private void SetLightInfo(Transform trans, SceneInfoInEditor sceneInfo)
{
if (trans.parent == null)
{
sceneInfo.hasLight = false;
return;
}
Transform lightTrans = trans.parent.Find("RoleLight");
if (lightTrans == null)
{
sceneInfo.hasLight = false;
return;
}
Light light = lightTrans.GetComponent <Light>();
if (light == null)
{
sceneInfo.hasLight = false;
return;
}
sceneInfo.hasLight = true;
sceneInfo.lightColor = light.color;
sceneInfo.lightIntensity = light.intensity;
sceneInfo.lightPos = lightTrans.position;
sceneInfo.lightDir = lightTrans.forward;
}
private void AnalyzeCurrentScene()
{
if (SceneRoot == null)
{
SceneRoot = GameObject.FindObjectOfType <SceneRoot>().gameObject;
}
if (SceneRoot == null)
{
Debug.LogError("未选择地图的根物体");
return;
}
string[] curSceneParams = SceneRoot.name.Split('#');
if (curSceneParams.Length != 4)
{
Debug.LogError("没有选择正确命名的地图gameobject,格式:地图名#x格数_z格数_地图id");
return;
}
CurrentSceneInfo = new SceneInfoInEditor();
CurrentSceneInfo.mapName = curSceneParams[0];
int.TryParse(curSceneParams[1], out CurrentSceneInfo.xCellCount);
int.TryParse(curSceneParams[2], out CurrentSceneInfo.zCellCount);
int.TryParse(curSceneParams[3], out CurrentSceneInfo.mapId);
//计算场景大小
var currentSceneRect = GetRect(SceneRoot.transform);
float xMin = currentSceneRect.x, xMax = currentSceneRect.z, zMin = currentSceneRect.y, zMax = currentSceneRect.w;
//mapSizeInfo.UnityMin = new MyVector2(xMin, zMin);
//mapSizeInfo.UnityMax = new MyVector2(xMax, zMax);
//设置原点、划分格子
CurrentSceneInfo.originPos = new Vector2(xMin, zMin);
CurrentSceneInfo.xCellSize = (xMax - xMin) / CurrentSceneInfo.xCellCount;
CurrentSceneInfo.zCellSize = (zMax - zMin) / CurrentSceneInfo.zCellCount;
CurrentSceneInfo.skyboxMaterial = RenderSettings.skybox;
SetSceneCellObjectInfo(SceneRoot.transform, CurrentSceneInfo);
SetLightMapInfo(CurrentSceneInfo);
SetLightInfo(SceneRoot.transform, CurrentSceneInfo);
SetFogInfo(CurrentSceneInfo);
GetHeightMap(SceneRoot.transform, CurrentSceneInfo);
////创建navMesh数据
//NavMeshTriangulation navMeshTri = NavMesh.CalculateTriangulation();
//info.navMeshData = YuNavMeshDataCreate.CreateNavMeshData(navMeshTri);
SetCellEditorTab();
}
private void SetFogInfo(SceneInfoInEditor sceneInfo)
{
//场景雾
if (RenderSettings.fog)
{
sceneInfo.hasFog = true;
sceneInfo.fogColor = RenderSettings.fogColor;
sceneInfo.fogMode = (int)RenderSettings.fogMode;
sceneInfo.fogStart = RenderSettings.fogStartDistance;
sceneInfo.fogEnd = RenderSettings.fogEndDistance;
sceneInfo.fogDensity = RenderSettings.fogDensity;
}
else
{
sceneInfo.hasFog = false;
sceneInfo.fogColor = Color.white;
sceneInfo.fogMode = (int)FogMode.Linear;
sceneInfo.fogStart = 0;
sceneInfo.fogEnd = 20;
}
}
//获取高度图
private void GetHeightMap(Transform rootTrans, SceneInfoInEditor mapInfo)
{
Transform SceneHeightRoot = GameObject.Find("HeightMap").transform;
if (SceneHeightRoot == null)
{
Debug.LogError("没有高度物体");
mapInfo.ConsiderHeightMap = false;
return;
}
int count = 1024;
Texture2D heightMap = new Texture2D(count, count, TextureFormat.RG16, false, false);
