Esempio n. 1
0
 private void initialize()
 {
     //MonoBehaviour.print("NodeFairingInit: "+fairingCreated+ " :: " +fairingForceDisabled+ " :: "+fairingJettisoned + " :: " +fairingEnabled);
     if (rendersToRemove != null && rendersToRemove.Length > 0)
     {
         ROTUtils.removeTransforms(part, ROTUtils.parseCSV(rendersToRemove));
     }
     loadFairingData(ROTConfigNodeUtils.parseConfigNode(configNodeData));
     if (externalUpdateData != null)
     {
         updateFromExternalData(externalUpdateData);
     }
     if (fairingCreated || (fairingEnabled && !fairingJettisoned && !fairingForceDisabled && string.IsNullOrEmpty(nodeName)))//previously existed, recreate it, or should exist by default values in the config
     {
         buildFairing();
         if (!string.IsNullOrEmpty(nodeName))
         {
             AttachNode n = part.FindAttachNode(nodeName);
             if (n != null && n.attachedPart != null)
             {
                 prevAttachedPart = n.attachedPart;
                 //MonoBehaviour.print("Setting initial attached part to: " + prevAttachedPart);
             }
         }
     }
     else if (!fairingJettisoned && !fairingForceDisabled && !string.IsNullOrEmpty(nodeName))//else could potentially be activated by a node...check for activation
     {
         needsStatusUpdate = true;
     }
     updateTextureSet(false);
     needsGuiUpdate = true;
     //MonoBehaviour.print("NodeFairingInit End: " + fairingCreated + " :: " + fairingForceDisabled + " :: " + fairingJettisoned + " :: " + fairingEnabled);
 }
Esempio n. 2
0
        private void initialize()
        {
            if (initialized)
            {
                return;
            }
            initialized = true;

            prevDiameter = currentDiameter;

            coreNodeNames = ROTUtils.parseCSV(coreManagedNodes);

            //model-module setup/initialization
            ConfigNode node = ROTConfigNodeUtils.parseConfigNode(configNodeData);

            //list of CORE model nodes from config
            //each one may contain multiple 'model=modelDefinitionName' entries
            //but must contain no more than a single 'variant' entry.
            //if no variant is specified, they are added to the 'Default' variant.
            ConfigNode[] coreDefNodes = node.GetNodes("CORE");
            ModelDefinitionLayoutOptions[]      coreDefs;
            List <ModelDefinitionLayoutOptions> coreDefList = new List <ModelDefinitionLayoutOptions>();
            int coreDefLen = coreDefNodes.Length;

            for (int i = 0; i < coreDefLen; i++)
            {
                string variantName = coreDefNodes[i].GetStringValue("variant", "Default");
                coreDefs = ROTModelData.getModelDefinitionLayouts(coreDefNodes[i].GetStringValues("model"));
                coreDefList.AddUniqueRange(coreDefs);
                ModelDefinitionVariantSet mdvs = getVariantSet(variantName);
                mdvs.addModels(coreDefs);
            }
            coreDefs = coreDefList.ToArray();

            coreModule      = new ROTModelModule <ModuleROTProbe>(part, this, getRootTransform("ModularProbe-CORE"), ModelOrientation.CENTRAL, nameof(currentCore), null, nameof(currentCoreTexture), nameof(coreModulePersistentData));
            coreModule.name = "ModularProbe-Core";
            coreModule.getSymmetryModule = m => m.coreModule;
            coreModule.getValidOptions   = () => getVariantSet(currentVariant).definitions;

            coreModule.massScalar   = massScalingPower;
            coreModule.volumeScalar = volumeScalingPower;

            //set up the model lists and load the currently selected model
            coreModule.setupModelList(coreDefs);
            coreModule.setupModel();

            updateModulePositions();
            updateMassAndDimensions();
            updateAttachNodes(false);
            updateAvailableVariants();
            ROTStockInterop.updatePartHighlighting(part);
        }