VOID_VesselInfo: Added unit formatting to comboResourceMass.
VOID_VesselInfo: Added unit formatting to comboResourceMass.

  // VOID
  //
  // AssemblyInfo.cs
  //
  // Copyright © 2014, toadicus
  // All rights reserved.
  //
  // Redistribution and use in source and binary forms, with or without modification,
  // are permitted provided that the following conditions are met:
  //
  // 1. Redistributions of source code must retain the above copyright notice,
  // this list of conditions and the following disclaimer.
  //
  // 2. Redistributions in binary form must reproduce the above copyright notice,
  // this list of conditions and the following disclaimer in the documentation and/or other
  // materials provided with the distribution.
  //
  // 3. Neither the name of the copyright holder nor the names of its contributors may be used
  // 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,
  // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  using System.Reflection;
  using System.Runtime.CompilerServices;
 
  [assembly: KSPAssemblyDependency("ToadicusTools", 0, 0)]
  [assembly: KSPAssemblyDependency("VesselSimulator", 0, 0)]
 
  // Information about this assembly is defined by the following attributes.
  // Change them to the values specific to your project.
  [assembly: AssemblyTitle("VOID")]
  [assembly: AssemblyDescription("A KSP mod that provides at-a-glance information about Vessels, Orbits, and their states.")]
  [assembly: AssemblyCopyright("toadicus")]
  // The assembly version has the format "{Major}.{Minor}.{Build}.{Revision}".
  // The form "{Major}.{Minor}.*" will automatically update the build and revision,
  // and "{Major}.{Minor}.{Build}.*" will update just the revision.
  [assembly: AssemblyVersion("0.12.0.*")]
  // The following attributes are used to specify the signing key for the assembly,
  // if desired. See the Mono documentation for more information about signing.
  //[assembly: AssemblyDelaySign(false)]
  //[assembly: AssemblyKeyFile("")]
 
 
<?xml version="1.0" encoding="utf-8"?> <?xml version="1.0" encoding="utf-8"?>
<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> <Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
<PropertyGroup> <PropertyGroup>
<Configuration Condition=" '$(Configuration)' == '' ">Debug_win</Configuration> <Configuration Condition=" '$(Configuration)' == '' ">Debug_win</Configuration>
<ProductVersion>8.0.30703</ProductVersion> <ProductVersion>8.0.30703</ProductVersion>
<SchemaVersion>2.0</SchemaVersion> <SchemaVersion>2.0</SchemaVersion>
<ProjectGuid>{45ACC1CC-942C-4A66-BFC7-8BE375938B18}</ProjectGuid> <ProjectGuid>{45ACC1CC-942C-4A66-BFC7-8BE375938B18}</ProjectGuid>
<OutputType>Library</OutputType> <OutputType>Library</OutputType>
<RootNamespace>VOID</RootNamespace> <RootNamespace>VOID</RootNamespace>
<AssemblyName>VOID</AssemblyName> <AssemblyName>VOID</AssemblyName>
<CodePage>65001</CodePage> <CodePage>65001</CodePage>
<UseMSBuildEngine>False</UseMSBuildEngine> <UseMSBuildEngine>False</UseMSBuildEngine>
<TargetFrameworkVersion>v3.5</TargetFrameworkVersion> <TargetFrameworkVersion>v3.5</TargetFrameworkVersion>
<Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform>
  <ReleaseVersion>0.11</ReleaseVersion>
  <SynchReleaseVersion>false</SynchReleaseVersion>
</PropertyGroup> </PropertyGroup>
<PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug_win|AnyCPU' "> <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug_win|AnyCPU' ">
<DebugSymbols>true</DebugSymbols> <DebugSymbols>true</DebugSymbols>
<DebugType>full</DebugType> <DebugType>full</DebugType>
<Optimize>false</Optimize> <Optimize>false</Optimize>
<OutputPath>bin\Debug</OutputPath> <OutputPath>bin\Debug</OutputPath>
<DefineConstants>DEBUG; TRACE</DefineConstants> <DefineConstants>DEBUG; TRACE</DefineConstants>
<ErrorReport>prompt</ErrorReport> <ErrorReport>prompt</ErrorReport>
<WarningLevel>4</WarningLevel> <WarningLevel>4</WarningLevel>
<ConsolePause>false</ConsolePause> <ConsolePause>false</ConsolePause>
<CustomCommands> <CustomCommands>
<CustomCommands> <CustomCommands>
<Command type="AfterBuild" command="xcopy /Y ${TargetFile} ..\..\..\Games\KSP_win\GameData\VOID\Plugins\" /> <Command type="AfterBuild" command="xcopy /Y ${TargetFile} ..\..\..\Games\KSP_win\GameData\VOID\Plugins\" />
</CustomCommands> </CustomCommands>
</CustomCommands> </CustomCommands>
</PropertyGroup> </PropertyGroup>
<PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release_win|AnyCPU' "> <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release_win|AnyCPU' ">
<Optimize>false</Optimize> <Optimize>false</Optimize>
<OutputPath>bin\Release</OutputPath> <OutputPath>bin\Release</OutputPath>
<ErrorReport>prompt</ErrorReport> <ErrorReport>prompt</ErrorReport>
<WarningLevel>4</WarningLevel> <WarningLevel>4</WarningLevel>
<ConsolePause>false</ConsolePause> <ConsolePause>false</ConsolePause>
<DefineConstants>TRACE</DefineConstants> <DefineConstants>TRACE</DefineConstants>
<CustomCommands> <CustomCommands>
<CustomCommands> <CustomCommands>
<Command type="AfterBuild" command="xcopy /Y ${TargetFile} ..\..\..\Games\KSP_win\GameData\VOID\Plugins\" /> <Command type="AfterBuild" command="xcopy /Y ${TargetFile} ..\..\..\Games\KSP_win\GameData\VOID\Plugins\" />
</CustomCommands> </CustomCommands>
</CustomCommands> </CustomCommands>
</PropertyGroup> </PropertyGroup>
<PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug_linux|AnyCPU' "> <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug_linux|AnyCPU' ">
<DebugSymbols>true</DebugSymbols> <DebugSymbols>true</DebugSymbols>
<DebugType>full</DebugType> <DebugType>full</DebugType>
<Optimize>false</Optimize> <Optimize>false</Optimize>
<OutputPath>bin\Debug</OutputPath> <OutputPath>bin\Debug</OutputPath>
<DefineConstants>DEBUG; TRACE</DefineConstants> <DefineConstants>DEBUG; TRACE</DefineConstants>
<ErrorReport>prompt</ErrorReport> <ErrorReport>prompt</ErrorReport>
<WarningLevel>4</WarningLevel> <WarningLevel>4</WarningLevel>
<ConsolePause>false</ConsolePause> <ConsolePause>false</ConsolePause>
<CustomCommands> <CustomCommands>
<CustomCommands> <CustomCommands>
<Command type="AfterBuild" command="cp -afv ${TargetFile} /opt/games/KSP_linux/GameData/${ProjectName}/Plugins/" /> <Command type="AfterBuild" command="cp -afv ${TargetFile} /opt/games/KSP_linux/GameData/${ProjectName}/Plugins/" />
</CustomCommands> </CustomCommands>
</CustomCommands> </CustomCommands>
</PropertyGroup> </PropertyGroup>
<PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release_linux|AnyCPU' "> <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release_linux|AnyCPU' ">
<Optimize>false</Optimize> <Optimize>false</Optimize>
<OutputPath>bin\Release</OutputPath> <OutputPath>bin\Release</OutputPath>
<DefineConstants>TRACE</DefineConstants> <DefineConstants>TRACE</DefineConstants>
<ErrorReport>prompt</ErrorReport> <ErrorReport>prompt</ErrorReport>
<WarningLevel>4</WarningLevel> <WarningLevel>4</WarningLevel>
<ConsolePause>false</ConsolePause> <ConsolePause>false</ConsolePause>
<CustomCommands> <CustomCommands>
<CustomCommands> <CustomCommands>
<Command type="AfterBuild" command="cp -afv ${TargetFile} /opt/games/KSP_linux/GameData/${ProjectName}/Plugins/" /> <Command type="AfterBuild" command="cp -afv ${TargetFile} /opt/games/KSP_linux/GameData/${ProjectName}/Plugins/" />
</CustomCommands> </CustomCommands>
</CustomCommands> </CustomCommands>
</PropertyGroup> </PropertyGroup>
<Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" />
<ItemGroup> <ItemGroup>
<Compile Include="IVOID_Module.cs" /> <Compile Include="IVOID_Module.cs" />
<Compile Include="VOIDFlightMaster.cs" /> <Compile Include="VOIDFlightMaster.cs" />
<Compile Include="VOID_Core.cs" /> <Compile Include="VOID_Core.cs" />
<Compile Include="VOID_Module.cs" /> <Compile Include="VOID_Module.cs" />
<Compile Include="VOID_HUD.cs" /> <Compile Include="VOID_HUD.cs" />
<Compile Include="VOID_SaveValue.cs" /> <Compile Include="VOID_SaveValue.cs" />
<Compile Include="VOID_Orbital.cs" /> <Compile Include="VOID_Orbital.cs" />
<Compile Include="VOID_SurfAtmo.cs" /> <Compile Include="VOID_SurfAtmo.cs" />
<Compile Include="VOID_VesselInfo.cs" /> <Compile Include="VOID_VesselInfo.cs" />
<Compile Include="VOID_Transfer.cs" /> <Compile Include="VOID_Transfer.cs" />
<Compile Include="VOID_CBInfoBrowser.cs" /> <Compile Include="VOID_CBInfoBrowser.cs" />
<Compile Include="VOID_Rendezvous.cs" /> <Compile Include="VOID_Rendezvous.cs" />
<Compile Include="VOID_VesselRegister.cs" /> <Compile Include="VOID_VesselRegister.cs" />
<Compile Include="VOID_DataLogger.cs" /> <Compile Include="VOID_DataLogger.cs" />
<Compile Include="VOID_EditorCore.cs" /> <Compile Include="VOID_EditorCore.cs" />
<Compile Include="VOID_EditorHUD.cs" /> <Compile Include="VOID_EditorHUD.cs" />
<Compile Include="VOID_DataValue.cs" /> <Compile Include="VOID_DataValue.cs" />
<Compile Include="VOIDEditorMaster.cs" /> <Compile Include="VOIDEditorMaster.cs" />
<Compile Include="VOID_Tools.cs" /> <Compile Include="VOID_Tools.cs" />
<Compile Include="VOID_Localization.cs" /> <Compile Include="VOID_Localization.cs" />
  <Compile Include="Properties\AssemblyInfo.cs" />
  <Compile Include="VOID_HUDAdvanced.cs" />
  <Compile Include="VOID_TWR.cs" />
</ItemGroup> </ItemGroup>
<ProjectExtensions> <ProjectExtensions>
<MonoDevelop> <MonoDevelop>
<Properties> <Properties>
<Policies> <Policies>
<TextStylePolicy FileWidth="120" TabsToSpaces="False" EolMarker="Unix" inheritsSet="VisualStudio" inheritsScope="text/plain" scope="text/plain" /> <TextStylePolicy FileWidth="120" TabsToSpaces="False" EolMarker="Unix" inheritsSet="VisualStudio" inheritsScope="text/plain" scope="text/plain" />
</Policies> </Policies>
</Properties> </Properties>
</MonoDevelop> </MonoDevelop>
</ProjectExtensions> </ProjectExtensions>
<ItemGroup> <ItemGroup>
<Reference Include="System"> <Reference Include="System">
<HintPath>..\_KSPAssemblies\System.dll</HintPath> <HintPath>..\_KSPAssemblies\System.dll</HintPath>
</Reference> </Reference>
<Reference Include="Assembly-CSharp"> <Reference Include="Assembly-CSharp">
<HintPath>..\_KSPAssemblies\Assembly-CSharp.dll</HintPath> <HintPath>..\_KSPAssemblies\Assembly-CSharp.dll</HintPath>
</Reference> </Reference>
<Reference Include="UnityEngine"> <Reference Include="UnityEngine">
<HintPath>..\_KSPAssemblies\UnityEngine.dll</HintPath> <HintPath>..\_KSPAssemblies\UnityEngine.dll</HintPath>
</Reference> </Reference>
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ProjectReference Include="..\ToadicusTools\ToadicusTools.csproj"> <ProjectReference Include="..\ToadicusTools\ToadicusTools.csproj">
<Project>{D48A5542-6655-4149-BC27-B27DF0466F1C}</Project> <Project>{D48A5542-6655-4149-BC27-B27DF0466F1C}</Project>
<Name>ToadicusTools</Name> <Name>ToadicusTools</Name>
</ProjectReference> </ProjectReference>
<ProjectReference Include="..\VesselSimulator\VesselSimulator.csproj"> <ProjectReference Include="..\VesselSimulator\VesselSimulator.csproj">
<Project>{30FD6C0B-D36E-462F-B0FF-F0FAC9C666CF}</Project> <Project>{30FD6C0B-D36E-462F-B0FF-F0FAC9C666CF}</Project>
<Name>VesselSimulator</Name> <Name>VesselSimulator</Name>
</ProjectReference> </ProjectReference>
</ItemGroup> </ItemGroup>
</Project> </Project>
   
// VOID // VOID
// //
// VOID_CBInfoBrowser.cs // VOID_CBInfoBrowser.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_CBInfoBrowser : VOID_WindowModule public class VOID_CBInfoBrowser : VOID_WindowModule
{ {
[AVOID_SaveValue("selectedBodyIdx1")] [AVOID_SaveValue("selectedBodyIdx1")]
protected VOID_SaveValue<int> selectedBodyIdx1 = 1; protected VOID_SaveValue<int> selectedBodyIdx1 = 1;
   
[AVOID_SaveValue("selectedBodyIdx2")] [AVOID_SaveValue("selectedBodyIdx2")]
protected VOID_SaveValue<int> selectedBodyIdx2 = 2; protected VOID_SaveValue<int> selectedBodyIdx2 = 2;
   
protected CelestialBody selectedBody1; protected CelestialBody selectedBody1;
protected CelestialBody selectedBody2; protected CelestialBody selectedBody2;
   
[AVOID_SaveValue("toggleOrbital")] [AVOID_SaveValue("toggleOrbital")]
protected VOID_SaveValue<bool> toggleOrbital = false; protected VOID_SaveValue<bool> toggleOrbital = false;
   
[AVOID_SaveValue("togglePhysical")] [AVOID_SaveValue("togglePhysical")]
protected VOID_SaveValue<bool> togglePhysical = false; protected VOID_SaveValue<bool> togglePhysical = false;
   
public VOID_CBInfoBrowser() public VOID_CBInfoBrowser()
{ {
this._Name = "Celestial Body Information Browser"; this._Name = "Celestial Body Information Browser";
   
this.WindowPos.x = 10; this.WindowPos.x = 10;
this.WindowPos.y = 85; this.WindowPos.y = 85;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
   
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("", GUILayout.ExpandWidth(true)); GUILayout.Label("", GUILayout.ExpandWidth(true));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
   
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
selectedBody1 = VOID_Core.Instance.allBodies[selectedBodyIdx1]; selectedBody1 = this.core.allBodies[selectedBodyIdx1];
selectedBody2 = VOID_Core.Instance.allBodies[selectedBodyIdx2]; selectedBody2 = this.core.allBodies[selectedBodyIdx2];
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("<", GUILayout.ExpandWidth(false))) if (GUILayout.Button("<", GUILayout.ExpandWidth(false)))
{ {
selectedBodyIdx1--; selectedBodyIdx1--;
if (selectedBodyIdx1 < 0) selectedBodyIdx1 = VOID_Core.Instance.allBodies.Count - 1; if (selectedBodyIdx1 < 0) selectedBodyIdx1 = this.core.allBodies.Count - 1;
} }
GUILayout.Label(VOID_Core.Instance.allBodies[selectedBodyIdx1].bodyName, VOID_Core.Instance.LabelStyles["center_bold"], GUILayout.ExpandWidth(true)); GUILayout.Label(this.core.allBodies[selectedBodyIdx1].bodyName, this.core.LabelStyles["center_bold"], GUILayout.ExpandWidth(true));
if (GUILayout.Button(">", GUILayout.ExpandWidth(false))) if (GUILayout.Button(">", GUILayout.ExpandWidth(false)))
{ {
selectedBodyIdx1++; selectedBodyIdx1++;
if (selectedBodyIdx1 > VOID_Core.Instance.allBodies.Count - 1) selectedBodyIdx1 = 0; if (selectedBodyIdx1 > this.core.allBodies.Count - 1) selectedBodyIdx1 = 0;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
GUILayout.EndVertical(); GUILayout.EndVertical();
   
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("<", GUILayout.ExpandWidth(false))) if (GUILayout.Button("<", GUILayout.ExpandWidth(false)))
{ {
selectedBodyIdx2--; selectedBodyIdx2--;
if (selectedBodyIdx2 < 0) selectedBodyIdx2 = VOID_Core.Instance.allBodies.Count - 1; if (selectedBodyIdx2 < 0) selectedBodyIdx2 = this.core.allBodies.Count - 1;
} }
GUILayout.Label(VOID_Core.Instance.allBodies[selectedBodyIdx2].bodyName, VOID_Core.Instance.LabelStyles["center_bold"], GUILayout.ExpandWidth(true)); GUILayout.Label(this.core.allBodies[selectedBodyIdx2].bodyName, this.core.LabelStyles["center_bold"], GUILayout.ExpandWidth(true));
if (GUILayout.Button(">", GUILayout.ExpandWidth(false))) if (GUILayout.Button(">", GUILayout.ExpandWidth(false)))
{ {
selectedBodyIdx2++; selectedBodyIdx2++;
if (selectedBodyIdx2 > VOID_Core.Instance.allBodies.Count - 1) selectedBodyIdx2 = 0; if (selectedBodyIdx2 > this.core.allBodies.Count - 1) selectedBodyIdx2 = 0;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
GUILayout.EndVertical(); GUILayout.EndVertical();
   
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
//toggle for orbital info chunk //toggle for orbital info chunk
if (GUILayout.Button("Orbital Characteristics", GUILayout.ExpandWidth(true))) toggleOrbital.value = !toggleOrbital; if (GUILayout.Button("Orbital Characteristics", GUILayout.ExpandWidth(true))) toggleOrbital.value = !toggleOrbital;
   
if (toggleOrbital) if (toggleOrbital)
{ {
//begin orbital into horizontal chunk //begin orbital into horizontal chunk
//print("begin orbital info section..."); //print("begin orbital info section...");
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
   
//begin orbital value labels column //begin orbital value labels column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
//print("printing row labels..."); //print("printing row labels...");
   
GUILayout.Label("Apoapsis:"); GUILayout.Label("Apoapsis:");
GUILayout.Label("Time to Ap:"); GUILayout.Label("Time to Ap:");
GUILayout.Label("Periapsis:"); GUILayout.Label("Periapsis:");
GUILayout.Label("Time to Pe:"); GUILayout.Label("Time to Pe:");
GUILayout.Label("Semi-major axis:"); GUILayout.Label("Semi-major axis:");
GUILayout.Label("Eccentricity:"); GUILayout.Label("Eccentricity:");
GUILayout.Label("Orbital period:"); GUILayout.Label("Orbital period:");
GUILayout.Label("Rotational period:"); GUILayout.Label("Rotational period:");
GUILayout.Label("Velocity:"); GUILayout.Label("Velocity:");
GUILayout.Label("Mean anomaly:"); GUILayout.Label("Mean anomaly:");
GUILayout.Label("True anomaly:"); GUILayout.Label("True anomaly:");
GUILayout.Label("Eccentric anomaly:"); GUILayout.Label("Eccentric anomaly:");
GUILayout.Label("Inclination:"); GUILayout.Label("Inclination:");
GUILayout.Label("Long. ascending node:"); GUILayout.Label("Long. ascending node:");
GUILayout.Label("Arg. of periapsis:"); GUILayout.Label("Arg. of periapsis:");
GUILayout.Label("Tidally locked:"); GUILayout.Label("Tidally locked:");
   
//end orbital value labels column //end orbital value labels column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//begin primary orbital values column //begin primary orbital values column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
body_OP_show_orbital_info(selectedBody1); body_OP_show_orbital_info(selectedBody1);
   
//end primary orbital values column //end primary orbital values column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//begin secondary orbital values column //begin secondary orbital values column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
body_OP_show_orbital_info(selectedBody2); body_OP_show_orbital_info(selectedBody2);
   
//end secondary orbital values column //end secondary orbital values column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//end orbital info horizontal chunk //end orbital info horizontal chunk
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
//toggle for physical info chunk //toggle for physical info chunk
if (GUILayout.Button("Physical Characteristics", GUILayout.ExpandWidth(true))) togglePhysical.value = !togglePhysical; if (GUILayout.Button("Physical Characteristics", GUILayout.ExpandWidth(true))) togglePhysical.value = !togglePhysical;
   
if (togglePhysical) if (togglePhysical)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
   
//begin physical info value label column //begin physical info value label column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
GUILayout.Label("Radius:"); GUILayout.Label("Radius:");
GUILayout.Label("Surface area:"); GUILayout.Label("Surface area:");
GUILayout.Label("Volume:"); GUILayout.Label("Volume:");
GUILayout.Label("Mass:"); GUILayout.Label("Mass:");
GUILayout.Label("Density:"); GUILayout.Label("Density:");
GUILayout.Label("Sphere of influence:"); GUILayout.Label("Sphere of influence:");
GUILayout.Label("Natural satellites:"); GUILayout.Label("Natural satellites:");
GUILayout.Label("Artificial satellites:"); GUILayout.Label("Artificial satellites:");
GUILayout.Label("Surface gravity:"); GUILayout.Label("Surface gravity:");
GUILayout.Label("Atmosphere altitude:"); GUILayout.Label("Atmosphere altitude:");
GUILayout.Label("Atmospheric O\u2082:"); GUILayout.Label("Atmospheric O\u2082:");
GUILayout.Label("Has ocean:"); GUILayout.Label("Has ocean:");
   
//end physical info value label column //end physical info value label column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//begin primary physical values column //begin primary physical values column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
body_OP_show_physical_info(selectedBody1); body_OP_show_physical_info(selectedBody1);
   
//end primary physical column //end primary physical column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//begin secondary physical values column //begin secondary physical values column
GUILayout.BeginVertical(GUILayout.Width(150)); GUILayout.BeginVertical(GUILayout.Width(150));
   
body_OP_show_physical_info(selectedBody2); body_OP_show_physical_info(selectedBody2);
   
//end target physical values column //end target physical values column
GUILayout.EndVertical(); GUILayout.EndVertical();
   
//end physical value horizontal chunk //end physical value horizontal chunk
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
GUI.DragWindow(); GUI.DragWindow();
} }
   
private void body_OP_show_orbital_info(CelestialBody body) private void body_OP_show_orbital_info(CelestialBody body)
{ {
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.ApA / 1000).ToString("##,#") + "km", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.ApA / 1000).ToString("##,#") + "km", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.timeToAp), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.timeToAp), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.PeA / 1000).ToString("##,#") + "km", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.PeA / 1000).ToString("##,#") + "km", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.timeToPe), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.timeToPe), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.semiMajorAxis / 1000).ToString("##,#") + "km", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.semiMajorAxis / 1000).ToString("##,#") + "km", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(body.orbit.eccentricity.ToString("F4") + "", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(body.orbit.eccentricity.ToString("F4") + "", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.period), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(VOID_Tools.ConvertInterval(body.orbit.period), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(VOID_Tools.ConvertInterval(body.rotationPeriod), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(VOID_Tools.ConvertInterval(body.rotationPeriod), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.orbitalSpeed / 1000).ToString("F2") + "km/s", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.orbitalSpeed / 1000).ToString("F2") + "km/s", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
// Toadicus edit: convert mean anomaly into degrees. // Toadicus edit: convert mean anomaly into degrees.
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.meanAnomaly * 180d / Math.PI).ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.meanAnomaly * 180d / Math.PI).ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(body.orbit.trueAnomaly.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(body.orbit.trueAnomaly.ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
// Toadicus edit: convert eccentric anomaly into degrees. // Toadicus edit: convert eccentric anomaly into degrees.
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label((body.orbit.eccentricAnomaly * 180d / Math.PI).ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label((body.orbit.eccentricAnomaly * 180d / Math.PI).ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(body.orbit.inclination.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(body.orbit.inclination.ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(body.orbit.LAN.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(body.orbit.LAN.ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(body.orbit.argumentOfPeriapsis.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(body.orbit.argumentOfPeriapsis.ToString("F3") + "°", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else else
{ {
string body_tidally_locked = "No"; string body_tidally_locked = "No";
if (body.tidallyLocked) body_tidally_locked = "Yes"; if (body.tidallyLocked) body_tidally_locked = "Yes";
GUILayout.Label(body_tidally_locked, VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(body_tidally_locked, this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
} }
} }
   
private void body_OP_show_physical_info(CelestialBody body) private void body_OP_show_physical_info(CelestialBody body)
{ {
   
GUILayout.Label((body.Radius / 1000).ToString("##,#") + "km", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label((body.Radius / 1000).ToString("##,#") + "km", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
GUILayout.Label(((Math.Pow((body.Radius), 2) * 4 * Math.PI) / 1000).ToString("0.00e+00") + "km²", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label((((body.Radius * body.Radius) * 4 * Math.PI) / 1000).ToString("0.00e+00") + "km²", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
// divide by 1000 to convert m to km // divide by 1000 to convert m to km
GUILayout.Label((((4d / 3) * Math.PI * Math.Pow(body.Radius, 3)) / 1000).ToString("0.00e+00") + "km³", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label((((4d / 3) * Math.PI * (body.Radius * body.Radius * body.Radius)) / 1000).ToString("0.00e+00") + "km³", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
GUILayout.Label(body.Mass.ToString("0.00e+00") + "kg", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(body.Mass.ToString("0.00e+00") + "kg", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
double p = body.Mass / (Math.Pow(body.Radius, 3) * (4d / 3) * Math.PI); double p = body.Mass / ((body.Radius * body.Radius * body.Radius) * (4d / 3) * Math.PI);
   
GUILayout.Label(p.ToString("##,#") + "kg/m³", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(p.ToString("##,#") + "kg/m³", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.bodyName == "Sun") GUILayout.Label(Tools.MuMech_ToSI(body.sphereOfInfluence), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); if (body.bodyName == "Sun") GUILayout.Label(Tools.MuMech_ToSI(body.sphereOfInfluence), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
else GUILayout.Label(Tools.MuMech_ToSI(body.sphereOfInfluence), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); else GUILayout.Label(Tools.MuMech_ToSI(body.sphereOfInfluence), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
GUILayout.Label(body.orbitingBodies.Count.ToString(), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(body.orbitingBodies.Count.ToString(), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
//show # artificial satellites //show # artificial satellites
int num_art_sats = 0; int num_art_sats = 0;
foreach (Vessel v in FlightGlobals.Vessels) foreach (Vessel v in FlightGlobals.Vessels)
{ {
if (v.mainBody == body && v.situation.ToString() == "ORBITING") num_art_sats++; if (v.mainBody == body && v.situation.ToString() == "ORBITING") num_art_sats++;
} }
   
GUILayout.Label(num_art_sats.ToString(), VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(num_art_sats.ToString(), this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
double g_ASL = (VOID_Core.Constant_G * body.Mass) / Math.Pow(body.Radius, 2); double g_ASL = (VOID_Core.Constant_G * body.Mass) / (body.Radius * body.Radius);
   
GUILayout.Label(Tools.MuMech_ToSI(g_ASL) + "m/s²", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(Tools.MuMech_ToSI(g_ASL) + "m/s²", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
   
if (body.atmosphere) if (body.atmosphere)
{ {
GUILayout.Label("≈ " + Tools.MuMech_ToSI(body.maxAtmosphereAltitude) + "m", GUILayout.Label("≈ " + Tools.MuMech_ToSI(body.maxAtmosphereAltitude) + "m",
VOID_Core.Instance.LabelStyles["right"], this.core.LabelStyles["right"],
GUILayout.ExpandWidth(true)); GUILayout.ExpandWidth(true));
   
string O2 = "No"; string O2 = "No";
if (body.atmosphereContainsOxygen == true) O2 = "Yes"; if (body.atmosphereContainsOxygen == true) O2 = "Yes";
GUILayout.Label(O2, VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(O2, this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
} }
else else
{ {
GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
GUILayout.Label("N/A", VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label("N/A", this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
} }
   
string ocean = "No"; string ocean = "No";
if (body.ocean == true) ocean = "Yes"; if (body.ocean == true) ocean = "Yes";
GUILayout.Label(ocean, VOID_Core.Instance.LabelStyles["right"], GUILayout.ExpandWidth(true)); GUILayout.Label(ocean, this.core.LabelStyles["right"], GUILayout.ExpandWidth(true));
} }
} }
} }
// VOID // VOID
// //
// VOID_Core.cs // VOID_Core.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using Engineer.VesselSimulator; using Engineer.VesselSimulator;
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using System.Linq; using System.Linq;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_Core : VOID_Module, IVOID_Module public class VOID_Core : VOID_Module, IVOID_Module
{ {
#region Singleton Members #region Singleton Members
/* /*
* Static Members * Static Members
* */ * */
protected static bool _initialized = false; protected static bool _initialized = false;
   
public static bool Initialized public static bool Initialized
{ {
get get
{ {
return _initialized; return _initialized;
} }
} }
   
protected static VOID_Core _instance; protected static VOID_Core _instance;
   
public static VOID_Core Instance public static VOID_Core Instance
{ {
get get
{ {
if (_instance == null) if (_instance == null)
{ {
_instance = new VOID_Core(); _instance = new VOID_Core();
_initialized = true; _initialized = true;
} }
return _instance; return _instance;
} }
} }
   
public static void Reset() public static void Reset()
{ {
_instance.StopGUI(); _instance.StopGUI();
_instance = null; _instance = null;
_initialized = false; _initialized = false;
} }
#endregion #endregion
   
public static double Constant_G = 6.674e-11; public static readonly double Constant_G = 6.674e-11;
   
/* /*
* Fields * Fields
* */ * */
protected string VoidName = "VOID"; protected string VoidName = "VOID";
protected string VoidVersion = "0.10.0"; protected string VoidVersion;
   
protected bool _factoryReset = false; protected bool _factoryReset = false;
   
[AVOID_SaveValue("configValue")] [AVOID_SaveValue("configValue")]
protected VOID_SaveValue<int> configVersion = 1; protected VOID_SaveValue<int> configVersion = 1;
   
protected List<IVOID_Module> _modules = new List<IVOID_Module>(); protected List<IVOID_Module> _modules = new List<IVOID_Module>();
protected bool _modulesLoaded = false; protected bool _modulesLoaded = false;
   
[AVOID_SaveValue("mainWindowPos")] [AVOID_SaveValue("mainWindowPos")]
protected VOID_SaveValue<Rect> mainWindowPos = new Rect(475, 575, 10f, 10f); protected VOID_SaveValue<Rect> mainWindowPos = new Rect(475, 575, 10f, 10f);
[AVOID_SaveValue("mainGuiMinimized")] [AVOID_SaveValue("mainGuiMinimized")]
protected VOID_SaveValue<bool> mainGuiMinimized = false; protected VOID_SaveValue<bool> mainGuiMinimized = false;
   
