[i].getNode("starter").setBoolValue(1);
        }
    }
}

# Initialization hack (called after initialization via a timeout), to
# make sure that the number of engine properties in the selection tree
# match the actual number of engines.  This should probably be fixed in a
# more elegant way...
var initSelectProps = func {
    var engs = props.globals.getNode("/controls/engines").getChildren("engine");
    var sel = props.globals.getNode("/sim/input/selected");
    for(var i=0; i<size(engs); i+=1) {
        if(sel.getChild("engine", i) == nil) {
            sel.getNode("engine[" ~ i ~ "]", 1); }}
}
settimer(initSelectProps, 0);

var selectEngine = func {
    var sel = props.globals.getNode("/sim/input/selected").getChildren("engine");
    foreach(var node; sel) { node.setBoolValue(node.getIndex() == arg[0]); }
}

# Selects (state=1) or deselects (state=0) a list of engines, or all
# engines if no list is specified. Example:  selectEngines(1, 1, 3, 5);
#
var selectEngines = func (state, engines...) {
    var sel = props.globals.getNode("/sim/input/selected");
    if(size(engines)) {
        foreach(var e; engines)
            sel.getChild("engine", e, 1).setBoolValue(state);
    } else {
        foreach(var e; sel.getChildren("engine"))
            e.setBoolValue(state);
    }
}

var selectAllEngines = func {
    var sel = props.globals.getNode("/sim/input/selected").getChildren("engine");
    foreach(var node; sel) { node.setBoolValue(1); }
}

var stepMagnetos = func {
    var change = arg[0];
    var engs = props.globals.getNode("/controls/engines").getChildren("engine");
    var sel = props.globals.getNode("/sim/input/selected");
    for(var i=0; i<size(engs); i+=1) {
        var select = sel.getChild("engine", i);
        if(select != nil and select.getValue() != 0) {
            var mag = engs[i].getNode("magnetos", 1);
            mag.setIntValue(mag.getValue() + change);
        }
    }
}

var centerFlightControls = func {
    setprop("/controls/flight/elevator", 0);
    setprop("/controls/flight/aileron", 0);
    setprop("/controls/flight/rudder", 0);
}

var throttleMouse = func {
    if(!getprop("/devices/status/mice/mouse[0]/button[1]")) return;
    var sel = props.globals.getNode("/sim/input/selected").getChildren("engine");
    var delta = cmdarg().getNode("offset").getValue() * -4;
    foreach(var n; sel) {
        if(!n.getValue()) continue;
        var throttle = "/controls/engines/engine[" ~ n.getIndex() ~ "]/throttle";
        var val = getprop(throttle) + delta;
        if(size(arg) > 0) val = -val;
        setprop(throttle, val);
    }
}

# Joystick axis handlers (uses cmdarg).  Shouldn't be called from
# other contexts.
var adjustAxis = func(invert, pre, post) {
    var val = cmdarg().getNode("setting").getValue();
    if(invert) val = -val;
    var sel = props.globals.getNode("/sim/input/selected").getChildren("engine");
    foreach(var n; sel)
        if(n.getValue())
            setprop(pre ~ n.getIndex() ~ post, (1 - val)/2);
}
var throttleAxis = func
    adjustAxis(size(arg), "/controls/engines/engine[", "]/throttle");
var mixtureAxis = func
    adjustAxis(size(arg), "/controls/engines/engine[", "]/mixture");
var propellerAxis = func
    adjustAxis(size(arg), "/controls/engines/engine[", "]/propeller-pitch");
var carbHeatAxis = func
    adjustAxis(size(arg), "/controls/anti-ice/engine[", "]/carb-heat");

##
# Wrapper around stepProps() which emulates the "old" flap behavior for
# configurations that aren't using the new mechanism.
#
var flapsDown = func(step) {
    if(step == 0) return;
    if(props.globals.getNode("/sim/flaps") != nil) {
        stepProps("/controls/flight/flaps", "/sim/flaps", step);
        return;
    }
    # Hard-coded flaps movement in 3 equal steps:
    var val = 0.3333334 * step + getprop("/controls/flight/flaps");
    setprop("/controls/flight/flaps", val > 1 ? 1 : val < 0 ? 0 : val);
}

var wingSweep = func(step) {
    if(step == 0) return;
    if(props.globals.getNode("/sim/wing-sweep") != nil) {
        stepProps("/controls/flight/wing-sweep", "/sim/wing-sweep", step);
        return;
    }
    # Hard-coded wing movement in 5 equal steps:
    var val = 0.20 * step + getprop("/controls/flight/wing-sweep");
    setprop("/controls/flight/wing-sweep", val > 1 ? 1 : val < 0 ? 0 : val);
}

var stepSpoilers = func(step) {
    if(props.globals.getNode("/sim/spoilers") != nil) {
        stepProps("/controls/flight/spoilers", "/sim/spoilers", step);
        return;
    }
    # Hard-coded spoilers movement in 4 equal steps:
    var val = 0.25 * step + getprop("/controls/flight/spoilers");
    setprop("/controls/flight/spoilers", val > 1 ? 1 : val < 0 ? 0 : val);
}

var stepSlats = func(step) {
    if(props.globals.getNode("/sim/slats") != nil) {
        stepProps("/controls/flight/slats", "/sim/slats", step);
        return;
    }
    # Hard-coded slats movement in 4 equal steps:
    var val = 0.25 * step + getprop("/controls/flight/slats");
    setprop("/controls/flight/slats", val > 1 ? 1 : val < 0 ? 0 : val);
}

