private void GetFaceIndicesByOneFaceLine(DataSet.FaceIndices[] faces, string[] p, bool isFaceIndexPlus)
{
if (isFaceIndexPlus)
{
for (int j = 1; j < p.Length; j++)
{
string[] c = p[j].Trim().Split("/".ToCharArray());
DataSet.FaceIndices fi = new DataSet.FaceIndices();
// vertex
int vi = int.Parse(c[0]);
fi.vertIdx = vi - 1;
// uv
if (c.Length > 1 && c[1] != "")
{
int vu = int.Parse(c[1]);
fi.uvIdx = vu - 1;
}
// normal
if (c.Length > 2 && c[2] != "")
{
int vn = int.Parse(c[2]);
fi.normIdx = vn - 1;
}
else
{
fi.normIdx = -1;
}
faces[j - 1] = fi;
}
}
else
{ // for minus index
int vertexCount = dataSet.vertList.Count;
int uvCount = dataSet.uvList.Count;
for (int j = 1; j < p.Length; j++)
{
string[] c = p[j].Trim().Split("/".ToCharArray());
DataSet.FaceIndices fi = new DataSet.FaceIndices();
// vertex
int vi = int.Parse(c[0]);
fi.vertIdx = vertexCount + vi;
// uv
if (c.Length > 1 && c[1] != "")
{
int vu = int.Parse(c[1]);
fi.uvIdx = uvCount + vu;
}
// normal
if (c.Length > 2 && c[2] != "")
{
int vn = int.Parse(c[2]);
fi.normIdx = vertexCount + vn;
}
else
{
fi.normIdx = -1;
}
faces[j - 1] = fi;
}
}
}
/// <summary>
/// Parse the OBJ file to extract geometry data.
/// </summary>
/// <param name="objDataText">OBJ file text</param>
/// <returns>Execution is splitted into steps to not freeze the caller method.</returns>
protected IEnumerator ParseGeometryData(string objDataText)
{
string[] lines = objDataText.Split("\n".ToCharArray());
bool isFirstInGroup = true;
bool isFaceIndexPlus = true;
objLoadingProgress.message = "Parsing geometry data...";
// store separators, used multiple times
char[] separators = new char[] { ' ', '\t' };
for (int i = 0; i < lines.Length; i++)
{
// update progress only sometimes
if (i % 7000 == 0)
{
objLoadingProgress.percentage = LOAD_PHASE_PERC * i / lines.Length;
yield return(null);
}
string line = lines[i].Trim();
if (line.Length > 0 && line[0] == '#')
{ // comment line
continue;
}
string[] p = line.Split(separators, StringSplitOptions.RemoveEmptyEntries);
if (p.Length == 0)
{ // empty line
continue;
}
string parameters = null;
if (line.Length > p[0].Length)
{
parameters = line.Substring(p[0].Length + 1).Trim();
}
switch (p[0])
{
case "o":
dataSet.AddObject(parameters);
isFirstInGroup = true;
break;
case "g":
isFirstInGroup = true;
dataSet.AddGroup(parameters);
break;
case "v":
dataSet.AddVertex(ConvertVec3(ParseFloat(p[1]), ParseFloat(p[2]), ParseFloat(p[3])));
if (p.Length >= 7)
{
// 7 for "v x y z r g b"
// 8 for "v x y z r g b w"
// w is the weight required for rational curves and surfaces. It is
// not required for non - rational curves and surfaces.If you do not
// specify a value for w, the default is 1.0. [http://paulbourke.net/dataformats/obj/]
dataSet.AddColor(new Color(ParseFloat(p[4]), ParseFloat(p[5]), ParseFloat(p[6]), 1f));
}
break;
case "vt":
dataSet.AddUV(new Vector2(ParseFloat(p[1]), ParseFloat(p[2])));
break;
case "vn":
dataSet.AddNormal(ConvertVec3(ParseFloat(p[1]), ParseFloat(p[2]), ParseFloat(p[3])));
break;
case "f":
{
int numVerts = p.Length - 1;
DataSet.FaceIndices[] face = new DataSet.FaceIndices[numVerts];
if (isFirstInGroup)
{
isFirstInGroup = false;
string[] c = p[1].Trim().Split("/".ToCharArray());
isFaceIndexPlus = (int.Parse(c[0]) >= 0);
}
GetFaceIndicesByOneFaceLine(face, p, isFaceIndexPlus);
if (numVerts == 3)
{
dataSet.AddFaceIndices(face[0]);
dataSet.AddFaceIndices(face[2]);
dataSet.AddFaceIndices(face[1]);
}
else
{
// Triangulate the polygon
// TODO: Texturing and lighting work better with a triangulation that maximizes triangles areas.