[AVOID_SaveValue("configWindowPos")] [AVOID_SaveValue("configWindowPos")]
protected VOID_SaveValue<Rect> configWindowPos = new Rect(825, 625, 10f, 10f); protected VOID_SaveValue<Rect> configWindowPos = new Rect(825, 625, 10f, 10f);
[AVOID_SaveValue("configWindowMinimized")] [AVOID_SaveValue("configWindowMinimized")]
   
protected VOID_SaveValue<bool> configWindowMinimized = true; protected VOID_SaveValue<bool> configWindowMinimized = true;
[AVOID_SaveValue("VOIDIconPos")] [AVOID_SaveValue("VOIDIconPos")]
protected VOID_SaveValue<Rect> VOIDIconPos = new Rect(Screen.width / 2 - 200, Screen.height - 32, 32f, 32f); protected VOID_SaveValue<Rect> VOIDIconPos = new Rect(Screen.width / 2 - 200, Screen.height - 32, 32f, 32f);
   
protected Texture2D VOIDIconTexture; protected Texture2D VOIDIconTexture;
protected string VOIDIconOnActivePath; protected string VOIDIconOnActivePath;
protected string VOIDIconOnInactivePath; protected string VOIDIconOnInactivePath;
protected string VOIDIconOffActivePath; protected string VOIDIconOffActivePath;
protected string VOIDIconOffInactivePath; protected string VOIDIconOffInactivePath;
   
protected bool VOIDIconLocked = true; protected bool VOIDIconLocked = true;
   
protected GUIStyle iconStyle; protected GUIStyle iconStyle;
   
protected int windowBaseID = -96518722; protected int windowBaseID = -96518722;
protected int _windowID = 0; protected int _windowID = 0;
   
protected bool GUIStylesLoaded = false; protected bool GUIStylesLoaded = false;
protected Dictionary<string, GUIStyle> _LabelStyles = new Dictionary<string, GUIStyle>(); protected Dictionary<string, GUIStyle> _LabelStyles = new Dictionary<string, GUIStyle>();
   
protected CelestialBody _Kerbin; protected CelestialBody _Kerbin;
   
[AVOID_SaveValue("togglePower")] [AVOID_SaveValue("togglePower")]
public VOID_SaveValue<bool> togglePower = true; public VOID_SaveValue<bool> togglePower = true;
public bool powerAvailable = true; public bool powerAvailable = true;
   
[AVOID_SaveValue("consumeResource")] [AVOID_SaveValue("consumeResource")]
protected VOID_SaveValue<bool> consumeResource = false; protected VOID_SaveValue<bool> consumeResource = false;
   
[AVOID_SaveValue("resourceName")] [AVOID_SaveValue("resourceName")]
protected VOID_SaveValue<string> resourceName = "ElectricCharge"; protected VOID_SaveValue<string> resourceName = "ElectricCharge";
   
[AVOID_SaveValue("resourceRate")] [AVOID_SaveValue("resourceRate")]
protected VOID_SaveValue<float> resourceRate = 0.2f; protected VOID_SaveValue<float> resourceRate = 0.2f;
   
[AVOID_SaveValue("updatePeriod")] [AVOID_SaveValue("updatePeriod")]
protected VOID_SaveValue<double> _updatePeriod = 1001f / 15000f; protected VOID_SaveValue<double> _updatePeriod = 1001f / 15000f;
protected float _updateTimer = 0f; protected float _updateTimer = 0f;
protected string stringFrequency; protected string stringFrequency;
   
[AVOID_SaveValue("vesselSimActive")] [AVOID_SaveValue("vesselSimActive")]
protected VOID_SaveValue<bool> vesselSimActive; protected VOID_SaveValue<bool> vesselSimActive;
   
// Vessel Type Housekeeping // Vessel Type Housekeeping
protected List<VesselType> _allVesselTypes = new List<VesselType>(); protected List<VesselType> _allVesselTypes = new List<VesselType>();
protected bool vesselTypesLoaded = false; protected bool vesselTypesLoaded = false;
public float saveTimer = 0; public float saveTimer = 0;
   
protected string defaultSkin = "KSP window 2"; protected string defaultSkin = "KSP window 2";
   
[AVOID_SaveValue("defaultSkin")] [AVOID_SaveValue("defaultSkin")]
protected VOID_SaveValue<string> _skinName; protected VOID_SaveValue<string> _skinName;
protected int _skinIdx; protected int _skinIdx;
   
protected Dictionary<string, GUISkin> validSkins; protected Dictionary<string, GUISkin> validSkins;
protected string[] skinNames; protected string[] skinNames;
protected string[] forbiddenSkins = protected string[] forbiddenSkins =
{ {
"PlaqueDialogSkin", "PlaqueDialogSkin",
"FlagBrowserSkin", "FlagBrowserSkin",
"SSUITextAreaDefault", "SSUITextAreaDefault",
"ExperimentsDialogSkin", "ExperimentsDialogSkin",
"ExpRecoveryDialogSkin", "ExpRecoveryDialogSkin",
"KSP window 5", "KSP window 5",
"KSP window 6", "KSP window 6",
"PartTooltipSkin" "PartTooltipSkin"
}; };
protected bool skinsLoaded = false; protected bool skinsLoaded = false;
   
public bool configDirty; public bool configDirty;
   
[AVOID_SaveValue("UseBlizzyToolbar")] [AVOID_SaveValue("UseBlizzyToolbar")]
protected VOID_SaveValue<bool> _UseToolbarManager; protected VOID_SaveValue<bool> _UseToolbarManager;
internal IButton ToolbarButton; internal IButton ToolbarButton;
   
/* /*
* Properties * Properties
* */ * */
public bool factoryReset public bool factoryReset
{ {
get get
{ {
return this._factoryReset; return this._factoryReset;
} }
} }
   
public List<IVOID_Module> Modules public List<IVOID_Module> Modules
{ {
get get
{ {
return this._modules; return this._modules;
} }
} }
   
public GUISkin Skin public GUISkin Skin
{ {
get get
{ {
if (this.skinsLoaded) if (this.skinsLoaded)
{ {
try try
{ {
return this.validSkins[this._skinName]; return this.validSkins[this._skinName];
} }
catch catch
{ {
} }
} }
   
return AssetBase.GetGUISkin(this.defaultSkin); return AssetBase.GetGUISkin(this.defaultSkin);
} }
} }
   
public int windowID public int windowID
{ {
get get
{ {
if (this._windowID == 0) if (this._windowID == 0)
{ {
this._windowID = this.windowBaseID; this._windowID = this.windowBaseID;
} }
return this._windowID++; return this._windowID++;
} }
} }
   
public Dictionary<string, GUIStyle> LabelStyles public Dictionary<string, GUIStyle> LabelStyles
{ {
get get
{ {
return this._LabelStyles; return this._LabelStyles;
} }
} }
   
public List<CelestialBody> allBodies public List<CelestialBody> allBodies
{ {
get get
{ {
return FlightGlobals.Bodies; return FlightGlobals.Bodies;
} }
} }
   
public CelestialBody Kerbin public CelestialBody Kerbin
{ {
get get
{ {
if (this._Kerbin == null) if (this._Kerbin == null)
{ {
if (FlightGlobals.Bodies != null) if (FlightGlobals.Bodies != null)
{ {
this._Kerbin = FlightGlobals.Bodies.First(b => b.name == "Kerbin"); this._Kerbin = FlightGlobals.Bodies.First(b => b.name == "Kerbin");
} }
} }
   
return this._Kerbin; return this._Kerbin;
} }
} }
   
public List<VesselType> allVesselTypes public List<VesselType> allVesselTypes
{ {
get get
{ {
return this._allVesselTypes; return this._allVesselTypes;
} }
} }
   
public float updateTimer public float updateTimer
{ {
get get
{ {
return this._updateTimer; return this._updateTimer;
} }
} }
   
public double updatePeriod public double updatePeriod
{ {
get get
{ {
return this._updatePeriod; return this._updatePeriod;
} }
} }
   
protected IconState powerState protected IconState powerState
{ {
get get
{ {
if (this.togglePower && this.powerAvailable) if (this.togglePower && this.powerAvailable)
{ {
return IconState.PowerOn; return IconState.PowerOn;
} }
else else
{ {
return IconState.PowerOff; return IconState.PowerOff;
} }
   
} }
} }
   
protected IconState activeState protected IconState activeState
{ {
get get
{ {
if (this.mainGuiMinimized) if (this.mainGuiMinimized)
{ {
return IconState.Inactive; return IconState.Inactive;
} }
else else
{ {
return IconState.Active; return IconState.Active;
} }
   
} }
} }
   
protected bool UseToolbarManager protected bool UseToolbarManager
{ {
get get
{ {
return _UseToolbarManager & ToolbarManager.ToolbarAvailable; return _UseToolbarManager & ToolbarManager.ToolbarAvailable;
} }
set set
{ {
if (this._UseToolbarManager == value) if (this._UseToolbarManager == value)
{ {
return; return;
} }
   
if (value == false && this.ToolbarButton != null) if (value == false && this.ToolbarButton != null)
{ {
this.ToolbarButton.Destroy(); this.ToolbarButton.Destroy();
this.ToolbarButton = null; this.ToolbarButton = null;
} }
if (value == true) if (value == true)
{ {
this.InitializeToolbarButton(); this.InitializeToolbarButton();
} }
   
_UseToolbarManager.value = value; _UseToolbarManager.value = value;
} }
} }
   
/* /*
* Methods * Methods
* */ * */
public override void DrawGUI() public override void DrawGUI()
{ {
this._windowID = this.windowBaseID; this._windowID = this.windowBaseID;
   
if (!this._modulesLoaded) if (!this._modulesLoaded)
{ {
this.LoadModulesOfType<IVOID_Module>(); this.LoadModulesOfType<IVOID_Module>();
} }
   
if (!this.skinsLoaded) if (!this.skinsLoaded)
{ {
this.LoadSkins(); this.LoadSkins();
} }
   
GUI.skin = this.Skin; GUI.skin = this.Skin;
   
if (!this.GUIStylesLoaded) if (!this.GUIStylesLoaded)
{ {
this.LoadGUIStyles(); this.LoadGUIStyles();
} }
   
if (!this.UseToolbarManager) if (!this.UseToolbarManager)
{ {
if (GUI.Button(VOIDIconPos, VOIDIconTexture, this.iconStyle) && this.VOIDIconLocked) if (GUI.Button(VOIDIconPos, VOIDIconTexture, this.iconStyle) && this.VOIDIconLocked)
{ {
this.ToggleMainWindow(); this.ToggleMainWindow();
} }
} }
else if (this.ToolbarButton == null) else if (this.ToolbarButton == null)
{ {
this.InitializeToolbarButton(); this.InitializeToolbarButton();
} }
   
if (!this.mainGuiMinimized) if (!this.mainGuiMinimized)
{ {
   
Rect _mainWindowPos = this.mainWindowPos; Rect _mainWindowPos = this.mainWindowPos;
   
_mainWindowPos = GUILayout.Window( _mainWindowPos = GUILayout.Window(
this.windowID, this.windowID,
_mainWindowPos, _mainWindowPos,
this.VOIDMainWindow, VOID_Tools.GetWindowHandler(this.VOIDMainWindow),
string.Join(" ", new string[] { this.VoidName, this.VoidVersion }), string.Join(" ", new string[] { this.VoidName, this.VoidVersion }),
GUILayout.Width(250), GUILayout.Width(250),
GUILayout.Height(50) GUILayout.Height(50)
); );
   
_mainWindowPos = Tools.ClampRectToScreen(_mainWindowPos); _mainWindowPos = Tools.ClampRectToScreen(_mainWindowPos);
   
if (_mainWindowPos != this.mainWindowPos) if (_mainWindowPos != this.mainWindowPos)
{ {
this.mainWindowPos = _mainWindowPos; this.mainWindowPos = _mainWindowPos;
} }
} }
   
if (!this.configWindowMinimized && !this.mainGuiMinimized) if (!this.configWindowMinimized && !this.mainGuiMinimized)
{ {
Rect _configWindowPos = this.configWindowPos; Rect _configWindowPos = this.configWindowPos;
   
_configWindowPos = GUILayout.Window( _configWindowPos = GUILayout.Window(
this.windowID, this.windowID,
_configWindowPos, _configWindowPos,
this.VOIDConfigWindow, VOID_Tools.GetWindowHandler(this.VOIDConfigWindow),
string.Join(" ", new string[] { this.VoidName, "Configuration" }), string.Join(" ", new string[] { this.VoidName, "Configuration" }),
GUILayout.Width(250), GUILayout.Width(250),
GUILayout.Height(50) GUILayout.Height(50)
); );
   
_configWindowPos = Tools.ClampRectToScreen(_configWindowPos); _configWindowPos = Tools.ClampRectToScreen(_configWindowPos);
   
if (_configWindowPos != this.configWindowPos) if (_configWindowPos != this.configWindowPos)
{ {
this.configWindowPos = _configWindowPos; this.configWindowPos = _configWindowPos;
} }
} }
} }
   
public void OnGUI() public void OnGUI()
{ {
if (Event.current.type == EventType.Repaint) if (Event.current.type == EventType.Repaint)
{ {
return; return;
} }
   
/* /*
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"Event.current.type: {0}" + "Event.current.type: {0}" +
"\nthis.VOIDIconLocked: {1}" + "\nthis.VOIDIconLocked: {1}" +
"\nEvent.current.mousePosition: {2}" + "\nEvent.current.mousePosition: {2}" +
"\nVOIDIconPos: ({3}, {4}),({5}, {6})", "\nVOIDIconPos: ({3}, {4}),({5}, {6})",
Event.current.type, Event.current.type,
this.VOIDIconLocked, this.VOIDIconLocked,
Event.current.mousePosition, Event.current.mousePosition,
this.VOIDIconPos.value.xMin, this.VOIDIconPos.value.xMin,
this.VOIDIconPos.value.yMin, this.VOIDIconPos.value.yMin,
this.VOIDIconPos.value.xMax, this.VOIDIconPos.value.xMax,
this.VOIDIconPos.value.yMax this.VOIDIconPos.value.yMax
)); ));
*/ */
   
if (!this.VOIDIconLocked && if (!this.VOIDIconLocked &&
VOIDIconPos.value.Contains(Event.current.mousePosition) VOIDIconPos.value.Contains(Event.current.mousePosition)
&& Event.current.type == EventType.mouseDrag) && Event.current.type == EventType.mouseDrag)
{ {
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"Event.current.type: {0}" + "Event.current.type: {0}" +
"\ndelta.x: {1}; delta.y: {2}", "\ndelta.x: {1}; delta.y: {2}",
Event.current.type, Event.current.type,
Event.current.delta.x, Event.current.delta.x,
Event.current.delta.y Event.current.delta.y
)); ));
   
Rect tmp = new Rect(VOIDIconPos); Rect tmp = new Rect(VOIDIconPos);
   
tmp.x = Event.current.mousePosition.x - tmp.width / 2; tmp.x = Event.current.mousePosition.x - tmp.width / 2;
tmp.y = Event.current.mousePosition.y - tmp.height / 2; tmp.y = Event.current.mousePosition.y - tmp.height / 2;
   
if (tmp.x > Screen.width - tmp.width) if (tmp.x > Screen.width - tmp.width)
{ {
tmp.x = Screen.width - tmp.width; tmp.x = Screen.width - tmp.width;
} }
   
if (tmp.y > Screen.height - tmp.height) if (tmp.y > Screen.height - tmp.height)
{ {
tmp.y = Screen.height - tmp.height; tmp.y = Screen.height - tmp.height;
} }
   
VOIDIconPos = tmp; VOIDIconPos = tmp;
} }
} }
   
public void Update() public void Update()
{ {
this.LoadBeforeUpdate(); this.LoadBeforeUpdate();
   
if (this.vessel != null && this.vesselSimActive) if (this.vessel != null && this.vesselSimActive)
{ {
SimManager.Gravity = VOID_Core.Instance.vessel.mainBody.gravParameter / double radius = this.vessel.Radius();
Math.Pow(VOID_Core.Instance.vessel.Radius(), 2); SimManager.Gravity = this.vessel.mainBody.gravParameter /
  (radius * radius);
SimManager.TryStartSimulation(); SimManager.TryStartSimulation();
} }
else if (!this.vesselSimActive) else if (!this.vesselSimActive)
{ {
SimManager.ClearResults(); SimManager.ClearResults();
} }
   
if (!this.guiRunning) if (!this.guiRunning)
{ {
this.StartGUI(); this.StartGUI();
} }
   
if (!HighLogic.LoadedSceneIsFlight && this.guiRunning) if (!HighLogic.LoadedSceneIsFlight && this.guiRunning)
{ {
this.StopGUI(); this.StopGUI();
} }
   
foreach (IVOID_Module module in this.Modules) foreach (IVOID_Module module in this.Modules)
{ {
if (!module.guiRunning && module.toggleActive) if (!module.guiRunning && module.toggleActive)
{ {
module.StartGUI(); module.StartGUI();
} }
if (module.guiRunning && !module.toggleActive || if (module.guiRunning && !module.toggleActive ||
!this.togglePower || !this.togglePower ||
!HighLogic.LoadedSceneIsFlight || !HighLogic.LoadedSceneIsFlight ||
this.factoryReset) this.factoryReset)
{ {
module.StopGUI(); module.StopGUI();
} }
   
if (module is IVOID_BehaviorModule) if (module is IVOID_BehaviorModule)
{ {
((IVOID_BehaviorModule)module).Update(); ((IVOID_BehaviorModule)module).Update();
} }
} }
   
this.CheckAndSave(); this.CheckAndSave();
this._updateTimer += Time.deltaTime; this._updateTimer += Time.deltaTime;
} }
   
public void FixedUpdate() public void FixedUpdate()
{ {
bool newPowerState = this.powerAvailable; bool newPowerState = this.powerAvailable;
   
if (this.togglePower && this.consumeResource && if (this.togglePower && this.consumeResource &&
this.vessel.vesselType != VesselType.EVA && this.vessel.vesselType != VesselType.EVA &&
TimeWarp.deltaTime != 0) TimeWarp.deltaTime != 0)
{ {
float powerReceived = this.vessel.rootPart.RequestResource( float powerReceived = this.vessel.rootPart.RequestResource(
this.resourceName, this.resourceName,
this.resourceRate * TimeWarp.fixedDeltaTime this.resourceRate * TimeWarp.fixedDeltaTime
); );
   
if (powerReceived > 0) if (powerReceived > 0)
{ {
newPowerState = true; newPowerState = true;
} }
else else
{ {
newPowerState = false; newPowerState = false;
} }
   
if (this.powerAvailable != newPowerState) if (this.powerAvailable != newPowerState)
{ {
this.powerAvailable = newPowerState; this.powerAvailable = newPowerState;
this.SetIconTexture(this.powerState | this.activeState); this.SetIconTexture(this.powerState | this.activeState);
} }
} }
   
foreach (IVOID_BehaviorModule module in foreach (IVOID_BehaviorModule module in
this._modules.OfType<IVOID_BehaviorModule>().Where(m => !m.GetType().IsAbstract)) this._modules.OfType<IVOID_BehaviorModule>().Where(m => !m.GetType().IsAbstract))
{ {
module.FixedUpdate(); module.FixedUpdate();
} }
} }
   
public void ResetGUI() public void ResetGUI()
{ {
this.StopGUI(); this.StopGUI();
   
foreach (IVOID_Module module in this.Modules) foreach (IVOID_Module module in this.Modules)
{ {
module.StopGUI(); module.StopGUI();
module.StartGUI(); module.StartGUI();
} }
   
this.StartGUI(); this.StartGUI();
} }
   
public void VOIDMainWindow(int _) public void VOIDMainWindow(int _)
{ {
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
if (this.powerAvailable || HighLogic.LoadedSceneIsEditor) if (this.powerAvailable || HighLogic.LoadedSceneIsEditor)
{ {
if (!HighLogic.LoadedSceneIsEditor) if (!HighLogic.LoadedSceneIsEditor)
{ {
string str = string.Intern("ON"); string str = string.Intern("ON");
if (togglePower) if (togglePower)
str = string.Intern("OFF"); str = string.Intern("OFF");
if (GUILayout.Button("Power " + str)) if (GUILayout.Button("Power " + str))
{ {
togglePower.value = !togglePower; togglePower.value = !togglePower;
this.SetIconTexture(this.powerState | this.activeState); this.SetIconTexture(this.powerState | this.activeState);
} }
} }
   
if (togglePower || HighLogic.LoadedSceneIsEditor) if (togglePower || HighLogic.LoadedSceneIsEditor)
{ {
foreach (IVOID_Module module in this.Modules) foreach (IVOID_Module module in this.Modules)
{ {
module.toggleActive = GUILayout.Toggle(module.toggleActive, module.Name); module.toggleActive = GUILayout.Toggle(module.toggleActive, module.Name);
} }
} }
} }
else else
{ {
GUILayout.Label("-- POWER LOST --", this.LabelStyles["red"]); GUILayout.Label("-- POWER LOST --", this.LabelStyles["red"]);
} }
   
this.configWindowMinimized.value = !GUILayout.Toggle(!this.configWindowMinimized, "Configuration"); this.configWindowMinimized.value = !GUILayout.Toggle(!this.configWindowMinimized, "Configuration");
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public void VOIDConfigWindow(int _) public void VOIDConfigWindow(int _)
{ {
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
this.DrawConfigurables(); this.DrawConfigurables();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public override void DrawConfigurables() public override void DrawConfigurables()
{ {
GUIContent _content; GUIContent _content;
   
if (HighLogic.LoadedSceneIsFlight) if (HighLogic.LoadedSceneIsFlight)
{ {
this.consumeResource.value = GUILayout.Toggle(this.consumeResource, "Consume Resources"); this.consumeResource.value = GUILayout.Toggle(this.consumeResource, "Consume Resources");
   
this.VOIDIconLocked = GUILayout.Toggle(this.VOIDIconLocked, "Lock Icon Position"); this.VOIDIconLocked = GUILayout.Toggle(this.VOIDIconLocked, "Lock Icon Position");
} }
   
this.UseToolbarManager = GUILayout.Toggle(this.UseToolbarManager, "Use Blizzy's Toolbar If Available"); this.UseToolbarManager = GUILayout.Toggle(this.UseToolbarManager, "Use Blizzy's Toolbar If Available");
   
this.vesselSimActive.value = GUILayout.Toggle(this.vesselSimActive.value, this.vesselSimActive.value = GUILayout.Toggle(this.vesselSimActive.value,
"Enable Engineering Calculations"); "Enable Engineering Calculations");
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
   
GUILayout.Label("Skin:", GUILayout.ExpandWidth(false)); GUILayout.Label("Skin:", GUILayout.ExpandWidth(false));
   
_content = new GUIContent(); _content = new GUIContent();
   
_content.text = "◄"; _content.text = "◄";
_content.tooltip = "Select previous skin"; _content.tooltip = "Select previous skin";
if (GUILayout.Button(_content, GUILayout.ExpandWidth(true))) if (GUILayout.Button(_content, GUILayout.ExpandWidth(true)))
{ {
this.GUIStylesLoaded = false; this.GUIStylesLoaded = false;
this._skinIdx--; this._skinIdx--;
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: new this._skinIdx = {1} :: skin_list.Count = {2}", "{0}: new this._skinIdx = {1} :: skin_list.Count = {2}",
this.GetType().Name, this.GetType().Name,
this._skinName, this._skinName,
this.validSkins.Count this.validSkins.Count
)); ));
} }
   
_content.text = this.Skin.name; _content.text = this.Skin.name;
_content.tooltip = "Current skin"; _content.tooltip = "Current skin";
GUILayout.Label(_content, this.LabelStyles["center"], GUILayout.ExpandWidth(true)); GUILayout.Label(_content, this.LabelStyles["center"], GUILayout.ExpandWidth(true));
   
_content.text = "►"; _content.text = "►";
_content.tooltip = "Select next skin"; _content.tooltip = "Select next skin";
if (GUILayout.Button(_content, GUILayout.ExpandWidth(true))) if (GUILayout.Button(_content, GUILayout.ExpandWidth(true)))
{ {
this.GUIStylesLoaded = false; this.GUIStylesLoaded = false;
this._skinIdx++; this._skinIdx++;
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: new this._skinIdx = {1} :: skin_list.Count = {2}", "{0}: new this._skinIdx = {1} :: skin_list.Count = {2}",
this.GetType().Name, this.GetType().Name,
this._skinName, this._skinName,
this.validSkins.Count this.validSkins.Count
)); ));
} }
   
this._skinIdx %= this.skinNames.Length; this._skinIdx %= this.skinNames.Length;
if (this._skinIdx < 0) if (this._skinIdx < 0)
{ {
this._skinIdx += this.skinNames.Length; this._skinIdx += this.skinNames.Length;
} }
   
if (this._skinName != skinNames[this._skinIdx]) if (this._skinName != skinNames[this._skinIdx])
{ {
this._skinName.value = skinNames[this._skinIdx]; this._skinName.value = skinNames[this._skinIdx];
} }
   
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(); GUILayout.BeginHorizontal();
GUILayout.Label("Update Rate (Hz):"); GUILayout.Label("Update Rate (Hz):");
if (this.stringFrequency == null) if (this.stringFrequency == null)
{ {
this.stringFrequency = (1f / this.updatePeriod).ToString(); this.stringFrequency = (1f / this.updatePeriod).ToString();
} }
this.stringFrequency = GUILayout.TextField(this.stringFrequency.ToString(), 5, GUILayout.ExpandWidth(true)); this.stringFrequency = GUILayout.TextField(this.stringFrequency.ToString(), 5, GUILayout.ExpandWidth(true));
// GUILayout.FlexibleSpace(); // GUILayout.FlexibleSpace();
if (GUILayout.Button("Apply")) if (GUILayout.Button("Apply"))
{ {
double updateFreq = 1f / this.updatePeriod; double updateFreq = 1f / this.updatePeriod;
double.TryParse(stringFrequency, out updateFreq); double.TryParse(stringFrequency, out updateFreq);
this._updatePeriod = 1 / updateFreq; this._updatePeriod = 1 / updateFreq;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
foreach (IVOID_Module mod in this.Modules) foreach (IVOID_Module mod in this.Modules)
{ {
mod.DrawConfigurables(); mod.DrawConfigurables();
} }
   
this._factoryReset = GUILayout.Toggle(this._factoryReset, "Factory Reset"); this._factoryReset = GUILayout.Toggle(this._factoryReset, "Factory Reset");
} }
   
protected void LoadModulesOfType<T>() protected void LoadModulesOfType<T>()
{ {
var types = AssemblyLoader.loadedAssemblies var types = AssemblyLoader.loadedAssemblies
.Select(a => a.assembly.GetExportedTypes()) .Select(a => a.assembly.GetExportedTypes())
.SelectMany(t => t) .SelectMany(t => t)
.Where(v => typeof(T).IsAssignableFrom(v) .Where(v => typeof(T).IsAssignableFrom(v)
&& !(v.IsInterface || v.IsAbstract) && && !(v.IsInterface || v.IsAbstract) &&
!typeof(VOID_Core).IsAssignableFrom(v) !typeof(VOID_Core).IsAssignableFrom(v)
); );
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: Found {1} modules to check.", "{0}: Found {1} modules to check.",
this.GetType().Name, this.GetType().Name,
types.Count() types.Count()
)); ));
foreach (var voidType in types) foreach (var voidType in types)
{ {
if (!HighLogic.LoadedSceneIsEditor && if (!HighLogic.LoadedSceneIsEditor &&
typeof(IVOID_EditorModule).IsAssignableFrom(voidType)) typeof(IVOID_EditorModule).IsAssignableFrom(voidType))
{ {
continue; continue;
} }
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: found Type {1}", "{0}: found Type {1}",
this.GetType().Name, this.GetType().Name,
voidType.Name voidType.Name
)); ));
   
this.LoadModule(voidType); this.LoadModule(voidType);
} }
   
this._modulesLoaded = true; this._modulesLoaded = true;
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: Loaded {1} modules.", "{0}: Loaded {1} modules.",
this.GetType().Name, this.GetType().Name,
this.Modules.Count this.Modules.Count
)); ));
} }
   
protected void LoadModule(Type T) protected void LoadModule(Type T)
{ {
var existingModules = this._modules.Where(mod => mod.GetType().Name == T.Name); var existingModules = this._modules.Where(mod => mod.GetType().Name == T.Name);
if (existingModules.Any()) if (existingModules.Any())
{ {
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: refusing to load {1}: already loaded", "{0}: refusing to load {1}: already loaded",
this.GetType().Name, this.GetType().Name,
T.Name T.Name
)); ));
return; return;
} }
IVOID_Module module = Activator.CreateInstance(T) as IVOID_Module; IVOID_Module module = Activator.CreateInstance(T) as IVOID_Module;
module.LoadConfig(); module.LoadConfig();
this._modules.Add(module); this._modules.Add(module);
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: loaded module {1}.", "{0}: loaded module {1}.",
this.GetType().Name, this.GetType().Name,
T.Name T.Name
)); ));
} }
   
protected void LoadSkins() protected void LoadSkins()
{ {
Tools.PostDebugMessage("AssetBase has skins: \n" + Tools.PostDebugMessage("AssetBase has skins: \n" +
string.Join("\n\t", string.Join("\n\t",
Resources.FindObjectsOfTypeAll(typeof(GUISkin)) Resources.FindObjectsOfTypeAll(typeof(GUISkin))
.Select(s => s.ToString()) .Select(s => s.ToString())
.ToArray() .ToArray()
) )
); );
   
this.validSkins = Resources.FindObjectsOfTypeAll(typeof(GUISkin)) this.validSkins = Resources.FindObjectsOfTypeAll(typeof(GUISkin))
.Where(s => !this.forbiddenSkins.Contains(s.name)) .Where(s => !this.forbiddenSkins.Contains(s.name))
.Select(s => s as GUISkin) .Select(s => s as GUISkin)
.GroupBy(s => s.name) .GroupBy(s => s.name)
.Select(g => g.First()) .Select(g => g.First())
.ToDictionary(s => s.name); .ToDictionary(s => s.name);
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: loaded {1} GUISkins.", "{0}: loaded {1} GUISkins.",
this.GetType().Name, this.GetType().Name,
this.validSkins.Count this.validSkins.Count
)); ));
   
this.skinNames = this.validSkins.Keys.ToArray(); this.skinNames = this.validSkins.Keys.ToArray();
Array.Sort(this.skinNames); Array.Sort(this.skinNames);
   
int defaultIdx = int.MinValue; int defaultIdx = int.MinValue;
   
for (int i = 0; i < this.skinNames.Length; i++) for (int i = 0; i < this.skinNames.Length; i++)
{ {
if (this.skinNames[i] == this._skinName) if (this.skinNames[i] == this._skinName)
{ {
this._skinIdx = i; this._skinIdx = i;
} }
if (this.skinNames[i] == this.defaultSkin) if (this.skinNames[i] == this.defaultSkin)
{ {
defaultIdx = i; defaultIdx = i;
} }
if (this._skinIdx != int.MinValue && defaultIdx != int.MinValue) if (this._skinIdx != int.MinValue && defaultIdx != int.MinValue)
{ {
break; break;
} }
} }
   
if (this._skinIdx == int.MinValue) if (this._skinIdx == int.MinValue)
{ {
this._skinIdx = defaultIdx; this._skinIdx = defaultIdx;
} }
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: _skinIdx = {1}.", "{0}: _skinIdx = {1}.",
this.GetType().Name, this.GetType().Name,
this._skinName.ToString() this._skinName.ToString()
)); ));
   
this.skinsLoaded = true; this.skinsLoaded = true;
} }
   
protected void LoadGUIStyles() protected void LoadGUIStyles()
{ {
this.LabelStyles["link"] = new GUIStyle(GUI.skin.label); this.LabelStyles["link"] = new GUIStyle(GUI.skin.label);
this.LabelStyles["link"].fontStyle = FontStyle.Bold; this.LabelStyles["link"].fontStyle = FontStyle.Bold;
   
this.LabelStyles["center"] = new GUIStyle(GUI.skin.label); this.LabelStyles["center"] = new GUIStyle(GUI.skin.label);
this.LabelStyles["center"].normal.textColor = Color.white; this.LabelStyles["center"].normal.textColor = Color.white;
this.LabelStyles["center"].alignment = TextAnchor.UpperCenter; this.LabelStyles["center"].alignment = TextAnchor.UpperCenter;
   
this.LabelStyles["center_bold"] = new GUIStyle(GUI.skin.label); this.LabelStyles["center_bold"] = new GUIStyle(GUI.skin.label);
this.LabelStyles["center_bold"].normal.textColor = Color.white; this.LabelStyles["center_bold"].normal.textColor = Color.white;
this.LabelStyles["center_bold"].alignment = TextAnchor.UpperCenter; this.LabelStyles["center_bold"].alignment = TextAnchor.UpperCenter;
this.LabelStyles["center_bold"].fontStyle = FontStyle.Bold; this.LabelStyles["center_bold"].fontStyle = FontStyle.Bold;
   
this.LabelStyles["right"] = new GUIStyle(GUI.skin.label); this.LabelStyles["right"] = new GUIStyle(GUI.skin.label);
this.LabelStyles["right"].normal.textColor = Color.white; this.LabelStyles["right"].normal.textColor = Color.white;
this.LabelStyles["right"].alignment = TextAnchor.UpperRight; this.LabelStyles["right"].alignment = TextAnchor.UpperRight;
   
this.LabelStyles["red"] = new GUIStyle(GUI.skin.label); this.LabelStyles["red"] = new GUIStyle(GUI.skin.label);
this.LabelStyles["red"].normal.textColor = Color.red; this.LabelStyles["red"].normal.textColor = Color.red;
this.LabelStyles["red"].alignment = TextAnchor.MiddleCenter; this.LabelStyles["red"].alignment = TextAnchor.MiddleCenter;
   
this.iconStyle = new GUIStyle(GUI.skin.button); this.iconStyle = new GUIStyle(GUI.skin.button);
this.iconStyle.padding = new RectOffset(0, 0, 0, 0); this.iconStyle.padding = new RectOffset(0, 0, 0, 0);
// this.iconStyle.margin = new RectOffset(0, 0, 0, 0); // this.iconStyle.margin = new RectOffset(0, 0, 0, 0);
// this.iconStyle.contentOffset = new Vector2(0, 0); // this.iconStyle.contentOffset = new Vector2(0, 0);
this.iconStyle.overflow = new RectOffset(0, 0, 0, 0); this.iconStyle.overflow = new RectOffset(0, 0, 0, 0);
// this.iconStyle.border = new RectOffset(0, 0, 0, 0); // this.iconStyle.border = new RectOffset(0, 0, 0, 0);
   
this.GUIStylesLoaded = true; this.GUIStylesLoaded = true;
} }
   
protected void LoadVesselTypes() protected void LoadVesselTypes()
{ {
this._allVesselTypes = Enum.GetValues(typeof(VesselType)).OfType<VesselType>().ToList(); this._allVesselTypes = Enum.GetValues(typeof(VesselType)).OfType<VesselType>().ToList();
this.vesselTypesLoaded = true; this.vesselTypesLoaded = true;
} }
   
protected void LoadBeforeUpdate() protected void LoadBeforeUpdate()
{ {
if (!this.vesselTypesLoaded) if (!this.vesselTypesLoaded)
{ {
this.LoadVesselTypes(); this.LoadVesselTypes();
} }
} }
   
protected void InitializeToolbarButton() protected void InitializeToolbarButton()
{ {
// Do nothing if the Toolbar is not available. // Do nothing if the Toolbar is not available.
if (!ToolbarManager.ToolbarAvailable) if (!ToolbarManager.ToolbarAvailable)
{ {
return; return;
} }
   
this.ToolbarButton = ToolbarManager.Instance.add(this.VoidName, "coreToggle"); this.ToolbarButton = ToolbarManager.Instance.add(this.VoidName, "coreToggle");
this.ToolbarButton.Text = this.VoidName; this.ToolbarButton.Text = this.VoidName;
this.SetIconTexture(this.powerState | this.activeState); this.SetIconTexture(this.powerState | this.activeState);
   
this.ToolbarButton.Visibility = new GameScenesVisibility(GameScenes.EDITOR, GameScenes.FLIGHT, GameScenes.SPH); this.ToolbarButton.Visibility = new GameScenesVisibility(GameScenes.EDITOR, GameScenes.FLIGHT, GameScenes.SPH);
   
this.ToolbarButton.OnClick += this.ToolbarButton.OnClick +=
(e) => (e) =>
{ {
this.ToggleMainWindow(); this.ToggleMainWindow();
}; };
   
