254 lines
7.6 KiB
Text
254 lines
7.6 KiB
Text
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# generic-yasim-engine.nas -- a generic Nasal-based engine control system for YASim
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# Version 1.0.0
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#
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# Copyright (C) 2011 Ryan Miller
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#
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public License as
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# published by the Free Software Foundation; either version 2 of the
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# License, or (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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#
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var UPDATE_PERIOD = 0; # update interval for engine init() functions
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# jet engine class
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var Jet =
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{
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# creates a new engine object
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new: func(n, running = 0, idle_throttle = 0.01, max_start_n1 = 5.21, start_threshold = 3, spool_time = 4, start_time = 2, shutdown_time = 4)
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{
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# copy the Jet object
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var m = { parents: [Jet] };
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# declare object variables
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m.number = n;
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m.autostart_status = 0;
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m.autostart_id = -1;
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m.loop_running = 0;
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m.started = 0;
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m.starting = 0;
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m.idle_throttle = idle_throttle;
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m.max_start_n1 = max_start_n1;
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m.start_threshold = start_threshold;
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m.spool_time = spool_time;
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m.start_time = start_time;
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m.shutdown_time = shutdown_time;
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# create references to properties and set default values
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m.cutoff = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/cutoff", 1);
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m.cutoff.setBoolValue(!running);
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m.n1 = props.globals.getNode("engines/engine[" ~ n ~ "]/n1", 1);
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m.n1.setDoubleValue(0);
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m.out_of_fuel = props.globals.getNode("engines/engine[" ~ n ~ "]/out-of-fuel", 1);
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m.out_of_fuel.setBoolValue(0);
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m.reverser = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/reverser", 1);
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m.reverser.setBoolValue(0);
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m.rpm = props.globals.getNode("engines/engine[" ~ n ~ "]/rpm", 1);
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m.rpm.setDoubleValue(running ? 100 : 0);
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m.running = props.globals.getNode("engines/engine[" ~ n ~ "]/running", 1);
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m.running.setBoolValue(running);
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m.serviceable = props.globals.getNode("engines/engine[" ~ n ~ "]/serviceable", 1);
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m.serviceable.setBoolValue(1);
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m.starter = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/starter", 1);
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m.starter.setBoolValue(0);
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m.throttle = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/throttle", 1);
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m.throttle.setDoubleValue(0);
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m.throttle_lever = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/throttle-lever", 1);
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m.throttle_lever.setDoubleValue(0);
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# return our new object
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return m;
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},
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# engine-specific autostart
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autostart: func
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{
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if (me.autostart_status)
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{
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me.autostart_status = 0;
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me.cutoff.setBoolValue(1);
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}
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else
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{
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me.autostart_status = 1;
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me.starter.setBoolValue(1);
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settimer(func
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{
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me.cutoff.setBoolValue(0);
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}, me.max_start_n1 / me.start_time);
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}
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},
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# creates an engine update loop (optional)
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init: func
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{
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if (me.loop_running) return;
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me.loop_running = 1;
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var loop = func
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{
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me.update();
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settimer(loop, UPDATE_PERIOD);
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};
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settimer(loop, 0);
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},
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# updates the engine
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update: func
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{
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if (me.running.getBoolValue() and !me.started)
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{
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me.running.setBoolValue(0);
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}
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if (me.cutoff.getBoolValue() or !me.serviceable.getBoolValue() or me.out_of_fuel.getBoolValue())
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{
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var rpm = me.rpm.getValue();
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var time_delta = getprop("sim/time/delta-realtime-sec");
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if (me.starter.getBoolValue())
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{
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rpm += time_delta * me.spool_time;
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me.rpm.setValue(rpm >= me.max_start_n1 ? me.max_start_n1 : rpm);
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}
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else
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{
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rpm -= time_delta * me.shutdown_time;
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me.rpm.setValue(rpm <= 0 ? 0 : rpm);
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me.running.setBoolValue(0);
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me.throttle_lever.setDoubleValue(0);
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me.started = 0;
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}
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}
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elsif (me.starter.getBoolValue())
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{
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var rpm = me.rpm.getValue();
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if (rpm >= me.start_threshold)
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{
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var time_delta = getprop("sim/time/delta-realtime-sec");
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rpm += time_delta * me.spool_time;
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me.rpm.setValue(rpm);