// TODO: the following true must be replaced to a proper option (disabled by default) as soon as a proper triangulation method is implemented.
Triangulator.Triangulate(dataSet, face);
// TODO: Maybe triangulation could be done in ObjectImporter instead.
}
}
break;
case "mtllib":
if (!string.IsNullOrEmpty(parameters))
{
if (buildOptions.importMaterial)
{
mtlLib = parameters;
}
}
break;
case "usemtl":
if (!string.IsNullOrEmpty(parameters))
{
dataSet.AddMaterialName(DataSet.FixMaterialName(parameters));
}
break;
}
}
objLoadingProgress.percentage = LOAD_PHASE_PERC;
//dataSet.PrintSummary();
}
/// <summary>
/// Parse the OBJ file to extract geometry data.
/// </summary>
/// <param name="objDataText">OBJ file text</param>
/// <returns>Execution is splitted into steps to not freeze the caller method.</returns>
protected IEnumerator ParseGeometryData(string objDataText)
{
yield return(null);
string[] lines = objDataText.Split("\n".ToCharArray());
bool isFirstInGroup = true;
bool isFaceIndexPlus = true;
objLoadingProgress.message = "Parsing geometry data...";
// store separators, used multiple times
char[] separators = new char[] { ' ', '\t' };
for (int i = 0; i < lines.Length; i++)
{
string line = lines[i].Trim();
if (line.Length > 0 && line[0] == '#')
{ // comment line
continue;
}
string[] p = line.Split(separators, StringSplitOptions.RemoveEmptyEntries);
if (p.Length == 0)
{ // empty line
continue;
}
string parameters = null;
if (line.Length > p[0].Length)
{
parameters = line.Substring(p[0].Length + 1).Trim();
}
switch (p[0])
{
case "o":
dataSet.AddObject(parameters);
isFirstInGroup = true;
break;
case "g":
isFirstInGroup = true;
dataSet.AddGroup(parameters);
break;
case "v":
dataSet.AddVertex(ConvertVec3(ParseFloat(p[1]), ParseFloat(p[2]), ParseFloat(p[3])));
if (p.Length >= 7)
{
// 7 for "v x y z r g b"
// 8 for "v x y z r g b w"
// w is the weight required for rational curves and surfaces. It is
// not required for non - rational curves and surfaces.If you do not
// specify a value for w, the default is 1.0. [http://paulbourke.net/dataformats/obj/]
dataSet.AddColor(new Color(ParseFloat(p[4]), ParseFloat(p[5]), ParseFloat(p[6]), 1f));
}
break;
case "vt":
dataSet.AddUV(new Vector2(ParseFloat(p[1]), ParseFloat(p[2])));
break;
case "vn":
dataSet.AddNormal(ConvertVec3(ParseFloat(p[1]), ParseFloat(p[2]), ParseFloat(p[3])));
break;
case "f":
{
int numVerts = p.Length - 1;
DataSet.FaceIndices[] faces = new DataSet.FaceIndices[numVerts];
if (isFirstInGroup)
{
isFirstInGroup = false;
string[] c = p[1].Trim().Split("/".ToCharArray());
isFaceIndexPlus = (int.Parse(c[0]) >= 0);
}
GetFaceIndicesByOneFaceLine(faces, p, isFaceIndexPlus);
if (numVerts == 3)
{
dataSet.AddFaceIndices(faces[0]);
dataSet.AddFaceIndices(faces[2]);
dataSet.AddFaceIndices(faces[1]);
}
else if (numVerts == 4)
{
dataSet.AddFaceIndices(faces[0]);
dataSet.AddFaceIndices(faces[3]);
dataSet.AddFaceIndices(faces[1]);
dataSet.AddFaceIndices(faces[3]);
dataSet.AddFaceIndices(faces[2]);
dataSet.AddFaceIndices(faces[1]);
}
else
{
Debug.LogWarning("face vertex count :" + (p.Length - 1) + " larger than 4");
// TODO: support for faces with more than 4 vertices
}
}
break;