Tools.PostDebugMessage(string.Format("{0}: Toolbar Button initialized.", this.GetType().Name)); Tools.PostDebugMessage(string.Format("{0}: Toolbar Button initialized.", this.GetType().Name));
} }
   
protected void ToggleMainWindow() protected void ToggleMainWindow()
{ {
this.mainGuiMinimized = !this.mainGuiMinimized; this.mainGuiMinimized = !this.mainGuiMinimized;
this.SetIconTexture(this.powerState | this.activeState); this.SetIconTexture(this.powerState | this.activeState);
} }
   
protected void SetIconTexture(IconState state) protected void SetIconTexture(IconState state)
{ {
switch (state) switch (state)
{ {
case (IconState.PowerOff | IconState.Inactive): case (IconState.PowerOff | IconState.Inactive):
this.SetIconTexture(this.VOIDIconOffInactivePath); this.SetIconTexture(this.VOIDIconOffInactivePath);
break; break;
case (IconState.PowerOff | IconState.Active): case (IconState.PowerOff | IconState.Active):
this.SetIconTexture(this.VOIDIconOffActivePath); this.SetIconTexture(this.VOIDIconOffActivePath);
break; break;
case (IconState.PowerOn | IconState.Inactive): case (IconState.PowerOn | IconState.Inactive):
this.SetIconTexture(this.VOIDIconOnInactivePath); this.SetIconTexture(this.VOIDIconOnInactivePath);
break; break;
case (IconState.PowerOn | IconState.Active): case (IconState.PowerOn | IconState.Active):
this.SetIconTexture(this.VOIDIconOnActivePath); this.SetIconTexture(this.VOIDIconOnActivePath);
break; break;
default: default:
throw new NotImplementedException(); throw new NotImplementedException();
} }
} }
   
protected void SetIconTexture(string texturePath) protected void SetIconTexture(string texturePath)
{ {
if (this.ToolbarButton != null) if (this.ToolbarButton != null)
{ {
this.ToolbarButton.TexturePath = texturePath; this.ToolbarButton.TexturePath = texturePath;
} }
   
this.VOIDIconTexture = GameDatabase.Instance.GetTexture(texturePath, false); this.VOIDIconTexture = GameDatabase.Instance.GetTexture(texturePath, false);
} }
   
protected void CheckAndSave() protected void CheckAndSave()
{ {
this.saveTimer += Time.deltaTime; this.saveTimer += Time.deltaTime;
   
if (this.saveTimer > 2f) if (this.saveTimer > 2f)
{ {
if (!this.configDirty) if (!this.configDirty)
{ {
return; return;
} }
   
Tools.PostDebugMessage(string.Format( Tools.PostDebugMessage(string.Format(
"{0}: Time to save, checking if configDirty: {1}", "{0}: Time to save, checking if configDirty: {1}",
this.GetType().Name, this.GetType().Name,
this.configDirty this.configDirty
)); ));
   
this.SaveConfig(); this.SaveConfig();
this.saveTimer = 0; this.saveTimer = 0;
} }
} }
   
public override void LoadConfig() public override void LoadConfig()
{ {
base.LoadConfig(); base.LoadConfig();
   
foreach (IVOID_Module module in this.Modules) foreach (IVOID_Module module in this.Modules)
{ {
module.LoadConfig(); module.LoadConfig();
} }
} }
   
public void SaveConfig() public void SaveConfig()
{ {
var config = KSP.IO.PluginConfiguration.CreateForType<VOID_Core>(); var config = KSP.IO.PluginConfiguration.CreateForType<VOID_Core>();
config.load(); config.load();
   
this._SaveToConfig(config); this._SaveToConfig(config);
   
foreach (IVOID_Module module in this.Modules) foreach (IVOID_Module module in this.Modules)
{ {
module._SaveToConfig(config); module._SaveToConfig(config);
} }
   
config.save(); config.save();
   
this.configDirty = false; this.configDirty = false;
} }
   
protected VOID_Core() protected VOID_Core()
{ {
this._Name = "VOID Core"; this._Name = "VOID Core";
   
  System.Version version = this.GetType().Assembly.GetName().Version;
   
  this.VoidVersion = string.Format("{0}.{1}.{2}", version.Major, version.Minor, version.MajorRevision);
   
this._Active.value = true; this._Active.value = true;
   
this._skinName = this.defaultSkin; this._skinName = this.defaultSkin;
this._skinIdx = int.MinValue; this._skinIdx = int.MinValue;
   
this.VOIDIconOnInactivePath = "VOID/Textures/void_icon_light_glow"; this.VOIDIconOnInactivePath = "VOID/Textures/void_icon_light_glow";
this.VOIDIconOnActivePath = "VOID/Textures/void_icon_dark_glow"; this.VOIDIconOnActivePath = "VOID/Textures/void_icon_dark_glow";
this.VOIDIconOffInactivePath = "VOID/Textures/void_icon_light"; this.VOIDIconOffInactivePath = "VOID/Textures/void_icon_light";
this.VOIDIconOffActivePath = "VOID/Textures/void_icon_dark"; this.VOIDIconOffActivePath = "VOID/Textures/void_icon_dark";
   
this.vesselSimActive = true; this.vesselSimActive = true;
   
this.UseToolbarManager = false; this.UseToolbarManager = false;
   
this.LoadConfig(); this.LoadConfig();
   
this.SetIconTexture(this.powerState | this.activeState); this.SetIconTexture(this.powerState | this.activeState);
} }
   
protected enum IconState protected enum IconState
{ {
PowerOff = 1, PowerOff = 1,
PowerOn = 2, PowerOn = 2,
Inactive = 4, Inactive = 4,
Active = 8 Active = 8
} }
} }
   
public static partial class VOID_Data public static partial class VOID_Data
{ {
public static VOID_Core core public static VOID_Core core
{ {
get get
{ {
return VOID_Core.Instance; if (HighLogic.LoadedSceneIsEditor)
  {
  return VOID_EditorCore.Instance;
  }
  else
  {
  return VOID_Core.Instance;
  }
} }
} }
   
public static double KerbinGee public static double KerbinGee
{ {
get get
{ {
return core.Kerbin.gravParameter / Math.Pow(core.Kerbin.Radius, 2); return core.Kerbin.gravParameter / (core.Kerbin.Radius * core.Kerbin.Radius);
} }
} }
} }
} }
   
   
// VOID // VOID
// //
// VOID_DataLogger.cs // VOID_DataLogger.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_DataLogger : VOID_WindowModule, IVOID_BehaviorModule public class VOID_DataLogger : VOID_WindowModule, IVOID_BehaviorModule
{ {
/* /*
* Fields * Fields
* */ * */
protected bool stopwatch1_running; protected bool stopwatch1_running;
   
protected bool csv_logging; protected bool csv_logging;
protected bool first_write; protected bool first_write;
   
protected double stopwatch1; protected double stopwatch1;
   
protected string csv_log_interval_str; protected string csv_log_interval_str;
   
protected float csv_log_interval; protected float csv_log_interval;
   
protected double csvWriteTimer; protected double csvWriteTimer;
protected double csvCollectTimer; protected double csvCollectTimer;
   
protected List<string> csvList = new List<string>(); protected List<string> csvList = new List<string>();
   
/* /*
* Properties * Properties
* */ * */
   
   
/* /*
* Methods * Methods
* */ * */
public VOID_DataLogger() public VOID_DataLogger()
{ {
this._Name = "CSV Data Logger"; this._Name = "CSV Data Logger";
   
this.stopwatch1_running = false; this.stopwatch1_running = false;
   
this.csv_logging = false; this.csv_logging = false;
this.first_write = true; this.first_write = true;
   
this.stopwatch1 = 0; this.stopwatch1 = 0;
this.csv_log_interval_str = "0.5"; this.csv_log_interval_str = "0.5";
   
this.csvWriteTimer = 0; this.csvWriteTimer = 0;
this.csvCollectTimer = 0; this.csvCollectTimer = 0;
   
this.WindowPos.x = Screen.width - 520; this.WindowPos.x = Screen.width - 520;
this.WindowPos.y = 85; this.WindowPos.y = 85;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
GUIStyle txt_white = new GUIStyle(GUI.skin.label); GUIStyle txt_white = new GUIStyle(GUI.skin.label);
txt_white.normal.textColor = txt_white.focused.textColor = Color.white; txt_white.normal.textColor = txt_white.focused.textColor = Color.white;
txt_white.alignment = TextAnchor.UpperRight; txt_white.alignment = TextAnchor.UpperRight;
GUIStyle txt_green = new GUIStyle(GUI.skin.label); GUIStyle txt_green = new GUIStyle(GUI.skin.label);
txt_green.normal.textColor = txt_green.focused.textColor = Color.green; txt_green.normal.textColor = txt_green.focused.textColor = Color.green;
txt_green.alignment = TextAnchor.UpperRight; txt_green.alignment = TextAnchor.UpperRight;
GUIStyle txt_yellow = new GUIStyle(GUI.skin.label); GUIStyle txt_yellow = new GUIStyle(GUI.skin.label);
txt_yellow.normal.textColor = txt_yellow.focused.textColor = Color.yellow; txt_yellow.normal.textColor = txt_yellow.focused.textColor = Color.yellow;
txt_yellow.alignment = TextAnchor.UpperRight; txt_yellow.alignment = TextAnchor.UpperRight;
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
GUILayout.Label("System time: " + DateTime.Now.ToString("HH:mm:ss")); GUILayout.Label("System time: " + DateTime.Now.ToString("HH:mm:ss"));
GUILayout.Label(VOID_Tools.ConvertInterval(stopwatch1)); GUILayout.Label(VOID_Tools.ConvertInterval(stopwatch1));
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("Start")) if (GUILayout.Button("Start"))
{ {
if (stopwatch1_running == false) stopwatch1_running = true; if (stopwatch1_running == false) stopwatch1_running = true;
} }
if (GUILayout.Button("Stop")) if (GUILayout.Button("Stop"))
{ {
if (stopwatch1_running == true) stopwatch1_running = false; if (stopwatch1_running == true) stopwatch1_running = false;
} }
if (GUILayout.Button("Reset")) if (GUILayout.Button("Reset"))
{ {
if (stopwatch1_running == true) stopwatch1_running = false; if (stopwatch1_running == true) stopwatch1_running = false;
stopwatch1 = 0; stopwatch1 = 0;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUIStyle label_style = txt_white; GUIStyle label_style = txt_white;
string log_label = "Inactive"; string log_label = "Inactive";
if (csv_logging && vessel.situation.ToString() == "PRELAUNCH") if (csv_logging && vessel.situation.ToString() == "PRELAUNCH")
{ {
log_label = "Awaiting launch"; log_label = "Awaiting launch";
label_style = txt_yellow; label_style = txt_yellow;
} }
if (csv_logging && vessel.situation.ToString() != "PRELAUNCH") if (csv_logging && vessel.situation.ToString() != "PRELAUNCH")
{ {
log_label = "Active"; log_label = "Active";
label_style = txt_green; label_style = txt_green;
} }
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
csv_logging = GUILayout.Toggle(csv_logging, "Data logging: ", GUILayout.ExpandWidth(false)); csv_logging = GUILayout.Toggle(csv_logging, "Data logging: ", GUILayout.ExpandWidth(false));
GUILayout.Label(log_label, label_style, GUILayout.ExpandWidth(true)); GUILayout.Label(log_label, label_style, GUILayout.ExpandWidth(true));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Interval: ", GUILayout.ExpandWidth(false)); GUILayout.Label("Interval: ", GUILayout.ExpandWidth(false));
csv_log_interval_str = GUILayout.TextField(csv_log_interval_str, GUILayout.ExpandWidth(true)); csv_log_interval_str = GUILayout.TextField(csv_log_interval_str, GUILayout.ExpandWidth(true));
GUILayout.Label("s", GUILayout.ExpandWidth(false)); GUILayout.Label("s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
float new_log_interval; float new_log_interval;
if (Single.TryParse(csv_log_interval_str, out new_log_interval)) csv_log_interval = new_log_interval; if (Single.TryParse(csv_log_interval_str, out new_log_interval)) csv_log_interval = new_log_interval;
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public void Update() public void Update()
{ {
// CSV Logging // CSV Logging
// from ISA MapSat // from ISA MapSat
if (csv_logging) if (csv_logging)
{ {
//data logging is on //data logging is on
//increment timers //increment timers
csvWriteTimer += Time.deltaTime; csvWriteTimer += Time.deltaTime;
csvCollectTimer += Time.deltaTime; csvCollectTimer += Time.deltaTime;
   
if (csvCollectTimer >= csv_log_interval && vessel.situation != Vessel.Situations.PRELAUNCH) if (csvCollectTimer >= csv_log_interval && vessel.situation != Vessel.Situations.PRELAUNCH)
{ {
//data logging is on, vessel is not prelaunch, and interval has passed //data logging is on, vessel is not prelaunch, and interval has passed
//write a line to the list //write a line to the list
line_to_csvList(); //write to the csv line_to_csvList(); //write to the csv
} }
   
if (csvList.Count != 0 && csvWriteTimer >= 15f) if (csvList.Count != 0 && csvWriteTimer >= 15f)
{ {
// csvList is not empty and interval between writings to file has elapsed // csvList is not empty and interval between writings to file has elapsed
//write it //write it
string[] csvData; string[] csvData;
csvData = (string[])csvList.ToArray(); csvData = (string[])csvList.ToArray();
Innsewerants_writeData(csvData); Innsewerants_writeData(csvData);
csvList.Clear(); csvList.Clear();
csvWriteTimer = 0f; csvWriteTimer = 0f;
} }
} }
else else
{ {
//data logging is off //data logging is off
//reset any timers and clear anything from csvList //reset any timers and clear anything from csvList
csvWriteTimer = 0f; csvWriteTimer = 0f;
csvCollectTimer = 0f; csvCollectTimer = 0f;
if (csvList.Count > 0) csvList.Clear(); if (csvList.Count > 0) csvList.Clear();
} }
   
if (stopwatch1_running) if (stopwatch1_running)
{ {
stopwatch1 += Time.deltaTime; stopwatch1 += Time.deltaTime;
} }
} }
   
public void FixedUpdate() {} public void FixedUpdate() {}
   
private void Innsewerants_writeData(string[] csvArray) private void Innsewerants_writeData(string[] csvArray)
{ {
var efile = KSP.IO.File.AppendText<VOID_Core>(vessel.vesselName + "_data.csv", null); var efile = KSP.IO.File.AppendText<VOID_Core>(vessel.vesselName + "_data.csv", null);
foreach (string line in csvArray) foreach (string line in csvArray)
{ {
efile.Write(line); efile.Write(line);
} }
efile.Close(); efile.Close();
} }
   
private void line_to_csvList() private void line_to_csvList()
{ {
//called if logging is on and interval has passed //called if logging is on and interval has passed
//writes one line to the csvList //writes one line to the csvList
   
string line = ""; string line = "";
if (first_write && !KSP.IO.File.Exists<VOID_Core>(vessel.vesselName + "_data.csv", null)) if (first_write && !KSP.IO.File.Exists<VOID_Core>(vessel.vesselName + "_data.csv", null))
{ {
first_write = false; first_write = false;
line += "Mission Elapsed Time (s);Altitude ASL (m);Altitude above terrain (m);Orbital Velocity (m/s);Surface Velocity (m/s);Vertical Speed (m/s);Horizontal Speed (m/s);Gee Force (gees);Temperature (°C);Gravity (m/s²);Atmosphere Density (g/m³);\n"; line += "Mission Elapsed Time (s);Altitude ASL (m);Altitude above terrain (m);Orbital Velocity (m/s);Surface Velocity (m/s);Vertical Speed (m/s);Horizontal Speed (m/s);Gee Force (gees);Temperature (°C);Gravity (m/s²);Atmosphere Density (g/m³);\n";
} }
//Mission time //Mission time
line += vessel.missionTime.ToString("F3") + ";"; line += vessel.missionTime.ToString("F3") + ";";
//Altitude ASL //Altitude ASL
line += vessel.orbit.altitude.ToString("F3") + ";"; line += vessel.orbit.altitude.ToString("F3") + ";";
//Altitude (true) //Altitude (true)
double alt_true = vessel.orbit.altitude - vessel.terrainAltitude; double alt_true = vessel.orbit.altitude - vessel.terrainAltitude;
if (vessel.terrainAltitude < 0) alt_true = vessel.orbit.altitude; if (vessel.terrainAltitude < 0) alt_true = vessel.orbit.altitude;
line += alt_true.ToString("F3") + ";"; line += alt_true.ToString("F3") + ";";
//Orbital velocity //Orbital velocity
line += vessel.orbit.vel.magnitude.ToString("F3") + ";"; line += vessel.orbit.vel.magnitude.ToString("F3") + ";";
//surface velocity //surface velocity
line += vessel.srf_velocity.magnitude.ToString("F3") + ";"; line += vessel.srf_velocity.magnitude.ToString("F3") + ";";
//vertical speed //vertical speed
line += vessel.verticalSpeed.ToString("F3") + ";"; line += vessel.verticalSpeed.ToString("F3") + ";";
//horizontal speed //horizontal speed
line += vessel.horizontalSrfSpeed.ToString("F3") + ";"; line += vessel.horizontalSrfSpeed.ToString("F3") + ";";
//gee force //gee force
line += vessel.geeForce.ToString("F3") + ";"; line += vessel.geeForce.ToString("F3") + ";";
//temperature //temperature
line += vessel.flightIntegrator.getExternalTemperature().ToString("F2") + ";"; line += vessel.flightIntegrator.getExternalTemperature().ToString("F2") + ";";
//gravity //gravity
double r_vessel = vessel.mainBody.Radius + vessel.mainBody.GetAltitude(vessel.findWorldCenterOfMass()); double r_vessel = vessel.mainBody.Radius + vessel.mainBody.GetAltitude(vessel.findWorldCenterOfMass());
double g_vessel = (VOID_Core.Constant_G * vessel.mainBody.Mass) / Math.Pow(r_vessel, 2); double g_vessel = (VOID_Core.Constant_G * vessel.mainBody.Mass) / (r_vessel * r_vessel);
line += g_vessel.ToString("F3") + ";"; line += g_vessel.ToString("F3") + ";";
//atm density //atm density
line += (vessel.atmDensity * 1000).ToString("F3") + ";"; line += (vessel.atmDensity * 1000).ToString("F3") + ";";
line += "\n"; line += "\n";
if (csvList.Contains(line) == false) csvList.Add(line); if (csvList.Contains(line) == false) csvList.Add(line);
csvCollectTimer = 0f; csvCollectTimer = 0f;
} }
} }
} }
// VOID // VOID
// //
// VOID_DataValue.cs // VOID_DataValue.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using System; using System;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public interface IVOID_DataValue public interface IVOID_DataValue
{ {
void Refresh(); void Refresh();
string ValueUnitString(); string ValueUnitString();
void DoGUIHorizontal(); void DoGUIHorizontal();
} }
   
public class VOID_DataValue<T> : IVOID_DataValue public class VOID_DataValue<T> : IVOID_DataValue
{ {
/* /*
* Static Members * Static Members
* */ * */
public static implicit operator T(VOID_DataValue<T> v) public static implicit operator T(VOID_DataValue<T> v)
{ {
return (T)v.Value; return (T)v.Value;
} }
   
/* /*
* Instance Members * Instance Members
* */ * */
/* /*
* Fields * Fields
* */ * */
protected T cache; protected T cache;
protected Func<T> ValueFunc; protected Func<T> ValueFunc;
protected float lastUpdate; protected float lastUpdate;
   
/* /*
* Properties * Properties
* */ * */
public string Label { get; protected set; } public string Label { get; protected set; }
public string Units { get; protected set; } public string Units { get; protected set; }
   
public T Value public T Value
{ {
get get
{ {
if ( if (
  HighLogic.LoadedSceneIsEditor ||
(VOID_Core.Instance.updateTimer - this.lastUpdate > VOID_Core.Instance.updatePeriod) || (VOID_Core.Instance.updateTimer - this.lastUpdate > VOID_Core.Instance.updatePeriod) ||
(this.lastUpdate > VOID_Core.Instance.updateTimer) (this.lastUpdate > VOID_Core.Instance.updateTimer)
) )
{ {
this.Refresh(); this.Refresh();
} }
return (T)this.cache; return (T)this.cache;
} }
} }
   
/* /*
* Methods * Methods
* */ * */
public VOID_DataValue(string Label, Func<T> ValueFunc, string Units = "") public VOID_DataValue(string Label, Func<T> ValueFunc, string Units = "")
{ {
this.Label = Label; this.Label = Label;
this.Units = Units; this.Units = Units;
this.ValueFunc = ValueFunc; this.ValueFunc = ValueFunc;
this.lastUpdate = 0; this.lastUpdate = 0;
} }
   
public void Refresh() public void Refresh()
{ {
this.cache = this.ValueFunc.Invoke (); this.cache = this.ValueFunc.Invoke ();
this.lastUpdate = VOID_Core.Instance.updateTimer; this.lastUpdate = VOID_Core.Instance.updateTimer;
} }
   
public T GetFreshValue() public T GetFreshValue()
{ {
this.Refresh (); this.Refresh ();
return (T)this.cache; return (T)this.cache;
} }
   
public string ValueUnitString() { public virtual string ValueUnitString() {
return this.Value.ToString() + this.Units; return this.Value.ToString() + this.Units;
} }
   
public virtual void DoGUIHorizontal() public virtual void DoGUIHorizontal()
{ {
GUILayout.BeginHorizontal (GUILayout.ExpandWidth (true)); GUILayout.BeginHorizontal (GUILayout.ExpandWidth (true));
GUILayout.Label (this.Label + ":"); GUILayout.Label (this.Label + ":");
GUILayout.FlexibleSpace (); GUILayout.FlexibleSpace ();
GUILayout.Label (this.ValueUnitString(), GUILayout.ExpandWidth (false)); GUILayout.Label (this.ValueUnitString(), GUILayout.ExpandWidth (false));
GUILayout.EndHorizontal (); GUILayout.EndHorizontal ();
} }
   
public override string ToString() public override string ToString()
{ {
return string.Format ( return string.Format (
"{0}: {1}{2}", "{0}: {1}{2}",
this.Label, this.Label,
this.Value.ToString (), this.Value.ToString (),
this.Units this.Units
); );
} }
} }
   
public abstract class VOID_NumValue<T> : VOID_DataValue<T> public abstract class VOID_NumValue<T> : VOID_DataValue<T>
where T : IFormattable, IConvertible, IComparable where T : IFormattable, IConvertible, IComparable
{ {
public static implicit operator Double(VOID_NumValue<T> v) public static implicit operator Double(VOID_NumValue<T> v)
{ {
return v.ToDouble(); return v.ToDouble();
} }
   
public static implicit operator Int32(VOID_NumValue<T> v) public static implicit operator Int32(VOID_NumValue<T> v)
{ {
return v.ToInt32(); return v.ToInt32();
} }
   
   
public static implicit operator Single(VOID_NumValue<T> v) public static implicit operator Single(VOID_NumValue<T> v)
{ {
return v.ToSingle(); return v.ToSingle();
} }
   
   
protected IFormatProvider formatProvider; protected IFormatProvider formatProvider;
   
public VOID_NumValue(string Label, Func<T> ValueFunc, string Units = "") : base(Label, ValueFunc, Units) public VOID_NumValue(string Label, Func<T> ValueFunc, string Units = "") : base(Label, ValueFunc, Units)
{ {
this.formatProvider = System.Globalization.CultureInfo.CurrentUICulture; this.formatProvider = System.Globalization.CultureInfo.CurrentUICulture;
} }
   
public virtual double ToDouble(IFormatProvider provider) public virtual double ToDouble(IFormatProvider provider)
{ {
return this.Value.ToDouble(provider); return this.Value.ToDouble(provider);
} }
   
public virtual double ToDouble() public virtual double ToDouble()
{ {
return this.ToDouble(this.formatProvider); return this.ToDouble(this.formatProvider);
} }
   
public virtual int ToInt32(IFormatProvider provider) public virtual int ToInt32(IFormatProvider provider)
{ {
return this.Value.ToInt32(provider); return this.Value.ToInt32(provider);
} }
   
public virtual int ToInt32() public virtual int ToInt32()
{ {
return this.ToInt32(this.formatProvider); return this.ToInt32(this.formatProvider);
} }
   
public virtual float ToSingle(IFormatProvider provider) public virtual float ToSingle(IFormatProvider provider)
{ {
return this.Value.ToSingle(provider); return this.Value.ToSingle(provider);
} }
   
public virtual float ToSingle() public virtual float ToSingle()
{ {
return this.ToSingle(this.formatProvider); return this.ToSingle(this.formatProvider);
} }
   
public virtual string ToString(string Format) public virtual string ToString(string Format)
{ {
return string.Format ( return string.Format (
"{0}: {1}{2}", "{0}: {1}{2}",
this.Label, this.Label,
this.Value.ToString(Format, this.formatProvider), this.Value.ToString(Format, this.formatProvider),
this.Units this.Units
); );
} }
   
public virtual string ToSIString(int digits = 3, int MinMagnitude = 0, int MaxMagnitude = int.MaxValue) public virtual string ToSIString(int digits = 3, int MinMagnitude = 0, int MaxMagnitude = int.MaxValue)
{ {
return string.Format ( return string.Format (
"{0}{1}", "{0}{1}",
Tools.MuMech_ToSI (this, digits, MinMagnitude, MaxMagnitude), Tools.MuMech_ToSI (this, digits, MinMagnitude, MaxMagnitude),
this.Units this.Units
); );
} }
   
public virtual string ValueUnitString(string format) public virtual string ValueUnitString(string format)
{ {
return this.Value.ToString(format, this.formatProvider) + this.Units; return this.Value.ToString(format, this.formatProvider) + this.Units;
} }
public virtual string ValueUnitString(int digits) { public virtual string ValueUnitString(int digits) {
return Tools.MuMech_ToSI(this, digits) + this.Units; return Tools.MuMech_ToSI(this, digits) + this.Units;
} }
   
public virtual string ValueUnitString(int digits, int MinMagnitude, int MaxMagnitude) public virtual string ValueUnitString(int digits, int MinMagnitude, int MaxMagnitude)
{ {
return Tools.MuMech_ToSI(this, digits, MinMagnitude, MaxMagnitude) + this.Units; return Tools.MuMech_ToSI(this, digits, MinMagnitude, MaxMagnitude) + this.Units;
} }
   
public virtual void DoGUIHorizontal(string format) public virtual void DoGUIHorizontal(string format)
{ {
GUILayout.BeginHorizontal (GUILayout.ExpandWidth (true)); GUILayout.BeginHorizontal (GUILayout.ExpandWidth (true));
GUILayout.Label (this.Label + ":"); GUILayout.Label (this.Label + ":");
GUILayout.FlexibleSpace (); GUILayout.FlexibleSpace ();
GUILayout.Label (this.ValueUnitString(format), GUILayout.ExpandWidth (false)); GUILayout.Label (this.ValueUnitString(format), GUILayout.ExpandWidth (false));
GUILayout.EndHorizontal (); GUILayout.EndHorizontal ();
} }
   
public virtual int DoGUIHorizontal(int digits, bool precisionButton = true) public virtual int DoGUIHorizontal(int digits, bool precisionButton = true)
{ {
if (precisionButton) if (precisionButton)
{ {
return this.DoGUIHorizontalPrec(digits); return this.DoGUIHorizontalPrec(digits);
} }
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label(this.Label + ":", GUILayout.ExpandWidth(true)); GUILayout.Label(this.Label + ":", GUILayout.ExpandWidth(true));
GUILayout.FlexibleSpace(); GUILayout.FlexibleSpace();
GUILayout.Label(this.ValueUnitString(digits), GUILayout.ExpandWidth(false)); GUILayout.Label(this.ValueUnitString(digits), GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
return digits; return digits;
} }
   
public virtual int DoGUIHorizontalPrec(int digits) public virtual int DoGUIHorizontalPrec(int digits)
{ {
double magnitude; double magnitude;
double magLimit; double magLimit;
   
magnitude = Math.Log10(Math.Abs((double)this)); magnitude = Math.Log10(Math.Abs((double)this));
   
magLimit = Math.Max(Math.Abs(magnitude), 3d) + 3d; magLimit = Math.Max(Math.Abs(magnitude), 3d) + 3d;
magLimit = Math.Round(Math.Ceiling(magLimit / 3f)) * 3d; magLimit = Math.Round(Math.Ceiling(magLimit / 3f)) * 3d;
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label(this.Label + "ⁱ:", GUILayout.ExpandWidth(true)); GUILayout.Label(this.Label + "ⁱ:", GUILayout.ExpandWidth(true));
GUILayout.FlexibleSpace(); GUILayout.FlexibleSpace();
   
if (magnitude >= 0) if (magnitude >= 0)
{ {
GUILayout.Label(this.ValueUnitString(3, int.MinValue, (int)magnitude - digits), GUILayout.ExpandWidth(false)); GUILayout.Label(this.ValueUnitString(3, int.MinValue, (int)magnitude - digits), GUILayout.ExpandWidth(false));
} }
else else
{ {
GUILayout.Label(this.ValueUnitString(3, (int)magnitude + digits, int.MaxValue), GUILayout.ExpandWidth(false)); GUILayout.Label(this.ValueUnitString(3, (int)magnitude + digits, int.MaxValue), GUILayout.ExpandWidth(false));
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
if (Event.current.type == EventType.mouseUp) if (Event.current.type == EventType.mouseUp)
{ {
Rect lastRect = GUILayoutUtility.GetLastRect(); Rect lastRect = GUILayoutUtility.GetLastRect();
if (lastRect.Contains(Event.current.mousePosition)) if (lastRect.Contains(Event.current.mousePosition))
{ {
Tools.PostDebugMessage(string.Format("{0}: Changing digits from {1} within magLimit {2}.", Tools.PostDebugMessage(string.Format("{0}: Changing digits from {1} within magLimit {2}.",
this.GetType().Name, this.GetType().Name,
digits, digits,
magLimit)); magLimit));
   
if (Event.current.button == 0) if (Event.current.button == 0)
{ {
digits = (digits + 3) % (int)magLimit; digits = (digits + 3) % (int)magLimit;
} }
else if (Event.current.button == 1) else if (Event.current.button == 1)
{ {
digits = (digits - 3) % (int)magLimit; digits = (digits - 3) % (int)magLimit;
} }
   
if (digits < 0) if (digits < 0)
{ {
digits += (int)magLimit; digits += (int)magLimit;
} }
   