##
# Steps through an "array" of property settings.  The first argument
# specifies a destination property.  The second is a string containing
# a global property tree.  This tree should contain an array of
# indexed <setting> children.  This function will maintain a
# <current-setting> child, which contains the index of the currently
# active setting.  The third argument specifies an integer delta,
# indicating how many steps to move through the setting array.
# Note that because of the magic of the property system, this
# mechanism works for all scalar property types (bool, int, double,
# string).
#
# TODO: This interface could easily be extended to allow for wrapping,
# in addition to clamping, allowing a "cycle" of settings to be
# defined.  It could also be hooked up with the interpolate() call,
# which would allow the removal of the transition-time feature from
# YASim.  Finally, other pre-existing features (the views and engine
# magnetos, for instance), work similarly but not compatibly, and
# could be integrated.
#
var stepProps = func {
    var dst = props.globals.getNode(arg[0]);
    var array = props.globals.getNode(arg[1]);
    var delta = arg[2];
    if(dst == nil or array == nil) { return; }

    var sets = array.getChildren("setting");

    var curr = array.getNode("current-setting", 1).getValue();
    if(curr == nil) { curr = 0; }
    curr = curr + delta;
    if   (curr < 0)           { curr = 0; }
    elsif(curr >= size(sets)) { curr = size(sets) - 1; }

    array.getNode("current-setting").setIntValue(curr);
    dst.setValue(sets[curr].getValue());
}

##
# "Slews" a property smoothly, without dependence on the simulator
# frame rate.  The first argument is the property name.  The second is
# a rate, in units per second.  NOTE: this modifies the property for
# the current frame only; it is intended to be called by bindings
# which repeat each frame.  If you want to cause motion over time, see
# interpolate().
#
var slewProp = func(prop, delta) {
    delta *= getprop("/sim/time/delta-realtime-sec");
    setprop(prop, getprop(prop) + delta);
}

# Standard trim rate, in units per second.  Remember that the full
# range of a trim axis is 2.0.  Should probably read this out of a
# property...
var TRIM_RATE = 0.045;

##
# Handlers.  These are suitable for binding to repeatable button press
# events.  They are *not* good for binding to the keyboard, since (at
# least) X11 synthesizes its own key repeats.
#
var elevatorTrim = func {
    slewProp("/controls/flight/elevator-trim", arg[0] * TRIM_RATE); }
var aileronTrim = func {
    slewProp("/controls/flight/aileron-trim", arg[0] * TRIM_RATE); }
var rudderTrim = func {
    slewProp("/controls/flight/rudder-trim", arg[0] * TRIM_RATE); }

var THROTTLE_RATE = 0.33;

var adjThrottle = func {
    adjEngControl("throttle", arg[0]); }
var adjMixture = func {
    adjEngControl("mixture", arg[0]); }
var adjCondition = func {
    adjEngControl("condition", arg[0]); }
var adjPropeller = func {
    adjEngControl("propeller-pitch", arg[0]); }

var adjEngControl = func {
    var engs = props.globals.getNode("/controls/engines").getChildren("engine");
    var selected = props.globals.getNode("/sim/input/selected");
    var delta = arg[1] * THROTTLE_RATE * getprop("/sim/time/delta-realtime-sec");
    foreach(var e; engs) {
        if(selected.getChild("engine", e.getIndex(), 1).getBoolValue()) {
            var node = e.getNode(arg[0], 1);
            node.setValue(node.getValue() + delta);
        }
    }
}

##
# arg[0] is the throttle increment
# arg[1] is the auto-throttle target speed increment
var incThrottle = func {
    var auto = props.globals.getNode("/autopilot/locks/speed", 1);
    var sel = props.globals.getNode("/sim/input/selected");
    if (!auto.getValue()) {
        var engs = props.globals.getNode("/controls/engines").getChildren("engine");
        foreach(var e; engs) {
            if(sel.getChild("engine", e.getIndex(), 1).getBoolValue()) {
                var node = e.getNode("throttle", 1);
                var val = node.getValue() + arg[0];
                node.setValue(val < -1.0 ? -1.0 : val > 1.0 ? 1.0 : val);
            }
        }
    } else {
        var node = props.globals.getNode("/autopilot/settings/target-speed-kt", 1);
        if (node.getValue() == nil) {
            node.setValue(0.0);
        }
        node.setValue(node.getValue() + arg[1]);
        if (node.getValue() < 0.0) {
            node.setValue(0.0);
        }
    }
}