case "mtllib":
if (!string.IsNullOrEmpty(parameters))
{
mtlLib = parameters;
}
break;
case "usemtl":
if (!string.IsNullOrEmpty(parameters))
{
dataSet.AddMaterialName(DataSet.FixMaterialName(parameters));
}
break;
}
// update progress only sometimes
if (i % 7000 == 0)
{
objLoadingProgress.percentage = LOAD_PHASE_PERC * i / lines.Length;
yield return(null);
}
}
objLoadingProgress.percentage = LOAD_PHASE_PERC;
//dataSet.PrintSummary();
}
private GameObject ImportSubObject(GameObject parentObj, DataSet.ObjectData objData, Dictionary <string, Material> mats)
{
bool conv2sided = buildOptions != null && buildOptions.convertToDoubleSided;
GameObject go = new GameObject();
go.name = objData.name;
int count = 0;
if (parentObj.transform)
{
while (parentObj.transform.Find(go.name))
{
count++;
go.name = objData.name + count;
}
}
go.transform.SetParent(parentObj.transform, false);
if (objData.allFaces.Count == 0)
{
Debug.LogWarning("Sub object: " + objData.name + " has no face defined. Creating empty game object.");
return(go);
}
//Debug.Log( "Importing sub object:" + objData.Name );
// count vertices needed for all the faces and map face indices to new vertices
Dictionary <string, int> vIdxCount = new Dictionary <string, int>();
int vcount = 0;
foreach (DataSet.FaceIndices fi in objData.allFaces)
{
string key = DataSet.GetFaceIndicesKey(fi);
int idx;
// avoid duplicates
if (!vIdxCount.TryGetValue(key, out idx))
{
vIdxCount.Add(key, vcount);
vcount++;
}
}
int arraySize = conv2sided ? vcount * 2 : vcount;
Vector3[] newVertices = new Vector3[arraySize];
Vector2[] newUVs = new Vector2[arraySize];
Vector3[] newNormals = new Vector3[arraySize];
Color32[] newColors = new Color32[arraySize];
bool hasColors = currDataSet.colorList.Count > 0;
foreach (DataSet.FaceIndices fi in objData.allFaces)
{
string key = DataSet.GetFaceIndicesKey(fi);
int k = vIdxCount[key];
newVertices[k] = currDataSet.vertList[fi.vertIdx];
if (conv2sided)
{
newVertices[vcount + k] = newVertices[k];
}
if (hasColors)
{
newColors[k] = currDataSet.colorList[fi.vertIdx];
if (conv2sided)
{
newColors[vcount + k] = newColors[k];
}
}
if (currDataSet.uvList.Count > 0)
{
newUVs[k] = currDataSet.uvList[fi.uvIdx];
if (conv2sided)
{
newUVs[vcount + k] = newUVs[k];
}
}
if (currDataSet.normalList.Count > 0 && fi.normIdx >= 0)
{
newNormals[k] = currDataSet.normalList[fi.normIdx];
if (conv2sided)
{
newNormals[vcount + k] = -newNormals[k];
}
}
}
bool objectHasNormals = (currDataSet.normalList.Count > 0 && objData.hasNormals);
bool objectHasColors = (currDataSet.colorList.Count > 0 && objData.hasColors);
bool objectHasUVs = (currDataSet.uvList.Count > 0);
int n = objData.faceGroups[0].faces.Count;
int numIndices = conv2sided ? n * 2 : n;
MeshFilter meshFilter = go.AddComponent <MeshFilter>();
go.AddComponent <MeshRenderer>();
Mesh mesh = new Mesh();
#if UNITY_2017_3_OR_NEWER
if (Using32bitIndices())
{
if (arraySize > MAX_VERT_COUNT || numIndices > MAX_INDICES_LIMIT_FOR_A_MESH)
{
mesh.indexFormat = UnityEngine.Rendering.IndexFormat.UInt32;
}
}
#endif
mesh.name = go.name;
meshFilter.sharedMesh = mesh;
mesh.vertices = newVertices;
if (objectHasUVs)
{
mesh.uv = newUVs;
}