Tools.PostDebugMessage(string.Format("{0}: Changed digits to {1}." + Tools.PostDebugMessage(string.Format("{0}: Changed digits to {1}." +
"\n\tNew minMagnitude: {2}, maxMagnitude: {3}" + "\n\tNew minMagnitude: {2}, maxMagnitude: {3}" +
"\n\tMagnitude: {4}", "\n\tMagnitude: {4}",
this.GetType().Name, this.GetType().Name,
digits, digits,
magnitude >= 0 ? int.MinValue : (int)magnitude - 4 + digits, magnitude >= 0 ? int.MinValue : (int)magnitude - 4 + digits,
magnitude >= 0 ? (int)magnitude - digits : int.MaxValue, magnitude >= 0 ? (int)magnitude - digits : int.MaxValue,
magnitude magnitude
)); ));
} }
} }
   
return digits; return digits;
} }
} }
   
public class VOID_DoubleValue : VOID_NumValue<double> public class VOID_DoubleValue : VOID_NumValue<double>
{ {
public VOID_DoubleValue(string Label, Func<double> ValueFunc, string Units) : base(Label, ValueFunc, Units) {} public VOID_DoubleValue(string Label, Func<double> ValueFunc, string Units) : base(Label, ValueFunc, Units) {}
} }
   
public class VOID_FloatValue : VOID_NumValue<float> public class VOID_FloatValue : VOID_NumValue<float>
{ {
public VOID_FloatValue(string Label, Func<float> ValueFunc, string Units) : base(Label, ValueFunc, Units) {} public VOID_FloatValue(string Label, Func<float> ValueFunc, string Units) : base(Label, ValueFunc, Units) {}
} }
   
public class VOID_IntValue : VOID_NumValue<int> public class VOID_IntValue : VOID_NumValue<int>
{ {
public VOID_IntValue(string Label, Func<int> ValueFunc, string Units) : base(Label, ValueFunc, Units) {} public VOID_IntValue(string Label, Func<int> ValueFunc, string Units) : base(Label, ValueFunc, Units) {}
} }
   
public class VOID_StrValue : VOID_DataValue<string> public class VOID_StrValue : VOID_DataValue<string>
{ {
public VOID_StrValue(string Label, Func<string> ValueFunc) : base(Label, ValueFunc, "") {} public VOID_StrValue(string Label, Func<string> ValueFunc) : base(Label, ValueFunc, "") {}
} }
   
  public class VOID_Vector3dValue : VOID_DataValue<Vector3d>
  {
  public VOID_Vector3dValue(string Label, Func<Vector3d> ValueFunc, string Units)
  : base(Label, ValueFunc, Units)
  {}
   
  public string ToString(string format)
  {
  return string.Format("{0}: {1}{2}",
  this.Label,
  this.Value.ToString(format),
  this.Units
  );
  }
   
  public string ValueUnitString(string format) {
  return this.Value.ToString(format) + this.Units;
  }
  }
} }
   
   
// VOID // VOID
// //
// VOID_HUD.cs // VOID_HUD.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using Engineer.VesselSimulator; using Engineer.VesselSimulator;
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using System.Text; using System.Text;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_HUD : VOID_Module, IVOID_Module public class VOID_HUD : VOID_Module, IVOID_Module
{ {
/* /*
* Fields * Fields
* */ * */
[AVOID_SaveValue("colorIndex")] [AVOID_SaveValue("colorIndex")]
protected VOID_SaveValue<int> _colorIndex; protected VOID_SaveValue<int> _colorIndex;
   
protected List<Color> textColors; protected List<Color> textColors;
   
protected Rect leftHUDdefaultPos; protected Rect leftHUDdefaultPos;
protected Rect rightHUDdefaultPos; protected Rect rightHUDdefaultPos;
   
[AVOID_SaveValue("leftHUDPos")] [AVOID_SaveValue("leftHUDPos")]
protected VOID_SaveValue<Rect> leftHUDPos; protected VOID_SaveValue<Rect> leftHUDPos;
[AVOID_SaveValue("rightHUDPos")] [AVOID_SaveValue("rightHUDPos")]
protected VOID_SaveValue<Rect> rightHUDPos; protected VOID_SaveValue<Rect> rightHUDPos;
   
[AVOID_SaveValue("positionsLocked")] [AVOID_SaveValue("positionsLocked")]
protected VOID_SaveValue<bool> positionsLocked; protected VOID_SaveValue<bool> positionsLocked;
   
/* /*
* Properties * Properties
* */ * */
public int ColorIndex public int ColorIndex
{ {
get get
{ {
return this._colorIndex; return this._colorIndex;
} }
set set
{ {
if (this._colorIndex >= this.textColors.Count - 1) if (this._colorIndex >= this.textColors.Count - 1)
{ {
this._colorIndex = 0; this._colorIndex = 0;
return; return;
} }
   
this._colorIndex = value; this._colorIndex = value;
} }
} }
   
/* /*
* Methods * Methods
* */ * */
public VOID_HUD() : base() public VOID_HUD() : base()
{ {
this._Name = "Heads-Up Display"; this._Name = "Heads-Up Display";
   
this._Active.value = true; this._Active.value = true;
   
this._colorIndex = 0; this._colorIndex = 0;
   
this.textColors = new List<Color>(); this.textColors = new List<Color>();
   
this.textColors.Add(Color.green); this.textColors.Add(Color.green);
this.textColors.Add(Color.black); this.textColors.Add(Color.black);
this.textColors.Add(Color.white); this.textColors.Add(Color.white);
this.textColors.Add(Color.red); this.textColors.Add(Color.red);
this.textColors.Add(Color.blue); this.textColors.Add(Color.blue);
this.textColors.Add(Color.yellow); this.textColors.Add(Color.yellow);
this.textColors.Add(Color.gray); this.textColors.Add(Color.gray);
this.textColors.Add(Color.cyan); this.textColors.Add(Color.cyan);
this.textColors.Add(Color.magenta); this.textColors.Add(Color.magenta);
   
this.leftHUDdefaultPos = new Rect(Screen.width * .375f - 300f, 0f, 300f, 90f); this.leftHUDdefaultPos = new Rect(Screen.width * .375f - 300f, 0f, 300f, 90f);
this.leftHUDPos = new Rect(this.leftHUDdefaultPos); this.leftHUDPos = new Rect(this.leftHUDdefaultPos);
   
this.rightHUDdefaultPos = new Rect(Screen.width * .625f, 0f, 300f, 90f); this.rightHUDdefaultPos = new Rect(Screen.width * .625f, 0f, 300f, 90f);
this.rightHUDPos = new Rect(this.rightHUDdefaultPos); this.rightHUDPos = new Rect(this.rightHUDdefaultPos);
   
this.positionsLocked = true; this.positionsLocked = true;
   
Tools.PostDebugMessage ("VOID_HUD: Constructed."); Tools.PostDebugMessage ("VOID_HUD: Constructed.");
} }
   
protected void leftHUDWindow(int id) protected void leftHUDWindow(int id)
{ {
StringBuilder leftHUD; StringBuilder leftHUD;
   
leftHUD = new StringBuilder(); leftHUD = new StringBuilder();
   
VOID_Core.Instance.LabelStyles["hud"].alignment = TextAnchor.UpperRight; this.core.LabelStyles["hud"].alignment = TextAnchor.UpperRight;
   
if (VOID_Core.Instance.powerAvailable) if (this.core.powerAvailable)
{ {
leftHUD.AppendFormat("Primary: {0} Inc: {1}", leftHUD.AppendFormat("Primary: {0} Inc: {1}",
VOID_Data.primaryName.ValueUnitString(), VOID_Data.primaryName.ValueUnitString(),
VOID_Data.orbitInclination.ValueUnitString("F3") VOID_Data.orbitInclination.ValueUnitString("F3")
); );
leftHUD.AppendFormat("\nObt Alt: {0} Obt Vel: {1}", leftHUD.AppendFormat("\nObt Alt: {0} Obt Vel: {1}",
VOID_Data.orbitAltitude.ToSIString(), VOID_Data.orbitAltitude.ToSIString(),
VOID_Data.orbitVelocity.ToSIString() VOID_Data.orbitVelocity.ToSIString()
); );
leftHUD.AppendFormat("\nAp: {0} ETA {1}", leftHUD.AppendFormat("\nAp: {0} ETA {1}",
VOID_Data.orbitApoAlt.ToSIString(), VOID_Data.orbitApoAlt.ToSIString(),
VOID_Data.timeToApo.ValueUnitString() VOID_Data.timeToApo.ValueUnitString()
); );
leftHUD.AppendFormat("\nPe: {0} ETA {1}", leftHUD.AppendFormat("\nPe: {0} ETA {1}",
VOID_Data.oribtPeriAlt.ToSIString(), VOID_Data.oribtPeriAlt.ToSIString(),
VOID_Data.timeToPeri.ValueUnitString() VOID_Data.timeToPeri.ValueUnitString()
); );
leftHUD.AppendFormat("\nTot Δv: {0} Stg Δv: {1}", leftHUD.AppendFormat("\nTot Δv: {0} Stg Δv: {1}",
VOID_Data.totalDeltaV.ToSIString(2), VOID_Data.totalDeltaV.ToSIString(2),
VOID_Data.stageDeltaV.ToSIString(2) VOID_Data.stageDeltaV.ToSIString(2)
); );
} }
else else
{ {
VOID_Core.Instance.LabelStyles["hud"].normal.textColor = Color.red; this.core.LabelStyles["hud"].normal.textColor = Color.red;
leftHUD.Append(string.Intern("-- POWER LOST --")); leftHUD.Append(string.Intern("-- POWER LOST --"));
} }
   
GUILayout.Label(leftHUD.ToString(), VOID_Core.Instance.LabelStyles["hud"], GUILayout.ExpandWidth(true)); GUILayout.Label(leftHUD.ToString(), this.core.LabelStyles["hud"], GUILayout.ExpandWidth(true));
   
if (!this.positionsLocked) if (!this.positionsLocked)
{ {
GUI.DragWindow(); GUI.DragWindow();
} }
   
GUI.BringWindowToBack(id); GUI.BringWindowToBack(id);
} }
   
protected void rightHUDWindow(int id) protected void rightHUDWindow(int id)
{ {
StringBuilder rightHUD; StringBuilder rightHUD;
   
rightHUD = new StringBuilder(); rightHUD = new StringBuilder();
   
VOID_Core.Instance.LabelStyles["hud"].alignment = TextAnchor.UpperLeft; this.core.LabelStyles["hud"].alignment = TextAnchor.UpperLeft;
   
if (VOID_Core.Instance.powerAvailable) if (this.core.powerAvailable)
{ {
rightHUD.AppendFormat("Biome: {0} Sit: {1}", rightHUD.AppendFormat("Biome: {0} Sit: {1}",
VOID_Data.currBiome.ValueUnitString(), VOID_Data.currBiome.ValueUnitString(),
VOID_Data.expSituation.ValueUnitString() VOID_Data.expSituation.ValueUnitString()
); );
rightHUD.AppendFormat("\nSrf Alt: {0} Srf Vel: {1}", rightHUD.AppendFormat("\nSrf Alt: {0} Srf Vel: {1}",
VOID_Data.trueAltitude.ToSIString(), VOID_Data.trueAltitude.ToSIString(),
VOID_Data.surfVelocity.ToSIString() VOID_Data.surfVelocity.ToSIString()
); );
rightHUD.AppendFormat("\nVer: {0} Hor: {1}", rightHUD.AppendFormat("\nVer: {0} Hor: {1}",
VOID_Data.vertVelocity.ToSIString(), VOID_Data.vertVelocity.ToSIString(),
VOID_Data.horzVelocity.ToSIString() VOID_Data.horzVelocity.ToSIString()
); );
rightHUD.AppendFormat("\nLat: {0} Lon: {1}", rightHUD.AppendFormat("\nLat: {0} Lon: {1}",
VOID_Data.surfLatitude.ValueUnitString(), VOID_Data.surfLatitude.ValueUnitString(),
VOID_Data.surfLongitude.ValueUnitString() VOID_Data.surfLongitude.ValueUnitString()
); );
rightHUD.AppendFormat("\nHdg: {0} Pit: {1}", rightHUD.AppendFormat("\nHdg: {0} Pit: {1}",
VOID_Data.vesselHeading.ValueUnitString(), VOID_Data.vesselHeading.ValueUnitString(),
VOID_Data.vesselPitch.ToSIString(2) VOID_Data.vesselPitch.ToSIString(2)
); );
} }
else else
{ {
VOID_Core.Instance.LabelStyles["hud"].normal.textColor = Color.red; this.core.LabelStyles["hud"].normal.textColor = Color.red;
rightHUD.Append(string.Intern("-- POWER LOST --")); rightHUD.Append(string.Intern("-- POWER LOST --"));
} }
   
   
GUILayout.Label(rightHUD.ToString(), VOID_Core.Instance.LabelStyles["hud"], GUILayout.ExpandWidth(true)); GUILayout.Label(rightHUD.ToString(), this.core.LabelStyles["hud"], GUILayout.ExpandWidth(true));
   
if (!this.positionsLocked) if (!this.positionsLocked)
{ {
GUI.DragWindow(); GUI.DragWindow();
} }
   
GUI.BringWindowToBack(id); GUI.BringWindowToBack(id);
} }
   
public override void DrawGUI() public override void DrawGUI()
{ {
if (!VOID_Core.Instance.LabelStyles.ContainsKey("hud")) if (!this.core.LabelStyles.ContainsKey("hud"))
{ {
VOID_Core.Instance.LabelStyles["hud"] = new GUIStyle(GUI.skin.label); this.core.LabelStyles["hud"] = new GUIStyle(GUI.skin.label);
} }
   
VOID_Core.Instance.LabelStyles["hud"].normal.textColor = textColors [ColorIndex]; this.core.LabelStyles["hud"].normal.textColor = textColors [ColorIndex];
   
if ((TimeWarp.WarpMode == TimeWarp.Modes.LOW) || (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate)) if ((TimeWarp.WarpMode == TimeWarp.Modes.LOW) || (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate))
{ {
SimManager.RequestSimulation(); SimManager.RequestSimulation();
} }
   
this.leftHUDPos.value = GUI.Window( this.leftHUDPos.value = GUI.Window(
VOID_Core.Instance.windowID, this.core.windowID,
this.leftHUDPos, this.leftHUDPos,
this.leftHUDWindow, this.leftHUDWindow,
GUIContent.none, GUIContent.none,
GUIStyle.none GUIStyle.none
); );
   
this.rightHUDPos.value = GUI.Window( this.rightHUDPos.value = GUI.Window(
VOID_Core.Instance.windowID, this.core.windowID,
this.rightHUDPos, this.rightHUDPos,
this.rightHUDWindow, this.rightHUDWindow,
GUIContent.none, GUIContent.none,
GUIStyle.none GUIStyle.none
); );
} }
   
public override void DrawConfigurables() public override void DrawConfigurables()
{ {
if (GUILayout.Button (string.Intern("Change HUD color"), GUILayout.ExpandWidth (false))) if (GUILayout.Button (string.Intern("Change HUD color"), GUILayout.ExpandWidth (false)))
{ {
++this.ColorIndex; ++this.ColorIndex;
} }
   
if (GUILayout.Button(string.Intern("Reset HUD Positions"), GUILayout.ExpandWidth(false))) if (GUILayout.Button(string.Intern("Reset HUD Positions"), GUILayout.ExpandWidth(false)))
{ {
this.leftHUDPos = new Rect(this.leftHUDdefaultPos); this.leftHUDPos = new Rect(this.leftHUDdefaultPos);
this.rightHUDPos = new Rect(this.rightHUDdefaultPos); this.rightHUDPos = new Rect(this.rightHUDdefaultPos);
} }
   
this.positionsLocked = GUILayout.Toggle(this.positionsLocked, this.positionsLocked = GUILayout.Toggle(this.positionsLocked,
string.Intern("Lock HUD Positions"), string.Intern("Lock HUD Positions"),
GUILayout.ExpandWidth(false)); GUILayout.ExpandWidth(false));
} }
} }
   
public static partial class VOID_Data public static partial class VOID_Data
{ {
public static readonly VOID_StrValue expSituation = new VOID_StrValue( public static readonly VOID_StrValue expSituation = new VOID_StrValue(
"Situation", "Situation",
new Func<string> (() => VOID_Core.Instance.vessel.GetExperimentSituation().HumanString()) new Func<string> (() => core.vessel.GetExperimentSituation().HumanString())
); );
   
public static readonly VOID_DoubleValue vesselPitch = new VOID_DoubleValue( public static readonly VOID_DoubleValue vesselPitch = new VOID_DoubleValue(
"Pitch", "Pitch",
() => core.vessel.getSurfacePitch(), () => core.vessel.getSurfacePitch(),
"°" "°"
); );
   
public static readonly VOID_DoubleValue stageMassFlow = new VOID_DoubleValue(  
"Stage Mass Flow",  
delegate()  
{  
if (SimManager.LastStage == null)  
{  
return double.NaN;  
}  
   
double stageIsp = SimManager.LastStage.isp;  
double stageThrust = SimManager.LastStage.actualThrust;  
   
return stageThrust / (stageIsp * KerbinGee);  
},  
"Mg/s"  
);  
   
public static readonly VOID_DoubleValue burnTimeCompleteAtNode = new VOID_DoubleValue(  
"Full burn time to complete at node",  
delegate()  
{  
if (SimManager.LastStage == null)  
{  
return double.NaN;  
}  
   
double nextManeuverDV = core.vessel.patchedConicSolver.maneuverNodes[0].DeltaV.magnitude;  
double stageThrust = SimManager.LastStage.actualThrust;  
   
return burnTime(nextManeuverDV, totalMass, stageMassFlow, stageThrust);  
},  
"s"  
);  
   
public static readonly VOID_DoubleValue burnTimeHalfDoneAtNode = new VOID_DoubleValue(  
"Full burn time to be half done at node",  
delegate()  
{  
if (SimManager.LastStage == null)  
{  
return double.NaN;  
}  
   
double nextManeuverDV = core.vessel.patchedConicSolver.maneuverNodes[0].DeltaV.magnitude / 2d;  
double stageThrust = SimManager.LastStage.actualThrust;  
   
return burnTime(nextManeuverDV, totalMass, stageMassFlow, stageThrust);  
},  
"s"  
);  
   
private static double burnTime(double deltaV, double initialMass, double massFlow, double thrust)  
{  
return initialMass / massFlow * (Math.Exp(deltaV * massFlow / thrust) - 1d);  
}  
} }
} }
   
  // VOID
  //
  // VOID_HUD.cs
  //
  // Copyright © 2014, toadicus
  // All rights reserved.
  //
  // Redistribution and use in source and binary forms, with or without modification,
  // are permitted provided that the following conditions are met:
  //
  // 1. Redistributions of source code must retain the above copyright notice,
  // this list of conditions and the following disclaimer.
  //
  // 2. Redistributions in binary form must reproduce the above copyright notice,
  // this list of conditions and the following disclaimer in the documentation and/or other
  // materials provided with the distribution.
  //
  // 3. Neither the name of the copyright holder nor the names of its contributors may be used
  // 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,
  // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 
  using Engineer.VesselSimulator;
  using KSP;
  using System;
  using System.Collections.Generic;
  using System.Linq;
  using System.Text;
  using ToadicusTools;
  using UnityEngine;
 
  namespace VOID
  {
  public class VOID_HUDAdvanced : VOID_Module, IVOID_Module
  {
  /*
  * Fields
  * */
  protected VOID_HUD primaryHUD;
 
  protected Rect leftHUDdefaultPos;
  protected Rect rightHUDdefaultPos;
 
  [AVOID_SaveValue("leftHUDPos")]
  protected VOID_SaveValue<Rect> leftHUDPos;
  [AVOID_SaveValue("rightHUDPos")]
  protected VOID_SaveValue<Rect> rightHUDPos;
 
  [AVOID_SaveValue("positionsLocked")]
  protected VOID_SaveValue<bool> positionsLocked;
 
  /*
  * Properties
  * */
  public int ColorIndex
  {
  get
  {
  if (this.primaryHUD == null)
  {
  return 0;
  }
 
  return this.primaryHUD.ColorIndex;
  }
  }
 
  /*
  * Methods
  * */
  public VOID_HUDAdvanced() : base()
  {
  this._Name = "Advanced Heads-Up Display";
 
  this._Active.value = true;
 
  this.leftHUDdefaultPos = new Rect(
  Screen.width * .5f - (float)GameSettings.UI_SIZE * .25f - 300f,
  Screen.height - 200f,
  300f, 90f
  );
  this.leftHUDPos = new Rect(this.leftHUDdefaultPos);
 
  this.rightHUDdefaultPos = new Rect(
  Screen.width * .5f + (float)GameSettings.UI_SIZE * .25f,
  Screen.height - 200f,
  300f, 90f
  );
  this.rightHUDPos = new Rect(this.rightHUDdefaultPos);
 
  this.positionsLocked = true;
 
  Tools.PostDebugMessage (this, "Constructed.");
  }
 
  protected void leftHUDWindow(int id)
  {
  StringBuilder leftHUD;
 
  leftHUD = new StringBuilder();
 
  this.core.LabelStyles["hud"].alignment = TextAnchor.UpperRight;
 
  if (this.core.powerAvailable)
  {
  leftHUD.AppendFormat(
  string.Intern("Mass: {0}\n"),
  VOID_Data.totalMass.ToSIString(2)
  );
 
  if (VOID_Data.vesselCrewCapacity > 0)
  {
  leftHUD.AppendFormat(
  string.Intern("Crew: {0} / {1}\n"),
  VOID_Data.vesselCrewCount.Value,
  VOID_Data.vesselCrewCapacity.Value
  );
  }
 
  leftHUD.AppendFormat(
  string.Intern("Acc: {0} T:W: {1}\n"),
  VOID_Data.vesselAccel.ToSIString(2),
  VOID_Data.currThrustWeight.Value.ToString("f2")
  );
 
  leftHUD.AppendFormat(
  string.Intern("Ang Vel: {0}\n"),
  VOID_Data.vesselAngularVelocity.ToSIString(2)
  );
 
  if (VOID_Data.stageNominalThrust != 0d)
  {
  leftHUD.AppendFormat(
  string.Intern("Thrust Offset: {0}\n"),
  VOID_Data.vesselThrustOffset.Value.ToString("F1")
  );
  }
  }
  else
  {
  this.core.LabelStyles["hud"].normal.textColor = Color.red;
  leftHUD.Append(string.Intern("-- POWER LOST --"));
  }
 
  GUILayout.Label(leftHUD.ToString(), this.core.LabelStyles["hud"], GUILayout.ExpandWidth(true));
 
  if (!this.positionsLocked)
  {
  GUI.DragWindow();
  }
 
  GUI.BringWindowToBack(id);
  }
 
  protected void rightHUDWindow(int id)
  {
  StringBuilder rightHUD;
 
  rightHUD = new StringBuilder();
 
  this.core.LabelStyles["hud"].alignment = TextAnchor.UpperLeft;
 
  if (this.core.powerAvailable)
  {
  rightHUD.AppendFormat(
  "Burn Δv (Rem/Tot): {0} / {1}\n",
  VOID_Data.currManeuverDVRemaining.ValueUnitString("f2"),
  VOID_Data.currManeuverDeltaV.ValueUnitString("f2")
  );
 
  if (VOID_Data.upcomingManeuverNodes > 1)
  {
  rightHUD.AppendFormat("Next Burn Δv: {0}\n",
  VOID_Data.nextManeuverDeltaV.ValueUnitString("f2")
  );
  }
 
  rightHUD.AppendFormat("Burn Time (Rem/Total): {0} / {1}\n",
  VOID_Tools.ConvertInterval(VOID_Data.currentNodeBurnRemaining.Value),
  VOID_Tools.ConvertInterval(VOID_Data.currentNodeBurnDuration.Value)
  );
 
  if (VOID_Data.burnTimeDoneAtNode.Value != string.Empty)
  {
  rightHUD.AppendFormat("{0} (done @ node)\n",
  VOID_Data.burnTimeDoneAtNode.Value
  );
 
  rightHUD.AppendFormat("{0} (½ done @ node)",
  VOID_Data.burnTimeHalfDoneAtNode.Value
  );
  }
  else
  {
  rightHUD.Append("Node is past");
  }
  }
  else
  {
  this.core.LabelStyles["hud"].normal.textColor = Color.red;
  rightHUD.Append(string.Intern("-- POWER LOST --"));
  }
 
  GUILayout.Label(rightHUD.ToString(), this.core.LabelStyles["hud"], GUILayout.ExpandWidth(true));
 
  if (!this.positionsLocked)
  {
  GUI.DragWindow();
  }
 
  GUI.BringWindowToBack(id);
  }
 
  public override void DrawGUI()
  {
  if (this.primaryHUD == null)
  {
  foreach (IVOID_Module module in this.core.Modules)
  {
  if (module is VOID_HUD)
  {
  this.primaryHUD = module as VOID_HUD;
  }
  }
  }
  else
  {
  if ((TimeWarp.WarpMode == TimeWarp.Modes.LOW) || (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate))
  {
  SimManager.RequestSimulation();
  }
 
  this.leftHUDPos.value = GUI.Window(
  this.core.windowID,
  this.leftHUDPos,
  VOID_Tools.GetWindowHandler(this.leftHUDWindow),
  GUIContent.none,
  GUIStyle.none
  );
 
  if (VOID_Data.upcomingManeuverNodes > 0)
  {
  this.rightHUDPos.value = GUI.Window(
  this.core.windowID,
  this.rightHUDPos,
  VOID_Tools.GetWindowHandler(this.rightHUDWindow),
  GUIContent.none,
  GUIStyle.none
  );
  }
  }
  }
 
  public override void DrawConfigurables()
  {
  this.positionsLocked = GUILayout.Toggle(this.positionsLocked,
  string.Intern("Lock Advanced HUD Positions"),
  GUILayout.ExpandWidth(false));
  }
  }
 
  public static partial class VOID_Data
  {
  public static int upcomingManeuverNodes
  {
  get
  {
  if (core.vessel == null ||
  core.vessel.patchedConicSolver == null ||
  core.vessel.patchedConicSolver.maneuverNodes == null
  )
  {
  return 0;
  }
 
  return core.vessel.patchedConicSolver.maneuverNodes.Count;
  }
  }
 
  public static readonly VOID_Vector3dValue vesselThrustOffset = new VOID_Vector3dValue(
  "Thrust Offset",
  delegate()
  {
  if (core.vessel == null)
  {
  return Vector3d.zero;
  }
 
  List<PartModule> engineModules = core.vessel.getModulesOfType<PartModule>();
 
  Vector3d thrustPos = Vector3d.zero;
  Vector3d thrustDir = Vector3d.zero;
  float thrust = 0;
 
  foreach (PartModule engine in engineModules)
  {
  float moduleThrust = 0;
 
  switch (engine.moduleName)
  {
  case "ModuleEngines":
  case "ModuleEnginesFX":
  break;
  default:
  continue;
  }
 
  if (!engine.isEnabled)
  {
  continue;
  }
 
  CenterOfThrustQuery cotQuery = new CenterOfThrustQuery();
 
  if (engine is ModuleEngines)
  {
  ModuleEngines engineModule = engine as ModuleEngines;
 
  moduleThrust = engineModule.finalThrust;
 
  engineModule.OnCenterOfThrustQuery(cotQuery);
  }
  else // engine is ModuleEnginesFX
  {
  ModuleEnginesFX engineFXModule = engine as ModuleEnginesFX;
 
  moduleThrust = engineFXModule.finalThrust;
 
  engineFXModule.OnCenterOfThrustQuery(cotQuery);
  }
 
  if (moduleThrust != 0d)
  {
  cotQuery.thrust = moduleThrust;
  }
 
  thrustPos += cotQuery.pos * cotQuery.thrust;
  thrustDir += cotQuery.dir * cotQuery.thrust;
  thrust += cotQuery.thrust;
  }
 
  if (thrust != 0)
  {
  thrustPos /= thrust;
  thrustDir /= thrust;
  }
 
  Transform vesselTransform = core.vessel.transform;
 
  thrustPos = vesselTransform.InverseTransformPoint(thrustPos);
  thrustDir = vesselTransform.InverseTransformDirection(thrustDir);
 
  Vector3d thrustOffset = VectorTools.PointDistanceToLine(
  thrustPos, thrustDir.normalized, core.vessel.findLocalCenterOfMass());
 