##
# arg[0] is the aileron increment
# arg[1] is the autopilot target heading increment
var incAileron = func {
    var auto = props.globals.getNode("/autopilot/locks/heading", 1);
    if (!auto.getValue()) {
        var aileron = props.globals.getNode("/controls/flight/aileron");
        if (aileron.getValue() == nil) {
            aileron.setValue(0.0);
        }
        aileron.setValue(aileron.getValue() + arg[0]);
        if (aileron.getValue() < -1.0) {
            aileron.setValue(-1.0);
        }
        if (aileron.getValue() > 1.0) {
            aileron.setValue(1.0);
        }
    }
    if (auto.getValue() == "dg-heading-hold") {
        var node = props.globals.getNode("/autopilot/settings/heading-bug-deg", 1);
        if (node.getValue() == nil) {
            node.setValue(0.0);
        }
        node.setValue(node.getValue() + arg[1]);
        if (node.getValue() < 0.0) {
            node.setValue(node.getValue() + 360.0);
        }
        if (node.getValue() > 360.0) {
            node.setValue(node.getValue() - 360.0);
        }
    }
    if (auto.getValue() == "true-heading-hold") {
        var node = props.globals.getNode("/autopilot/settings/true-heading-deg", 1);
        if (node.getValue() == nil) {
            node.setValue(0.0);
        }
        node.setValue(node.getValue() + arg[1]);
        if (node.getValue() < 0.0) {
            node.setValue(node.getValue() + 360.0);
        }
        if (node.getValue() > 360.0) {
            node.setValue(node.getValue() - 360.0);
        }
    }
}

##
# arg[0] is the elevator increment
# arg[1] is the autopilot target altitude increment
var incElevator = func {
    var auto = props.globals.getNode("/autopilot/locks/altitude", 1);
    if (!auto.getValue() or auto.getValue() == 0) {
        var elevator = props.globals.getNode("/controls/flight/elevator");
        if (elevator.getValue() == nil) {
            elevator.setValue(0.0);
        }
        elevator.setValue(elevator.getValue() + arg[0]);
        if (elevator.getValue() < -1.0) {
            elevator.setValue(-1.0);
        }
        if (elevator.getValue() > 1.0) {
            elevator.setValue(1.0);
        }
    } elsif (auto.getValue() == "altitude-hold") {
        var node = props.globals.getNode("/autopilot/settings/target-altitude-ft", 1);
        if (node.getValue() == nil) {
            node.setValue(0.0);
        }
        node.setValue(node.getValue() + arg[1]);
        if (node.getValue() < 0.0) {
            node.setValue(0.0);
        }
    }
}

##
# Joystick axis handlers.  Don't call from other contexts.
#
var elevatorTrimAxis = func { elevatorTrim(cmdarg().getNode("value").getValue()); }
var aileronTrimAxis = func { aileronTrim(cmdarg().getNode("value").getValue()); }
var rudderTrimAxis = func { rudderTrim(cmdarg().getNode("value").getValue()); }

##
# Gear handling.
#
var gearDown = func(v) {
    if (v < 0) {
      setprop("/controls/gear/gear-down", 0);
    } elsif (v > 0) {
      setprop("/controls/gear/gear-down", 1);
    }
}
var gearToggle = func { gearDown(getprop("/controls/gear/gear-down") > 0 ? -1 : 1); }

##
# Brake handling.
#
var fullBrakeTime = 0.5;
var applyBrakes = func(v, which = 0) {
    if (which <= 0) { interpolate("/controls/gear/brake-left", v, fullBrakeTime); }
    if (which >= 0) { interpolate("/controls/gear/brake-right", v, fullBrakeTime); }
}

var applyParkingBrake = func(v) {
    if (!v) { return; }
    var p = "/controls/gear/brake-parking";
    setprop(p, var i = !getprop(p));
    return i;
}

##
# Weapon handling.
#
var trigger = func(b) setprop("/controls/armament/trigger", b);
var weaponSelect = func(d) {
    var ws = props.globals.getNode("/controls/armament/selected", 1);
    var n = ws.getValue();
    if (n == nil) { n = 0; }
    ws.setIntValue(n + d);
}

##
# Communication.
#
var ptt = func(b) setprop("/instrumentation/comm/ptt", b);

##
# Lighting
#
var toggleLights = func {
    if (getprop("/controls/switches/panel-lights")) {
        setprop("/controls/switches/panel-lights-factor", 0);
        setprop("/controls/switches/panel-lights", 0);
        setprop("/controls/switches/landing-light", 0);
        setprop("/controls/switches/flashing-beacon", 0);
        setprop("/controls/switches/strobe-lights", 0);
        setprop("/controls/switches/map-lights", 0);
        setprop("/controls/switches/cabin-lights", 0);
        setprop("/controls/switches/nav-lights", 0);
    } else {
        setprop("/controls/electric/battery-switch", 1);
        setprop("/controls/electric/alternator-switch", 1);
        setprop("/controls/switches/panel-lights-factor", 0.1);
        setprop("/controls/switches/panel-lights", 1);
        setprop("/controls/switches/landing-light", 1);
        setprop("/controls/switches/flashing-beacon", 1);
        setprop("/controls/switches/strobe-lights", 1);
        setprop("/controls/switches/map-lights", 1);
        setprop("/controls/switches/cabin-lights", 1);
        setprop("/controls/switches/nav-lights", 1);
    }
}