if (objectHasNormals)
{
mesh.normals = newNormals;
}
if (objectHasColors)
{
mesh.colors32 = newColors;
}
Material material;
string matName = (objData.faceGroups[0].materialName != null) ? objData.faceGroups[0].materialName : "default";
Renderer renderer = go.GetComponent <Renderer>();
if (mats.ContainsKey(matName))
{
material = mats[matName];
renderer.sharedMaterial = material;
#if UNITY_5_6_OR_NEWER
RendererExtensions.UpdateGIMaterials(renderer);
#else
DynamicGI.UpdateMaterials(renderer);
#endif
}
else
{
if (mats.ContainsKey("default"))
{
material = mats["default"];
renderer.sharedMaterial = material;
Debug.LogWarning("Material: " + matName + " not found. Using the default material.");
}
else
{
Debug.LogError("Material: " + matName + " not found.");
}
}
int[] indices = new int[numIndices];
for (int s = 0; s < n; s++)
{
DataSet.FaceIndices fi = objData.faceGroups[0].faces[s];
string key = DataSet.GetFaceIndicesKey(fi);
indices[s] = vIdxCount[key];
}
if (conv2sided)
{
for (int s = 0; s < n; s++)
{
indices[s + n] = vcount + indices[s / 3 * 3 + 2 - s % 3];
}
}
mesh.SetTriangles(indices, 0);
if (!objectHasNormals)
{
mesh.RecalculateNormals();
}
if (objectHasUVs)
{
Solve(mesh);
}
if (buildOptions != null && buildOptions.buildColliders)
{
BuildMeshCollider(go, buildOptions.colliderConvex, buildOptions.colliderTrigger, buildOptions.colliderInflate, buildOptions.colliderSkinWidth);
}
return(go);
}
/// <summary>
/// Build an object once at a time, to be reiterated until false is returned.
/// </summary>
/// <param name="parentObj">Game object to which the new objects will be attached</param>
/// <param name="mats">Materials from the previously loaded library</param>
/// <returns>Return true until no more objects can be added, then false.</returns>
protected bool BuildNextObject(GameObject parentObj, Dictionary <string, Material> mats)
{
// if all the objects were built stop here
if (buildStatus.objCount >= currDataSet.objectList.Count)
{
return(false);
}
// get the next object in the list
DataSet.ObjectData objData = currDataSet.objectList[buildStatus.objCount];
if (buildStatus.newObject)
{
if (buildStatus.objCount == 0 && objData.name == "default")
{
buildStatus.currObjGameObject = parentObj;
}
else
{
buildStatus.currObjGameObject = new GameObject();
buildStatus.currObjGameObject.transform.parent = parentObj.transform;
buildStatus.currObjGameObject.name = objData.name;
// restore the scale if the parent was rescaled
buildStatus.currObjGameObject.transform.localScale = Vector3.one;
}
buildStatus.subObjParent = buildStatus.currObjGameObject;
//if (od.Name != "default") go.name = od.Name;
//Debug.Log("Object: " + objData.name);
buildStatus.newObject = false;
buildStatus.subObjCount = 0;
buildStatus.idxCount = 0;
buildStatus.grpIdx = 0;
buildStatus.grpFaceIdx = 0;
buildStatus.meshPartIdx = 0;
buildStatus.totFaceIdxCount = 0;
buildStatus.numGroups = Mathf.Max(1, objData.faceGroups.Count);
}
bool splitLargeMeshes = true;
#if UNITY_2017_3_OR_NEWER
// GPU support for 32 bit indices is not guaranteed on all platforms;
// for example Android devices with Mali-400 GPU do not support them.
// This check is performed in Using32bitIndices().