  Tools.PostDebugMessage(typeof(VOID_Data), "vesselThrustOffset:\n" +
  "\tthrustPos: {0}\n" +
  "\tthrustDir: {1}\n" +
  "\tthrustOffset: {2}\n" +
  "\tvessel.CoM: {3}",
  thrustPos,
  thrustDir.normalized,
  thrustOffset,
  core.vessel.findWorldCenterOfMass()
  );
 
  return thrustOffset;
  },
  "m"
  );
 
  public static readonly VOID_DoubleValue vesselAccel = new VOID_DoubleValue(
  "Acceleration",
  () => geeForce * KerbinGee,
  "m/s"
  );
 
  public static readonly VOID_IntValue vesselCrewCount = new VOID_IntValue(
  "Crew Onboard",
  delegate()
  {
  if (core.vessel != null)
  {
  return core.vessel.GetCrewCount();
  }
  else
  {
  return 0;
  }
  },
  ""
  );
 
  public static readonly VOID_IntValue vesselCrewCapacity = new VOID_IntValue(
  "Crew Capacity",
  delegate()
  {
  if (core.vessel != null)
  {
  return core.vessel.GetCrewCapacity();
  }
  else
  {
  return 0;
  }
  },
  ""
  );
 
  public static readonly VOID_DoubleValue vesselAngularVelocity = new VOID_DoubleValue(
  "Angular Velocity",
  delegate()
  {
  if (core.vessel != null)
  {
  return core.vessel.angularVelocity.magnitude;
  }
  else
  {
  return double.NaN;
  }
  },
  "rad/s"
  );
 
  public static readonly VOID_DoubleValue stageNominalThrust = new VOID_DoubleValue(
  "Nominal Stage Thrust",
  delegate()
  {
  if (SimManager.LastStage == null)
  {
  return double.NaN;
  }
 
  if (SimManager.LastStage.actualThrust == 0d)
  {
  return SimManager.LastStage.thrust;
  }
  else
  {
  return SimManager.LastStage.actualThrust;
  }
  },
  "kN"
  );
 
  public static readonly VOID_DoubleValue stageMassFlow = new VOID_DoubleValue(
  "Stage Mass Flow",
  delegate()
  {
  if (SimManager.LastStage == null)
  {
  return double.NaN;
  }
 
  double stageIsp = SimManager.LastStage.isp;
  double stageThrust = stageNominalThrust;
 
  Tools.PostDebugMessage(typeof(VOID_Data), "calculating stageMassFlow from:\n" +
  "\tstageIsp: {0}\n" +
  "\tstageThrust: {1}\n" +
  "\tKerbinGee: {2}\n",
  stageIsp,
  stageThrust,
  KerbinGee
  );
 
  return stageThrust / (stageIsp * KerbinGee);
  },
  "Mg/s"
  );
 
  public static readonly VOID_DoubleValue currManeuverDeltaV = new VOID_DoubleValue(
  "Current Maneuver Delta-V",
  delegate()
  {
  if (upcomingManeuverNodes > 0)
  {
  return core.vessel.patchedConicSolver.maneuverNodes[0].DeltaV.magnitude;
  }
  else
  {
  return double.NaN;
  }
  },
  "m/s"
  );
 
  public static readonly VOID_DoubleValue currManeuverDVRemaining = new VOID_DoubleValue(
  "Remaining Maneuver Delta-V",
  delegate()
  {
  if (upcomingManeuverNodes > 0)
  {
  return core.vessel.patchedConicSolver.maneuverNodes[0].GetBurnVector(core.vessel.orbit).magnitude;
  }
  else
  {
  return double.NaN;
  }
  },
  "m/s"
  );
 
  public static readonly VOID_DoubleValue nextManeuverDeltaV = new VOID_DoubleValue(
  "Current Maneuver Delta-V",
  delegate()
  {
  if (upcomingManeuverNodes > 1)
  {
  return core.vessel.patchedConicSolver.maneuverNodes[1].DeltaV.magnitude;
  }
  else
  {
  return double.NaN;
  }
  },
  "m/s"
  );
 
  public static readonly VOID_DoubleValue currentNodeBurnDuration = new VOID_DoubleValue(
  "Total Burn Time",
  delegate()
  {
  if (SimManager.LastStage == null || currManeuverDeltaV.Value == double.NaN)
  {
  return double.NaN;
  }
 
  double stageThrust = stageNominalThrust;
 
  return burnTime(currManeuverDeltaV.Value, totalMass, stageMassFlow, stageThrust);
  },
  "s"
  );
 
  public static readonly VOID_DoubleValue currentNodeBurnRemaining = new VOID_DoubleValue(
  "Burn Time Remaining",
  delegate()
  {
  if (SimManager.LastStage == null || currManeuverDVRemaining == double.NaN)
  {
  return double.NaN;
  }
 
  double stageThrust = stageNominalThrust;
 
  return burnTime(currManeuverDVRemaining, totalMass, stageMassFlow, stageThrust);
  },
  "s"
  );
 
  public static readonly VOID_DoubleValue currentNodeHalfBurnDuration = new VOID_DoubleValue(
  "Half Burn Time",
  delegate()
  {
  if (SimManager.LastStage == null || currManeuverDeltaV.Value == double.NaN)
  {
  return double.NaN;
  }
 
  double stageThrust = stageNominalThrust;
 
  return burnTime(currManeuverDeltaV.Value / 2d, totalMass, stageMassFlow, stageThrust);
  },
  "s"
  );
 
  public static readonly VOID_StrValue burnTimeDoneAtNode = new VOID_StrValue(
  "Full burn time to be half done at node",
  delegate()
  {
  if (SimManager.LastStage == null && upcomingManeuverNodes < 1)
  {
  return "N/A";
  }
 
  ManeuverNode node = core.vessel.patchedConicSolver.maneuverNodes[0];
 
  if ((node.UT - Planetarium.GetUniversalTime()) < 0)
  {
  return string.Empty;
  }
 
  double interval = (node.UT - currentNodeBurnDuration) - Planetarium.GetUniversalTime();
 
  if (double.IsNaN(interval))
  {
  return string.Intern("NaN");
  }
 
  int sign = Math.Sign(interval);
  interval = Math.Abs(interval);
 
  string format;
 
  if (sign >= 0)
  {
  format = string.Intern("T - {0}");
  }
  else
  {
  format = string.Intern("T + {0}");
  }
 
  return string.Format(format, VOID_Tools.ConvertInterval(interval));
  }
  );
 
  public static readonly VOID_StrValue burnTimeHalfDoneAtNode = new VOID_StrValue(
  "Full burn time to be half done at node",
  delegate()
  {
  if (SimManager.LastStage == null && upcomingManeuverNodes < 1)
  {
  return "N/A";
  }
 
  ManeuverNode node = core.vessel.patchedConicSolver.maneuverNodes[0];
 
  if ((node.UT - Planetarium.GetUniversalTime()) < 0)
  {
  return string.Empty;
  }
 
  double interval = (node.UT - currentNodeHalfBurnDuration) - Planetarium.GetUniversalTime();
 
  int sign = Math.Sign(interval);
  interval = Math.Abs(interval);
 
  string format;
 
  if (sign >= 0)
  {
  format = string.Intern("T - {0}");
  }
  else
  {
  format = string.Intern("T + {0}");
  }
 
  return string.Format(format, VOID_Tools.ConvertInterval(interval));
  }
  );
 
  private static double burnTime(double deltaV, double initialMass, double massFlow, double thrust)
  {
  Tools.PostDebugMessage(typeof(VOID_Data), "calculating burnTime from:\n" +
  "\tdeltaV: {0}\n" +
  "\tinitialMass: {1}\n" +
  "\tmassFlow: {2}\n" +
  "\tthrust: {3}\n",
  deltaV,
  initialMass,
  massFlow,
  thrust
  );
  return initialMass / massFlow * (Math.Exp(deltaV * massFlow / thrust) - 1d);
  }
  }
  }
 
// VOID // VOID
// //
// VOID_Module.cs // VOID_Module.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using System.Linq; using System.Linq;
using System.Reflection; using System.Reflection;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public abstract class VOID_Module : IVOID_Module public abstract class VOID_Module : IVOID_Module
{ {
/* /*
* Fields * Fields
* */ * */
[AVOID_SaveValue("Active")] [AVOID_SaveValue("Active")]
protected VOID_SaveValue<bool> _Active = false; protected VOID_SaveValue<bool> _Active = false;
protected bool _Running = false; protected bool _Running = false;
   
protected string _Name; protected string _Name;
   
protected float lastUpdate = 0; protected float lastUpdate = 0;
   
/* /*
* Properties * Properties
* */ * */
  protected virtual VOID_Core core
  {
  get
  {
  if (HighLogic.LoadedSceneIsEditor)
  {
  return VOID_EditorCore.Instance as VOID_Core;
  }
   
  return VOID_Core.Instance;
  }
  }
   
public virtual bool toggleActive public virtual bool toggleActive
{ {
get get
{ {
return this._Active; return this._Active;
} }
set set
{ {
this._Active.value = value; this._Active.value = value;
} }
} }
   
public virtual bool guiRunning public virtual bool guiRunning
{ {
get get
{ {
return this._Running; return this._Running;
} }
} }
   
public virtual string Name public virtual string Name
{ {
get get
{ {
return this._Name; return this._Name;
} }
} }
   
public virtual Vessel vessel public virtual Vessel vessel
{ {
get get
{ {
return FlightGlobals.ActiveVessel; return FlightGlobals.ActiveVessel;
} }
} }
   
/* /*
* Methods * Methods
* */ * */
public void StartGUI() public void StartGUI()
{ {
if (!this.toggleActive || this.guiRunning) if (!this.toggleActive || this.guiRunning)
{ {
return; return;
} }
   
Tools.PostDebugMessage (string.Format("Adding {0} to the draw queue.", this.GetType().Name)); Tools.PostDebugMessage (string.Format("Adding {0} to the draw queue.", this.GetType().Name));
RenderingManager.AddToPostDrawQueue (3, this.DrawGUI); RenderingManager.AddToPostDrawQueue (3, this.DrawGUI);
this._Running = true; this._Running = true;
} }
   
public void StopGUI() public void StopGUI()
{ {
if (!this.guiRunning) if (!this.guiRunning)
{ {
return; return;
} }
Tools.PostDebugMessage (string.Format("Removing {0} from the draw queue.", this.GetType().Name)); Tools.PostDebugMessage (string.Format("Removing {0} from the draw queue.", this.GetType().Name));
RenderingManager.RemoveFromPostDrawQueue (3, this.DrawGUI); RenderingManager.RemoveFromPostDrawQueue (3, this.DrawGUI);
this._Running = false; this._Running = false;
} }
   
public abstract void DrawGUI(); public abstract void DrawGUI();
   
public virtual void DrawConfigurables() {} public virtual void DrawConfigurables() {}
   
public virtual void LoadConfig() public virtual void LoadConfig()
{ {
var config = KSP.IO.PluginConfiguration.CreateForType<VOID_Core> (); var config = KSP.IO.PluginConfiguration.CreateForType<VOID_Core> ();
config.load (); config.load ();
   
foreach (var field in this.GetType().GetFields( foreach (var field in this.GetType().GetFields(
BindingFlags.NonPublic | BindingFlags.NonPublic |
BindingFlags.Public | BindingFlags.Public |
BindingFlags.Instance | BindingFlags.Instance |
BindingFlags.FlattenHierarchy BindingFlags.FlattenHierarchy
)) ))
{ {
object[] attrs = field.GetCustomAttributes(typeof(AVOID_SaveValue), false); object[] attrs = field.GetCustomAttributes(typeof(AVOID_SaveValue), false);
   
if (attrs.Length == 0) { if (attrs.Length == 0) {
continue; continue;
} }
   
AVOID_SaveValue attr = attrs.FirstOrDefault () as AVOID_SaveValue; AVOID_SaveValue attr = attrs.FirstOrDefault () as AVOID_SaveValue;
   
string fieldName = string.Format("{0}_{1}", this.GetType().Name, attr.Name); string fieldName = string.Format("{0}_{1}", this.GetType().Name, attr.Name);
   
Tools.PostDebugMessage(string.Format("{0}: Loading field {1}.", this.GetType().Name, fieldName)); Tools.PostDebugMessage(string.Format("{0}: Loading field {1}.", this.GetType().Name, fieldName));
   
object fieldValue = field.GetValue(this); object fieldValue = field.GetValue(this);
   
bool convertBack = false; bool convertBack = false;
if (fieldValue is IVOID_SaveValue) if (fieldValue is IVOID_SaveValue)
{ {
fieldValue = (fieldValue as IVOID_SaveValue).AsType; fieldValue = (fieldValue as IVOID_SaveValue).AsType;
convertBack = true; convertBack = true;
} }
   
fieldValue = config.GetValue(fieldName, fieldValue); fieldValue = config.GetValue(fieldName, fieldValue);
   
if (convertBack) if (convertBack)
{ {
Type type = typeof(VOID_SaveValue<>).MakeGenericType (fieldValue.GetType ()); Type type = typeof(VOID_SaveValue<>).MakeGenericType (fieldValue.GetType ());
IVOID_SaveValue convertValue = Activator.CreateInstance (type) as IVOID_SaveValue; IVOID_SaveValue convertValue = Activator.CreateInstance (type) as IVOID_SaveValue;
convertValue.SetValue (fieldValue); convertValue.SetValue (fieldValue);
fieldValue = convertValue; fieldValue = convertValue;
} }
   
field.SetValue (this, fieldValue); field.SetValue (this, fieldValue);
   
Tools.PostDebugMessage(string.Format("{0}: Loaded field {1}.", this.GetType().Name, fieldName)); Tools.PostDebugMessage(string.Format("{0}: Loaded field {1}.", this.GetType().Name, fieldName));
} }
} }
   
public virtual void _SaveToConfig(KSP.IO.PluginConfiguration config) public virtual void _SaveToConfig(KSP.IO.PluginConfiguration config)
{ {
foreach (var field in this.GetType().GetFields( foreach (var field in this.GetType().GetFields(
BindingFlags.Instance | BindingFlags.Instance |
BindingFlags.NonPublic | BindingFlags.NonPublic |
BindingFlags.Public | BindingFlags.Public |
BindingFlags.FlattenHierarchy BindingFlags.FlattenHierarchy
)) ))
{ {
object[] attrs = field.GetCustomAttributes(typeof(AVOID_SaveValue), false); object[] attrs = field.GetCustomAttributes(typeof(AVOID_SaveValue), false);
   
if (attrs.Length == 0) { if (attrs.Length == 0) {
continue; continue;
} }
   
AVOID_SaveValue attr = attrs.FirstOrDefault () as AVOID_SaveValue; AVOID_SaveValue attr = attrs.FirstOrDefault () as AVOID_SaveValue;
   
string fieldName = string.Format("{0}_{1}", this.GetType().Name, attr.Name); string fieldName = string.Format("{0}_{1}", this.GetType().Name, attr.Name);
   
object fieldValue = field.GetValue(this); object fieldValue = field.GetValue(this);
   
if (fieldValue is IVOID_SaveValue) if (fieldValue is IVOID_SaveValue)
{ {
fieldValue = (fieldValue as IVOID_SaveValue).AsType; fieldValue = (fieldValue as IVOID_SaveValue).AsType;
} }
   
config.SetValue(fieldName, fieldValue); config.SetValue(fieldName, fieldValue);
   
Tools.PostDebugMessage(string.Format("{0}: Saved field {1}.", this.GetType().Name, fieldName)); Tools.PostDebugMessage(string.Format("{0}: Saved field {1}.", this.GetType().Name, fieldName));
} }
} }
} }
   
public abstract class VOID_WindowModule : VOID_Module public abstract class VOID_WindowModule : VOID_Module
{ {
[AVOID_SaveValue("WindowPos")] [AVOID_SaveValue("WindowPos")]
protected Rect WindowPos = new Rect(Screen.width / 2, Screen.height / 2, 250f, 50f); protected Rect WindowPos = new Rect(Screen.width / 2, Screen.height / 2, 250f, 50f);
protected float defWidth = 250f; protected float defWidth = 250f;
protected float defHeight = 50f; protected float defHeight = 50f;
   
public virtual void ModuleWindow(int _) public abstract void ModuleWindow(int _);
{  
// if (VOID_Core.Instance.updateTimer - this.lastUpdate > VOID_Core.Instance.updatePeriod) {  
// foreach (var fieldinfo in this.GetType().GetFields(  
// BindingFlags.Instance |  
// BindingFlags.NonPublic |  
// BindingFlags.Public |  
// BindingFlags.FlattenHierarchy  
// ))  
// {  
// object field = null;  
//  
// try  
// {  
// field = fieldinfo.GetValue (this);  
// }  
// catch (NullReferenceException) {  
// Tools.PostDebugMessage(string.Format(  
// "{0}: caught NullReferenceException, could not get value for field {1}.",  
// this.GetType().Name,  
// fieldinfo.Name  
// ));  
// }  
//  
// if (field == null) {  
// continue;  
// }  
//  
// if (typeof(IVOID_DataValue).IsAssignableFrom (field.GetType ())) {  
// (field as IVOID_DataValue).Refresh ();  
// }  
// }  
//  
// this.lastUpdate = VOID_Core.Instance.updateTimer;  
// }  
}  
   
public override void DrawGUI() public override void DrawGUI()
{ {
GUI.skin = VOID_Core.Instance.Skin; GUI.skin = this.core.Skin;
   
Rect _Pos = this.WindowPos; Rect _Pos = this.WindowPos;
   
_Pos = GUILayout.Window( _Pos = GUILayout.Window(
VOID_Core.Instance.windowID, this.core.windowID,
_Pos, _Pos,
this.ModuleWindow, VOID_Tools.GetWindowHandler(this.ModuleWindow),
this.Name, this.Name
GUILayout.Width(this.defWidth),  
GUILayout.Height(this.defHeight)  
); );
   
_Pos = Tools.ClampRectToScreen (_Pos); _Pos = Tools.ClampRectToScreen (_Pos);
   
if (_Pos != this.WindowPos) if (_Pos != this.WindowPos)
{ {
this.WindowPos = _Pos; this.WindowPos = _Pos;
VOID_Core.Instance.configDirty = true; this.core.configDirty = true;
} }
} }
} }
} }
   
   
// VOID // VOID
// //
// VOID_Orbital.cs // VOID_Orbital.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_Orbital : VOID_WindowModule public class VOID_Orbital : VOID_WindowModule
{ {
[AVOID_SaveValue("toggleExtended")] [AVOID_SaveValue("toggleExtended")]
protected VOID_SaveValue<bool> toggleExtended = false; protected VOID_SaveValue<bool> toggleExtended = false;
   
[AVOID_SaveValue("precisionValues")] [AVOID_SaveValue("precisionValues")]
protected long _precisionValues = 230584300921369395; protected long _precisionValues = 230584300921369395;
protected IntCollection precisionValues; protected IntCollection precisionValues;
   
public VOID_Orbital() public VOID_Orbital()
{ {
this._Name = "Orbital Information"; this._Name = "Orbital Information";
   
this.WindowPos.x = Screen.width - 520f; this.WindowPos.x = Screen.width - 520f;
this.WindowPos.y = 250f; this.WindowPos.y = 250f;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
base.ModuleWindow (_);  
   
int idx = 0; int idx = 0;
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
VOID_Data.primaryName.DoGUIHorizontal (); VOID_Data.primaryName.DoGUIHorizontal ();
   
this.precisionValues [idx]= (ushort)VOID_Data.orbitAltitude.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.orbitAltitude.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.precisionValues [idx]= (ushort)VOID_Data.orbitVelocity.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.orbitVelocity.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.precisionValues [idx]= (ushort)VOID_Data.orbitApoAlt.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.orbitApoAlt.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
VOID_Data.timeToApo.DoGUIHorizontal(); VOID_Data.timeToApo.DoGUIHorizontal();
   
this.precisionValues [idx]= (ushort)VOID_Data.oribtPeriAlt.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.oribtPeriAlt.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
VOID_Data.timeToPeri.DoGUIHorizontal(); VOID_Data.timeToPeri.DoGUIHorizontal();
   
VOID_Data.orbitInclination.DoGUIHorizontal("F3"); VOID_Data.orbitInclination.DoGUIHorizontal("F3");
   
this.precisionValues [idx]= (ushort)VOID_Data.gravityAccel.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.gravityAccel.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.toggleExtended.value = GUILayout.Toggle(this.toggleExtended, "Extended info"); this.toggleExtended.value = GUILayout.Toggle(this.toggleExtended, "Extended info");
   
if (this.toggleExtended) if (this.toggleExtended)
{ {
VOID_Data.orbitPeriod.DoGUIHorizontal(); VOID_Data.orbitPeriod.DoGUIHorizontal();
   
this.precisionValues [idx]= (ushort)VOID_Data.semiMajorAxis.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.semiMajorAxis.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
VOID_Data.eccentricity.DoGUIHorizontal("F4"); VOID_Data.eccentricity.DoGUIHorizontal("F4");
   
VOID_Data.meanAnomaly.DoGUIHorizontal("F3"); VOID_Data.meanAnomaly.DoGUIHorizontal("F3");
   
VOID_Data.trueAnomaly.DoGUIHorizontal("F3"); VOID_Data.trueAnomaly.DoGUIHorizontal("F3");
   
VOID_Data.eccAnomaly.DoGUIHorizontal("F3"); VOID_Data.eccAnomaly.DoGUIHorizontal("F3");
   
VOID_Data.longitudeAscNode.DoGUIHorizontal("F3"); VOID_Data.longitudeAscNode.DoGUIHorizontal("F3");
   
VOID_Data.argumentPeriapsis.DoGUIHorizontal("F3"); VOID_Data.argumentPeriapsis.DoGUIHorizontal("F3");
   
VOID_Data.localSiderealLongitude.DoGUIHorizontal("F3"); VOID_Data.localSiderealLongitude.DoGUIHorizontal("F3");
} }
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public override void LoadConfig () public override void LoadConfig ()
{ {
base.LoadConfig (); base.LoadConfig ();
   
this.precisionValues = new IntCollection (4, this._precisionValues); this.precisionValues = new IntCollection (4, this._precisionValues);
} }
   
public override void _SaveToConfig (KSP.IO.PluginConfiguration config) public override void _SaveToConfig (KSP.IO.PluginConfiguration config)
{ {
this._precisionValues = this.precisionValues.collection; this._precisionValues = this.precisionValues.collection;
   
base._SaveToConfig (config); base._SaveToConfig (config);
} }
} }
   
   
public static partial class VOID_Data public static partial class VOID_Data
{ {
public static readonly VOID_StrValue primaryName = new VOID_StrValue ( public static readonly VOID_StrValue primaryName = new VOID_StrValue (
VOID_Localization.void_primary, VOID_Localization.void_primary,
new Func<string> (() => VOID_Core.Instance.vessel.mainBody.name) delegate()
  {
  if (core.vessel == null)
  {
  return string.Empty;
  }
  return core.vessel.mainBody.name;
  }
); );
   
public static readonly VOID_DoubleValue orbitAltitude = new VOID_DoubleValue ( public static readonly VOID_DoubleValue orbitAltitude = new VOID_DoubleValue (
"Altitude (ASL)", "Altitude (ASL)",
new Func<double> (() => VOID_Core.Instance.vessel.orbit.altitude), new Func<double> (() => core.vessel.orbit.altitude),
"m" "m"
); );
   
public static readonly VOID_DoubleValue orbitVelocity = new VOID_DoubleValue ( public static readonly VOID_DoubleValue orbitVelocity = new VOID_DoubleValue (
VOID_Localization.void_velocity, VOID_Localization.void_velocity,
new Func<double> (() => VOID_Core.Instance.vessel.orbit.vel.magnitude), new Func<double> (() => core.vessel.orbit.vel.magnitude),
"m/s" "m/s"
); );
   
public static readonly VOID_DoubleValue orbitApoAlt = new VOID_DoubleValue( public static readonly VOID_DoubleValue orbitApoAlt = new VOID_DoubleValue(
VOID_Localization.void_apoapsis, VOID_Localization.void_apoapsis,
new Func<double>(() => VOID_Core.Instance.vessel.orbit.ApA), new Func<double>(() => core.vessel.orbit.ApA),
"m" "m"
); );
   
public static readonly VOID_DoubleValue oribtPeriAlt = new VOID_DoubleValue( public static readonly VOID_DoubleValue oribtPeriAlt = new VOID_DoubleValue(
VOID_Localization.void_periapsis, VOID_Localization.void_periapsis,
new Func<double>(() => VOID_Core.Instance.vessel.orbit.PeA), new Func<double>(() => core.vessel.orbit.PeA),
"m" "m"
); );
   
public static readonly VOID_StrValue timeToApo = new VOID_StrValue( public static readonly VOID_StrValue timeToApo = new VOID_StrValue(
"Time to Apoapsis", "Time to Apoapsis",
new Func<string>(() => VOID_Tools.ConvertInterval(VOID_Core.Instance.vessel.orbit.timeToAp)) new Func<string>(() => VOID_Tools.ConvertInterval(core.vessel.orbit.timeToAp))
); );
   
public static readonly VOID_StrValue timeToPeri = new VOID_StrValue( public static readonly VOID_StrValue timeToPeri = new VOID_StrValue(
"Time to Periapsis", "Time to Periapsis",
new Func<string>(() => VOID_Tools.ConvertInterval(VOID_Core.Instance.vessel.orbit.timeToPe)) new Func<string>(() => VOID_Tools.ConvertInterval(core.vessel.orbit.timeToPe))
); );
   
public static readonly VOID_DoubleValue orbitInclination = new VOID_DoubleValue( public static readonly VOID_DoubleValue orbitInclination = new VOID_DoubleValue(
"Inclination", "Inclination",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.inclination), new Func<double>(() => core.vessel.orbit.inclination),
"°" "°"
); );
   
public static readonly VOID_DoubleValue gravityAccel = new VOID_DoubleValue( public static readonly VOID_DoubleValue gravityAccel = new VOID_DoubleValue(
"Gravity", "Gravity",
delegate() delegate()
{ {
double orbitRadius = VOID_Core.Instance.vessel.mainBody.Radius + double orbitRadius = core.vessel.mainBody.Radius +
VOID_Core.Instance.vessel.mainBody.GetAltitude(VOID_Core.Instance.vessel.findWorldCenterOfMass()); core.vessel.mainBody.GetAltitude(core.vessel.findWorldCenterOfMass());
return (VOID_Core.Constant_G * VOID_Core.Instance.vessel.mainBody.Mass) / return (VOID_Core.Constant_G * core.vessel.mainBody.Mass) /
Math.Pow(orbitRadius, 2); (orbitRadius * orbitRadius);
}, },
"m/s²" "m/s²"
); );
   
public static readonly VOID_StrValue orbitPeriod = new VOID_StrValue( public static readonly VOID_StrValue orbitPeriod = new VOID_StrValue(
"Period", "Period",
new Func<string>(() => VOID_Tools.ConvertInterval(VOID_Core.Instance.vessel.orbit.period)) new Func<string>(() => VOID_Tools.ConvertInterval(core.vessel.orbit.period))
); );
   
public static readonly VOID_DoubleValue semiMajorAxis = new VOID_DoubleValue( public static readonly VOID_DoubleValue semiMajorAxis = new VOID_DoubleValue(
"Semi-Major Axis", "Semi-Major Axis",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.semiMajorAxis), new Func<double>(() => core.vessel.orbit.semiMajorAxis),
"m" "m"
); );
   
public static readonly VOID_DoubleValue eccentricity = new VOID_DoubleValue( public static readonly VOID_DoubleValue eccentricity = new VOID_DoubleValue(
"Eccentricity", "Eccentricity",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.eccentricity), new Func<double>(() => core.vessel.orbit.eccentricity),
"" ""
); );
   
public static readonly VOID_DoubleValue meanAnomaly = new VOID_DoubleValue( public static readonly VOID_DoubleValue meanAnomaly = new VOID_DoubleValue(
"Mean Anomaly", "Mean Anomaly",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.meanAnomaly * 180d / Math.PI), new Func<double>(() => core.vessel.orbit.meanAnomaly * 180d / Math.PI),
"°" "°"
); );
   
public static readonly VOID_DoubleValue trueAnomaly = new VOID_DoubleValue( public static readonly VOID_DoubleValue trueAnomaly = new VOID_DoubleValue(
"True Anomaly", "True Anomaly",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.trueAnomaly), new Func<double>(() => core.vessel.orbit.trueAnomaly),
"°" "°"
); );
   
public static readonly VOID_DoubleValue eccAnomaly = new VOID_DoubleValue( public static readonly VOID_DoubleValue eccAnomaly = new VOID_DoubleValue(
"Eccentric Anomaly", "Eccentric Anomaly",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.eccentricAnomaly * 180d / Math.PI), new Func<double>(() => core.vessel.orbit.eccentricAnomaly * 180d / Math.PI),
"°" "°"
); );
   
public static readonly VOID_DoubleValue longitudeAscNode = new VOID_DoubleValue( public static readonly VOID_DoubleValue longitudeAscNode = new VOID_DoubleValue(
"Long. Ascending Node", "Long. Ascending Node",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.LAN), new Func<double>(() => core.vessel.orbit.LAN),
"°" "°"
); );
   
public static readonly VOID_DoubleValue argumentPeriapsis = new VOID_DoubleValue( public static readonly VOID_DoubleValue argumentPeriapsis = new VOID_DoubleValue(
"Argument of Periapsis", "Argument of Periapsis",
new Func<double>(() => VOID_Core.Instance.vessel.orbit.argumentOfPeriapsis), new Func<double>(() => core.vessel.orbit.argumentOfPeriapsis),
"°" "°"
); );
   
public static readonly VOID_DoubleValue localSiderealLongitude = new VOID_DoubleValue( public static readonly VOID_DoubleValue localSiderealLongitude = new VOID_DoubleValue(
"Local Sidereal Longitude", "Local Sidereal Longitude",
new Func<double>(() => VOID_Tools.FixDegreeDomain( new Func<double>(() => VOID_Tools.FixDegreeDomain(
VOID_Core.Instance.vessel.longitude + VOID_Core.Instance.vessel.orbit.referenceBody.rotationAngle)), core.vessel.longitude + core.vessel.orbit.referenceBody.rotationAngle)),
"°" "°"
); );
} }
} }
   
   
// VOID // VOID
// //
// VOID_Rendezvous.cs // VOID_Rendezvous.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using System.Linq; using System.Linq;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_Rendezvous : VOID_WindowModule public class VOID_Rendezvous : VOID_WindowModule
{ {
[AVOID_SaveValue("untoggleRegisterInfo")] [AVOID_SaveValue("untoggleRegisterInfo")]
protected VOID_SaveValue<bool> untoggleRegisterInfo = false; protected VOID_SaveValue<bool> untoggleRegisterInfo = false;
   
