private void OnTriggerExit(Collider col)
{
OrbitalData current = localUps[col];
current.rb.useGravity = true;
localUps.Remove(col);
}
public OrbitalData Add(Vector3 acceleration, float step)
{
var newOrbital = new OrbitalData(Orbital);
newOrbital.Velocity = Velocity + acceleration * step;
newOrbital.Position = Position + newOrbital.Velocity * step;
return(newOrbital);
}
/// <summary>
/// Instantiate an orbiatl with scale and color
/// </summary>
/// <param name="n">Shell [1, 7] </param>
/// <param name="l">SPDF [0, 3] </param>
/// <param name="ml">obital [-3, 3] </param>
/// <param name="ms">spin [-1 1]</param>
public GameObject CreateOrbital(int electronCount, int n, int l, int ml, int ms)
{
GameObject obj;
//orbital has been added, assign reference
if (ms == 1)
{
obj = orbitalMap[electronCount - (2 * l + 1)].obj; // 2L + 1 => 1,3,5,7
orbitalMap[electronCount] = new OrbitalData(obj, n, l, ml, ms);
return(obj);
}
GameObject orbitalPrefab = null;
float scale = n;
switch (l)
{
case 0:
orbitalPrefab = sOrbitals[ml];
scale = 1f * n;
break;
case 1:
orbitalPrefab = pOrbitals[ml + 1];
scale = 1.33f * n;
break;
case 2:
orbitalPrefab = dOrbitals[ml + 2];
scale = 1.5f * n;
break;
case 3:
orbitalPrefab = fOrbitals[ml + 3];
scale = 2.0f * n - 1;
break;
}
obj = Instantiate(orbitalPrefab, Vector3.zero, Quaternion.identity, root);
obj.transform.localPosition = Vector3.zero;
obj.transform.localScale = Vector3.one * scale;
Renderer[] renderers = obj.GetComponentsInChildren <Renderer>(); //get all the renderers
foreach (Renderer r in renderers)
{
switch (Settings.MATERIAL)
{
case SettingsMaterial.Solid: r.material = mat_solid; break;
case SettingsMaterial.Transparent: r.material = mat_transparent; break;
}
}
obj.SetActive(false);
orbitalMap[electronCount] = new OrbitalData(obj, n, l, ml, ms); //assign to array
return(obj);
}
public static EllipticalOrbitalPositionComponent CreateUnpoweredBody(EntityId parentId, double semiMajorAxis, double eccentricity, double longitutdeOfPeriapsis, double meanAnomaly, bool isRetrograde)
{
var orbitalData = new OrbitalData
{
ParentId = parentId,
SemiMajorAxis = semiMajorAxis,
Eccentricity = eccentricity,
LongitudeOfPeriapsis = longitutdeOfPeriapsis,
MeanAnomalyAtTimeZero = meanAnomaly,
IsRetrograde = isRetrograde,
};
return(new EllipticalOrbitalPositionComponent(new Point(), orbitalData));
}
IEnumerator LoadData()
{
using (WWW www = new WWW(localpath))
{
yield return(www);
JsonData = www.text;
}
OrbitalData orbitData = OrbitalData.FromJson(JsonData);
orbitalDataUnity = new OrbitalDataUnity(orbitData);
Debug.Log("generating satellites");
GenerateSatellites();
Debug.Log("setting current scale value to " + ScaleStartValue + "Units = " + orbitalDataUnity.Info.Units);
CurrentScale = ScaleValue;
DataLoaded = true;
}
/// <summary>
/// Constructor that takes a link to an Json_TN and an Base_TN_NodeType.
/// </summary>
/// <param name="gameDataNodeToLink">The node to link to.</param>
/// <param name="nodeType">The node Type for the new linked node.</param>
public SolarSystem_TN(Json_TN gameDataNodeToLink, Base_TN_NodeType nodeType) : base(gameDataNodeToLink, nodeType: nodeType)
{
// Set up this end of the cross-link.
LinkedGameDataNode = gameDataNodeToLink ?? throw new NullReferenceException("gameDataNodeToLink was null.");
// Cast the LinkedGameDataNode.JData field in to a JObject.
JObject _linkedGameDataJson = (JObject)LinkedGameDataNode.JData ?? throw new NullReferenceException("_linkedGameDataJson was null.");
// If we're working with a linked blueprint node, translate the StructureID to GUID
JToken tmpTkn = _linkedGameDataJson["StructureID"];
if (tmpTkn != null)
{
Debug.Print("Got here for some reason!");
// Set the node's Name to the StructureID of the object.
Name = (string)_linkedGameDataJson["StructureID"];
// Set the GUID to the StructureID
GUID = (long)_linkedGameDataJson["StructureID"];
throw new Exception("Got here for some reason!");
}
else
{
switch (nodeType)
{
case Base_TN_NodeType.Ship:
if (string.IsNullOrEmpty((string)_linkedGameDataJson["Name"]))
{
// The ship has no name - most non-player vessels fall in to this category.
Name = (string)_linkedGameDataJson["Registration"];
}
else
{
// The ship has a name, append it on to the end of the registration
Name = (string)_linkedGameDataJson["Registration"] + " " + (string)_linkedGameDataJson["Name"];
}
break;
default:
Name = ((string)_linkedGameDataJson["Name"]).Trim();
break;
}
// Can't use these presently as it messes with the TreeView's Path system,
// which annoyingly uses the TreeNode's Text field rather than the Name field
// in path generation, which would have allowed the Text property to be used like
// a DisplayName property.
