First pass at the Oribtal module port.
[VOID.git] / VOID_Orbital.cs
blob:a/VOID_Orbital.cs -> blob:b/VOID_Orbital.cs
  // VOID
// //
// VOID_Orbital.cs // VOID_Orbital.cs
// //
// Author: // Copyright © 2014, toadicus
// toadicus <> // All rights reserved.
// //
// Copyright (c) 2013 toadicus // Redistribution and use in source and binary forms, with or without modification,
  // are permitted provided that the following conditions are met:
// //
// This program is free software: you can redistribute it and/or modify // 1. Redistributions of source code must retain the above copyright notice,
// it under the terms of the GNU General Public License as published by // this list of conditions and the following disclaimer.
// the Free Software Foundation, either version 3 of the License, or  
// (at your option) any later version.  
// //
// This program is distributed in the hope that it will be useful, // 2. Redistributions in binary form must reproduce the above copyright notice,
// but WITHOUT ANY WARRANTY; without even the implied warranty of // this list of conditions and the following disclaimer in the documentation and/or other
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // materials provided with the distribution.
// GNU General Public License for more details.  
// //
// You should have received a copy of the GNU General Public License // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// along with this program. If not, see <http://www.gnu.org/licenses/>. // to endorse or promote products derived from this software without specific prior written permission.
  //
  // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
  // INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
  // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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  // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
  using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_Orbital : VOID_Module public class VOID_Orbital : VOID_WindowModule
{ {
protected new string _Name = "Orbital Information"; [AVOID_SaveValue("toggleExtended")]
  protected VOID_SaveValue<bool> toggleExtended = false;
   
[AVOID_SaveValue("OrbitalWindowPos")] [AVOID_SaveValue("precisionValues")]
protected Rect OrbitalWindowPos = new Rect(Screen.width / 2, Screen.height / 2, 10f, 10f); protected long _precisionValues = 230584300921369395;
  protected IntCollection precisionValues;
   
[AVOID_SaveValue("toggleExtendedOribtal")] public VOID_Orbital()
protected bool toggleExtendedOribtal = false; {
  this.Name = "Orbital Information";
   
public void OrbitalWindow(int _) this.WindowPos.x = Screen.width - 520f;
  this.WindowPos.y = 250f;
  }
   
  public override void ModuleWindow(int _)
{ {
// Toadicus edit: added local sidereal longitude. int idx = 0;
double LSL = vessel.longitude + vessel.orbit.referenceBody.rotationAngle;  
LSL = Tools.FixDegreeDomain (LSL);  
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.primaryName.DoGUIHorizontal ();
GUILayout.Label(VOIDLabels.void_primary + ":");  
GUILayout.Label(vessel.mainBody.bodyName, GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); this.precisionValues [idx]= (ushort)VOID_Data.orbitAltitude.DoGUIHorizontal (this.precisionValues [idx]);
GUILayout.Label(VOIDLabels.void_altitude_asl + ":"); idx++;
GUILayout.Label(Tools.MuMech_ToSI(vessel.orbit.altitude) + "m", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); this.precisionValues [idx]= (ushort)VOID_Data.orbitVelocity.DoGUIHorizontal (this.precisionValues [idx]);
GUILayout.Label(VOIDLabels.void_velocity + ":"); idx++;
GUILayout.Label(Tools.MuMech_ToSI(vessel.orbit.vel.magnitude) + "m/s", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); this.precisionValues [idx]= (ushort)VOID_Data.orbitApoAlt.DoGUIHorizontal (this.precisionValues [idx]);
GUILayout.Label(VOIDLabels.void_apoapsis + ":"); idx++;
GUILayout.Label(Tools.MuMech_ToSI(vessel.orbit.ApA) + "m", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.timeToApo.DoGUIHorizontal();
GUILayout.Label("Time to Ap:");  
GUILayout.Label(Tools.ConvertInterval(vessel.orbit.timeToAp), GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); this.precisionValues [idx]= (ushort)VOID_Data.oribtPeriAlt.DoGUIHorizontal (this.precisionValues [idx]);
GUILayout.Label(VOIDLabels.void_periapsis + ":"); idx++;
GUILayout.Label(Tools.MuMech_ToSI(vessel.orbit.PeA) + "m", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.timeToPeri.DoGUIHorizontal();
GUILayout.Label("Time to Pe:");  
GUILayout.Label(Tools.ConvertInterval(vessel.orbit.timeToPe), GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.orbitInclination.DoGUIHorizontal("F3");
GUILayout.Label("Inclination:");  
GUILayout.Label(vessel.orbit.inclination.ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
double r_vessel = vessel.mainBody.Radius + vessel.mainBody.GetAltitude(vessel.findWorldCenterOfMass()); this.precisionValues [idx]= (ushort)VOID_Data.gravityAccel.DoGUIHorizontal (this.precisionValues [idx]);
double g_vessel = (VOID_Core.Constant_G * vessel.mainBody.Mass) / Math.Pow(r_vessel, 2); idx++;
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));  
GUILayout.Label("Gravity:");  
GUILayout.Label(Tools.MuMech_ToSI(g_vessel) + "m/s²", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
toggleExtendedOribtal = GUILayout.Toggle(toggleExtendedOribtal, "Extended info"); this.toggleExtended.value = GUILayout.Toggle(this.toggleExtended, "Extended info");
   