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if (rpm >= me.n1.getValue())
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{
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me.running.setBoolValue(1);
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me.starter.setBoolValue(0);
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me.started = 1;
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}
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else
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{
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me.running.setBoolValue(0);
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}
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}
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}
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elsif (me.running.getBoolValue())
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{
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me.throttle_lever.setValue(me.idle_throttle + (1 - me.idle_throttle) * me.throttle.getValue());
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me.rpm.setValue(me.n1.getValue());
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}
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}
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};
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# turboprop engine class
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var turboprop_condition_cutoff = 0.001; # minimum condition value for YASim turboprops to start
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var Turboprop =
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{
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new: func(n, running = 0, min_condition = 0.2)
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{
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# copy the Turboprop object
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var m = { parents: [Turboprop] };
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# declare object variables
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m.number = n;
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m.autostart_status = 0;
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m.loop_running = 0;
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m.min_condition = min_condition;
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# create references to properties and set default values
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m.condition = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/condition", 1);
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m.condition.setDoubleValue(0);
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m.condition_lever = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/condition-lever", 1);
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m.condition_lever.setDoubleValue(running ? min_condition : 0);
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m.cutoff = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/cutoff", 1);
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m.cutoff.setBoolValue(!running);
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m.n1 = props.globals.getNode("engines/engine[" ~ n ~ "]/n1", 1);
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m.n1.setDoubleValue(running ? 100 : 0);
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m.n2 = props.globals.getNode("engines/engine[" ~ n ~ "]/n2", 1);
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m.n2.setDoubleValue(0);
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m.out_of_fuel = props.globals.getNode("engines/engine[" ~ n ~ "]/out-of-fuel", 1);
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m.out_of_fuel.setBoolValue(0);
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m.propeller_feather = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/propeller-feather", 1);
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m.propeller_feather.setBoolValue(0);
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m.starter = props.globals.getNode("controls/engines/engine[" ~ n ~ "]/starter", 1);
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m.starter.setBoolValue(0);
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# return our new object
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return m;
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},
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# engine-specific autostart
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autostart: func
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{
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if (me.autostart_status)
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{
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me.autostart_status = 0;
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me.cutoff.setBoolValue(1);
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me.condition.setValue(0);
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}
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else
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{
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me.autostart_status = 1;
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me.cutoff.setBoolValue(0);
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me.starter.setBoolValue(1);
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me.condition.setValue(me.min_condition);
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}
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},
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# creates an engine update loop (optional)
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init: func
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{
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if (me.loop_running) return;
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me.loop_running = 1;
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var loop = func
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{
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me.update();
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settimer(loop, UPDATE_PERIOD);
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};
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settimer(loop, 0);
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},
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# updates the engine
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update: func
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{
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if (me.cutoff.getBoolValue())
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{
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me.out_of_fuel.setBoolValue(1);
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}
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if (me.starter.getBoolValue() and me.condition_lever.getValue() < turboprop_condition_cutoff and me.condition.getValue() >= me.min_condition)
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{
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me.condition_lever.setValue(me._get_condition_value(me.condition.getValue()));
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}
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elsif (me.condition_lever.getValue() < turboprop_condition_cutoff and me.n2.getValue() < 0.5)
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{
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if (me.propeller_feather.getBoolValue())
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{
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me.n1.setValue(0);
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}
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me.condition_lever.setValue(0);
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}
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if (me.n2.getValue() >= 0.5)
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{
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if (me.condition_lever.getValue() >= turboprop_condition_cutoff)
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{
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me.condition_lever.setValue(me._get_condition_value(me.condition.getValue()));
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}
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else
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{
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me.condition_lever.setValue(0);
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}
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me.n1.setValue(me.n2.getValue());
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}
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},
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_get_condition_value: func(v)
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{
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if (v >= me.min_condition)
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{
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return turboprop_condition_cutoff + (v - me.min_condition) / (1 - me.min_condition) * (1 - turboprop_condition_cutoff);
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}
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return v / me.min_condition * turboprop_condition_cutoff;
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}
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};
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