public static Vector3 GetSize(Vessel v)
{
Bounds bounds = default(Bounds);
Vector3 orgPos = v.parts[0].orgPos;
bounds.center = orgPos;
List <Bounds> list = new List <Bounds>();
foreach (Part current in v.parts)
{
MPLog.Writelog("[Maritime Pack] part: " + current.name + " WCoM" + current.WCoM);
MPLog.Writelog("[Maritime Pack] part: " + current.name + " CoB" + current.CenterOfBuoyancy);
MPLog.Writelog("[Maritime Pack] part: " + current.name + " CoD" + current.CenterOfDisplacement);
Bounds[] partRendererBounds = PartGeometryUtil.GetPartRendererBounds(current);
Bounds[] array = partRendererBounds;
for (int i = 0; i < array.Length; i++)
{
Bounds bounds2 = array[i];
Bounds bounds3 = bounds2;
bounds3.size *= current.boundsMultiplier;
Vector3 size = bounds3.size;
bounds3.Expand(current.GetModuleSize(size));
list.Add(bounds2);
}
}
return(PartGeometryUtil.MergeBounds(list.ToArray(), v.parts[0].transform.root).size);
}
private static float EstimatePartVolume(Part part)
{
var boundsSize = PartGeometryUtil.MergeBounds(part.GetRendererBounds(), part.transform).size;
var volume = boundsSize.x * boundsSize.y * boundsSize.z * 1000f;
return(volume);
}
public static float GetPartVolume(Part partPrefab)
{
Bounds[] rendererBounds = PartGeometryUtil.GetRendererBounds(partPrefab);
Vector3 boundsSize = PartGeometryUtil.MergeBounds(rendererBounds, partPrefab.transform).size;
float volume = boundsSize.x * boundsSize.y * boundsSize.z;
return(volume * 1000);
}
public static float GetArea(this Part part)
{
var boundsSize = PartGeometryUtil.MergeBounds(part.GetRendererBounds(), part.transform).size;
float sfcAreaCalc = 2f * (boundsSize.x * boundsSize.y) + 2f * (boundsSize.y * boundsSize.z) + 2f * (boundsSize.x * boundsSize.z);
//Debug.Log("[BDArmory]: Surface Area1: " + part.surfaceAreas.magnitude);
//Debug.Log("[BDArmory]: Surface Area2: " + sfcAreaCalc);
return(sfcAreaCalc);
}
public static float GetVolume(Vessel v)
{
float volume = 0.0f;
foreach (Part mypart in v.parts)
{
var boundsSize = PartGeometryUtil.MergeBounds(mypart.GetRendererBounds(), mypart.transform).size;
volume = boundsSize.x * boundsSize.y * boundsSize.z * 1000f;
}
return(volume);
}
//This will provide a list of lines that make up the part's geometry, oriented so that they are in part-oriented space
private static List <Line> GenerateLinesFromPart(Part p)
{
Transform partTransform = p.transform;
Bounds colliderBounds, meshBounds;
colliderBounds = PartGeometryUtil.MergeBounds(p.GetColliderBounds(), partTransform);
meshBounds = PartGeometryUtil.MergeBounds(p.GetRendererBounds(), partTransform);
List <Vector3> vertexList;
List <int> triangleIndices;
//If the mesh shape is much larger than the colliders, then unfortunately, we have to use the raw mesh
//Otherwise, use the collider because it has fewer verts and tris to work with
//if (UseMeshBounds(colliderBounds, meshBounds, 0.05f))
//{
Transform[] meshTransforms = FARGeoUtil.PartModelTransformArray(p);
Mesh[] meshes = new Mesh[meshTransforms.Length];
for (int i = 0; i < meshTransforms.Length; i++)
{
MeshFilter mf = meshTransforms[i].GetComponent <MeshFilter>();
if (mf == null)
{
continue;
}
meshes[i] = mf.sharedMesh;
}
vertexList = GetVertexList(meshes, meshTransforms, partTransform);
triangleIndices = GetTriangleVerts(meshes);
/*}
* else
* {
* MeshCollider[] meshColliders = p.GetComponents<MeshCollider>();
* Transform[] meshTransforms = new Transform[meshColliders.Length];
* Mesh[] meshes = new Mesh[meshColliders.Length];
*
* for (int i = 0; i < meshColliders.Length; i++)
* {
* MeshCollider mc = meshColliders[i];
* meshTransforms[i] = mc.transform;
* meshes[i] = mc.sharedMesh;
* }
* vertexList = GetVertexList(meshes, meshTransforms, partTransform);
* triangleIndices = GetTriangleVerts(meshes);
* }*/
return(GenerateLinesFromVertsAndTris(vertexList, triangleIndices));
}
/// <summary>Returns part's volume basing on its geometrics.</summary>
/// <remarks>Geometry of a part depends on the state (e.g. solar panel can be deployed and take
/// more space). It's not possible (nor practical) for KIS to figure out which state of the part
/// is the most compact one. So, when calculating part's volume the initial state of the mesh
/// renderers in the prefab is considered the right ones. If parts's initial state is deployed
/// (e.g. Drill-O-Matic) then it will take more space than it could have.</remarks>
/// <param name="partInfo">A part to get volume for.</param>
/// <returns>Volume in liters.</returns>
public static float GetPartVolume(AvailablePart partInfo)
{
var p = partInfo.partPrefab;
float volume;
// If there is a KIS item volume then use it but still apply scale tweaks.