[AVOID_SaveValue("toggleExtendedOrbital")] [AVOID_SaveValue("toggleExtendedOrbital")]
protected VOID_SaveValue<bool> toggleExtendedOrbital = false; protected VOID_SaveValue<bool> toggleExtendedOrbital = false;
   
protected VOID_VesselRegister RegisterModule; protected VOID_VesselRegister RegisterModule;
   
public VOID_Rendezvous() public VOID_Rendezvous()
{ {
this._Name = "Rendezvous Information"; this._Name = "Rendezvous Information";
   
this.WindowPos.x = 845; this.WindowPos.x = 845;
this.WindowPos.y = 85; this.WindowPos.y = 85;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
Vessel rendezvessel = new Vessel(); Vessel rendezvessel = new Vessel();
CelestialBody rendezbody = new CelestialBody(); CelestialBody rendezbody = new CelestialBody();
   
if (this.RegisterModule == null) if (this.RegisterModule == null)
{ {
this.RegisterModule = VOID_Core.Instance.Modules.Where(m => typeof(VOID_VesselRegister).IsAssignableFrom(m.GetType())).FirstOrDefault() as VOID_VesselRegister; this.RegisterModule = this.core.Modules.Where(m => typeof(VOID_VesselRegister).IsAssignableFrom(m.GetType())).FirstOrDefault() as VOID_VesselRegister;
} }
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
//display both //display both
//Show Target Info //Show Target Info
GUILayout.Label("Target:", VOID_Core.Instance.LabelStyles["center_bold"]); GUILayout.Label("Target:", this.core.LabelStyles["center_bold"]);
if (FlightGlobals.fetch.VesselTarget != null) if (FlightGlobals.fetch.VesselTarget != null)
{ {
//a KSP Target (body or vessel) is selected //a KSP Target (body or vessel) is selected
if (FlightGlobals.fetch.vesselTargetMode == VesselTargetModes.Direction) if (FlightGlobals.fetch.vesselTargetMode == VesselTargetModes.Direction)
{ {
//a Body is selected //a Body is selected
rendezbody = vessel.patchedConicSolver.targetBody; rendezbody = vessel.patchedConicSolver.targetBody;
display_rendezvous_info(null, rendezbody); display_rendezvous_info(null, rendezbody);
} }
else if (FlightGlobals.fetch.vesselTargetMode == VesselTargetModes.DirectionAndVelocity) else if (FlightGlobals.fetch.vesselTargetMode == VesselTargetModes.DirectionAndVelocity)
{ {
//a Vessel is selected //a Vessel is selected
rendezvessel = FlightGlobals.fetch.VesselTarget.GetVessel(); rendezvessel = FlightGlobals.fetch.VesselTarget.GetVessel();
display_rendezvous_info(rendezvessel, null); display_rendezvous_info(rendezvessel, null);
} }
//Show Unset button for both options above //Show Unset button for both options above
if (GUILayout.Button("Unset Target", GUILayout.ExpandWidth(false))) if (GUILayout.Button("Unset Target", GUILayout.ExpandWidth(false)))
{ {
FlightGlobals.fetch.SetVesselTarget(null); FlightGlobals.fetch.SetVesselTarget(null);
Tools.PostDebugMessage("VOID_Rendezvous: KSP Target set to null"); Tools.PostDebugMessage("VOID_Rendezvous: KSP Target set to null");
} }
   
} }
else else
{ {
//no KSP Target selected //no KSP Target selected
GUILayout.Label("No Target Selected", VOID_Core.Instance.LabelStyles["center_bold"]); GUILayout.Label("No Target Selected", this.core.LabelStyles["center_bold"]);
} }
   
//Show Vessel Register vessel info //Show Vessel Register vessel info
if (untoggleRegisterInfo == false && this.RegisterModule != default(IVOID_Module)) if (untoggleRegisterInfo == false && this.RegisterModule != default(IVOID_Module))
{ {
GUILayout.Label("Vessel Register:", VOID_Core.Instance.LabelStyles["center_bold"]); GUILayout.Label("Vessel Register:", this.core.LabelStyles["center_bold"]);
if (this.RegisterModule.selectedVessel != null) if (this.RegisterModule.selectedVessel != null)
{ {
rendezvessel = this.RegisterModule.selectedVessel; rendezvessel = this.RegisterModule.selectedVessel;
display_rendezvous_info(rendezvessel, null); display_rendezvous_info(rendezvessel, null);
   
//show set/unset buttons //show set/unset buttons
if (FlightGlobals.fetch.VesselTarget == null || (FlightGlobals.fetch.VesselTarget != null && FlightGlobals.fetch.VesselTarget.GetVessel() != this.RegisterModule.selectedVessel)) if (FlightGlobals.fetch.VesselTarget == null || (FlightGlobals.fetch.VesselTarget != null && FlightGlobals.fetch.VesselTarget.GetVessel() != this.RegisterModule.selectedVessel))
{ {
//no Tgt set or Tgt is not this vessel //no Tgt set or Tgt is not this vessel
//show a Set button //show a Set button
if (GUILayout.Button("Set Target", GUILayout.ExpandWidth(false))) if (GUILayout.Button("Set Target", GUILayout.ExpandWidth(false)))
{ {
FlightGlobals.fetch.SetVesselTarget(rendezvessel); FlightGlobals.fetch.SetVesselTarget(rendezvessel);
Tools.PostDebugMessage("[VOID] KSP Target set to " + rendezvessel.vesselName); Tools.PostDebugMessage("[VOID] KSP Target set to " + rendezvessel.vesselName);
} }
} }
} }
else else
{ {
//vesreg Vessel is null //vesreg Vessel is null
//targ = null; //targ = null;
GUILayout.Label("No Vessel Selected", VOID_Core.Instance.LabelStyles["center_bold"]); GUILayout.Label("No Vessel Selected", this.core.LabelStyles["center_bold"]);
} }
} }
   
untoggleRegisterInfo.value = GUILayout.Toggle(untoggleRegisterInfo, "Hide Vessel Register Info"); untoggleRegisterInfo.value = GUILayout.Toggle(untoggleRegisterInfo, "Hide Vessel Register Info");
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label(" ", GUILayout.ExpandWidth(true)); GUILayout.Label(" ", GUILayout.ExpandWidth(true));
if (GUILayout.Button("Close", GUILayout.ExpandWidth(false))) this._Active = false; if (GUILayout.Button("Close", GUILayout.ExpandWidth(false))) this._Active = false;
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
private void display_rendezvous_info(Vessel v, CelestialBody cb) private void display_rendezvous_info(Vessel v, CelestialBody cb)
{ {
if (cb == null && v != null) if (cb == null && v != null)
{ {
//Display vessel rendezvous info //Display vessel rendezvous info
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label(v.vesselName, VOID_Core.Instance.LabelStyles["center_bold"], GUILayout.ExpandWidth(true)); GUILayout.Label(v.vesselName, this.core.LabelStyles["center_bold"], GUILayout.ExpandWidth(true));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
if (v.situation == Vessel.Situations.ESCAPING || v.situation == Vessel.Situations.FLYING || v.situation == Vessel.Situations.ORBITING || v.situation == Vessel.Situations.SUB_ORBITAL) if (v.situation == Vessel.Situations.ESCAPING || v.situation == Vessel.Situations.FLYING || v.situation == Vessel.Situations.ORBITING || v.situation == Vessel.Situations.SUB_ORBITAL)
{ {
// Toadicus edit: added local sidereal longitude. // Toadicus edit: added local sidereal longitude.
// Toadicus edit: added local sidereal longitude. // Toadicus edit: added local sidereal longitude.
double LSL = v.longitude + v.orbit.referenceBody.rotationAngle; double LSL = v.longitude + v.orbit.referenceBody.rotationAngle;
LSL = VOID_Tools.FixDegreeDomain (LSL); LSL = VOID_Tools.FixDegreeDomain (LSL);
   
//display orbital info for orbiting/flying/suborbital/escaping vessels only //display orbital info for orbiting/flying/suborbital/escaping vessels only
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Ap/Pe:"); GUILayout.Label("Ap/Pe:");
GUILayout.Label(Tools.MuMech_ToSI(v.orbit.ApA) + "m / " + Tools.MuMech_ToSI(v.orbit.PeA) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI(v.orbit.ApA) + "m / " + Tools.MuMech_ToSI(v.orbit.PeA) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Altitude:"); GUILayout.Label("Altitude:");
GUILayout.Label(Tools.MuMech_ToSI(v.orbit.altitude) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI(v.orbit.altitude) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Inclination:"); GUILayout.Label("Inclination:");
GUILayout.Label(v.orbit.inclination.ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(v.orbit.inclination.ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
if (vessel.mainBody == v.mainBody) if (vessel.mainBody == v.mainBody)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Relative inclination:"); GUILayout.Label("Relative inclination:");
GUILayout.Label(Vector3d.Angle(vessel.orbit.GetOrbitNormal(), v.orbit.GetOrbitNormal()).ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(Vector3d.Angle(vessel.orbit.GetOrbitNormal(), v.orbit.GetOrbitNormal()).ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
//if (debugging) Debug.Log("[CHATR] v -> v relative incl OK"); //if (debugging) Debug.Log("[CHATR] v -> v relative incl OK");
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Velocity:"); GUILayout.Label("Velocity:");
GUILayout.Label(Tools.MuMech_ToSI(v.orbit.vel.magnitude) + "m/s", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI(v.orbit.vel.magnitude) + "m/s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Relative velocity:"); GUILayout.Label("Relative velocity:");
GUILayout.Label(Tools.MuMech_ToSI(v.orbit.vel.magnitude - vessel.orbit.vel.magnitude) + "m/s", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI(v.orbit.vel.magnitude - vessel.orbit.vel.magnitude) + "m/s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Distance:"); GUILayout.Label("Distance:");
GUILayout.Label(Tools.MuMech_ToSI((vessel.findWorldCenterOfMass() - v.findWorldCenterOfMass()).magnitude) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI((vessel.findWorldCenterOfMass() - v.findWorldCenterOfMass()).magnitude) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
//target_vessel_extended_orbital_info = GUILayout.Toggle(target_vessel_extended_orbital_info, "Extended info"); // Toadicus edit: added local sidereal longitude.
  GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
  GUILayout.Label("Local Sidereal Longitude:");
  GUILayout.Label(LSL.ToString("F3") + "°", this.core.LabelStyles["right"]);
  GUILayout.EndHorizontal();
   
  toggleExtendedOrbital.value = GUILayout.Toggle(toggleExtendedOrbital, "Extended info");
   
if (toggleExtendedOrbital) if (toggleExtendedOrbital)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Period:"); GUILayout.Label("Period:");
GUILayout.Label(VOID_Tools.ConvertInterval(v.orbit.period), GUILayout.ExpandWidth(false)); GUILayout.Label(VOID_Tools.ConvertInterval(v.orbit.period), GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Semi-major axis:"); GUILayout.Label("Semi-major axis:");
GUILayout.Label((v.orbit.semiMajorAxis / 1000).ToString("##,#") + "km", GUILayout.ExpandWidth(false)); GUILayout.Label((v.orbit.semiMajorAxis / 1000).ToString("##,#") + "km", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Eccentricity:"); GUILayout.Label("Eccentricity:");
GUILayout.Label(v.orbit.eccentricity.ToString("F4"), GUILayout.ExpandWidth(false)); GUILayout.Label(v.orbit.eccentricity.ToString("F4"), GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
// Toadicus edit: convert mean anomaly into degrees. // Toadicus edit: convert mean anomaly into degrees.
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Mean anomaly:"); GUILayout.Label("Mean anomaly:");
GUILayout.Label((v.orbit.meanAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label((v.orbit.meanAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("True anomaly:"); GUILayout.Label("True anomaly:");
GUILayout.Label(v.orbit.trueAnomaly.ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(v.orbit.trueAnomaly.ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
// Toadicus edit: convert eccentric anomaly into degrees. // Toadicus edit: convert eccentric anomaly into degrees.
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Eccentric anomaly:"); GUILayout.Label("Eccentric anomaly:");
GUILayout.Label((v.orbit.eccentricAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label((v.orbit.eccentricAnomaly * 180d / Math.PI).ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Long. ascending node:"); GUILayout.Label("Long. ascending node:");
GUILayout.Label(v.orbit.LAN.ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(v.orbit.LAN.ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Arg. of periapsis:"); GUILayout.Label("Arg. of periapsis:");
GUILayout.Label(v.orbit.argumentOfPeriapsis.ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(v.orbit.argumentOfPeriapsis.ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
// Toadicus edit: added local sidereal longitude.  
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));  
GUILayout.Label("Local Sidereal Longitude:");  
GUILayout.Label(LSL.ToString("F3") + "°", VOID_Core.Instance.LabelStyles["right"]);  
GUILayout.EndHorizontal();  
} }
} }
else else
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Latitude:"); GUILayout.Label("Latitude:");
GUILayout.Label(VOID_Tools.GetLatitudeString(vessel), GUILayout.ExpandWidth(false)); GUILayout.Label(VOID_Tools.GetLatitudeString(vessel), GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Longitude:"); GUILayout.Label("Longitude:");
GUILayout.Label(VOID_Tools.GetLongitudeString(vessel), GUILayout.ExpandWidth(false)); GUILayout.Label(VOID_Tools.GetLongitudeString(vessel), GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Distance:"); GUILayout.Label("Distance:");
GUILayout.Label(Tools.MuMech_ToSI((vessel.findWorldCenterOfMass() - v.findWorldCenterOfMass()).magnitude) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI((vessel.findWorldCenterOfMass() - v.findWorldCenterOfMass()).magnitude) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
} }
else if (cb != null && v == null) else if (cb != null && v == null)
{ {
//Display CelstialBody rendezvous info //Display CelstialBody rendezvous info
GUILayout.Label(cb.bodyName, VOID_Core.Instance.LabelStyles["center_bold"]); GUILayout.Label(cb.bodyName, this.core.LabelStyles["center_bold"]);
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Ap/Pe:"); GUILayout.Label("Ap/Pe:");
GUILayout.Label(Tools.MuMech_ToSI(cb.orbit.ApA) + "m / " + Tools.MuMech_ToSI(cb.orbit.PeA) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI(cb.orbit.ApA) + "m / " + Tools.MuMech_ToSI(cb.orbit.PeA) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
//if (debugging) Debug.Log("[VOID] Ap/Pe OK"); //if (debugging) Debug.Log("[VOID] Ap/Pe OK");
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Inclination:"); GUILayout.Label("Inclination:");
GUILayout.Label(cb.orbit.inclination.ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(cb.orbit.inclination.ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
//if (debugging) Debug.Log("[VOID] Inclination OK"); //if (debugging) Debug.Log("[VOID] Inclination OK");
   
if (cb.referenceBody == vessel.mainBody) if (cb.referenceBody == vessel.mainBody)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Relative inclination:"); GUILayout.Label("Relative inclination:");
GUILayout.Label(Vector3d.Angle(vessel.orbit.GetOrbitNormal(), cb.orbit.GetOrbitNormal()).ToString("F3") + "°", GUILayout.ExpandWidth(false)); GUILayout.Label(Vector3d.Angle(vessel.orbit.GetOrbitNormal(), cb.orbit.GetOrbitNormal()).ToString("F3") + "°", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
//if (debugging) Debug.Log("[VOID] cb Relative inclination OK"); //if (debugging) Debug.Log("[VOID] cb Relative inclination OK");
} }
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Distance:"); GUILayout.Label("Distance:");
GUILayout.Label(Tools.MuMech_ToSI((vessel.mainBody.position - cb.position).magnitude) + "m", GUILayout.ExpandWidth(false)); GUILayout.Label(Tools.MuMech_ToSI((vessel.mainBody.position - cb.position).magnitude) + "m", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
//if (debugging) Debug.Log("[VOID] Distance OK"); //if (debugging) Debug.Log("[VOID] Distance OK");
   
//SUN2PLANET: //SUN2PLANET:
if (vessel.mainBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody) if (vessel.mainBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody)
{ {
VOID_Tools.display_transfer_angles_SUN2PLANET(cb, vessel); VOID_Tools.display_transfer_angles_SUN2PLANET(cb, vessel);
//if (debugging) Debug.Log("[VOID] SUN2PLANET OK"); //if (debugging) Debug.Log("[VOID] SUN2PLANET OK");
} }
   
//PLANET2PLANET //PLANET2PLANET
else if (vessel.mainBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody.referenceBody) else if (vessel.mainBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody.referenceBody)
{ {
VOID_Tools.display_transfer_angles_PLANET2PLANET(cb, vessel); VOID_Tools.display_transfer_angles_PLANET2PLANET(cb, vessel);
//if (debugging) Debug.Log("[VOID] PLANET2PLANET OK"); //if (debugging) Debug.Log("[VOID] PLANET2PLANET OK");
} }
   
//PLANET2MOON //PLANET2MOON
else if (vessel.mainBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody) else if (vessel.mainBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody)
{ {
VOID_Tools.display_transfer_angles_PLANET2MOON(cb, vessel); VOID_Tools.display_transfer_angles_PLANET2MOON(cb, vessel);
//if (debugging) Debug.Log("[VOID] PLANET2MOON OK"); //if (debugging) Debug.Log("[VOID] PLANET2MOON OK");
} }
   
//MOON2MOON //MOON2MOON
else if (vessel.mainBody.referenceBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody.referenceBody) else if (vessel.mainBody.referenceBody.referenceBody.bodyName == "Sun" && cb.referenceBody == vessel.mainBody.referenceBody)
{ {
VOID_Tools.display_transfer_angles_MOON2MOON(cb, vessel); VOID_Tools.display_transfer_angles_MOON2MOON(cb, vessel);
//if (debugging) Debug.Log("[VOID] MOON2MOON OK"); //if (debugging) Debug.Log("[VOID] MOON2MOON OK");
} }
   
//else GUILayout.Label("Transfer angle information\nunavailable for this target"); //else GUILayout.Label("Transfer angle information\nunavailable for this target");
   
} }
} }
} }
} }
// VOID // VOID
// //
// VOID_SurfAtmo.cs // VOID_SurfAtmo.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_SurfAtmo : VOID_WindowModule public class VOID_SurfAtmo : VOID_WindowModule
{ {
[AVOID_SaveValue("precisionValues")] [AVOID_SaveValue("precisionValues")]
protected long _precisionValues = 230584300921369395; protected long _precisionValues = 230584300921369395;
protected IntCollection precisionValues; protected IntCollection precisionValues;
   
public VOID_SurfAtmo() public VOID_SurfAtmo()
{ {
this._Name = "Surface & Atmospheric Information"; this._Name = "Surface & Atmospheric Information";
   
this.WindowPos.x = Screen.width - 260f; this.WindowPos.x = Screen.width - 260f;
this.WindowPos.y = 85; this.WindowPos.y = 85;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
base.ModuleWindow (_);  
   
int idx = 0; int idx = 0;
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
this.precisionValues [idx]= (ushort)VOID_Data.trueAltitude.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.trueAltitude.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
VOID_Data.surfLatitude.DoGUIHorizontal (); VOID_Data.surfLatitude.DoGUIHorizontal ();
   
VOID_Data.surfLongitude.DoGUIHorizontal (); VOID_Data.surfLongitude.DoGUIHorizontal ();
   
VOID_Data.vesselHeading.DoGUIHorizontal (); VOID_Data.vesselHeading.DoGUIHorizontal ();
   
this.precisionValues [idx]= (ushort)VOID_Data.terrainElevation.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.terrainElevation.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.precisionValues [idx]= (ushort)VOID_Data.surfVelocity.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.surfVelocity.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.precisionValues [idx]= (ushort)VOID_Data.vertVelocity.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.vertVelocity.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
this.precisionValues [idx]= (ushort)VOID_Data.horzVelocity.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.horzVelocity.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
VOID_Data.temperature.DoGUIHorizontal ("F2"); VOID_Data.temperature.DoGUIHorizontal ("F2");
   
VOID_Data.atmDensity.DoGUIHorizontal (3); VOID_Data.atmDensity.DoGUIHorizontal (3);
   
VOID_Data.atmPressure.DoGUIHorizontal ("F2"); VOID_Data.atmPressure.DoGUIHorizontal ("F2");
   
this.precisionValues [idx]= (ushort)VOID_Data.atmLimit.DoGUIHorizontal (this.precisionValues [idx]); this.precisionValues [idx]= (ushort)VOID_Data.atmLimit.DoGUIHorizontal (this.precisionValues [idx]);
idx++; idx++;
   
// Toadicus edit: added Biome // Toadicus edit: added Biome
VOID_Data.currBiome.DoGUIHorizontal (); VOID_Data.currBiome.DoGUIHorizontal ();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
GUI.DragWindow(); GUI.DragWindow();
} }
   
public override void LoadConfig () public override void LoadConfig ()
{ {
base.LoadConfig (); base.LoadConfig ();
   
this.precisionValues = new IntCollection (4, this._precisionValues); this.precisionValues = new IntCollection (4, this._precisionValues);
} }
   
public override void _SaveToConfig (KSP.IO.PluginConfiguration config) public override void _SaveToConfig (KSP.IO.PluginConfiguration config)
{ {
this._precisionValues = this.precisionValues.collection; this._precisionValues = this.precisionValues.collection;
   
base._SaveToConfig (config); base._SaveToConfig (config);
} }
} }
   
public static partial class VOID_Data public static partial class VOID_Data
{ {
public static readonly VOID_DoubleValue trueAltitude = new VOID_DoubleValue( public static readonly VOID_DoubleValue trueAltitude = new VOID_DoubleValue(
"Altitude (true)", "Altitude (true)",
delegate() delegate()
{ {
double alt_true = VOID_Core.Instance.vessel.orbit.altitude - VOID_Core.Instance.vessel.terrainAltitude; double alt_true = core.vessel.orbit.altitude - core.vessel.terrainAltitude;
// HACK: This assumes that on worlds with oceans, all water is fixed at 0 m, // HACK: This assumes that on worlds with oceans, all water is fixed at 0 m,
// and water covers the whole surface at 0 m. // and water covers the whole surface at 0 m.
if (VOID_Core.Instance.vessel.terrainAltitude < 0 && VOID_Core.Instance.vessel.mainBody.ocean ) if (core.vessel.terrainAltitude < 0 && core.vessel.mainBody.ocean )
alt_true = VOID_Core.Instance.vessel.orbit.altitude; alt_true = core.vessel.orbit.altitude;
return alt_true; return alt_true;
}, },
"m" "m"
); );
   
public static readonly VOID_StrValue surfLatitude = new VOID_StrValue( public static readonly VOID_StrValue surfLatitude = new VOID_StrValue(
"Latitude", "Latitude",
new Func<string> (() => VOID_Tools.GetLatitudeString(VOID_Core.Instance.vessel)) new Func<string> (() => VOID_Tools.GetLatitudeString(core.vessel))
); );
   
public static readonly VOID_StrValue surfLongitude = new VOID_StrValue( public static readonly VOID_StrValue surfLongitude = new VOID_StrValue(
"Longitude", "Longitude",
new Func<string> (() => VOID_Tools.GetLongitudeString(VOID_Core.Instance.vessel)) new Func<string> (() => VOID_Tools.GetLongitudeString(core.vessel))
); );
   
public static readonly VOID_StrValue vesselHeading = new VOID_StrValue( public static readonly VOID_StrValue vesselHeading = new VOID_StrValue(
"Heading", "Heading",
delegate() delegate()
{ {
double heading = core.vessel.getSurfaceHeading(); double heading = core.vessel.getSurfaceHeading();
string cardinal = VOID_Tools.get_heading_text(heading); string cardinal = VOID_Tools.get_heading_text(heading);
   
return string.Format( return string.Format(
"{0}° {1}", "{0}° {1}",
heading.ToString("F2"), heading.ToString("F2"),
cardinal cardinal
); );
} }
); );
   
public static readonly VOID_DoubleValue terrainElevation = new VOID_DoubleValue( public static readonly VOID_DoubleValue terrainElevation = new VOID_DoubleValue(
"Terrain elevation", "Terrain elevation",
new Func<double> (() => VOID_Core.Instance.vessel.terrainAltitude), new Func<double> (() => core.vessel.terrainAltitude),
"m" "m"
); );
   
public static readonly VOID_DoubleValue surfVelocity = new VOID_DoubleValue( public static readonly VOID_DoubleValue surfVelocity = new VOID_DoubleValue(
"Surface velocity", "Surface velocity",
new Func<double> (() => VOID_Core.Instance.vessel.srf_velocity.magnitude), new Func<double> (() => core.vessel.srf_velocity.magnitude),
"m/s" "m/s"
); );
   
public static readonly VOID_DoubleValue vertVelocity = new VOID_DoubleValue( public static readonly VOID_DoubleValue vertVelocity = new VOID_DoubleValue(
"Vertical speed", "Vertical speed",
new Func<double> (() => VOID_Core.Instance.vessel.verticalSpeed), new Func<double> (() => core.vessel.verticalSpeed),
"m/s" "m/s"
); );
   
public static readonly VOID_DoubleValue horzVelocity = new VOID_DoubleValue( public static readonly VOID_DoubleValue horzVelocity = new VOID_DoubleValue(
"Horizontal speed", "Horizontal speed",
new Func<double> (() => VOID_Core.Instance.vessel.horizontalSrfSpeed), new Func<double> (() => core.vessel.horizontalSrfSpeed),
"m/s" "m/s"
); );
   
public static readonly VOID_FloatValue temperature = new VOID_FloatValue( public static readonly VOID_FloatValue temperature = new VOID_FloatValue(
"Temperature", "Temperature",
new Func<float> (() => VOID_Core.Instance.vessel.flightIntegrator.getExternalTemperature()), new Func<float> (() => core.vessel.flightIntegrator.getExternalTemperature()),
"°C" "°C"
); );
   
public static readonly VOID_DoubleValue atmDensity = new VOID_DoubleValue ( public static readonly VOID_DoubleValue atmDensity = new VOID_DoubleValue (
"Atmosphere Density", "Atmosphere Density",
new Func<double> (() => VOID_Core.Instance.vessel.atmDensity * 1000f), new Func<double> (() => core.vessel.atmDensity * 1000f),
"g/m³" "g/m³"
); );
   
public static readonly VOID_DoubleValue atmPressure = new VOID_DoubleValue ( public static readonly VOID_DoubleValue atmPressure = new VOID_DoubleValue (
"Pressure", "Pressure",
new Func<double> (() => VOID_Core.Instance.vessel.staticPressure), new Func<double> (() => core.vessel.staticPressure),
"atm" "atm"
); );
   
public static readonly VOID_FloatValue atmLimit = new VOID_FloatValue( public static readonly VOID_FloatValue atmLimit = new VOID_FloatValue(
"Atmosphere Limit", "Atmosphere Limit",
new Func<float> (() => VOID_Core.Instance.vessel.mainBody.maxAtmosphereAltitude), new Func<float> (() => core.vessel.mainBody.maxAtmosphereAltitude),
"m" "m"
); );
   
public static readonly VOID_StrValue currBiome = new VOID_StrValue( public static readonly VOID_StrValue currBiome = new VOID_StrValue(
"Biome", "Biome",
new Func<string> (() => VOID_Tools.GetBiome(VOID_Core.Instance.vessel).name) new Func<string> (() => VOID_Tools.GetBiome(core.vessel).name)
); );
   
} }
} }
file:b/VOID_TWR.cs (new)
  // VOID © 2014 toadicus
  //
  // This work is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a
  // copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/
 
  using KSP;
  using System;
  using System.Collections.Generic;
  using System.Linq;
  using ToadicusTools;
  using UnityEngine;
 
  namespace VOID
  {
  public class VOID_TWR : VOID_WindowModule
  {
  private List<CelestialBody> sortedBodyList;
 
  public VOID_TWR() : base()
  {
  this._Name = "IP Thrust-to-Weight Ratios";
  }
 
  public override void ModuleWindow(int _)
  {
  if (
  HighLogic.LoadedSceneIsEditor ||
  (TimeWarp.WarpMode == TimeWarp.Modes.LOW) ||
  (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate)
  )
  {
  Engineer.VesselSimulator.SimManager.RequestSimulation();
  }
 
  GUILayout.BeginVertical();
 
  if (this.sortedBodyList == null)
  {
  if (FlightGlobals.Bodies != null && FlightGlobals.Bodies.Count > 0)
  {
  this.sortedBodyList = new List<CelestialBody>(FlightGlobals.Bodies);
  this.sortedBodyList.Sort(new CBListComparer());
  this.sortedBodyList.Reverse();
 
  Debug.Log(string.Format("sortedBodyList: {0}", string.Join("\n\t", this.sortedBodyList.Select(b => b.bodyName).ToArray())));
  }
  else
  {
  GUILayout.BeginHorizontal();
  GUILayout.Label("Unavailable.");
  GUILayout.EndHorizontal();
  }
  }
  else
  {
  foreach (CelestialBody body in this.sortedBodyList)
  {
  GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
 
  GUILayout.Label(body.bodyName);
  GUILayout.FlexibleSpace();
  GUILayout.Label(
  (VOID_Data.nominalThrustWeight.Value / body.GeeASL).ToString("0.0##"),
  GUILayout.ExpandWidth(true)
  );
 
  GUILayout.EndHorizontal();
  }
  }
 
  GUILayout.EndVertical();
 
  GUI.DragWindow();
  }
  }
 
  public class VOID_EditorTWR : VOID_TWR, IVOID_EditorModule {}
 
  public static partial class VOID_Data
  {
  public static readonly VOID_DoubleValue nominalThrustWeight = new VOID_DoubleValue(
  "Thrust-to-Weight Ratio",
  delegate()
  {
  if (HighLogic.LoadedSceneIsEditor || currThrustWeight.Value == 0d)
  {
  return maxThrustWeight.Value;
  }
 
  return currThrustWeight.Value;
  },
  ""
  );
  }
  }
 
 
// VOID // VOID
// //
// VOID_Tools.cs // VOID_Tools.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
  using System.Collections.Generic;
  using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public static partial class VOID_Tools public static partial class VOID_Tools
{ {
  #region CelestialBody Utilities
  public static bool hasAncestor(this CelestialBody bodyA, CelestialBody bodyB)
  {
  if (bodyA == null || bodyB == null)
  {
  return false;
  }
   
  while (bodyA.orbitDriver != null)
  {
  if (bodyA.orbit.referenceBody == bodyB)
  {
  return true;
  }
   
  bodyA = bodyA.orbit.referenceBody;
  }
   
  return false;
  }
   
  public static bool NearestRelatedParents(ref CelestialBody bodyA, ref CelestialBody bodyB)
  {
  if (bodyA == null || bodyB == null || bodyA.orbitDriver == null || bodyB.orbitDriver == null)
  {
  throw new ArgumentException(string.Concat(
  "CelestialBody::FindRelatedParents: ",
  "Neither body may be null, and both bodies must have orbits."
  ));
  }
   
  CelestialBody a, b;
   
  a = bodyA;
   
  while (bodyA.orbitDriver != null)
  {
  b = bodyB;
   
  while (b.orbitDriver != null)
  {
  if (a.orbit.referenceBody == b.orbit.referenceBody)
  {
  bodyA = a;
  bodyB = b;
  return true;
  }
   
  b = b.orbit.referenceBody;
  }
   
  a = a.orbit.referenceBody;
  }
   
  return false;
  }
  #endregion
   
#region VESSEL_EXTENSIONS_SCIENCE #region VESSEL_EXTENSIONS_SCIENCE
public static CBAttributeMap.MapAttribute GetBiome(this Vessel vessel) public static CBAttributeMap.MapAttribute GetBiome(this Vessel vessel)
{ {
CBAttributeMap.MapAttribute mapAttribute; CBAttributeMap.MapAttribute mapAttribute;
   
try try
{ {
CBAttributeMap BiomeMap = vessel.mainBody.BiomeMap; CBAttributeMap BiomeMap = vessel.mainBody.BiomeMap;
   
double lat = vessel.latitude * Math.PI / 180d; double lat = vessel.latitude * Math.PI / 180d;
double lon = vessel.longitude * Math.PI / 180d; double lon = vessel.longitude * Math.PI / 180d;
   
mapAttribute = BiomeMap.GetAtt(lat, lon); mapAttribute = BiomeMap.GetAtt(lat, lon);
   
/* /*
lon -= Math.PI / 2d; lon -= Math.PI / 2d;
   
if (lon < 0d) if (lon < 0d)
{ {
lon += 2d * Math.PI; lon += 2d * Math.PI;
} }
   
float v = (float)(lat / Math.PI) + 0.5f; float v = (float)(lat / Math.PI) + 0.5f;
float u = (float)(lon / (2d * Math.PI)); float u = (float)(lon / (2d * Math.PI));
   
