/// <summary>
/// Sets the shader and properties to the input material
/// </summary>
/// <param name="material"></param>
public void apply(Material material)
{
material.shader = TexturesUnlimitedLoader.getShader(shader);
TextureSet.updateMaterialProperties(material, shaderProperties);
TextureSet.fillEmptyStockTextureSlots(material);
material.renderQueue = TexturesUnlimitedLoader.isTransparentMaterial(material) ? TexturesUnlimitedLoader.transparentTextureRenderQueue : TexturesUnlimitedLoader.diffuseTextureRenderQueue;
}
/// <summary>
/// Apply the current recoloring selections to the input transform. Does not recreate material, but simply applies the properties to the current material.
/// </summary>
/// <param name="root"></param>
/// <param name="userColors"></param>
public void applyRecoloring(Transform root, RecoloringData[] userColors)
{
TextureSet set = currentTextureSet;
if (set == null)
{
return;
}
set.applyRecoloring(root, userColors);
}
public Material createMaterial(string name)
{
string shdName = string.IsNullOrEmpty(this.shader) ? "KSP/Diffuse" : this.shader;
Shader shd = KSPShaderLoader.getShader(shdName);
Material mat = new Material(shd);
mat.name = name;
TextureSet.updateMaterialProperties(mat, props);
return(mat);
}
/// <summary>
/// Applies any 'KSP_MODEL_SHADER' definitions to models in the GameDatabase.loadedModels list.
/// </summary>
private static void applyToModelDatabase()
{
ConfigNode[] modelShaderNodes = GameDatabase.Instance.GetConfigNodes("KSP_MODEL_SHADER");
TextureSet set = null;
ConfigNode textureNode;
string setName = "";
int len = modelShaderNodes.Length;
string[] modelNames;
GameObject model;
for (int i = 0; i < len; i++)
{
textureNode = modelShaderNodes[i];
if (textureNode.HasNode("MATERIAL"))
{
set = new TextureSet(textureNode, "update");
setName = set.name;
}
else if (textureNode.HasNode("TEXTURE"))//legacy style definitions
{
set = new TextureSet(textureNode, "update");
setName = set.name;
}
else if (textureNode.HasValue("textureSet"))
{
setName = textureNode.GetStringValue("textureSet");
set = getTextureSet(setName);
if (set == null)
{
Log.exception("ERROR: Did not locate texture set from global cache for input name: " + setName + " while applying KSP_MODEL_SHADER with name of: " + modelShaderNodes[i].GetStringValue("name", "UNKNOWN"));
continue;
}
}
if (!string.IsNullOrEmpty(setName) && !loadedModelShaderSets.ContainsKey(setName))
{
loadedModelShaderSets.Add(setName, set);
}
modelNames = textureNode.GetStringValues("model");
int len2 = modelNames.Length;
for (int k = 0; k < len2; k++)
{
model = GameDatabase.Instance.GetModelPrefab(modelNames[k]);
if (model != null)
{
Log.replacement("TexturesUnlimited -- Replacing textures on database model: " + modelNames[k]);
set.enable(model.transform, set.maskColors);
}
else
{
Log.exception("ERROR: Could not locate model: " + modelNames[k] + " while applying KSP_MODEL_SHADER with name of: " + modelShaderNodes[i].GetStringValue("name", "UNKNOWN"));
}
}
}
}
/// <summary>
/// Return an array of texture sets for the values from within the input string array. Returns an empty array if none are found.
/// </summary>
/// <param name="setNodes"></param>
/// <returns></returns>
public static TextureSet[] getTextureSets(string[] setNames)
{
int len = setNames.Length;
TextureSet[] sets = new TextureSet[len];
for (int i = 0; i < len; i++)
{
sets[i] = getTextureSet(setNames[i]);
}
return(sets);
}
/// <summary>
/// Public utility method to parse texture set instances from config nodes.