var kisItem = p.GetComponent <ModuleKISItem>();
if (kisItem && kisItem.volumeOverride > 0)
{
volume = kisItem.volumeOverride;
}
else
{
var boundsSize = PartGeometryUtil.MergeBounds(p.GetRendererBounds(), p.transform).size;
volume = boundsSize.x * boundsSize.y * boundsSize.z * 1000f;
}
// Apply cube of the scale modifier since volume involves all 3 axis.
return((float)(volume * Math.Pow(GetPartExternalScaleModifier(partInfo), 3)));
}
//TODO clean this up to be easier to read/understand now that it is optimized for cylinder check only
public static void findShieldedPartsCylinder(Part basePart, List <Part> shieldedParts, float topY, float bottomY, float topRadius, float bottomRadius)
{
float height = topY - bottomY;
float largestRadius = topRadius > bottomRadius ? topRadius : bottomRadius;
Vector3 lookupCenterLocal = new Vector3(0, bottomY + (height * 0.5f), 0);
Vector3 lookupTopLocal = new Vector3(0, topY, 0);
Vector3 lookupBottomLocal = new Vector3(0, bottomY, 0);
Vector3 lookupCenterGlobal = basePart.transform.TransformPoint(lookupCenterLocal);
Ray lookupRay = new Ray(lookupBottomLocal, new Vector3(0, 1, 0));
List <Part> partsFound = new List <Part>();
//do a basic sphere check vs the maximal size of the cylinder
Collider[] foundColliders = Physics.OverlapSphere(lookupCenterGlobal, height * 1.5f, 1);
foreach (Collider col in foundColliders)
{
Part pt = col.gameObject.GetComponentUpwards <Part>();
if (pt != null && pt != basePart && pt.vessel == basePart.vessel && !partsFound.Contains(pt))
{
partsFound.Add(pt);
}
}
Vector3 otherPartCenterLocal;
float partYPos;
float partYPercent;
float partYRadius;
float radiusOffset = topRadius - bottomRadius;
foreach (Part pt in partsFound)
{
Vector3 otherPartCenter = pt.partTransform.TransformPoint(PartGeometryUtil.FindBoundsCentroid(pt.GetRendererBounds(), pt.transform));
//check part bounds center point against conic projection of the fairing
otherPartCenterLocal = basePart.transform.InverseTransformPoint(otherPartCenter);
//check vs top and bottom of the shielded area
if (otherPartCenterLocal.y > lookupTopLocal.y || otherPartCenterLocal.y < lookupBottomLocal.y)
{
continue;
}
//quick check vs cylinder radius
float distFromLine = SSTUUtils.distanceFromLine(lookupRay, otherPartCenterLocal);
if (distFromLine > largestRadius)
{
continue;
}
//more precise check vs radius of the cone at that Y position
partYPos = otherPartCenterLocal.y - lookupBottomLocal.y;
partYPercent = partYPos / height;
partYRadius = partYPercent * radiusOffset;
if (distFromLine > (partYRadius + bottomRadius))
{
continue;
}
shieldedParts.Add(pt);
//print("Shielding part: " + pt);
}
}
public static Vector3 GetBoundsSize(Part part)
{
return(PartGeometryUtil.MergeBounds(part.GetRendererBounds(), part.transform).size);
}
void GetPartData(AvailablePart part)
{
bool started = false;
Vector3 pg = new Vector3();
StartLine(part.name);
started = true;
if (partAttrs[(int)PartAttrEnum.DimensionsInfo - 1] != null && partAttrs[(int)PartAttrEnum.DimensionsInfo - 1].enabled)
{
//
// Now get the part dimensions: x,y,z
//
List <Bounds> list = new List <Bounds>();
if (!(part.partPrefab.Modules.GetModule <LaunchClamp>(0) != null))
{
Bounds[] partRendererBounds = PartGeometryUtil.GetPartRendererBounds(part.partPrefab);
int num = partRendererBounds.Length;
for (int j = 0; j < num; j++)
{
Bounds bounds2 = partRendererBounds[j];
Bounds bounds3 = bounds2;
bounds3.size *= part.partPrefab.boundsMultiplier;
Vector3 size = bounds3.size;
bounds3.Expand(part.partPrefab.GetModuleSize(size, ModifierStagingSituation.CURRENT));