if (toggleExtendedOribtal) if (this.toggleExtended)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.orbitPeriod.DoGUIHorizontal();
GUILayout.Label("Period:");  
GUILayout.Label(Tools.ConvertInterval(vessel.orbit.period), GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); this.precisionValues [idx]= (ushort)VOID_Data.semiMajorAxis.DoGUIHorizontal (this.precisionValues [idx]);
GUILayout.Label("Semi-major axis:"); idx++;
GUILayout.Label((vessel.orbit.semiMajorAxis / 1000).ToString("##,#") + "km", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.eccentricity.DoGUIHorizontal("F4");
GUILayout.Label("Eccentricity:");  
GUILayout.Label(vessel.orbit.eccentricity.ToString("F4"), GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
// Toadicus edit: convert mean anomaly into degrees. VOID_Data.meanAnomaly.DoGUIHorizontal("F3");
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));  
GUILayout.Label("Mean anomaly:");  
GUILayout.Label((vessel.orbit.meanAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.trueAnomaly.DoGUIHorizontal("F3");
GUILayout.Label("True anomaly:");  
GUILayout.Label(vessel.orbit.trueAnomaly.ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
// Toadicus edit: convert eccentric anomaly into degrees. VOID_Data.eccAnomaly.DoGUIHorizontal("F3");
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));  
GUILayout.Label("Eccentric anomaly:");  
GUILayout.Label((vessel.orbit.eccentricAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.longitudeAscNode.DoGUIHorizontal("F3");
GUILayout.Label("Long. ascending node:");  
GUILayout.Label(vessel.orbit.LAN.ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); VOID_Data.argumentPeriapsis.DoGUIHorizontal("F3");
GUILayout.Label("Arg. of periapsis:");  
GUILayout.Label(vessel.orbit.argumentOfPeriapsis.ToString("F3") + "°", GUILayout.ExpandWidth(false));  
GUILayout.EndHorizontal();  
   
// Toadicus edit: added local sidereal longitude. VOID_Data.localSiderealLongitude.DoGUIHorizontal("F3");
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));  
GUILayout.Label("Local Sidereal Longitude:");  
GUILayout.Label(LSL.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["txt_right"]);  
GUILayout.EndHorizontal();  
} }
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public override void DrawGUI() public override void LoadConfig ()
{ {
OrbitalWindowPos = GUILayout.Window( base.LoadConfig ();
++VOID_Core.Instance.windowID,  
OrbitalWindowPos, this.precisionValues = new IntCollection (4, this._precisionValues);
this.OrbitalWindow, }
this.Name, GUILayout.Width(250),  
GUILayout.Height(50)); public override void _SaveToConfig (KSP.IO.PluginConfiguration config)
  {
  this._precisionValues = this.precisionValues.collection;
   
  base._SaveToConfig (config);
} }
} }
} }