/// </summary>
/// <param name="nodes"></param>
/// <returns></returns>
public static TextureSet[] parse(ConfigNode[] nodes)
{
int len = nodes.Length;
TextureSet[] sets = new TextureSet[len];
for (int i = 0; i < len; i++)
{
sets[i] = new TextureSet(nodes[i]);
}
return(sets);
}
private static void loadTextureSets()
{
ConfigNode[] setNodes = GameDatabase.Instance.GetConfigNodes("KSP_TEXTURE_SET");
TextureSet[] sets = TextureSet.parse(setNodes);
int len = sets.Length;
for (int i = 0; i < len; i++)
{
loadedTextureSets.Add(sets[i].name, sets[i]);
}
}
public static TextureSet getTextureSet(string name)
{
TextureSet s = null;
if (loadedTextureSets.TryGetValue(name, out s))
{
return(s);
}
MonoBehaviour.print("ERROR: Could not locate texture set for name: " + name);
return(null);
}
public static TextureSet[] getTextureSets(ConfigNode[] setNodes)
{
int len = setNodes.Length;
TextureSet[] sets = new TextureSet[len];
for (int i = 0; i < len; i++)
{
sets[i] = getTextureSet(setNodes[i].GetStringValue("name"));
}
return(sets);
}
/// <summary>
/// Find a global texture set from database with a name that matches the input name. Returns null if not found.
/// </summary>
/// <param name="name"></param>
/// <returns></returns>
public static TextureSet getTextureSet(string name)
{
TextureSet s = null;
if (loadedTextureSets.TryGetValue(name, out s))
{
return(s);
}
Log.exception("ERROR: Could not locate TextureSet from global cache for the input name of: " + name);
return(null);
}
/// <summary>
/// Return a new material instances instatiated with the shader and properties for this material data.
/// Does not include applying any recoloring data -- that needs to be handled externally.
/// </summary>
/// <returns></returns>
public Material createMaterial()
{
if (string.IsNullOrEmpty(this.shader))
{
//TODO -- include texture set name somehow...
throw new NullReferenceException("ERROR: No shader specified for texture set.");
}
Shader shader = TexturesUnlimitedLoader.getShader(this.shader);
Material material = new Material(shader);
TextureSet.updateMaterialProperties(material, shaderProperties);
material.renderQueue = TexturesUnlimitedLoader.isTransparentMaterial(material) ? TexturesUnlimitedLoader.transparentTextureRenderQueue : TexturesUnlimitedLoader.diffuseTextureRenderQueue;
return(material);
}
/// <summary>
/// Applies this texture set to the input root transform, using the specified inclusions/exclusions from config.
/// Does not update any recoloring data. Must also call 'applyRecoloring' in order to update recoloring properties.
/// </summary>
/// <param name="root"></param>
/// <param name="userColors"></param>
public void enable(Transform root, bool isIcon = false)
{
bool updateMode = string.Equals(mode, "update", StringComparison.CurrentCultureIgnoreCase);
Transform[] trs = TextureSet.findApplicableTransforms(root, meshNames, excludedMeshes);
int len = trs.Length;
Renderer render;
Log.debug("enabling TSMD.." + root + " updateMode: " + updateMode);
if (updateMode)
{
Material material;
for (int i = 0; i < len; i++)
{
render = trs[i].GetComponent <Renderer>();
if (render != null)
{
material = render.material;
apply(material, isIcon);
render.material = material;
}
}
}
else//create mode - creates new materials for renders to use, applying only those properties specified in the texture set, with optional inheritance of properties from the old material
{
Material newMaterial = createMaterial();//create a new material for this TSMD
Material origMaterial = null;
for (int i = 0; i < len; i++)
{
render = trs[i].GetComponent <Renderer>();
if (render != null)
{
//only inherit properties a single time, from the first render/transform/material found
if (origMaterial == null)
{
origMaterial = render.sharedMaterial;
if (origMaterial != null)
{
//if there was no shared material, this will be null;
//TODO -- use std material ref if no shared mat exists?
newMaterial.name = origMaterial.name;
inheritProperties(newMaterial, origMaterial);
}
}
render.sharedMaterial = newMaterial;
Log.replacement("Updated material properties on transform: " + trs[i].name + "\n" + Debug.getMaterialPropertiesDebug(newMaterial));
}
}
}
}
private void applyConfig(Transform root, TextureSet set, bool useSetColors, bool useIconShaders = false)
{
if (set == null)
{
return;
}
RecoloringData[] colors = useSetColors? set.maskColors : customColors;
if (useSetColors)
{
customColors = set.maskColors;
saveColors(customColors);
}
//apply the texture set to the base model (and trusses?)