list.Add(bounds2);
}
}
pg = PartGeometryUtil.MergeBounds(list.ToArray(), part.partPrefab.transform.root).size;
#if false
if (!started)
{
StartLine(pg.x.ToString("F3"));
}
else
{
AppendLine(pg.x.ToString("F3"));
}
AppendLine(pg.y.ToString("F3"));
AppendLine(pg.z.ToString("F3"));
started = true;
#endif
#if false
string resources = "";
foreach (AvailablePart.ResourceInfo r in part.resourceInfos)
{
if (r.resourceName != "ElectricCharge" && r.resourceName != "Ablator")
{
resources += r.resourceName + ",";
}
}
if (resources != "")
{
Log.Info("part: " + part.name + ", part.title: " + part.title + ", descr: " + part.description.Replace(",", ".") +
", mass: " + part.partPrefab.mass + ", techRequired: " + part.TechRequired +
", height x,y,z: " + pg.x.ToString() + ", " + pg.y.ToString() + ", " + pg.z.ToString() + "," + resources);
}
#endif
}
DataDump.activeMod = "PART";
var a = part.GetType();
bool b = false;
Module partmod = new Module("PART", "PART", a);
// ConfigNode partNode = part.partConfig.GetNode("PART");
//Log.Info("partConfig: " + part.partConfig);
if (ActiveLists.activePropertyList.TryGetValue(Property.GetKey(partmod.modName, partmod.moduleName), out Property p))
{
foreach (FldInfo s in p.fields) //FromReflection)
{
if (!b)
{
//string value = part.partConfig.GetValue(s.Name);
b = true;
for (var partAttr = PartAttrEnum.first + 1; partAttr < PartAttrEnum.last; partAttr++)
{
if (DataDump.partAttrs[(int)partAttr - 1] != null && DataDump.partAttrs[(int)partAttr - 1].enabled)
{
switch (partAttr)
{
case PartAttrEnum.DimensionsInfo:
AppendLine(pg.x.ToString("F3"));
AppendLine(pg.y.ToString("F3"));
AppendLine(pg.z.ToString("F3"));
break;
case PartAttrEnum.Resources:
var nodes = part.partConfig.GetNodes("RESOURCE").ToList().OrderBy(r => r.GetValue("name"));
int cnt = 0;
foreach (var n in nodes)
{
string name = n.GetValue("name");
string maxAmount = n.GetValue("maxAmount");
if (cnt < maxResources)
{
AppendLine(name + ":" + maxAmount);
}
cnt++;
if (cnt >= maxResources)
{
break;
}
}
break;
case PartAttrEnum.TechRequired:
AppendLine(part.TechRequired);
break;
case PartAttrEnum.entryCost:
AppendLine(part.entryCost);
break;
case PartAttrEnum.cost:
AppendLine(part.cost);
break;
case PartAttrEnum.category:
AppendLine(part.category.ToString());
break;
default:
string str = "n/a";
str = "";
if (!part.partConfig.TryGetValue(partAttr.ToString(), ref str))
{
if (useDefaultValues)
{
Part p1 = new Part();
switch (partAttr)
{
case PartAttrEnum.breakingForce:
str = p1.breakingForce.ToString();
break;
case PartAttrEnum.breakingtorque:
str = p1.breakingTorque.ToString();
break;
case PartAttrEnum.minimum_drag:
str = p1.minimum_drag.ToString();
break;
case PartAttrEnum.maximum_drag:
str = p1.maximum_drag.ToString();
break;
case PartAttrEnum.angularDrag:
str = p1.angularDrag.ToString();
break;
case PartAttrEnum.crashTolerance:
str = p1.crashTolerance.ToString();
break;
case PartAttrEnum.maxTemp:
str = p1.maxTemp.ToString();
break;
case PartAttrEnum.mass:
AppendLine("Default: " + p1.mass);
break;
}
}
else
{
Log.Error("data not found");
}
}
//str = part.partConfig.GetValue(partAttr.ToString());
AppendLine(str);
break;
}
}
}
}
Field field = new Field(partmod.modName, partmod.moduleName, s.Name);
if (s.Name == "entryCost")
{
s.Name = "_entryCost";
}
if (ActiveLists.activeFieldsList.TryGetValue(field.ActiveKey, out field))
{
if (field != null && field.enabled)
{
string value = part.partConfig.GetValue(s.Name);
if (value == null || value == "")
{
Type fieldsType = typeof(AvailablePart);
// Get an array of FieldInfo objects.