// If nothing is rendered on your device problably Using32bitIndices() must be updated.
if (Using32bitIndices())
{
splitLargeMeshes = false;
}
#endif
bool splitGrp = false;
DataSet.FaceGroupData grp = new DataSet.FaceGroupData();
grp.name = objData.faceGroups[buildStatus.grpIdx].name;
grp.materialName = objData.faceGroups[buildStatus.grpIdx].materialName;
// data for sub-object
DataSet.ObjectData subObjData = new DataSet.ObjectData();
subObjData.hasNormals = objData.hasNormals;
subObjData.hasColors = objData.hasColors;
HashSet <int> vertIdxSet = new HashSet <int>();
bool conv2sided = buildOptions != null && buildOptions.convertToDoubleSided;
int maxIdx4mesh = conv2sided ? MAX_INDICES_LIMIT_FOR_A_MESH / 2 : MAX_INDICES_LIMIT_FOR_A_MESH;
// copy blocks of face indices to each sub-object data
for (int f = buildStatus.grpFaceIdx; f < objData.faceGroups[buildStatus.grpIdx].faces.Count; f++)
{
// if large meshed must be split and
// if passed the max num of vertices and not at the last iteration
if (splitLargeMeshes && (vertIdxSet.Count / 3 > MAX_VERT_COUNT / 3 || subObjData.allFaces.Count / 3 > maxIdx4mesh / 3))
{
// split the group across more objects
splitGrp = true;
buildStatus.grpFaceIdx = f;
Debug.LogWarningFormat("Maximum vertex number for a mesh exceeded.\nSplitting object {0} (group {1}, starting from index {2})...", grp.name, buildStatus.grpIdx, f);
break;
}
DataSet.FaceIndices fi = objData.faceGroups[buildStatus.grpIdx].faces[f];
subObjData.allFaces.Add(fi);
grp.faces.Add(fi);
vertIdxSet.Add(fi.vertIdx);
}
if (splitGrp || buildStatus.meshPartIdx > 0)
{
buildStatus.meshPartIdx++;
}
// create an empty (group) object in case the group has been splitted
if (buildStatus.meshPartIdx == 1)
{
GameObject grpObj = new GameObject();
grpObj.transform.SetParent(buildStatus.currObjGameObject.transform, false);
grpObj.name = grp.name;
buildStatus.subObjParent = grpObj;
}
// add a suffix to the group name in case the group has been splitted
if (buildStatus.meshPartIdx > 0)
{
grp.name = buildStatus.subObjParent.name + "_MeshPart" + buildStatus.meshPartIdx;
}
subObjData.name = grp.name;
// add the group to the sub object data
subObjData.faceGroups.Add(grp);
// update the start index
buildStatus.idxCount += subObjData.allFaces.Count;
if (!splitGrp)
{
buildStatus.grpFaceIdx = 0;
buildStatus.grpIdx++;
}
buildStatus.totFaceIdxCount += subObjData.allFaces.Count;
GameObject subobj = ImportSubObject(buildStatus.subObjParent, subObjData, mats);
if (subobj == null)
{
Debug.LogWarningFormat("Error loading sub object n.{0}.", buildStatus.subObjCount);
}
//else Debug.LogFormat( "Imported face indices: {0} to {1}", buildStatus.totFaceIdxCount - sub_od.AllFaces.Count, buildStatus.totFaceIdxCount );
buildStatus.subObjCount++;
if (buildStatus.totFaceIdxCount >= objData.allFaces.Count || buildStatus.grpIdx >= objData.faceGroups.Count)
{
if (buildStatus.totFaceIdxCount != objData.allFaces.Count)
{
Debug.LogWarningFormat("Imported face indices: {0} of {1}", buildStatus.totFaceIdxCount, objData.allFaces.Count);
return(false);
}
buildStatus.objCount++;
buildStatus.newObject = true;
}
return(true);
}
private GameObject ImportSubObject(GameObject parentObj, DataSet.ObjectData objData, Dictionary <string, Material> mats)
{
bool conv2sided = buildOptions != null && buildOptions.convertToDoubleSided;