set.enable(root, colors, useIconShaders);
if (stockFairing)
{
TextureSetMaterialData tsmd = set.textureData[0];
//adjust the already existing fairing materials and fairing panels
ModuleProceduralFairing mpf = part.GetComponent <ModuleProceduralFairing>();
if (mpf != null)
{
Material mat;
if (mpf.FairingMaterial != null && mpf.FairingConeMaterial != null)
{
mat = mpf.FairingMaterial;
tsmd.apply(mat, useIconShaders);
tsmd.applyRecoloring(mat, colors);
mat = mpf.FairingConeMaterial;
tsmd.apply(mat, useIconShaders);
tsmd.applyRecoloring(mat, colors);
}
if (mpf.Panels != null && mpf.Panels.Count > 0)//cones are included in regular panels
{
int len = mpf.Panels.Count;
for (int i = 0; i < len; i++)
{
mat = mpf.Panels[i].mat;
tsmd.apply(mat, useIconShaders);
tsmd.applyRecoloring(mat, colors);
mat = mpf.Panels[i].go.GetComponent <Renderer>().material;
tsmd.apply(mat, useIconShaders);
tsmd.applyRecoloring(mat, colors);
}
}
}
}
}
//really, could probably just move this back to the base class, possibly with a config bool for toggling enable of the secondary updates
public void Start()
{
TextureSet ts = TexturesUnlimitedLoader.getTextureSet(textureSet);
if (ts != null)
{
//apply the textur set to the base model, use set-specified mask colors (does not support user recoloring)
ts.enable(part.transform.FindRecursive("model"), ts.maskColors);
TextureSetMaterialData tsmd = ts.textureData[materialIndex];
//adjust the already existing fairing materials and fairing panels
ModuleProceduralFairing mpf = part.GetComponent <ModuleProceduralFairing>();
if (mpf != null)
{
if (mpf.FairingMaterial != null && mpf.FairingConeMaterial != null)
{
tsmd.apply(mpf.FairingMaterial);
tsmd.apply(mpf.FairingConeMaterial);
}
if (mpf.Panels != null && mpf.Panels.Count > 0)//cones are included in regular panels
{
int len = mpf.Panels.Count;
for (int i = 0; i < len; i++)
{
tsmd.apply(mpf.Panels[i].mat);
tsmd.apply(mpf.Panels[i].go.GetComponent <Renderer>().material);
}
}
}
}
//prev shader-only code...
//Shader shader = TexturesUnlimitedLoader.getShader(this.shader);
//if (mpf != null && shader != null && mpf.FairingMaterial != null)
//{
// mpf.FairingMaterial.shader = shader;
// if (mpf.FairingConeMaterial != null) { mpf.FairingConeMaterial.shader = shader; }
// MonoBehaviour.print("Adjusted MPF materials!");
// if (mpf.Panels != null && mpf.Panels.Count > 0)//cones are included in regular panels
// {
// int len = mpf.Panels.Count;
// for (int i = 0; i < len; i++)
// {
// mpf.Panels[i].mat.shader = shader;
// mpf.Panels[i].go.GetComponent<Renderer>().material.shader = shader;
// }
// }
//}
}
/// <summary>
/// Sets the shader and properties to the input material
/// </summary>
/// <param name="material"></param>
public void apply(Material material, bool isIcon = false)
{
if (isIcon)
{
material.shader = TexturesUnlimitedLoader.iconShaders[shader].iconShader;
}
else
{
material.shader = TexturesUnlimitedLoader.getShader(shader);
}
TextureSet.updateMaterialProperties(material, shaderProperties);
TextureSet.fillEmptyStockTextureSlots(material);
material.renderQueue = renderQueue;
material.mainTextureOffset = textureOffset;
material.mainTextureScale = textureScale;
Log.replacement("Updated material properties\n" + Debug.getMaterialPropertiesDebug(material));
}
/// <summary>
/// Applies any 'KSP_MODEL_SHADER' definitions to models in the GameDatabase.loadedModels list.