FieldInfo[] fields = fieldsType.GetFields(BindingFlags.FlattenHierarchy |
BindingFlags.Instance |
BindingFlags.Public | BindingFlags.NonPublic |
BindingFlags.Static);
foreach (var f in fields)
{
string v = "";
var fieldtype = s.FieldType.ToString();
string t = "System.Collections.Generic";
if (fieldtype.StartsWith(t))
{
fieldtype = fieldtype.Substring(t.Length + 1);
}
if (f.Name == s.Name)
{
switch (fieldtype)
{
case "System.Single":
v = "float";
value = ((float)f.GetValue(part)).ToString();
break;
case "System.Double":
v = "double";
value = ((double)f.GetValue(part)).ToString();
break;
case "System.Int32":
v = "int";
value = ((int)f.GetValue(part)).ToString();
break;
case "System.UInt32":
v = "uint";
value = ((uint)f.GetValue(part)).ToString();
break;
case "System.String":
v = "string";
value = (string)f.GetValue(part);
if (s.Name == "description")
{
value = StripHtml(value);
if (value.Length > maxLen && s.Name == "description")
{
value = value.Substring(0, maxLen);
}
value = value.Replace("\n", " ").Replace("\r", " ");
}
break;
case "System.Boolean":
v = "boolean";
value = ((bool)f.GetValue(part)).ToString();
break;
case "UnityEngine.Vector3":
v = "Vector3";
value = ((Vector3)f.GetValue(part)).ToString();
break;
}
break;
}
Log.Info("v: " + v);
}
}
if (!started)
{
}
else
{
AppendLine(value);
}
}
}
else
{
#if false
if (field == null)
{
Log.Error("GetPartData, field is null");
}
else if (field.ActiveKey == null)
{
Log.Error("GetPartData, field.ActiveKey is null");
}
else
{
Log.Error("GetPartData, not found: " + field.ActiveKey);
}
#endif
}
}
}
}
public static float GetVolume(this Part part)
{
var boundsSize = PartGeometryUtil.MergeBounds(part.GetRendererBounds(), part.transform).size;
return(boundsSize.x * boundsSize.y * boundsSize.z);
}
public static float GetAverageBoundSize(this Part part)
{
var boundsSize = PartGeometryUtil.MergeBounds(part.GetRendererBounds(), part.transform).size;
return((boundsSize.x + boundsSize.y + boundsSize.z) / 3f);
}
public static void findShieldedPartsCylinder(Part basePart, Bounds fairingRenderBounds, List <Part> shieldedParts, float topY, float bottomY, float topRadius, float bottomRadius)
{
float height = topY - bottomY;
float largestRadius = topRadius > bottomRadius ? topRadius : bottomRadius;
Vector3 lookupCenterLocal = new Vector3(0, bottomY + (height * 0.5f), 0);
Vector3 lookupTopLocal = new Vector3(0, topY, 0);
Vector3 lookupBottomLocal = new Vector3(0, bottomY, 0);
Vector3 lookupCenterGlobal = basePart.transform.TransformPoint(lookupCenterLocal);
Ray lookupRay = new Ray(lookupBottomLocal, new Vector3(0, 1, 0));
List <Part> partsFound = new List <Part>();
Collider[] foundColliders = Physics.OverlapSphere(lookupCenterGlobal, height * 1.5f, 1);
foreach (Collider col in foundColliders)
{
Part pt = col.gameObject.GetComponentUpwards <Part>();
if (pt != null && pt != basePart && pt.vessel == basePart.vessel && !partsFound.Contains(pt))
{
partsFound.Add(pt);
}
}
Bounds[] otherPartBounds;
Vector3 otherPartCenterLocal;
float partYPos;
float partYPercent;
float partYRadius;
float radiusOffset = topRadius - bottomRadius;
foreach (Part pt in partsFound)
{
//check basic render bounds for containment
//TODO this check misses the case where the fairing is long/tall, containing a wide part; it will report that the wide part can fit inside
//of the fairing, due to the relative size of their colliders
otherPartBounds = pt.GetRendererBounds();
if (PartGeometryUtil.MergeBounds(otherPartBounds, pt.transform).size.sqrMagnitude > fairingRenderBounds.size.sqrMagnitude)
{
continue;
}
Vector3 otherPartCenter = pt.partTransform.TransformPoint(PartGeometryUtil.FindBoundsCentroid(otherPartBounds, pt.transform));
if (!fairingRenderBounds.Contains(otherPartCenter))
{
continue;
}
//check part bounds center point against conic projection of the fairing
otherPartCenterLocal = basePart.transform.InverseTransformPoint(otherPartCenter);
//check vs top and bottom of the shielded area
if (otherPartCenterLocal.y > lookupTopLocal.y || otherPartCenterLocal.y < lookupBottomLocal.y)
{
continue;
}
//quick check vs cylinder radius
float distFromLine = SSTUUtils.distanceFromLine(lookupRay, otherPartCenterLocal);
if (distFromLine > largestRadius)
{
continue;
}
//more precise check vs radius of the cone at that Y position
partYPos = otherPartCenterLocal.y - lookupBottomLocal.y;
partYPercent = partYPos / height;
partYRadius = partYPercent * radiusOffset;
if (distFromLine > (partYRadius + bottomRadius))
{
continue;
}
shieldedParts.Add(pt);
}
}
void enableShielding()
{
disableShielding();
var attached = getFairingParams();
if (!sideFairing)
{
return;
}
// Get all parts in range.
