67 lines
2.0 KiB
Plaintext
67 lines
2.0 KiB
Plaintext
// functions for calculating steering values.
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function GetPitch {
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parameter v is SHIP:FACING:FOREVECTOR.
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return 90 - vectorangle(SHIP:UP:FOREVECTOR, v).
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}
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function GetAscentVector {
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parameter minPitch.
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// face prograde, but hold a solid eastern heading and don't
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// rotate the ship
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local newHeading is lookdirup(SHIP:SRFPROGRADE:FOREVECTOR,
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heading(90, 0, 270):TOPVECTOR).
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if GetPitch(newHeading:FOREVECTOR) < minPitch {
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set newHeading to heading(90, minPitch, 270).
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}
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return newHeading.
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}
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// Create a node that will circularize the orbit.
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// 'where' can be one of:
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// the special string "APO", for the next Apoapsis.
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// the special string "PERI", for the next Periapsis.
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// a time value (either a Time struct or a scalar), representing a target time.
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function CreateCircularizationNode {
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parameter where is "APO".
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local t is TIME.
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if where:IsType("String") {
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if where = "APO" {
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set t to TIME + SHIP:ORBIT:ETA:APOAPSIS.
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} else if where = "PERI" {
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set t to TIME + SHIP:ORBIT:ETA:PERIAPSIS.
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} else {
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print "WARNING: Invalid string passed to CreateCirculazationNode(). Node is invalid.".
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}
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} else {
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// we've been passed a time at which to circularize.
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set t to where.
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}
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local Vc is sqrt(SHIP:BODY:MU/(PositionAt(SHIP, t) - SHIP:BODY:POSITION):MAG).
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local dV is Vc - VelocityAt(SHIP, t):ORBIT:MAG.
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local n is Node(t, 0, 0, dV).
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return n.
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}
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// function PredictGeo {
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// parameter t.
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// local pos is PositionAt(SHIP,t).
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// local rDir is VDOT(SHIP:BODY:NORTH:FOREVECTOR,SHIP:BODY:ANGULARVEL). //the number of radians the body will rotate in one second (negative if rotating counter clockwise when viewed looking down on north
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// local dT is t - TIME:SECONDS.
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// local geoPos is SHIP:BODY:GeoPositionOf(pos).
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// local drift is rDir * dT * CONSTANT:RADTODEG.
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// local long is Mod(geoPos:LNG + drift, 360).
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// if long < -180 {
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// set long to long + 360.
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// }
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// if long > 180 {
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// set long TO long - 360.
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// }
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// return LatLng(geoPos:LAT, long).
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// }
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