Color pixelBilinear = BiomeMap.Map.GetPixelBilinear(u, v); Color pixelBilinear = BiomeMap.Map.GetPixelBilinear(u, v);
mapAttribute = BiomeMap.defaultAttribute; mapAttribute = BiomeMap.defaultAttribute;
   
if (BiomeMap.Map != null) if (BiomeMap.Map != null)
{ {
if (BiomeMap.exactSearch) if (BiomeMap.exactSearch)
{ {
for (int i = 0; i < BiomeMap.Attributes.Length; ++i) for (int i = 0; i < BiomeMap.Attributes.Length; ++i)
{ {
if (pixelBilinear == BiomeMap.Attributes[i].mapColor) if (pixelBilinear == BiomeMap.Attributes[i].mapColor)
{ {
mapAttribute = BiomeMap.Attributes[i]; mapAttribute = BiomeMap.Attributes[i];
} }
} }
} }
else else
{ {
float zero = 0; float zero = 0;
float num = 1 / zero; float num = 1 / zero;
for (int j = 0; j < BiomeMap.Attributes.Length; ++j) for (int j = 0; j < BiomeMap.Attributes.Length; ++j)
{ {
Color mapColor = BiomeMap.Attributes[j].mapColor; Color mapColor = BiomeMap.Attributes[j].mapColor;
float sqrMagnitude = ((Vector4)(mapColor - pixelBilinear)).sqrMagnitude; float sqrMagnitude = ((Vector4)(mapColor - pixelBilinear)).sqrMagnitude;
if (sqrMagnitude < num) if (sqrMagnitude < num)
{ {
bool testCase = true; bool testCase = true;
if (BiomeMap.nonExactThreshold != -1) if (BiomeMap.nonExactThreshold != -1)
{ {
testCase = (sqrMagnitude < BiomeMap.nonExactThreshold); testCase = (sqrMagnitude < BiomeMap.nonExactThreshold);
} }
if (testCase) if (testCase)
{ {
mapAttribute = BiomeMap.Attributes[j]; mapAttribute = BiomeMap.Attributes[j];
num = sqrMagnitude; num = sqrMagnitude;
} }
} }
} }
} }
} }
*/ */
} }
catch (NullReferenceException) catch (NullReferenceException)
{ {
mapAttribute = new CBAttributeMap.MapAttribute(); mapAttribute = new CBAttributeMap.MapAttribute();
mapAttribute.name = "N/A"; mapAttribute.name = "N/A";
} }
   
return mapAttribute; return mapAttribute;
} }
   
public static ExperimentSituations GetExperimentSituation(this Vessel vessel) public static ExperimentSituations GetExperimentSituation(this Vessel vessel)
{ {
  if (vessel == null)
  {
  return ExperimentSituations.SrfSplashed;
  }
   
Vessel.Situations situation = vessel.situation; Vessel.Situations situation = vessel.situation;
   
switch (situation) switch (situation)
{ {
case Vessel.Situations.PRELAUNCH: case Vessel.Situations.PRELAUNCH:
case Vessel.Situations.LANDED: case Vessel.Situations.LANDED:
return ExperimentSituations.SrfLanded; return ExperimentSituations.SrfLanded;
case Vessel.Situations.SPLASHED: case Vessel.Situations.SPLASHED:
return ExperimentSituations.SrfSplashed; return ExperimentSituations.SrfSplashed;
case Vessel.Situations.FLYING: case Vessel.Situations.FLYING:
if (vessel.altitude < (double)vessel.mainBody.scienceValues.flyingAltitudeThreshold) if (vessel.altitude < (double)vessel.mainBody.scienceValues.flyingAltitudeThreshold)
{ {
return ExperimentSituations.FlyingLow; return ExperimentSituations.FlyingLow;
} }
else else
{ {
return ExperimentSituations.FlyingHigh; return ExperimentSituations.FlyingHigh;
} }
} }
   
if (vessel.altitude < (double)vessel.mainBody.scienceValues.spaceAltitudeThreshold) if (vessel.altitude < (double)vessel.mainBody.scienceValues.spaceAltitudeThreshold)
{ {
return ExperimentSituations.InSpaceLow; return ExperimentSituations.InSpaceLow;
} }
else else
{ {
return ExperimentSituations.InSpaceHigh; return ExperimentSituations.InSpaceHigh;
} }
} }
   
public static string HumanString(this ExperimentSituations situation) public static string HumanString(this ExperimentSituations situation)
{ {
switch (situation) switch (situation)
{ {
case ExperimentSituations.FlyingHigh: case ExperimentSituations.FlyingHigh:
return "Upper Atmosphere"; return "Upper Atmosphere";
case ExperimentSituations.FlyingLow: case ExperimentSituations.FlyingLow:
return "Flying"; return "Flying";
case ExperimentSituations.SrfLanded: case ExperimentSituations.SrfLanded:
return "Surface"; return "Surface";
case ExperimentSituations.InSpaceLow: case ExperimentSituations.InSpaceLow:
return "Near in Space"; return "Near in Space";
case ExperimentSituations.InSpaceHigh: case ExperimentSituations.InSpaceHigh:
return "High in Space"; return "High in Space";
case ExperimentSituations.SrfSplashed: case ExperimentSituations.SrfSplashed:
return "Splashed Down"; return "Splashed Down";
default: default:
return "Unknown"; return "Unknown";
} }
} }
#endregion #endregion
   
#region VESSEL_EXTENSIONS_LAT_LONG #region VESSEL_EXTENSIONS_LAT_LONG
public static string GetLongitudeString(this Vessel vessel, string format = "F4") public static string GetLongitudeString(this Vessel vessel, string format = "F4")
{ {
string dir_long = "W"; string dir_long = "W";
double v_long = vessel.longitude; double v_long = vessel.longitude;
   
v_long = FixDegreeDomain(v_long); v_long = FixDegreeDomain(v_long);
   
if (v_long < -180d) if (v_long < -180d)
{ {
v_long += 360d; v_long += 360d;
} }
if (v_long >= 180) if (v_long >= 180)
{ {
v_long -= 360d; v_long -= 360d;
} }
   
if (v_long > 0) if (v_long > 0)
dir_long = "E"; dir_long = "E";
   
return string.Format("{0}° {1}", Math.Abs(v_long).ToString(format), dir_long); return string.Format("{0}° {1}", Math.Abs(v_long).ToString(format), dir_long);
} }
   
public static string GetLatitudeString(this Vessel vessel, string format = "F4") public static string GetLatitudeString(this Vessel vessel, string format = "F4")
{ {
string dir_lat = "S"; string dir_lat = "S";
double v_lat = vessel.latitude; double v_lat = vessel.latitude;
if (v_lat > 0) if (v_lat > 0)
dir_lat = "N"; dir_lat = "N";
   
return string.Format("{0}° {1}", Math.Abs(v_lat).ToString(format), dir_lat); return string.Format("{0}° {1}", Math.Abs(v_lat).ToString(format), dir_lat);
} }
#endregion #endregion
   
#region VESSEL_EXTENSIONS_GENERAL #region VESSEL_EXTENSIONS_GENERAL
public static double TrueAltitude(Vessel vessel) public static double TrueAltitude(Vessel vessel)
{ {
double trueAltitude = vessel.orbit.altitude - vessel.terrainAltitude; double trueAltitude = vessel.orbit.altitude - vessel.terrainAltitude;
   
// HACK: This assumes that on worlds with oceans, all water is fixed at 0 m, // HACK: This assumes that on worlds with oceans, all water is fixed at 0 m,
// and water covers the whole surface at 0 m. // and water covers the whole surface at 0 m.
if (vessel.terrainAltitude < 0 && vessel.mainBody.ocean) if (vessel.terrainAltitude < 0 && vessel.mainBody.ocean)
{ {
trueAltitude = vessel.orbit.altitude; trueAltitude = vessel.orbit.altitude;
} }
   
return trueAltitude; return trueAltitude;
} }
   
public static double Radius(this Vessel vessel) public static double Radius(this Vessel vessel)
{ {
double radius; double radius;
   
radius = vessel.altitude; radius = vessel.altitude;
   
if (vessel.mainBody != null) if (vessel.mainBody != null)
{ {
radius += vessel.mainBody.Radius; radius += vessel.mainBody.Radius;
} }
   
return radius; return radius;
} }
#endregion #endregion
   
#region GEOMETRY_UTILS #region GEOMETRY_UTILS
public static double FixAngleDomain(double Angle, bool Degrees = false) public static double FixAngleDomain(double Angle, bool Degrees = false)
{ {
double Extent = 2d * Math.PI; double Extent = 2d * Math.PI;
if (Degrees) if (Degrees)
{ {
Extent = 360d; Extent = 360d;
} }
   
Angle = Angle % (Extent); Angle = Angle % (Extent);
if (Angle < 0d) if (Angle < 0d)
{ {
Angle += Extent; Angle += Extent;
} }
   
return Angle; return Angle;
} }
   
public static double FixDegreeDomain(double Angle) public static double FixDegreeDomain(double Angle)
{ {
return FixAngleDomain(Angle, true); return FixAngleDomain(Angle, true);
} }
#endregion #endregion
   
  private static Dictionary<int, GUI.WindowFunction> functionCache;
  public static UnityEngine.GUI.WindowFunction GetWindowHandler(Action<int> func)
  {
  if (functionCache == null)
  {
  functionCache = new Dictionary<int, GUI.WindowFunction>();
  }
   
  int hashCode = func.GetHashCode();
   
  if (!functionCache.ContainsKey(hashCode))
  {
  functionCache[hashCode] = delegate (int id)
  {
  try
  {
  func(id);
  }
  catch (ArgumentException ex)
  {
  Debug.LogWarning(
  string.Format("[{0}]: ArgumentException caught during window call.", func.Target.GetType().Name)
  );
  /*#if DEBUG
  Debug.LogException(ex);
  #endif*/
  }
  };
  }
   
  return functionCache[hashCode];
  }
   
  /// <summary>
  /// Converts the interval given in seconds to a human-friendly
  /// time period in [years], [days], hours, minutes, and seconds.
  ///
  /// Uses sidereal days, since "6 hours per day" is the Kerbal standard.
  /// </summary>
  /// <returns>Human readable interval</returns>
  /// <param name="seconds"></param>
public static string ConvertInterval(double seconds) public static string ConvertInterval(double seconds)
{ {
string format_1 = "{0:D1}y {1:D1}d {2:D2}h {3:D2}m {4:D2}.{5:D1}s"; double SecondsPerMinute = 60d;
string format_2 = "{0:D1}d {1:D2}h {2:D2}m {3:D2}.{4:D1}s"; double SecondsPerHour = 3600d;
string format_3 = "{0:D2}h {1:D2}m {2:D2}.{3:D1}s"; double SecondsPerDay;
  double SecondsPerYear;
TimeSpan interval;  
  if (GameSettings.KERBIN_TIME)
try {
{ SecondsPerDay = 21600d;
interval = TimeSpan.FromSeconds(seconds); SecondsPerYear = 9203545d;
} }
catch (OverflowException) else
{ {
return "NaN"; SecondsPerDay = 86164.1d;
} SecondsPerYear = 31558149d;
  }
int years = interval.Days / 365;  
  int years;
string output; int days;
  int hours;
  int minutes;
   
  years = (int)(seconds / SecondsPerYear);
   
  seconds %= SecondsPerYear;
   
  days = (int)(seconds / SecondsPerDay);
   
  seconds %= SecondsPerDay;
   
  hours = (int)(seconds / SecondsPerHour);
   
  seconds %= SecondsPerHour;
   
  minutes = (int)(seconds / SecondsPerMinute);
   
  seconds %= SecondsPerMinute;
   
  string format_1 = string.Intern("{0:D1}y {1:D1}d {2:D2}h {3:D2}m {4:00.0}s");
  string format_2 = string.Intern("{0:D1}d {1:D2}h {2:D2}m {3:00.0}s");
  string format_3 = string.Intern("{0:D2}h {1:D2}m {2:00.0}s");
  string format_4 = string.Intern("{0:D2}m {1:00.0}s");
  string format_5 = string.Intern("{0:00.0}s");
   
if (years > 0) if (years > 0)
{ {
output = string.Format(format_1, return string.Format(format_1, years, days, hours, minutes, seconds);
years, }
interval.Days - (years * 365), // subtract years * 365 for accurate day count else if (days > 0)
interval.Hours, {
interval.Minutes, return string.Format(format_2, days, hours, minutes, seconds);
interval.Seconds, }
interval.Milliseconds.ToString().Substring(0, 1)); else if (hours > 0)
} {
else if (interval.Days > 0) return string.Format(format_3, hours, minutes, seconds);
{ }
output = string.Format(format_2, else if (minutes > 0)
interval.Days, {
interval.Hours, return string.Format(format_4, minutes, seconds);
interval.Minutes,  
interval.Seconds,  
interval.Milliseconds.ToString().Substring(0, 1));  
} }
else else
{ {
output = string.Format(format_3, return string.Format(format_5, seconds);
interval.Hours, }
interval.Minutes,  
interval.Seconds,  
interval.Milliseconds.ToString().Substring(0, 1));  
}  
return output;  
} }
   
public static string UppercaseFirst(string s) public static string UppercaseFirst(string s)
{ {
if (string.IsNullOrEmpty(s)) if (string.IsNullOrEmpty(s))
{ {
return string.Empty; return string.Empty;
} }
char[] a = s.ToCharArray(); char[] a = s.ToCharArray();
a[0] = char.ToUpper(a[0]); a[0] = char.ToUpper(a[0]);
return new string(a); return new string(a);
} }
   
//transfer angles //transfer angles
public static double Nivvy_CalcTransferPhaseAngle(double r_current, double r_target, double grav_param) public static double Nivvy_CalcTransferPhaseAngle(double r_current, double r_target, double grav_param)
{ {
double T_target = (2 * Math.PI) * Math.Sqrt(Math.Pow((r_target / 1000), 3) / (grav_param / 1000000000)); r_target /= 1000;
double T_transfer = (2 * Math.PI) * Math.Sqrt(Math.Pow((((r_target / 1000) + (r_current / 1000)) / 2), 3) / (grav_param / 1000000000)); r_current /= 1000;
  grav_param /= 1000000000;
   
  double midpoint = (r_target + r_current) / 2;
   
  double T_target = (2 * Math.PI) * Math.Sqrt((r_target * r_target * r_target) / grav_param);
  double T_transfer = (2 * Math.PI) * Math.Sqrt((midpoint * midpoint * midpoint) / grav_param);
return 360 * (0.5 - (T_transfer / (2 * T_target))); return 360 * (0.5 - (T_transfer / (2 * T_target)));
} }
   
public static double Younata_DeltaVToGetToOtherBody(double mu, double r1, double r2) public static double Younata_DeltaVToGetToOtherBody(double mu, double r1, double r2)
{ {
/* /*
def deltaVToGetToOtherBody(mu, r1, r2): def deltaVToGetToOtherBody(mu, r1, r2):
# mu = gravity param of common orbiting body of r1 and r2 # mu = gravity param of common orbiting body of r1 and r2
# (e.g. for mun to minmus, mu is kerbin's gravity param # (e.g. for mun to minmus, mu is kerbin's gravity param
# r1 = initial body's orbit radius # r1 = initial body's orbit radius
# r2 = target body's orbit radius # r2 = target body's orbit radius
# return value is km/s # return value is km/s
sur1 = math.sqrt(mu / r1) sur1 = math.sqrt(mu / r1)
sr1r2 = math.sqrt(float(2*r2)/float(r1+r2)) sr1r2 = math.sqrt(float(2*r2)/float(r1+r2))
mult = sr1r2 - 1 mult = sr1r2 - 1
return sur1 * mult return sur1 * mult
*/ */
double sur1, sr1r2, mult; double sur1, sr1r2, mult;
sur1 = Math.Sqrt(mu / r1); sur1 = Math.Sqrt(mu / r1);
sr1r2 = Math.Sqrt((2 * r2) / (r1 + r2)); sr1r2 = Math.Sqrt((2 * r2) / (r1 + r2));
mult = sr1r2 - 1; mult = sr1r2 - 1;
return sur1 * mult; return sur1 * mult;
} }
   
public static double Younata_DeltaVToExitSOI(double mu, double r1, double r2, double v) public static double Younata_DeltaVToExitSOI(double mu, double r1, double r2, double v)
{ {
/* /*
def deltaVToExitSOI(mu, r1, r2, v): def deltaVToExitSOI(mu, r1, r2, v):
# mu = gravity param of current body # mu = gravity param of current body
# r1 = current orbit radius # r1 = current orbit radius
# r2 = SOI radius # r2 = SOI radius
# v = SOI exit velocity # v = SOI exit velocity
foo = r2 * (v**2) - 2 * mu foo = r2 * (v**2) - 2 * mu
bar = r1 * foo + (2 * r2 * mu) bar = r1 * foo + (2 * r2 * mu)
r = r1*r2 r = r1*r2
return math.sqrt(bar / r) return math.sqrt(bar / r)
*/ */
double foo = r2 * Math.Pow(v, 2) - 2 * mu; double foo = r2 * (v * v) - 2 * mu;
double bar = r1 * foo + (2 * r2 * mu); double bar = r1 * foo + (2 * r2 * mu);
double r = r1 * r2; double r = r1 * r2;
return Math.Sqrt(bar / r); return Math.Sqrt(bar / r);
} }
   
public static double Younata_TransferBurnPoint(double r, double v, double angle, double mu) public static double Younata_TransferBurnPoint(double r, double v, double angle, double mu)
{ {
/* /*
def transferBurnPoint(r, v, angle, mu): def transferBurnPoint(r, v, angle, mu):
# r = parking orbit radius # r = parking orbit radius
# v = ejection velocity # v = ejection velocity
# angle = phase angle (from function phaseAngle()) # angle = phase angle (from function phaseAngle())
# mu = gravity param of current body. # mu = gravity param of current body.
epsilon = ((v**2)/2) - (mu / r) epsilon = ((v**2)/2) - (mu / r)
h = r * v * math.sin(angle) h = r * v * math.sin(angle)
e = math.sqrt(1 + ((2 * epsilon * h**2)/(mu**2))) e = math.sqrt(1 + ((2 * epsilon * h**2)/(mu**2)))
theta = math.acos(1.0 / e) theta = math.acos(1.0 / e)
degrees = theta * (180.0 / math.pi) degrees = theta * (180.0 / math.pi)
return 180 - degrees return 180 - degrees
*/ */
double epsilon, h, ee, theta, degrees; double epsilon, h, ee, theta, degrees;
epsilon = (Math.Pow(v, 2) / 2) - (mu / r); epsilon = ((v * v) / 2) - (mu / r);
h = r * v * Math.Sin(angle); h = r * v * Math.Sin(angle);
ee = Math.Sqrt(1 + ((2 * epsilon * Math.Pow(h, 2)) / Math.Pow(mu, 2))); ee = Math.Sqrt(1 + ((2 * epsilon * (h * h)) / (mu * mu)));
theta = Math.Acos(1.0 / ee); theta = Math.Acos(1.0 / ee);
degrees = theta * (180.0 / Math.PI); degrees = theta * (180.0 / Math.PI);
return 180 - degrees; return 180 - degrees;
// returns the ejection angle // returns the ejection angle
} }
   
public static double Adammada_CurrrentPhaseAngle( public static double Adammada_CurrrentPhaseAngle(
double body_LAN, double body_LAN,
double body_orbitPct, double body_orbitPct,
double origin_LAN, double origin_LAN,
double origin_orbitPct double origin_orbitPct
) )
{ {
double angle = (body_LAN / 360 + body_orbitPct) - (origin_LAN / 360 + origin_orbitPct); double angle = (body_LAN / 360 + body_orbitPct) - (origin_LAN / 360 + origin_orbitPct);
if (angle > 1) if (angle > 1)
angle = angle - 1; angle = angle - 1;
if (angle < 0) if (angle < 0)
angle = angle + 1; angle = angle + 1;
if (angle > 0.5) if (angle > 0.5)
angle = angle - 1; angle = angle - 1;
angle = angle * 360; angle = angle * 360;
return angle; return angle;
} }
   
public static double Adammada_CurrentEjectionAngle( public static double Adammada_CurrentEjectionAngle(
double vessel_long, double vessel_long,
double origin_rotAngle, double origin_rotAngle,
double origin_LAN, double origin_LAN,
double origin_orbitPct double origin_orbitPct
) )
{ {
//double eangle = ((FlightGlobals.ActiveVOID.vessel.longitude + orbiting.rotationAngle) - (orbiting.orbit.LAN / 360 + orbiting.orbit.orbitPercent) * 360); //double eangle = ((FlightGlobals.ActiveVOID.vessel.longitude + orbiting.rotationAngle) - (orbiting.orbit.LAN / 360 + orbiting.orbit.orbitPercent) * 360);
double eangle = ((vessel_long + origin_rotAngle) - (origin_LAN / 360 + origin_orbitPct) * 360); double eangle = ((vessel_long + origin_rotAngle) - (origin_LAN / 360 + origin_orbitPct) * 360);
   
while (eangle < 0) while (eangle < 0)
eangle = eangle + 360; eangle = eangle + 360;
while (eangle > 360) while (eangle > 360)
eangle = eangle - 360; eangle = eangle - 360;
if (eangle < 270) if (eangle < 270)
eangle = 90 - eangle; eangle = 90 - eangle;
else else
eangle = 450 - eangle; eangle = 450 - eangle;
return eangle; return eangle;
} }
   
public static double mrenigma03_calcphase(Vessel vessel, CelestialBody target) //calculates phase angle between the current body and target body public static double mrenigma03_calcphase(Vessel vessel, CelestialBody target) //calculates phase angle between the current body and target body
{ {
Vector3d vecthis = new Vector3d(); Vector3d vecthis = new Vector3d();
Vector3d vectarget = new Vector3d(); Vector3d vectarget = new Vector3d();
vectarget = target.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime()); vectarget = target.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime());
   
if ((vessel.mainBody.name == "Sun") || (vessel.mainBody.referenceBody.referenceBody.name == "Sun")) if ((vessel.mainBody.name == "Sun") || (vessel.mainBody.referenceBody.referenceBody.name == "Sun"))
{ {
vecthis = vessel.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime()); vecthis = vessel.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime());
} }
else else
{ {
vecthis = vessel.mainBody.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime()); vecthis = vessel.mainBody.orbit.getRelativePositionAtUT(Planetarium.GetUniversalTime());
} }
   
vecthis = Vector3d.Project(new Vector3d(vecthis.x, 0, vecthis.z), vecthis); vecthis = Vector3d.Project(new Vector3d(vecthis.x, 0, vecthis.z), vecthis);
vectarget = Vector3d.Project(new Vector3d(vectarget.x, 0, vectarget.z), vectarget); vectarget = Vector3d.Project(new Vector3d(vectarget.x, 0, vectarget.z), vectarget);
   
Vector3d prograde = new Vector3d(); Vector3d prograde = new Vector3d();
prograde = Quaternion.AngleAxis(90, Vector3d.forward) * vecthis; prograde = Quaternion.AngleAxis(90, Vector3d.forward) * vecthis;
   
double phase = Vector3d.Angle(vecthis, vectarget); double phase = Vector3d.Angle(vecthis, vectarget);
   
if (Vector3d.Angle(prograde, vectarget) > 90) if (Vector3d.Angle(prograde, vectarget) > 90)
phase = 360 - phase; phase = 360 - phase;
   
return (phase + 360) % 360; return (phase + 360) % 360;
} }
   
public static double adjustCurrPhaseAngle(double transfer_angle, double curr_phase) public static double adjustCurrPhaseAngle(double transfer_angle, double curr_phase)
{ {
if (transfer_angle < 0) if (transfer_angle < 0)
{ {
if (curr_phase > 0) if (curr_phase > 0)
return (-1 * (360 - curr_phase)); return (-1 * (360 - curr_phase));
else if (curr_phase < 0) else if (curr_phase < 0)
return curr_phase; return curr_phase;
} }
else if (transfer_angle > 0) else if (transfer_angle > 0)
{ {
if (curr_phase > 0) if (curr_phase > 0)
return curr_phase; return curr_phase;
else if (curr_phase < 0) else if (curr_phase < 0)
return (360 + curr_phase); return (360 + curr_phase);
} }
return curr_phase; return curr_phase;
} }
   
public static double adjust_current_ejection_angle(double curr_ejection) public static double adjust_current_ejection_angle(double curr_ejection)
{ {
//curr_ejection WILL need to be adjusted once for all transfers as it returns values ranging -180 to 180 //curr_ejection WILL need to be adjusted once for all transfers as it returns values ranging -180 to 180
// need 0-360 instead // need 0-360 instead
// //
// ie i have -17 in the screenshot // ie i have -17 in the screenshot
// need it to show 343 // need it to show 343
// //
// do this // do this
// //
// if < 0, add curr to 360 // 360 + (-17) = 343 // if < 0, add curr to 360 // 360 + (-17) = 343
// else its good as it is // else its good as it is
   
if (curr_ejection < 0) if (curr_ejection < 0)
return 360 + curr_ejection; return 360 + curr_ejection;
else else
return curr_ejection; return curr_ejection;
   
} }
   
public static double adjust_transfer_ejection_angle(double trans_ejection, double trans_phase) public static double adjust_transfer_ejection_angle(double trans_ejection, double trans_phase)
{ {
// if transfer_phase_angle < 0 its a lower transfer // if transfer_phase_angle < 0 its a lower transfer
//180 + curr_ejection //180 + curr_ejection
// else if transfer_phase_angle > 0 its good as it is // else if transfer_phase_angle > 0 its good as it is
   
if (trans_phase < 0) if (trans_phase < 0)
return 180 + trans_ejection; return 180 + trans_ejection;
else else
return trans_ejection; return trans_ejection;
   
} }
   
public static void display_transfer_angles_SUN2PLANET(CelestialBody body, Vessel vessel) public static void display_transfer_angles_SUN2PLANET(CelestialBody body, Vessel vessel)
{ {
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Phase angle (curr/trans):"); GUILayout.Label("Phase angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
VOID_Tools.mrenigma03_calcphase(vessel, body).ToString("F3") + "° / " + VOID_Tools.Nivvy_CalcTransferPhaseAngle( VOID_Tools.mrenigma03_calcphase(vessel, body).ToString("F3") + "° / " + VOID_Tools.Nivvy_CalcTransferPhaseAngle(
vessel.orbit.semiMajorAxis, vessel.orbit.semiMajorAxis,
body.orbit.semiMajorAxis, body.orbit.semiMajorAxis,
vessel.mainBody.gravParameter vessel.mainBody.gravParameter
).ToString("F3") + "°", ).ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Transfer velocity:"); GUILayout.Label("Transfer velocity:");
GUILayout.Label( GUILayout.Label(
(VOID_Tools.Younata_DeltaVToGetToOtherBody( (VOID_Tools.Younata_DeltaVToGetToOtherBody(
(vessel.mainBody.gravParameter / 1000000000), (vessel.mainBody.gravParameter / 1000000000),
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
(body.orbit.semiMajorAxis / 1000) (body.orbit.semiMajorAxis / 1000)
) * 1000).ToString("F2") + "m/s", ) * 1000).ToString("F2") + "m/s",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
public static void display_transfer_angles_PLANET2PLANET(CelestialBody body, Vessel vessel) public static void display_transfer_angles_PLANET2PLANET(CelestialBody body, Vessel vessel)
{ {
double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody( double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody(
(vessel.mainBody.referenceBody.gravParameter / 1000000000), (vessel.mainBody.referenceBody.gravParameter / 1000000000),
(vessel.mainBody.orbit.semiMajorAxis / 1000), (vessel.mainBody.orbit.semiMajorAxis / 1000),
(body.orbit.semiMajorAxis / 1000) (body.orbit.semiMajorAxis / 1000)
); );
double dv2 = VOID_Tools.Younata_DeltaVToExitSOI( double dv2 = VOID_Tools.Younata_DeltaVToExitSOI(
(vessel.mainBody.gravParameter / 1000000000), (vessel.mainBody.gravParameter / 1000000000),
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
(vessel.mainBody.sphereOfInfluence / 1000), (vessel.mainBody.sphereOfInfluence / 1000),
Math.Abs(dv1) Math.Abs(dv1)
); );
   
double trans_ejection_angle = VOID_Tools.Younata_TransferBurnPoint( double trans_ejection_angle = VOID_Tools.Younata_TransferBurnPoint(
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
dv2, dv2,
(Math.PI / 2.0), (Math.PI / 2.0),
(vessel.mainBody.gravParameter / 1000000000) (vessel.mainBody.gravParameter / 1000000000)
); );
double curr_ejection_angle = VOID_Tools.Adammada_CurrentEjectionAngle( double curr_ejection_angle = VOID_Tools.Adammada_CurrentEjectionAngle(
FlightGlobals.ActiveVessel.longitude, FlightGlobals.ActiveVessel.longitude,
FlightGlobals.ActiveVessel.orbit.referenceBody.rotationAngle, FlightGlobals.ActiveVessel.orbit.referenceBody.rotationAngle,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN, FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent
); );
   
double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle( double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle(
vessel.mainBody.orbit.semiMajorAxis, vessel.mainBody.orbit.semiMajorAxis,
body.orbit.semiMajorAxis, body.orbit.semiMajorAxis,
vessel.mainBody.referenceBody.gravParameter vessel.mainBody.referenceBody.gravParameter
) % 360; ) % 360;
double curr_phase_angle = VOID_Tools.Adammada_CurrrentPhaseAngle( double curr_phase_angle = VOID_Tools.Adammada_CurrrentPhaseAngle(
body.orbit.LAN, body.orbit.LAN,
body.orbit.orbitPercent, body.orbit.orbitPercent,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN, FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent
); );
   
double adj_phase_angle = VOID_Tools.adjustCurrPhaseAngle(trans_phase_angle, curr_phase_angle); double adj_phase_angle = VOID_Tools.adjustCurrPhaseAngle(trans_phase_angle, curr_phase_angle);
double adj_trans_ejection_angle = VOID_Tools.adjust_transfer_ejection_angle(trans_ejection_angle, trans_phase_angle); double adj_trans_ejection_angle = VOID_Tools.adjust_transfer_ejection_angle(trans_ejection_angle, trans_phase_angle);
double adj_curr_ejection_angle = VOID_Tools.adjust_current_ejection_angle(curr_ejection_angle); double adj_curr_ejection_angle = VOID_Tools.adjust_current_ejection_angle(curr_ejection_angle);
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Phase angle (curr/trans):"); GUILayout.Label("Phase angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
adj_phase_angle.ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°", adj_phase_angle.ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Ejection angle (curr/trans):"); GUILayout.Label("Ejection angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
adj_curr_ejection_angle.ToString("F3") + "° / " + adj_trans_ejection_angle.ToString("F3") + "°", adj_curr_ejection_angle.ToString("F3") + "° / " + adj_trans_ejection_angle.ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Transfer velocity:"); GUILayout.Label("Transfer velocity:");
GUILayout.Label((dv2 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false)); GUILayout.Label((dv2 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
public static void display_transfer_angles_PLANET2MOON(CelestialBody body, Vessel vessel) public static void display_transfer_angles_PLANET2MOON(CelestialBody body, Vessel vessel)
{ {
double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody( double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody(
(vessel.mainBody.gravParameter / 1000000000), (vessel.mainBody.gravParameter / 1000000000),
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
(body.orbit.semiMajorAxis / 1000) (body.orbit.semiMajorAxis / 1000)
); );
   
double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle( double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle(
vessel.orbit.semiMajorAxis, vessel.orbit.semiMajorAxis,
body.orbit.semiMajorAxis, body.orbit.semiMajorAxis,
vessel.mainBody.gravParameter vessel.mainBody.gravParameter
); );
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Phase angle (curr/trans):"); GUILayout.Label("Phase angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
VOID_Tools.mrenigma03_calcphase(vessel, body).ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°", VOID_Tools.mrenigma03_calcphase(vessel, body).ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Transfer velocity:"); GUILayout.Label("Transfer velocity:");
GUILayout.Label((dv1 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false)); GUILayout.Label((dv1 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
public static void display_transfer_angles_MOON2MOON(CelestialBody body, Vessel vessel) public static void display_transfer_angles_MOON2MOON(CelestialBody body, Vessel vessel)
{ {
double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody( double dv1 = VOID_Tools.Younata_DeltaVToGetToOtherBody(
(vessel.mainBody.referenceBody.gravParameter / 1000000000), (vessel.mainBody.referenceBody.gravParameter / 1000000000),
(vessel.mainBody.orbit.semiMajorAxis / 1000), (vessel.mainBody.orbit.semiMajorAxis / 1000),
(body.orbit.semiMajorAxis / 1000) (body.orbit.semiMajorAxis / 1000)
); );
double dv2 = VOID_Tools.Younata_DeltaVToExitSOI( double dv2 = VOID_Tools.Younata_DeltaVToExitSOI(
(vessel.mainBody.gravParameter / 1000000000), (vessel.mainBody.gravParameter / 1000000000),
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
(vessel.mainBody.sphereOfInfluence / 1000), (vessel.mainBody.sphereOfInfluence / 1000),
Math.Abs(dv1) Math.Abs(dv1)
); );
double trans_ejection_angle = VOID_Tools.Younata_TransferBurnPoint( double trans_ejection_angle = VOID_Tools.Younata_TransferBurnPoint(
(vessel.orbit.semiMajorAxis / 1000), (vessel.orbit.semiMajorAxis / 1000),
dv2, dv2,
(Math.PI / 2.0), (Math.PI / 2.0),
(vessel.mainBody.gravParameter / 1000000000) (vessel.mainBody.gravParameter / 1000000000)
); );
   
double curr_phase_angle = VOID_Tools.Adammada_CurrrentPhaseAngle( double curr_phase_angle = VOID_Tools.Adammada_CurrrentPhaseAngle(
body.orbit.LAN, body.orbit.LAN,
body.orbit.orbitPercent, body.orbit.orbitPercent,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN, FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent
); );
double curr_ejection_angle = VOID_Tools.Adammada_CurrentEjectionAngle( double curr_ejection_angle = VOID_Tools.Adammada_CurrentEjectionAngle(
FlightGlobals.ActiveVessel.longitude, FlightGlobals.ActiveVessel.longitude,
FlightGlobals.ActiveVessel.orbit.referenceBody.rotationAngle, FlightGlobals.ActiveVessel.orbit.referenceBody.rotationAngle,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN, FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.LAN,
FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent FlightGlobals.ActiveVessel.orbit.referenceBody.orbit.orbitPercent
); );
   
double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle( double trans_phase_angle = VOID_Tools.Nivvy_CalcTransferPhaseAngle(
vessel.mainBody.orbit.semiMajorAxis, vessel.mainBody.orbit.semiMajorAxis,
body.orbit.semiMajorAxis, body.orbit.semiMajorAxis,
vessel.mainBody.referenceBody.gravParameter vessel.mainBody.referenceBody.gravParameter
) % 360; ) % 360;
   
double adj_phase_angle = VOID_Tools.adjustCurrPhaseAngle(trans_phase_angle, curr_phase_angle); double adj_phase_angle = VOID_Tools.adjustCurrPhaseAngle(trans_phase_angle, curr_phase_angle);
//double adj_ejection_angle = adjustCurrEjectionAngle(trans_phase_angle, curr_ejection_angle); //double adj_ejection_angle = adjustCurrEjectionAngle(trans_phase_angle, curr_ejection_angle);
   