var parts = new List <Part>();
var colliders = Physics.OverlapSphere(part.transform.TransformPoint(lookupCenter), lookupRad, 1);
for (int i = colliders.Length - 1; i >= 0; --i)
{
var p = colliders [i].gameObject.GetComponentUpwards <Part>();
if (p != null)
{
parts.AddUnique(p);
}
}
// Filter parts.
float sizeSqr = lookupRad * lookupRad * 4;
float boundCylRadSq = boundCylRad * boundCylRad;
bool isInline = (sideFairing.inlineHeight > 0);
bool topClosed = false;
Matrix4x4 w2l = Matrix4x4.identity, w2lb = Matrix4x4.identity;
Bounds topBounds = default(Bounds);
if (isInline)
{
w2l = part.transform.worldToLocalMatrix;
w2lb = w2l;
for (int i = 0; i < 3; ++i)
{
for (int j = 0; j < 3; ++j)
{
w2lb [i, j] = Mathf.Abs(w2lb [i, j]);
}
}
topBounds = new Bounds(new Vector3(0, boundCylY1, 0), new Vector3(sideFairing.topRad * 2, sideFairing.sideThickness, sideFairing.topRad * 2));
}
for (int pi = 0; pi < parts.Count; ++pi)
{
var pt = parts [pi];
// Check special cases.
if (pt == part)
{
shieldedParts.Add(pt);
continue;
}
bool isSide = false;
for (int i = 0; i < attached.Length; ++i)
{
if (attached [i].attachedPart == pt)
{
isSide = true;
break;
}
}
if (isSide)
{
continue;
}
// Check if the top is closed in the inline case.
var bounds = pt.GetRendererBounds();
var box = PartGeometryUtil.MergeBounds(bounds, pt.transform);
if (isInline && !topClosed && pt.vessel == vessel)
{
var wb = box; wb.Expand(sideFairing.sideThickness * 4);
var b = new Bounds(w2l.MultiplyPoint3x4(wb.center), w2lb.MultiplyVector(wb.size));
if (b.Contains(topBounds.min) && b.Contains(topBounds.max))
{
topClosed = true;
}
}
// Check if the centroid is within the fairing bounds.
var c = part.transform.InverseTransformPoint(PartGeometryUtil.FindBoundsCentroid(bounds, null));
float y = c.y;
if (y < boundCylY0 || y > boundCylY1)
{
continue;
}
float xsq = new Vector2(c.x, c.z).sqrMagnitude;
if (xsq > boundCylRadSq)
{
continue;
}
// Accurate centroid check.
float x = Mathf.Sqrt(xsq);
bool inside = false;
for (int i = 1; i < shape.Length; ++i)
{
var p0 = shape [i - 1];
var p1 = shape [i];
if (p0.y > p1.y)
{
var p = p0;
p0 = p1;
p1 = p;
}
if (y < p0.y || y > p1.y)
{
continue;
}
float dy = p1.y - p0.y, r;
if (dy <= 1e-6f)
{
r = (p0.x + p1.x) * 0.5f;
}
else
{
r = (p1.x - p0.x) * (y - p0.y) / dy + p0.x;
}
if (x > r)
{
continue;
}
inside = true;
break;
}
if (!inside)
{
continue;
}
shieldedParts.Add(pt);
}
if (isInline && !topClosed)
{
disableShielding();
return;
}
// Add shielding.