/// </summary>
private static void applyToModelDatabase()
{
ConfigNode[] modelShaderNodes = GameDatabase.Instance.GetConfigNodes("KSP_MODEL_SHADER");
TextureSet set = null;
ConfigNode textureNode;
string setName;
int len = modelShaderNodes.Length;
string[] modelNames;
GameObject model;
for (int i = 0; i < len; i++)
{
textureNode = modelShaderNodes[i];
if (textureNode.HasNode("MATERIAL"))
{
set = new TextureSet(textureNode);
setName = set.name;
}
else if (textureNode.HasNode("TEXTURE"))//legacy style definitions
{
set = new TextureSet(textureNode);
setName = set.name;
}
else if (textureNode.HasValue("textureSet"))
{
setName = textureNode.GetStringValue("textureSet");
set = getTextureSet(setName);
}
modelNames = textureNode.GetStringValues("model");
int len2 = modelNames.Length;
for (int k = 0; k < len2; k++)
{
model = GameDatabase.Instance.GetModelPrefab(modelNames[k]);
if (model != null)
{
if (logReplacements)
{
MonoBehaviour.print("TexturesUnlimited -- Replacing textures on database model: " + modelNames[k]);
}
set.enable(model.transform, set.maskColors);
}
}
}
}
/// <summary>
/// Apply the current texture to the input transform. The texture sets include/exclude settings will be used to determine what children of the input transforms should be adjusted.
/// </summary>
/// <param name="root"></param>
public void enableCurrentSet(Transform root)
{
TextureSet set = currentTextureSet;
if (set == null)
{
MonoBehaviour.print("ERROR: KSPTextureSwitch could not locate texture set for name: " + currentTextureSetName);
}
if (customColors == null || customColors.Length == 0)
{
customColors = new RecoloringData[3];
customColors[0] = set.maskColors[0];
customColors[1] = set.maskColors[1];
customColors[2] = set.maskColors[2];
}
set.enable(root, customColors);
saveColors(customColors);
}
public readonly string mode;//ghetto enum - 'update' or 'create' are the only valid values
public TextureSetMaterialData(TextureSet owner, ConfigNode node, string defaultMode)
{
this.owner = owner;
shader = node.GetStringValue("shader");
meshNames = node.GetStringValues("mesh");
excludedMeshes = node.GetStringValues("excludeMesh");
shaderProperties = ShaderProperty.parse(node);
inheritedTex = node.GetStringValues("inheritTexture");
inheritedFloat = node.GetStringValues("inheritFloat");
inheritedColor = node.GetStringValues("inheritColor");
if (!node.HasValue("mode"))
{
Log.error("TextureSet: " + owner.name + " did not have definition for mode (create/update). Using default value of: " + defaultMode + ". This may not function as desired, and may need to be corrected in the configuration file.");
}
mode = node.GetStringValue("mode", defaultMode);
renderQueue = node.GetIntValue("renderQueue", (TexturesUnlimitedLoader.isTransparentShader(shader)? (int)RenderQueue.Transparent : (int)RenderQueue.Geometry));
textureScale = node.GetVector2("textureScale", Vector2.one);
textureOffset = node.GetVector2("textureOffset", Vector2.zero);
}
private void init()
{
if (initialized)
{
return;
}
initialized = true;
loadPersistentData(persistentData);
if (applied == null)
{
//TODO only subscribe based on scene?
GameEvents.onVariantApplied.Add(applied = new EventData <Part, PartVariant> .OnEvent(variantApplied));
GameEvents.onEditorVariantApplied.Add(editorApplied = new EventData <Part, PartVariant> .OnEvent(editorVariantApplied));
GameEvents.onEditorDefaultVariantChanged.Add(editorDefaultApplied = new EventData <AvailablePart, PartVariant> .OnEvent(editorDefaultVariantApplied));
}
//application of the initial/default texture set should be handled by onVariantApplied being called when the base variant is applied?