GameObject go = new GameObject();
go.name = objData.name;
int count = 0;
if (parentObj.transform)
{
while (parentObj.transform.FindChild(go.name))
{
count++;
go.name = objData.name + count;
}
}
go.transform.SetParent(parentObj.transform, false);
//Debug.Log( "Importing sub object:" + objData.Name );
// count vertices needed for all the faces and map face indices to new vertices
Dictionary <string, int> vIdxCount = new Dictionary <string, int>();
int vcount = 0;
foreach (DataSet.FaceIndices fi in objData.allFaces)
{
string key = DataSet.GetFaceIndicesKey(fi);
int idx;
// avoid duplicates
if (!vIdxCount.TryGetValue(key, out idx))
{
vIdxCount.Add(key, vcount);
vcount++;
}
}
int arraySize = conv2sided ? vcount * 2 : vcount;
Vector3[] newVertices = new Vector3[arraySize];
Vector2[] newUVs = new Vector2[arraySize];
Vector3[] newNormals = new Vector3[arraySize];
Color32[] newColors = new Color32[arraySize];
bool hasColors = currDataSet.colorList.Count > 0;
foreach (DataSet.FaceIndices fi in objData.allFaces)
{
string key = DataSet.GetFaceIndicesKey(fi);
int k = vIdxCount[key];
newVertices[k] = currDataSet.vertList[fi.vertIdx];
if (conv2sided)
{
newVertices[vcount + k] = newVertices[k];
}
if (hasColors)
{
newColors[k] = currDataSet.colorList[fi.vertIdx];
if (conv2sided)
{
newColors[vcount + k] = newColors[k];
}
}
if (currDataSet.uvList.Count > 0)
{
newUVs[k] = currDataSet.uvList[fi.uvIdx];
if (conv2sided)
{
newUVs[vcount + k] = newUVs[k];
}
}
if (currDataSet.normalList.Count > 0 && fi.normIdx >= 0)
{
newNormals[k] = currDataSet.normalList[fi.normIdx];
if (conv2sided)
{
newNormals[vcount + k] = -newNormals[k];
}
}
}
MeshFilter meshFilter = go.AddComponent <MeshFilter>();
go.AddComponent <MeshRenderer>();
Mesh mesh = new Mesh();
mesh.name = go.name;
meshFilter.sharedMesh = mesh;
mesh.vertices = newVertices;
if (currDataSet.uvList.Count > 0)
{
mesh.uv = newUVs;
}
bool objectHasNormals = (currDataSet.normalList.Count > 0 && objData.hasNormals);
if (objectHasNormals)
{
mesh.normals = newNormals;
}
bool objectHasColors = (currDataSet.colorList.Count > 0 && objData.hasColors);
if (objectHasColors)
{
mesh.colors32 = newColors;
}
Material material;
int n = objData.faceGroups[0].faces.Count;
string matName = (objData.faceGroups[0].materialName != null) ? objData.faceGroups[0].materialName : "default";
if (mats.ContainsKey(matName))
{
material = mats[matName];
go.GetComponent <Renderer>().sharedMaterial = material;
DynamicGI.UpdateMaterials(go.GetComponent <Renderer>());
}
else
{
Debug.LogWarning("ImportSubObject mat:" + matName + " not found.");
}
int[] indices = new int[conv2sided ? n * 2 : n];
for (int s = 0; s < n; s++)
{
DataSet.FaceIndices fi = objData.faceGroups[0].faces[s];
string key = DataSet.GetFaceIndicesKey(fi);
indices[s] = vIdxCount[key];
}
if (conv2sided)
{
for (int s = 0; s < n; s++)
{
indices[s + n] = vcount + indices[s / 3 * 3 + 2 - s % 3];
}
}
mesh.SetTriangles(indices, 0);
if (!objectHasNormals)
{
mesh.RecalculateNormals();
}
Solve(mesh);
if (buildOptions != null && buildOptions.buildColliders)
{
BuildMeshCollider(go, buildOptions.colliderConvex, buildOptions.colliderTrigger, buildOptions.colliderInflate, buildOptions.colliderSkinWidth);
}
return(go);
}
/// <summary>
/// Build an object once at a time, to be reiterated until false is returned.