for (int i = 0; i < shieldedParts.Count; ++i)
{
shieldedParts [i].AddShield(this);
}
numShieldedDisplay = shieldedParts.Count;
var fbase = part.GetComponent <ProceduralFairingBase>();
if (fbase != null)
{
fbase.onShieldingEnabled(shieldedParts);
}
}
public void Start()
{
Settings.LoadConfig();
if (CheckForKIFA())
{
return;
}
Start2();
Stopwatch stopwatch = new Stopwatch();
stopwatch.Start();
List <AvailablePart> loadedParts = PartLoader.LoadedPartsList; // PartLoader.Instance.loadedParts;
StringBuilder stringBuilder;
bool fileExists = File.Exists(VOL_CFG_FILE);
Log.Info("Finding Parts Volume....");
using (List <AvailablePart> .Enumerator partEnumerator = loadedParts.GetEnumerator())
{
while (partEnumerator.MoveNext())
{
AvailablePart current = partEnumerator.Current;
string[] urlParts = current.partUrl.Split('/');
string urlName = urlParts[urlParts.Length - 1];
//
// urlName more precisely correspond to part name in the config than current.name,
// but KerbalEVA and flag have empty urlname and need to be filtered, so:
//
string partName = urlParts[urlParts.Length - 1];
if (partName == "")
{
partName = current.name;
}
if (partBlacklist.Contains(partName) ||
Regex.IsMatch(partName, blacklistRegexPattern))
{
Log.Info(String.Format("partName: {0, -40} found in the blacklist and ignored.", partName + ","));
continue;
}
bool contains_ModuleCargoPart = false;
bool contains_ModuleInventoryPart = false;
bool contains_KSPPartVolumeModule = false;
bool containsCrew = false;
bool isTank = false;
bool isTankNotIgnoreable = false;
bool sizeTooBig = false;
bool isStock = false;
bool isRcsPart = false;
bool isEnginePart = false;
ConfigNode currentCargoPart = null;
if (!Settings.doStock)
{
if (urlParts[0] == "Squad" || urlParts[0] == "SquadExpansion")
{
if (!partWhitelist.Contains(partName))
{
isStock = true;
}
}
}
var moduleNodes = current.partConfig.GetNodes("MODULE");
for (int i = 0; i < moduleNodes.Length; i++)
{
var name = moduleNodes[i].GetValue("name");
if (name == "ModuleCargoPart")
{
contains_ModuleCargoPart = true;
currentCargoPart = moduleNodes[i];
}
if (name == "ModuleInventoryPart")
{
contains_ModuleInventoryPart = true;
}
if (name == "KSPPartVolumeModule")
{
contains_KSPPartVolumeModule = true;
}
if (name == "ModuleRCS" || name == "ModuleRCSFX")
{
isRcsPart = true;
}
if (name == "ModuleEngines" || name == "ModuleEnginesFX")
{
isEnginePart = true;
}
// Check for manned
if (!Settings.manned)
{
int CrewCapacity = 0;
if (current.partConfig.TryGetValue("CrewCapacity", ref CrewCapacity))
{
if (CrewCapacity > 0)
{
containsCrew = true;
}
}
}
}
if (contains_KSPPartVolumeModule)
{
contains_ModuleCargoPart = false;
}
var resNodes = current.partConfig.GetNodes("RESOURCE");
float mass = 0;
current.partConfig.TryGetValue("mass", ref mass);
float totalResMass = 0;
//if (!Settings.doTanks)
{
foreach (var resNode in resNodes)
{
var name = resNode.GetValue("name");
if (resourceBlackList.Contains(name))
{
continue;
}
float maxAmount = 0;
resNode.TryGetValue("maxAmount", ref maxAmount);
var definition = PartResourceLibrary.Instance.GetDefinition(name);
if (definition != null)
{
var density = definition.density;
float resMass = maxAmount * density;
totalResMass += resMass;
}
}
if (totalResMass > mass)
{
isTankNotIgnoreable = true;
isTank = !Settings.doTanks;
}
}
stringBuilder = new StringBuilder();
Bounds bounds = default(Bounds);
foreach (Bounds rendererBound in PartGeometryUtil.GetRendererBounds((Part)current.partPrefab))
{
bounds.Encapsulate(rendererBound);
}
#if false
Bounds colliderBounds = default(Bounds);
foreach (Bounds rendererBound in PartGeometryUtil.GetPartColliderBounds((Part)current.partPrefab))
{
colliderBounds.Encapsulate(rendererBound);
}
Bounds allBounds = default(Bounds);
var a = PartGeometryUtil.GetPartColliderBounds(current.partPrefab);
allBounds = PartGeometryUtil.MergeBounds(a, current.iconPrefab.transform.root);
#endif
float vol = (float)(bounds.size.x * bounds.size.y * bounds.size.z) * 1000f;
if (vol > Settings.largestAllowablePart && Settings.limitSize)
{
sizeTooBig = true;
}
var maxLen = Math.Max(bounds.size.x, Math.Max(bounds.size.y, bounds.size.z));