//.... but apparently is not
//so find the last used or default set and apply it
TextureSet set = null;
//check 'last used set' names
if (string.IsNullOrEmpty(textureSet) && string.IsNullOrEmpty(modelShaderSet))
{
//if both are empty, module is uninitialized; query part for base variant, find extra-info, and find texture set from there
set = getSet(part.baseVariant);
}
else
{
//else module previously had a texture set used, restore the texture-set instance from that value
set = getSet();
}
if (set != null)
{
//TODO -- will icon shaders ever be needed here?
applyConfig(part.transform.FindRecursive("model"), set, false, false);
}
else
{
MonoBehaviour.print("ERROR: TUPartVariant could not locate default or stored texture set data");
}
}
/// <summary>
/// Applies this texture set to the input root transform, using the specified inclusions/exclusions from config.
/// Does not update any recoloring data. Must also call 'applyRecoloring' in order to update recoloring properties.
/// </summary>
/// <param name="root"></param>
/// <param name="userColors"></param>
public void enable(Transform root)
{
bool updateMode = string.Equals(mode, "update", StringComparison.CurrentCultureIgnoreCase);
Transform[] trs = TextureSet.findApplicableTransforms(root, meshNames, excludedMeshes);
int len = trs.Length;
Renderer render;
if (updateMode)
{
Material material;
for (int i = 0; i < len; i++)
{
render = trs[i].GetComponent <Renderer>();
if (render != null)
{
material = render.material;
apply(material);
render.material = material;
}
}
}
else//create mode - creates new materials for renders to use, applying only those properties specified in the texture set, with optional inheritance of properties from the old material
{
Material newMaterial = createMaterial();//create a new material for this TSMD
Material origMaterial = null;
for (int i = 0; i < len; i++)
{
render = trs[i].GetComponent <Renderer>();
if (render != null)
{
//only inherit properties a single time, from the first render/transform/material found
if (origMaterial == null)
{
origMaterial = render.sharedMaterial;
inheritProperties(newMaterial, origMaterial);
}
render.sharedMaterial = newMaterial;
}
}
}
}
/// <summary>
/// Restores texture set data and either loads default texture set or saved texture set (if any)
/// </summary>
private void initialize()
{
if (textureSets != null)
{
//already initialized from OnLoad (prefab, some in-editor parts)
return;
}
ConfigNode node = Utils.parseConfigNode(configNodeData);
string[] setNames = node.GetStringValues("textureSet", false);
string modelShaderName = node.GetStringValue("modelShader");
List <TextureSet> allSets = new List <TextureSet>();
if (!string.IsNullOrEmpty(modelShaderName))
{
TextureSet set = TexturesUnlimitedLoader.getModelShaderTextureSet(modelShaderName);
if (set != null)
{
allSets.Add(set);
}
}
TextureSet[] sets = TexturesUnlimitedLoader.getTextureSets(setNames);
for (int i = 0; i < sets.Length; i++)
{
allSets.Add(sets[i]);
}
ConfigNode[] fullNodeSets = node.GetNodes("KSP_TEXTURE_SET");
for (int i = 0; i < fullNodeSets.Length; i++)
{
allSets.Add(new TextureSet(fullNodeSets[i], "create"));
}
textureSets = new TextureSetContainer(this, Fields[nameof(currentTextureSet)], Fields[nameof(persistentData)], allSets);
if (string.IsNullOrEmpty(currentTextureSet))
{
currentTextureSet = allSets[0].name;
}
this.updateUIChooseOptionControl(nameof(currentTextureSet), textureSets.getTextureSetNames(), textureSets.getTextureSetTitles(), true, currentTextureSet);
textureSets.enableCurrentSet(getModelTransforms(), false);
Fields[nameof(currentTextureSet)].guiName = sectionName;
}
private static void loadTextureSets()
{
loadedTextureSets.Clear();
ConfigNode[] setNodes = GameDatabase.Instance.GetConfigNodes("KSP_TEXTURE_SET");
TextureSet[] sets = TextureSet.parse(setNodes, "create");
int len = sets.Length;
for (int i = 0; i < len; i++)
{
if (loadedTextureSets.ContainsKey(sets[i].name))
{
Log.exception("ERROR: Duplicate texture set definition found for name: " + sets[i].name +