// Text_Prefix = ((string)_linkedGameDataJson["Name"]).Trim();
// Text_Suffix = ((string)_linkedGameDataJson["GUID"]).Trim();
// Set the GUID
GUID = (long)_linkedGameDataJson["GUID"];
}
JToken tempToken = null;
switch (nodeType)
{
case Base_TN_NodeType.Star:
case Base_TN_NodeType.Planet:
case Base_TN_NodeType.Moon:
// It's a Celestial Body - the orbital data is not in an OrbitalData sub-object, but directly
// as properties of this JObject.
OrbitData = new OrbitalData(_linkedGameDataJson);
break;
case Base_TN_NodeType.Player:
// It's a player - doesn't have orbital data but may have a parent GUID if in a ship/module.
// Ensure OrbitData is null.
// OrbitData = new OrbitalData();
tempToken = _linkedGameDataJson["ParentGUID"];
if (tempToken != null)
{
OrbitData.ParentGUID = (long)_linkedGameDataJson["ParentGUID"];
}
else
{
// Set the parent GUID to -1 (the Solar System) as we currently can't place players who
// are outside ships or modules.
OrbitData.ParentGUID = -1;
}
break;
case Base_TN_NodeType.Ship:
// Ships also need to set the docking info if present.
OrbitData = new OrbitalData((JObject)_linkedGameDataJson["OrbitData"]);
DockedToShipGUID = (long?)_linkedGameDataJson["DockedToShipGUID"];
DockedPortID = (int?)_linkedGameDataJson["DockedPortID"];
DockedToPortID = (int?)_linkedGameDataJson["DockedToPortID"];
break;
default:
// It's a regular orbital object with it's parameters in an OrbitData sub-object.
OrbitData = new OrbitalData((JObject)_linkedGameDataJson["OrbitData"]);
break;
}
}
private void OnTriggerStay(Collider col)
{
if (col.CompareTag("StaticObject"))
{
return;
}
if (col.CompareTag("PhysicsShape"))
{
return;
}
if (col.CompareTag("ForceField"))
{
return;
}
if (col.CompareTag("OrbitalField"))
{
return;
}
else
{
Vector3 up;
Rigidbody targetRb;
Transform target;
Vector3 lookAt;
//if we don't know this collider
//add it into the dict with its calculated up val
if (!localUps.ContainsKey(col))
{
targetRb = col.GetComponent <Rigidbody>();
target = col.transform;
lookAt = thisTransform.position - target.position;
up = Quaternion.AngleAxis(90f, Vector3.forward) * lookAt;
localUps.Add(col, new OrbitalData(up, targetRb, target));
}
else //otherwise just grab the precalculated values
{
OrbitalData current = localUps[col];
targetRb = current.rb;
target = current.thisTransform;
lookAt = thisTransform.position - target.position;
up = current.up;
}
Vector3 dir = Vector3.Cross(lookAt, up).normalized;
targetRb.AddForce(dir * satelliteSpeed, ForceMode.VelocityChange);
if (targetRb.velocity.magnitude > maxSpeed)
{
targetRb.velocity = dir * maxSpeed;
//Debug.Log("Reached max force!");
}
else
{
//Debug.Log("Adding force to body!");
}
targetRb.useGravity = false;
#if UNITY_EDITOR
if (debugPaths)
{
Debug.DrawRay(target.position, up.normalized * 30f, Color.red, 0.5f);
Debug.DrawRay(target.position, lookAt.normalized * 30f, Color.yellow, 0.5f);
Debug.DrawRay(target.position, dir.normalized * 30f, Color.green, 0.5f);
}
#endif
}
}
private void Update()
{
//get the number of electrons in the Atom
int electronCount = atom.ElectronCount;
//check if changed
if (electronCount != currentElectronCount)
{
OrbitalData data = orbitalMap[currentElectronCount];
if (Settings.ORBITALS_ALL)
{
//Add in Orbitals
while (electronCount > currentElectronCount)
{
currentElectronCount++;
data = orbitalMap[currentElectronCount];
//active andOr recolor
if (data.ms == -1)
{
data.obj.SetActive(true);
}
AdjustColor(data.obj, data.l, data.ms);
}
//Remove Orbitals
while (electronCount < currentElectronCount)
{
//deactive or recolor
if (data.ms == -1)
{
data.obj.SetActive(false);
}
else if (electronCount > 0)
{
AdjustColor(data.obj, data.l, -1); //revert color
}
currentElectronCount--;
data = orbitalMap[currentElectronCount];
}
}
else // (Only show current orbital)
{
//deactivate the current
if (currentElectronCount != 0)
{
data.obj.SetActive(false);
}
//activate the new and recolor
data = orbitalMap[electronCount];
if (electronCount > 0)
{
data.obj.SetActive(true);
}
AdjustColor(data.obj, data.l, data.ms);
}
//unpdate the orbital data
currentOrbital = data.obj;
currentElectronCount = electronCount;
OnUpdate?.Invoke(data.n, data.l, data.ml, data.ms);
//Adjust the display
AdjustScale();
AdjustAxis();
}
}