var minLen = Math.Min(bounds.size.x, Math.Min(bounds.size.y, bounds.size.z));
var tankVol = Math.Pow(minLen * 0.5, 2) * maxLen * Math.PI * 1000;
var adjVol = AdjustedVolume(current, vol, isEnginePart, isRcsPart, out float adj);
int stackableQuantity = Math.Min((int)Settings.maxCommonStackVolume / (int)adjVol, Settings.maxPartsInStack);
bool isManipulableOnly = false;
bool isKSP_PartVolumeModule = false;
string currentCargoPartPackedVolume = "";
if (currentCargoPart != null)
{
Log.Info("currentCargoPart: " + current.name);
if (currentCargoPart.HasValue("packedVolume"))
{
currentCargoPartPackedVolume = currentCargoPart.GetValue("packedVolume");
currentCargoPart.SetValue("packedVolume", adjVol.ToString("F0"));
Log.Info(String.Format("partName: {0, -40} packedVolume: {1,7}, calcPackedVolume: {2,7:F0}",
partName + ",", currentCargoPartPackedVolume, adjVol));
var v = float.Parse(currentCargoPartPackedVolume);
if (v <= 0)
{
isManipulableOnly = true;
}
isKSP_PartVolumeModule = currentCargoPart.HasValue("KSP_PartVolume");
}
else
{
Log.Error(String.Format("partName: {0, -40} packedVolume not found", partName + ","));
}
}
if (contains_ModuleInventoryPart)
{
adjVol = -1;
}
StringBuilder tmp = new StringBuilder();
tmp.AppendLine("// " + current.partUrl);
tmp.AppendLine("// Dimensions: x: " + bounds.size.x.ToString("F2") + ", y: " + bounds.size.y.ToString("F2") + ", z: " + bounds.size.z.ToString("F2"));
tmp.AppendLine(string.Format("// Bounding Box Size: {0} liters", vol));
tmp.AppendLine("// Volume adjustment: " + (adj * 100).ToString("F0") + "%");
if (isRcsPart)
{
tmp.AppendLine("// RCS module detected");
}
if (isEnginePart)
{
tmp.AppendLine("// Engine module detected");
}
Part part = UnityEngine.Object.Instantiate(current.partPrefab);
part.gameObject.SetActive(value: false);
if (isTankNotIgnoreable)
{
var volume = DetermineVolume(part) * 1000;
stringBuilder.AppendLine("// Calculated tank volume: " + volume.ToString("F1"));
stringBuilder.AppendLine("// Calculated tankVol (max x min) volume: " + tankVol.ToString("F1"));
}
tmp.AppendLine("//");
if (!containsCrew && !isTank && !sizeTooBig && !isStock && !contains_ModuleInventoryPart &&
(!contains_ModuleCargoPart ||
(contains_ModuleCargoPart && Settings.processManipulableOnly && isManipulableOnly) ||
(!isKSP_PartVolumeModule && partWhitelist.Contains(partName))
))
{
stringBuilder.Append(tmp);
string adjName = partName.Replace(' ', '?').Replace('(', '?').Replace(')', '?');
if (contains_ModuleCargoPart)
{
stringBuilder.AppendLine("@PART[" + adjName + "]:HAS[@MODULE[ModuleCargoPart]]:Final");
stringBuilder.AppendLine("{");
stringBuilder.AppendLine(" @MODULE[ModuleCargoPart]");
stringBuilder.AppendLine(" {");
stringBuilder.AppendLine(" %packedVolume = " + adjVol.ToString("F0"));
}
else
{
stringBuilder.AppendLine("@PART[" + adjName + "]:HAS[!MODULE[ModuleCargoPart]]:Final");
stringBuilder.AppendLine("{");
stringBuilder.AppendLine(" MODULE");
stringBuilder.AppendLine(" {");
stringBuilder.AppendLine(" name = ModuleCargoPart");
stringBuilder.AppendLine(" packedVolume = " + adjVol.ToString("F0"));
}
if (Settings.stackParts && stackableQuantity > 1)
{
stringBuilder.AppendLine(" %stackableQuantity = " + stackableQuantity);
}
{
stringBuilder.AppendLine(" %KSP_PartVolume = true");
stringBuilder.AppendLine(" }");
stringBuilder.AppendLine("}");
}
RestartWindowVisible = true;
newPartsDetected = true;
part = UnityEngine.Object.Instantiate(current.partPrefab);
part.gameObject.SetActive(value: false);
foreach (PartModule m in part.Modules)
{
if (m.moduleName == "ModuleCargoPart")
{
var mcp = m as ModuleCargoPart;
mcp.part = part;
mcp.packedVolume = adjVol;
if (stackableQuantity > 1)
{
mcp.stackableQuantity = stackableQuantity;
}
for (int i = current.moduleInfos.Count - 1; i >= 0; --i)
{
AvailablePart.ModuleInfo info = current.moduleInfos[i];
if (info.moduleName == Localizer.Format("#autoLOC_8002221")) // Cargo Part
{
try
{
info.info = mcp.GetInfo();
}
catch (Exception ex)
{
Log.Error("PartInfo.Start, Part: " + current.partUrl + ", Exception caught in ModuleCargoPart.GetInfo, exception: " + ex.Message + "\n" + ex.StackTrace);
info.info = "KSP_PartVolume error";
}
break;
}
}
}
}
}
else
{
if (!fileExists)
{