" This is a major configuration error that should be corrected. Correct operation cannot be ensured.");
}
else
{
loadedTextureSets.Add(sets[i].name, sets[i]);
}
}
}
public SectionRecolorData(IRecolorable owner, string name, RecoloringData[] colors, TextureSet set)
{
this.owner = owner;
this.sectionName = name;
this.colors = colors;
this.sectionTexture = set;
if (colors == null)
{
//owners may return null for set and/or colors if recoloring is unsupported
set = sectionTexture = null;
}
//MonoBehaviour.print("Created section recolor data with texture set: " + set+" for section: "+name);
if (set != null)
{
//MonoBehaviour.print("Set name: " + set.name + " :: " + set.title + " recolorable: " + set.supportsRecoloring);
}
else
{
MonoBehaviour.print("Set was null");
}
}
private void editorVariantApplied(Part part, PartVariant variant)
{
if (part != this.part)
{
return;
}
bool resetColors = variant.Name != variantName;
variantName = variant.Name;
MonoBehaviour.print("EditorVariant applied: " + variant.Name);
TextureSet set = getSet(variant);
if (set != null)
{
applyConfig(part.transform.FindRecursive("model"), set, resetColors);
}
else
{
MonoBehaviour.print("ERROR: Set was null for variant: " + variant.Name);
}
}
private TextureSet getSet()
{
TextureSet set = null;
if (!string.IsNullOrEmpty(textureSet) && (set = TexturesUnlimitedLoader.getTextureSet(textureSet)) != null)
{
modelShaderSet = string.Empty;
return(set);
}
else if (!string.IsNullOrEmpty(modelShaderSet) && (set = TexturesUnlimitedLoader.getModelShaderTextureSet(modelShaderSet)) != null)
{
textureSet = string.Empty;
return(set);
}
else if ((set = getSet(part.baseVariant)) != null)
{
return(set);
}
//if nothing found, clear out references
modelShaderSet = textureSet = string.Empty;
return(null);
}
public void enableCurrentSet(Transform[] roots)
{
TextureSet set = Array.Find(textureSets, m => m.name == currentTextureSet);
if (set == null)
{
MonoBehaviour.print("ERROR: KSPTextureSwitch could not locate texture set for name: " + currentTextureSet);
}
if (customColors == null || customColors.Length == 0)
{
customColors = new RecoloringData[3];
customColors[0] = set.maskColors[0];
customColors[1] = set.maskColors[1];
customColors[2] = set.maskColors[2];
}
int len = roots.Length;
for (int i = 0; i < len; i++)
{
set.enable(roots[i].gameObject, customColors);
}
saveColors(customColors);
}
/// <summary>
/// Apply the current texture to the input transforms. The texture sets include/exclude settings will be used to determine what children of the input transforms should be adjusted.
/// </summary>
/// <param name="roots"></param>
public void enableCurrentSet(Transform[] roots, bool userInput)
{
TextureSet set = currentTextureSet;
if (set == null)
{
return;
}
if (userInput || customColors == null || customColors.Length == 0)
{
customColors = new RecoloringData[3];
customColors[0] = set.maskColors[0];
customColors[1] = set.maskColors[1];
customColors[2] = set.maskColors[2];
}
int len = roots.Length;
for (int i = 0; i < len; i++)
{
set.enable(roots[i], customColors);
}
saveColors(customColors);
}
public void applyRecoloring(Material mat, RecoloringData[] userColors)
{
TextureSet.updateMaterialProperties(mat, TextureSet.getRecolorProperties(userColors, shaderProperties));
}
/// <summary>
/// Update the current recoloring data for this texture set. Does not adjust any other material properties.
/// </summary>
/// <param name="mat"></param>
/// <param name="userColors"></param>
public void applyRecoloring(Transform root, RecoloringData[] userColors)
{
TextureSet.updateMaterialProperties(root, meshNames, excludedMeshes, TextureSet.getRecolorProperties(userColors, shaderProperties));
}
/// <summary>
/// Apply the current recoloring selections to the input transform. Does not recreate material, but simply applies the properties to the current material.
/// </summary>
/// <param name="root"></param>
/// <param name="userColors"></param>
public void applyRecoloring(Transform root, RecoloringData[] userColors)
{
TextureSet set = currentTextureSet;
set.applyRecoloring(root, userColors);
}