/// </summary>
/// <param name="parentObj">Game object to which the new objects will be attached</param>
/// <param name="mats">Materials from the previously loaded library</param>
/// <returns>Return true until no more objects can be added, then false.</returns>
protected bool BuildNextObject(GameObject parentObj, Dictionary <string, Material> mats)
{
if (buildStatus.objCount >= currDataSet.objectList.Count)
{
return(false);
}
DataSet.ObjectData objData = currDataSet.objectList[buildStatus.objCount];
if (buildStatus.newObject)
{
if (buildStatus.objCount == 0 && objData.name == "default")
{
buildStatus.currObjGameObject = parentObj;
}
else
{
buildStatus.currObjGameObject = new GameObject();
buildStatus.currObjGameObject.transform.parent = parentObj.transform;
buildStatus.currObjGameObject.name = objData.name;
// restore the scale if the parent was rescaled
buildStatus.currObjGameObject.transform.localScale = Vector3.one;
}
buildStatus.subObjParent = buildStatus.currObjGameObject;
//if (od.Name != "default") go.name = od.Name;
//Debug.Log("Object: " + objData.name);
buildStatus.newObject = false;
buildStatus.subObjCount = 0;
buildStatus.idxCount = 0;
buildStatus.grpIdx = 0;
buildStatus.grpFaceIdx = 0;
buildStatus.meshPartIdx = 0;
buildStatus.totFaceIdxCount = 0;
buildStatus.numGroups = Mathf.Max(1, objData.faceGroups.Count);
}
// data for sub-object
DataSet.ObjectData subObjData = new DataSet.ObjectData();
subObjData.hasNormals = objData.hasNormals;
HashSet <int> vertIdxSet = new HashSet <int>();
bool splitGrp = false;
DataSet.FaceGroupData grp = new DataSet.FaceGroupData();
grp.name = objData.faceGroups[buildStatus.grpIdx].name;
grp.materialName = objData.faceGroups[buildStatus.grpIdx].materialName;
// copy blocks of face indices to each sub-object data
for (int f = buildStatus.grpFaceIdx; f < objData.faceGroups[buildStatus.grpIdx].faces.Count; f++)
{
// if passed the max num of vertices and not at the last iteration
if (vertIdxSet.Count / 3 > MAX_VERT_COUNT / 3 || subObjData.allFaces.Count / 3 > MAX_INDICES_LIMIT_FOR_A_MESH / 3)
{
// split the group across more objects
splitGrp = true;
buildStatus.grpFaceIdx = f;
Debug.LogWarningFormat("Maximum vertex number for a mesh exceeded.\nSplitting object {0} ({1}th group, starting from index {2})...", grp.name, buildStatus.grpIdx, f);
break;
}
DataSet.FaceIndices fi = objData.faceGroups[buildStatus.grpIdx].faces[f];
subObjData.allFaces.Add(fi);
grp.faces.Add(fi);
vertIdxSet.Add(fi.vertIdx);
}
if (splitGrp || buildStatus.meshPartIdx > 0)
{
buildStatus.meshPartIdx++;
}
// create an empty (group) object in case the group has been splitted
if (buildStatus.meshPartIdx == 1)
{
GameObject grpObj = new GameObject();
grpObj.transform.SetParent(buildStatus.currObjGameObject.transform, false);
grpObj.name = grp.name;
buildStatus.subObjParent = grpObj;
}
// add a suffix to the group name in case the group has been splitted
if (buildStatus.meshPartIdx > 0)
{
grp.name = buildStatus.subObjParent.name + "_MeshPart" + buildStatus.meshPartIdx;
}
subObjData.name = grp.name;
// add the group to the sub object data
subObjData.faceGroups.Add(grp);
// update the start index
buildStatus.idxCount += subObjData.allFaces.Count;
if (!splitGrp)
{
buildStatus.grpFaceIdx = 0;
buildStatus.grpIdx++;
}
buildStatus.totFaceIdxCount += subObjData.allFaces.Count;
GameObject subobj = ImportSubObject(buildStatus.subObjParent, subObjData, mats);
if (subobj == null)
{
Debug.LogWarningFormat("Error loading sub object n.{0}.", buildStatus.subObjCount);
}
//else Debug.LogFormat( "Imported face indices: {0} to {1}", buildStatus.totFaceIdxCount - sub_od.AllFaces.Count, buildStatus.totFaceIdxCount );
buildStatus.subObjCount++;
if (buildStatus.totFaceIdxCount >= objData.allFaces.Count || buildStatus.grpIdx >= objData.faceGroups.Count)
{
if (buildStatus.totFaceIdxCount != objData.allFaces.Count)
{
Debug.LogWarningFormat("Imported face indices: {0} of {1}", buildStatus.totFaceIdxCount, objData.allFaces.Count);
return(false);
}
buildStatus.objCount++;
buildStatus.newObject = true;
}
return(true);
}