stringBuilder.Append(tmp);
stringBuilder.AppendLine("// Bypass reasons:");
if (containsCrew)
{
stringBuilder.AppendLine("// contains crew ");
}
if (isTank)
{
stringBuilder.AppendLine("// is tank");
}
if (sizeTooBig)
{
stringBuilder.AppendLine("// size exceeds largestAllowablePart: " + Settings.largestAllowablePart);
}
if (isStock)
{
stringBuilder.AppendLine("// is stock");
}
if (contains_ModuleCargoPart && !Settings.processManipulableOnly ||
contains_ModuleCargoPart && !isManipulableOnly)
{
stringBuilder.AppendLine("// contains ModuleCargoPart (packedVolume = " + currentCargoPartPackedVolume + ")");
}
if (contains_ModuleInventoryPart)
{
stringBuilder.AppendLine("// contains ModuleInventoryPart");
}
stringBuilder.AppendLine("//");
adjVol = -999;
#if true
current.partConfig.RemoveNode(currentCargoPart);
//Part part = UnityEngine.Object.Instantiate(current.partPrefab);
//part.gameObject.SetActive(value: false);
Statics.Check4DelModCargoPart(part);
//Destroy(part);
#endif
}
}
Destroy(part);
if (!Statics.modifiedParts.ContainsKey(current.partUrl))
{
Statics.modifiedParts.Add(current.partUrl, new PartModification(stringBuilder, adjVol, adjVol == -999));
}
else
{
Log.Error("modifiedParts already contains: " + current.partUrl);
}
if (!fileExists)
{
stringBuilder.AppendLine("// ----------------------------------------------------------------------");
}
}
}
stringBuilder = new StringBuilder();
if (Statics.modifiedParts.Count > 0)
{
foreach (var d in Statics.modifiedParts)
{
stringBuilder.Append(d.Value.cfg.ToString());
}
File.AppendAllText(VOL_CFG_FILE, stringBuilder.ToString());
}
stopwatch.Stop();
Log.Info("File written to " + VOL_CFG_FILE);
Log.Info(string.Format("Run in {0}ms", (object)stopwatch.ElapsedMilliseconds));
//if (numCargoPartsAdded > 0)
// ShowWarning(numCargoPartsAdded);
}
public Dictionary <string, blackListPart> loadData(string fname)
{
Dictionary <string, blackListPart> blpList = new Dictionary <string, blackListPart>();
List <AvailablePart> loadedParts = new List <AvailablePart>();
if (PartLoader.Instance != null)
{
loadedParts.AddRange(PartLoader.LoadedPartsList);
}
#if false
// This code is used to export various information about parts and their resources
// used to rebalance fuel tanks
foreach (AvailablePart part in loadedParts)
{
List <Bounds> list = new List <Bounds>();
if (!(part.partPrefab.Modules.GetModule <LaunchClamp>(0) != null))
{
Bounds[] partRendererBounds = PartGeometryUtil.GetPartRendererBounds(part.partPrefab);
int num = partRendererBounds.Length;
for (int j = 0; j < num; j++)
{
Bounds bounds2 = partRendererBounds[j];
Bounds bounds3 = bounds2;
bounds3.size *= part.partPrefab.boundsMultiplier;
Vector3 size = bounds3.size;
bounds3.Expand(part.partPrefab.GetModuleSize(size, ModifierStagingSituation.CURRENT));
list.Add(bounds2);
}
}
var pg = PartGeometryUtil.MergeBounds(list.ToArray(), part.partPrefab.transform.root).size;
string resources = "";
foreach (AvailablePart.ResourceInfo r in part.resourceInfos)
{
if (r.resourceName != "ElectricCharge" && r.resourceName != "Ablator")
{
resources += r.resourceName + ",";
}
}
if (resources != "")
{
Log.Info("part: " + part.name + ", part.title: " + part.title + ", descr: " + part.description.Replace(",", ".") +
", mass: " + part.partPrefab.mass + ", techRequired: " + part.TechRequired +
", height x,y,z: " + pg.x.ToString() + ", " + pg.y.ToString() + ", " + pg.z.ToString() + "," + resources);
}
}
#endif
Log.Info("loadData, fname: " + fname);
if (fname != "" && File.Exists(fname))
{
using (StreamReader f = File.OpenText(fname))
{
string l = "";
while ((l = f.ReadLine()) != null)
{
string[] s = l.Split(',');
if (s.Length >= 2)
{
blackListPart blp = new blackListPart();
blp.modName = s[0];
if (s[1] == "ALL")
{
blp.where = blackListType.ALL;
}
if (s[1] == "SPH")
{
blp.where = blackListType.SPH;
}
if (s[1] == "VAB")
{
blp.where = blackListType.VAB;
}
AvailablePart p = loadedParts.Find(part => part.name == blp.modName);
if (p != null)
{
blp.title = p.title;
Log.Info("Blacklist mod: " + blp.modName);
Log.Info("partTitle: " + blp.title);
blp.permapruned = false;
blpList.Add(blp.modName, blp);
}
}
}
}
return(blpList);
}
else
{
return(blpList);
}
}