//new stuff //new stuff
// //
double adj_trans_ejection_angle = VOID_Tools.adjust_transfer_ejection_angle(trans_ejection_angle, trans_phase_angle); double adj_trans_ejection_angle = VOID_Tools.adjust_transfer_ejection_angle(trans_ejection_angle, trans_phase_angle);
double adj_curr_ejection_angle = VOID_Tools.adjust_current_ejection_angle(curr_ejection_angle); double adj_curr_ejection_angle = VOID_Tools.adjust_current_ejection_angle(curr_ejection_angle);
// //
// //
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Phase angle (curr/trans):"); GUILayout.Label("Phase angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
adj_phase_angle.ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°", adj_phase_angle.ToString("F3") + "° / " + trans_phase_angle.ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Ejection angle (curr/trans):"); GUILayout.Label("Ejection angle (curr/trans):");
GUILayout.Label( GUILayout.Label(
adj_curr_ejection_angle.ToString("F3") + "° / " + adj_trans_ejection_angle.ToString("F3") + "°", adj_curr_ejection_angle.ToString("F3") + "° / " + adj_trans_ejection_angle.ToString("F3") + "°",
GUILayout.ExpandWidth(false) GUILayout.ExpandWidth(false)
); );
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label("Transfer velocity:"); GUILayout.Label("Transfer velocity:");
GUILayout.Label((dv2 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false)); GUILayout.Label((dv2 * 1000).ToString("F2") + "m/s", GUILayout.ExpandWidth(false));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
} }
   
public static string get_heading_text(double heading) public static string get_heading_text(double heading)
{ {
if (heading > 348.75 || heading <= 11.25) if (heading > 348.75 || heading <= 11.25)
return "N"; return "N";
else if (heading > 11.25 && heading <= 33.75) else if (heading > 11.25 && heading <= 33.75)
return "NNE"; return "NNE";
else if (heading > 33.75 && heading <= 56.25) else if (heading > 33.75 && heading <= 56.25)
return "NE"; return "NE";
else if (heading > 56.25 && heading <= 78.75) else if (heading > 56.25 && heading <= 78.75)
return "ENE"; return "ENE";
else if (heading > 78.75 && heading <= 101.25) else if (heading > 78.75 && heading <= 101.25)
return "E"; return "E";
else if (heading > 101.25 && heading <= 123.75) else if (heading > 101.25 && heading <= 123.75)
return "ESE"; return "ESE";
else if (heading > 123.75 && heading <= 146.25) else if (heading > 123.75 && heading <= 146.25)
return "SE"; return "SE";
else if (heading > 146.25 && heading <= 168.75) else if (heading > 146.25 && heading <= 168.75)
return "SSE"; return "SSE";
else if (heading > 168.75 && heading <= 191.25) else if (heading > 168.75 && heading <= 191.25)
return "S"; return "S";
else if (heading > 191.25 && heading <= 213.75) else if (heading > 191.25 && heading <= 213.75)
return "SSW"; return "SSW";
else if (heading > 213.75 && heading <= 236.25) else if (heading > 213.75 && heading <= 236.25)
return "SW"; return "SW";
else if (heading > 236.25 && heading <= 258.75) else if (heading > 236.25 && heading <= 258.75)
return "WSW"; return "WSW";
else if (heading > 258.75 && heading <= 281.25) else if (heading > 258.75 && heading <= 281.25)
return "W"; return "W";
else if (heading > 281.25 && heading <= 303.75) else if (heading > 281.25 && heading <= 303.75)
return "WNW"; return "WNW";
else if (heading > 303.75 && heading <= 326.25) else if (heading > 303.75 && heading <= 326.25)
return "NW"; return "NW";
else if (heading > 326.25 && heading <= 348.75) else if (heading > 326.25 && heading <= 348.75)
return "NNW"; return "NNW";
else else
return ""; return "";
} }
} }
   
  public class CBListComparer : IComparer<CelestialBody>
  {
  public int Compare(CelestialBody bodyA, CelestialBody bodyB)
  {
  Tools.PostDebugMessage(this, "got bodyA: {0} & bodyB: {1}", bodyA, bodyB);
   
  if (bodyA == null && bodyB == null)
  {
  Tools.PostDebugMessage(this, "both bodies are null, returning 0");
  return 0;
  }
  if (bodyA == null)
  {
  Tools.PostDebugMessage(this, "bodyA is null, returning -1");
  return -1;
  }
  if (bodyB == null)
  {
  Tools.PostDebugMessage(this, "bodyB is null, returning 1");
  return 1;
  }
   
  Tools.PostDebugMessage(this, "bodies are not null, carrying on");
   
  if (object.ReferenceEquals(bodyA, bodyB))
  {
  Tools.PostDebugMessage(this, "bodies are equal, returning 0");
  return 0;
  }
   
  Tools.PostDebugMessage(this, "bodies are not equal, carrying on");
   
  if (bodyA.orbitDriver == null)
  {
  Tools.PostDebugMessage(this, "bodyA.orbit is null (bodyA is the sun, returning 1");
  return 1;
  }
  if (bodyB.orbitDriver == null)
  {
  Tools.PostDebugMessage(this, "bodyB.orbit is null (bodyB is the sun, returning -1");
  return -1;
  }
   
  Tools.PostDebugMessage(this, "orbits are not null, carrying on");
   
  if (bodyA.orbit.referenceBody == bodyB.orbit.referenceBody)
  {
  Tools.PostDebugMessage(this, "bodies share a parent, comparing SMAs");
  return -bodyA.orbit.semiMajorAxis.CompareTo(bodyB.orbit.semiMajorAxis);
  }
   
  Tools.PostDebugMessage(this, "orbits do not share a parent, carrying on");
   
  if (bodyA.hasAncestor(bodyB))
  {
  Tools.PostDebugMessage(this, "bodyA is a moon or sub-moon of bodyB, returning -1");
  return -1;
  }
  if (bodyB.hasAncestor(bodyA))
  {
  Tools.PostDebugMessage(this, "bodyA is a moon or sub-moon of bodyB, returning 1");
  return 1;
  }
   
  Tools.PostDebugMessage(this, "bodies do not have an obvious relationship, searching for one");
   
  if (VOID_Tools.NearestRelatedParents(ref bodyA, ref bodyB))
  {
  Tools.PostDebugMessage(this, "good relation {0} and {1}, comparing", bodyA.bodyName, bodyB.bodyName);
  return this.Compare(bodyA, bodyB);
  }
   
  Tools.PostDebugMessage(this, "bad relation {0} and {1}, giving up", bodyA.bodyName, bodyB.bodyName);
   
  return 0;
  }
  }
} }
   
   
// VOID // VOID
// //
// VOID_VesselInfo.cs // VOID_VesselInfo.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using Engineer.VesselSimulator; using Engineer.VesselSimulator;
using Engineer.Extensions; using Engineer.Extensions;
using KSP; using KSP;
using System; using System;
using System.Collections.Generic; using System.Collections.Generic;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_VesselInfo : VOID_WindowModule public class VOID_VesselInfo : VOID_WindowModule
{ {
public VOID_VesselInfo() : base() public VOID_VesselInfo() : base()
{ {
this._Name = "Vessel Information"; this._Name = "Vessel Information";
   
this.WindowPos.x = Screen.width - 260; this.WindowPos.x = Screen.width - 260;
this.WindowPos.y = 450; this.WindowPos.y = 450;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
base.ModuleWindow (_);  
   
if ((TimeWarp.WarpMode == TimeWarp.Modes.LOW) || (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate)) if ((TimeWarp.WarpMode == TimeWarp.Modes.LOW) || (TimeWarp.CurrentRate <= TimeWarp.MaxPhysicsRate))
{ {
SimManager.RequestSimulation(); SimManager.RequestSimulation();
} }
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
GUILayout.Label( GUILayout.Label(
vessel.vesselName, vessel.vesselName,
VOID_Core.Instance.LabelStyles["center_bold"], core.LabelStyles["center_bold"],
GUILayout.ExpandWidth(true)); GUILayout.ExpandWidth(true));
   
VOID_Data.geeForce.DoGUIHorizontal ("F2"); VOID_Data.geeForce.DoGUIHorizontal ("F2");
   
VOID_Data.partCount.DoGUIHorizontal (); VOID_Data.partCount.DoGUIHorizontal ();
   
VOID_Data.totalMass.DoGUIHorizontal ("F3"); VOID_Data.totalMass.DoGUIHorizontal ("F3");
   
VOID_Data.resourceMass.DoGUIHorizontal ("F3"); VOID_Data.comboResourceMass.DoGUIHorizontal ();
   
VOID_Data.stageDeltaV.DoGUIHorizontal (3, false); VOID_Data.stageDeltaV.DoGUIHorizontal (3, false);
   
VOID_Data.totalDeltaV.DoGUIHorizontal (3, false); VOID_Data.totalDeltaV.DoGUIHorizontal (3, false);
   
VOID_Data.mainThrottle.DoGUIHorizontal ("F0"); VOID_Data.mainThrottle.DoGUIHorizontal ("F0");
   
VOID_Data.currmaxThrust.DoGUIHorizontal (); VOID_Data.currmaxThrust.DoGUIHorizontal ();
   
VOID_Data.currmaxThrustWeight.DoGUIHorizontal (); VOID_Data.currmaxThrustWeight.DoGUIHorizontal ();
   
VOID_Data.surfaceThrustWeight.DoGUIHorizontal ("F2"); VOID_Data.surfaceThrustWeight.DoGUIHorizontal ("F2");
   
VOID_Data.intakeAirStatus.DoGUIHorizontal(); VOID_Data.intakeAirStatus.DoGUIHorizontal();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
   
GUI.DragWindow(); GUI.DragWindow();
} }
} }
   
public static partial class VOID_Data public static partial class VOID_Data
{ {
public static readonly VOID_DoubleValue geeForce = new VOID_DoubleValue( public static readonly VOID_DoubleValue geeForce = new VOID_DoubleValue(
"G-force", "G-force",
new Func<double>(() => VOID_Core.Instance.vessel.geeForce), new Func<double>(() => core.vessel.geeForce),
"gees" "gees"
); );
   
public static readonly VOID_IntValue partCount = new VOID_IntValue( public static readonly VOID_IntValue partCount = new VOID_IntValue(
"Parts", "Parts",
new Func<int>(() => VOID_Core.Instance.vessel.Parts.Count), new Func<int>(() => core.vessel.Parts.Count),
"" ""
); );
   
public static readonly VOID_DoubleValue totalMass = new VOID_DoubleValue( public static readonly VOID_DoubleValue totalMass = new VOID_DoubleValue(
"Total Mass", "Total Mass",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
{ {
return double.NaN; return double.NaN;
} }
   
return SimManager.LastStage.totalMass; return SimManager.LastStage.totalMass;
}, },
"tons" "tons"
); );
   
public static readonly VOID_DoubleValue resourceMass = new VOID_DoubleValue( public static readonly VOID_DoubleValue resourceMass = new VOID_DoubleValue(
"Resource Mass", "Resource Mass",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
{ {
return double.NaN; return double.NaN;
} }
   
return SimManager.LastStage.totalBaseMass; return SimManager.LastStage.totalMass - SimManager.LastStage.totalBaseMass;
}, },
"tons" "tons"
  );
   
  public static readonly VOID_DoubleValue stageResourceMass = new VOID_DoubleValue(
  "Resource Mass (Current Stage)",
  delegate()
  {
  if (SimManager.LastStage == null)
  {
  return double.NaN;
  }
   
  return SimManager.LastStage.mass - SimManager.LastStage.baseMass;
  },
  "tons"
  );
   
  public static readonly VOID_StrValue comboResourceMass = new VOID_StrValue(
  "Resource Mass (curr / total)",
  delegate()
  {
  return string.Format("{0} / {1}",
  stageResourceMass.ValueUnitString("F3"),
  resourceMass.ValueUnitString("F3")
  );
  }
); );
   
public static readonly VOID_DoubleValue stageDeltaV = new VOID_DoubleValue( public static readonly VOID_DoubleValue stageDeltaV = new VOID_DoubleValue(
"DeltaV (Current Stage)", "DeltaV (Current Stage)",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
return double.NaN; return double.NaN;
return SimManager.LastStage.deltaV; return SimManager.LastStage.deltaV;
}, },
"m/s" "m/s"
); );
   
public static readonly VOID_DoubleValue totalDeltaV = new VOID_DoubleValue( public static readonly VOID_DoubleValue totalDeltaV = new VOID_DoubleValue(
"DeltaV (Total)", "DeltaV (Total)",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
return double.NaN; return double.NaN;
return SimManager.LastStage.totalDeltaV; return SimManager.LastStage.totalDeltaV;
}, },
"m/s" "m/s"
); );
   
public static readonly VOID_FloatValue mainThrottle = new VOID_FloatValue( public static readonly VOID_FloatValue mainThrottle = new VOID_FloatValue(
"Throttle", "Throttle",
new Func<float>(() => VOID_Core.Instance.vessel.ctrlState.mainThrottle * 100f), new Func<float>(() => core.vessel.ctrlState.mainThrottle * 100f),
"%" "%"
); );
   
public static readonly VOID_StrValue currmaxThrust = new VOID_StrValue( public static readonly VOID_StrValue currmaxThrust = new VOID_StrValue(
"Thrust (curr/max)", "Thrust (curr/max)",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
return "N/A"; return "N/A";
   
double currThrust = SimManager.LastStage.actualThrust; double currThrust = SimManager.LastStage.actualThrust;
double maxThrust = SimManager.LastStage.thrust; double maxThrust = SimManager.LastStage.thrust;
   
return string.Format( return string.Format(
"{0} / {1}", "{0} / {1}",
currThrust.ToString("F1"), currThrust.ToString("F1"),
maxThrust.ToString("F1") maxThrust.ToString("F1")
); );
} }
); );
   
  public static readonly VOID_DoubleValue currThrustWeight = new VOID_DoubleValue(
  "T:W Ratio",
  delegate()
  {
  if (SimManager.LastStage == null)
  {
  return double.NaN;
  }
   
  return SimManager.LastStage.actualThrustToWeight;
  },
  ""
  );
   
  public static readonly VOID_DoubleValue maxThrustWeight = new VOID_DoubleValue(
  "T:W Ratio",
  delegate()
  {
  if (SimManager.LastStage == null)
  {
  return double.NaN;
  }
   
  return SimManager.LastStage.thrustToWeight;
  },
  ""
  );
   
public static readonly VOID_StrValue currmaxThrustWeight = new VOID_StrValue( public static readonly VOID_StrValue currmaxThrustWeight = new VOID_StrValue(
"T:W (curr/max)", "T:W (curr/max)",
delegate() delegate()
{ {
if (SimManager.Stages == null || SimManager.LastStage == null) if (SimManager.Stages == null || SimManager.LastStage == null)
return "N/A"; return "N/A";
   
double currThrust = SimManager.LastStage.actualThrust; return string.Format(
  "{0} / {1}",
  (VOID_Data.currThrustWeight.Value).ToString("F2"),
  (VOID_Data.maxThrustWeight.Value).ToString("F2")
  );
  }
  );
   
  public static readonly VOID_DoubleValue surfaceThrustWeight = new VOID_DoubleValue(
  "Max T:W @ surface",
  delegate()
  {
  if (SimManager.Stages == null || SimManager.LastStage == null)
  return double.NaN;
   
double maxThrust = SimManager.LastStage.thrust; double maxThrust = SimManager.LastStage.thrust;
double mass = SimManager.LastStage.totalMass; double mass = SimManager.LastStage.totalMass;
double gravity = VOID_Core.Instance.vessel.mainBody.gravParameter / double gravity = (VOID_Core.Constant_G * core.vessel.mainBody.Mass) /
Math.Pow( (core.vessel.mainBody.Radius * core.vessel.mainBody.Radius);
VOID_Core.Instance.vessel.mainBody.Radius + VOID_Core.Instance.vessel.altitude,  
2  
);  
double weight = mass * gravity;  
   
return string.Format(  
"{0} / {1}",  
(currThrust / weight).ToString("F2"),  
(maxThrust / weight).ToString("F2")  
);  
}  
);  
   
public static readonly VOID_DoubleValue surfaceThrustWeight = new VOID_DoubleValue(  
"Max T:W @ surface",  
delegate()  
{  
if (SimManager.Stages == null || SimManager.LastStage == null)  
return double.NaN;  
   
double maxThrust = SimManager.LastStage.thrust;  
double mass = SimManager.LastStage.totalMass;  
double gravity = (VOID_Core.Constant_G * VOID_Core.Instance.vessel.mainBody.Mass) /  
Math.Pow(VOID_Core.Instance.vessel.mainBody.Radius, 2);  
double weight = mass * gravity; double weight = mass * gravity;
   
return maxThrust / weight; return maxThrust / weight;
}, },
"" ""
); );
   
public static readonly VOID_StrValue intakeAirStatus = new VOID_StrValue( public static readonly VOID_StrValue intakeAirStatus = new VOID_StrValue(
"Intake Air (Curr / Req)", "Intake Air (Curr / Req)",
delegate() delegate()
{ {
double currentAmount; double currentAmount;
double currentRequirement; double currentRequirement;
   
currentAmount = 0d; currentAmount = 0d;
currentRequirement = 0d; currentRequirement = 0d;
   
foreach (Part part in VOID_Core.Instance.vessel.Parts) foreach (Part part in core.vessel.Parts)
{ {
if (part.enabled) if (part.enabled)
{ {
ModuleEngines engineModule; ModuleEngines engineModule;
ModuleEnginesFX enginesFXModule; ModuleEnginesFX enginesFXModule;
List<Propellant> propellantList = null; List<Propellant> propellantList = null;
   
if (part.tryGetFirstModuleOfType<ModuleEngines>(out engineModule)) if (part.tryGetFirstModuleOfType<ModuleEngines>(out engineModule))
{ {
propellantList = engineModule.propellants; propellantList = engineModule.propellants;
} }
else if (part.tryGetFirstModuleOfType<ModuleEnginesFX>(out enginesFXModule)) else if (part.tryGetFirstModuleOfType<ModuleEnginesFX>(out enginesFXModule))
{ {
propellantList = enginesFXModule.propellants; propellantList = enginesFXModule.propellants;
} }
if (propellantList != null) if (propellantList != null)
{ {
foreach (Propellant propellant in propellantList) foreach (Propellant propellant in propellantList)
{ {
if (propellant.name == "IntakeAir") if (propellant.name == "IntakeAir")
{ {
currentRequirement += propellant.currentRequirement / TimeWarp.fixedDeltaTime; currentRequirement += propellant.currentRequirement / TimeWarp.fixedDeltaTime;
break; break;
} }
} }
} }
} }
   
ModuleResourceIntake intakeModule; ModuleResourceIntake intakeModule;
   
if (part.enabled && part.tryGetFirstModuleOfType<ModuleResourceIntake>(out intakeModule)) if (part.enabled && part.tryGetFirstModuleOfType<ModuleResourceIntake>(out intakeModule))
{ {
if (intakeModule.resourceName == "IntakeAir") if (intakeModule.resourceName == "IntakeAir")
{ {
currentAmount += intakeModule.airFlow; currentAmount += intakeModule.airFlow;
} }
} }
} }
   
if (currentAmount == 0 && currentRequirement == 0) if (currentAmount == 0 && currentRequirement == 0)
{ {
return "N/A"; return "N/A";
} }
   
return string.Format("{0:F3} / {1:F3}", currentAmount, currentRequirement); return string.Format("{0:F3} / {1:F3}", currentAmount, currentRequirement);
} }
); );
} }
} }
   
// VOID // VOID
// //
// VOID_VesselRegister.cs // VOID_VesselRegister.cs
// //
// Copyright © 2014, toadicus // Copyright © 2014, toadicus
// All rights reserved. // All rights reserved.
// //
// Redistribution and use in source and binary forms, with or without modification, // Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met: // are permitted provided that the following conditions are met:
// //
// 1. Redistributions of source code must retain the above copyright notice, // 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer. // this list of conditions and the following disclaimer.
// //
// 2. Redistributions in binary form must reproduce the above copyright notice, // 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or other // this list of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution. // materials provided with the distribution.
// //
// 3. Neither the name of the copyright holder nor the names of its contributors may be used // 3. Neither the name of the copyright holder nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific prior written permission. // 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, // 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 // 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, // 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 // 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, // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   
using KSP; using KSP;
using System; using System;
using System.Linq; using System.Linq;
using ToadicusTools; using ToadicusTools;
using UnityEngine; using UnityEngine;
   
namespace VOID namespace VOID
{ {
public class VOID_VesselRegister : VOID_WindowModule public class VOID_VesselRegister : VOID_WindowModule
{ {
[AVOID_SaveValue("selectedBodyIdx")] [AVOID_SaveValue("selectedBodyIdx")]
protected VOID_SaveValue<int> selectedBodyIdx = 0; protected VOID_SaveValue<int> selectedBodyIdx = 0;
protected CelestialBody seletedBody; protected CelestialBody seletedBody;
   
[AVOID_SaveValue("selectedVesselTypeIdx")] [AVOID_SaveValue("selectedVesselTypeIdx")]
protected VOID_SaveValue<int> selectedVesselTypeIdx = 0; protected VOID_SaveValue<int> selectedVesselTypeIdx = 0;
protected VesselType selectedVesselType; protected VesselType selectedVesselType;
   
protected string vesselSituation = "Orbiting"; protected string vesselSituation = "Orbiting";
   
protected Vector2 selectorScrollPos = new Vector2(); protected Vector2 selectorScrollPos = new Vector2();
   
protected Vessel _selectedVessel; protected Vessel _selectedVessel;
   
public Vessel selectedVessel public Vessel selectedVessel
{ {
get get
{ {
return this._selectedVessel; return this._selectedVessel;
} }
} }
   
public VOID_VesselRegister() public VOID_VesselRegister()
{ {
this._Name = "Vessel Register"; this._Name = "Vessel Register";
   
this.WindowPos.x = 845; this.WindowPos.x = 845;
this.WindowPos.y = 275; this.WindowPos.y = 275;
this.defHeight = 375; this.defHeight = 375;
} }
   
public override void ModuleWindow(int _) public override void ModuleWindow(int _)
{ {
if (!VOID_Core.Instance.allVesselTypes.Any()) if (!this.core.allVesselTypes.Any())
{ {
return; return;
} }
   
GUILayout.BeginVertical(); GUILayout.BeginVertical();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("<")) if (GUILayout.Button("<"))
{ {
selectedBodyIdx--; selectedBodyIdx--;
if (selectedBodyIdx < 0) selectedBodyIdx = VOID_Core.Instance.allBodies.Count - 1; if (selectedBodyIdx < 0) selectedBodyIdx = this.core.allBodies.Count - 1;
} }
GUILayout.Label(VOID_Core.Instance.allBodies[selectedBodyIdx].bodyName, VOID_Core.Instance.LabelStyles["center_bold"], GUILayout.ExpandWidth(true)); GUILayout.Label(this.core.allBodies[selectedBodyIdx].bodyName, this.core.LabelStyles["center_bold"], GUILayout.ExpandWidth(true));
if (GUILayout.Button(">")) if (GUILayout.Button(">"))
{ {
selectedBodyIdx++; selectedBodyIdx++;
if (selectedBodyIdx > VOID_Core.Instance.allBodies.Count - 1) selectedBodyIdx = 0; if (selectedBodyIdx > this.core.allBodies.Count - 1) selectedBodyIdx = 0;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
seletedBody = VOID_Core.Instance.allBodies[selectedBodyIdx]; seletedBody = this.core.allBodies[selectedBodyIdx];
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("<")) if (GUILayout.Button("<"))
{ {
selectedVesselTypeIdx--; selectedVesselTypeIdx--;
if (selectedVesselTypeIdx < 0) selectedVesselTypeIdx = VOID_Core.Instance.allVesselTypes.Count - 1; if (selectedVesselTypeIdx < 0) selectedVesselTypeIdx = this.core.allVesselTypes.Count - 1;
} }
GUILayout.Label(VOID_Core.Instance.allVesselTypes[selectedVesselTypeIdx].ToString(), VOID_Core.Instance.LabelStyles["center_bold"], GUILayout.ExpandWidth(true)); GUILayout.Label(this.core.allVesselTypes[selectedVesselTypeIdx].ToString(), this.core.LabelStyles["center_bold"], GUILayout.ExpandWidth(true));
if (GUILayout.Button(">")) if (GUILayout.Button(">"))
{ {
selectedVesselTypeIdx++; selectedVesselTypeIdx++;
if (selectedVesselTypeIdx > VOID_Core.Instance.allVesselTypes.Count - 1) selectedVesselTypeIdx = 0; if (selectedVesselTypeIdx > this.core.allVesselTypes.Count - 1) selectedVesselTypeIdx = 0;
} }
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
selectedVesselType = VOID_Core.Instance.allVesselTypes[selectedVesselTypeIdx]; selectedVesselType = this.core.allVesselTypes[selectedVesselTypeIdx];
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
if (GUILayout.Button("Landed", GUILayout.ExpandWidth(true))) vesselSituation = "Landed"; if (GUILayout.Button("Landed", GUILayout.ExpandWidth(true))) vesselSituation = "Landed";
if (GUILayout.Button("Orbiting", GUILayout.ExpandWidth(true))) vesselSituation = "Orbiting"; if (GUILayout.Button("Orbiting", GUILayout.ExpandWidth(true))) vesselSituation = "Orbiting";
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true)); GUILayout.BeginHorizontal(GUILayout.ExpandWidth(true));
GUILayout.Label( GUILayout.Label(
VOID_Tools.UppercaseFirst(vesselSituation) + " " + selectedVesselType.ToString() + "s @ " + seletedBody.bodyName, VOID_Tools.UppercaseFirst(vesselSituation) + " " + selectedVesselType.ToString() + "s @ " + seletedBody.bodyName,
VOID_Core.Instance.LabelStyles["center"], this.core.LabelStyles["center"],
GUILayout.ExpandWidth(true)); GUILayout.ExpandWidth(true));
GUILayout.EndHorizontal(); GUILayout.EndHorizontal();
   
selectorScrollPos = GUILayout.BeginScrollView(selectorScrollPos, false, false); selectorScrollPos = GUILayout.BeginScrollView(selectorScrollPos, false, false);
   
foreach (Vessel v in FlightGlobals.Vessels) foreach (Vessel v in FlightGlobals.Vessels)
{ {
if (v != vessel && v.vesselType == selectedVesselType && v.mainBody == seletedBody) if (v != vessel && v.vesselType == selectedVesselType && v.mainBody == seletedBody)
{ {
if ((vesselSituation == "Landed" && if ((vesselSituation == "Landed" &&
(v.situation == Vessel.Situations.LANDED || (v.situation == Vessel.Situations.LANDED ||
v.situation == Vessel.Situations.PRELAUNCH || v.situation == Vessel.Situations.PRELAUNCH ||
v.situation == Vessel.Situations.SPLASHED)) || v.situation == Vessel.Situations.SPLASHED)) ||
(vesselSituation == "Orbiting" && (vesselSituation == "Orbiting" &&
(v.situation == Vessel.Situations.ESCAPING || (v.situation == Vessel.Situations.ESCAPING ||
v.situation == Vessel.Situations.FLYING || v.situation == Vessel.Situations.FLYING ||
v.situation == Vessel.Situations.ORBITING || v.situation == Vessel.Situations.ORBITING ||
v.situation == Vessel.Situations.SUB_ORBITAL)) v.situation == Vessel.Situations.SUB_ORBITAL))
) )
{ {
if (GUILayout.Button(v.vesselName, GUILayout.ExpandWidth(true))) if (GUILayout.Button(v.vesselName, GUILayout.ExpandWidth(true)))
{ {
if (_selectedVessel != v) if (_selectedVessel != v)
{ {
_selectedVessel = v; //set clicked vessel as selected_vessel _selectedVessel = v; //set clicked vessel as selected_vessel
this._Active.value = true; //turn bool on to open the window if closed this._Active.value = true; //turn bool on to open the window if closed
} }
else else
{ {
_selectedVessel = null; _selectedVessel = null;
} }
} }
} }
} }
} }
   
GUILayout.EndScrollView(); GUILayout.EndScrollView();
   
GUILayout.EndVertical(); GUILayout.EndVertical();
   
GUI.DragWindow(); GUI.DragWindow();
} }
} }
} }