float xMin = float.MaxValue;
float xMax = float.MinValue;
float yMin = float.MaxValue;
float yMax = float.MinValue;
float zMin = float.MaxValue;
float zMax = float.MinValue;
List <Transform> transList = new
List <Transform>(SceneHeightRoot.GetComponentsInChildren <Transform>());
foreach (var meshFilter in SceneHeightRoot.GetComponentsInChildren <MeshCollider>())
{
Mesh mesh = meshFilter.sharedMesh;
if (mesh == null)
{
continue;
}
Transform trans = meshFilter.transform;
foreach (var vertex in mesh.vertices)
{
Vector3 worldPos = trans.TransformPoint(vertex);
if (worldPos.x < xMin)
{
xMin = worldPos.x;
}
else if (worldPos.x > xMax)
{
xMax = worldPos.x;
}
if (worldPos.y < yMin)
{
yMin = worldPos.y;
}
else if (worldPos.y > yMax)
{
yMax = worldPos.y;
}
if (worldPos.z < zMin)
{
zMin = worldPos.z;
}
else if (worldPos.z > zMax)
{
zMax = worldPos.z;
}
}
}
foreach (var collider in SceneHeightRoot.GetComponentsInChildren <Collider>())
{
if (collider is MeshCollider)
{
continue;
}
Vector3 minPos = collider.bounds.min;
Vector3 maxPos = collider.bounds.max;
if (minPos.x < xMin)
{
xMin = minPos.x;
}
if (maxPos.x > xMax)
{
xMax = maxPos.x;
}
if (minPos.y < yMin)
{
yMin = minPos.y;
}
if (maxPos.y > yMax)
{
yMax = maxPos.y;
}
if (minPos.z < zMin)
{
zMin = minPos.z;
}
if (maxPos.z > zMax)
{
zMax = maxPos.z;
}
}
float deltaX = (xMax - xMin) / count;
float deltaZ = (zMax - zMin) / count;
float height = yMax - yMin;
if (mapInfo != null)
{
mapInfo.ConsiderHeightMap = true;
mapInfo.heightMapOriX = xMin;
mapInfo.heightMapOriZ = zMin;
mapInfo.heightMapSizeX = xMax - xMin;
mapInfo.heightMapSizeZ = zMax - zMin;
mapInfo.heightMapMinY = yMin;
mapInfo.heightMapSizeY = height;
}
bool[] isFindArr = new bool[count * count];
Color[] resetArr = new Color[count * count];
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
Vector3 pos = new Vector3(xMin + (x + 0.5f) * deltaX,
yMax + 1.0f, zMin + (z + 0.5f) * deltaZ);
heightMap.SetPixel(x, z, new Color(0, 0, 0));
RaycastHit[] hitArr = Physics.RaycastAll(pos, Vector3.down, height + 2.0f);
isFindArr[x + z * count] = false;
if (hitArr != null)
{
float maxHeight = yMin;
foreach (var hit in hitArr)
{
if (transList.Contains(hit.transform))
{
if (hit.point.y > maxHeight)
{
maxHeight = hit.point.y;
isFindArr[x + z * count] = true;
}
}
}
float heightValue = (maxHeight - yMin) / height;
ushort shortValue = (ushort)(heightValue * 65535.0f);
byte[] byteArr = BitConverter.GetBytes(shortValue);
//float rValue = (((int)(heightValue * 65536)) / 256) / 256.0f;
//float gValue = (((int)(heightValue * 65536)) % 256) / 256.0f;
heightMap.SetPixel(x, z, new Color32(byteArr[0], byteArr[1], 0, 0));
}
}
}
//没有采样到高度信息的,值设置为周围2格有高度信息的,以避免边界误差
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
if (!isFindArr[x + z * count]) //如果这个像素没获取到高度
{
Vector4 heightValue = Vector4.zero;
int findCount = 0;
for (int zNear = z - 5; zNear <= z + 5; zNear++)
{
if (zNear < 0 || zNear >= count)
{
continue;
}
for (int xNear = x - 5; xNear <= x + 5; xNear++)
{
if (xNear < 0 || xNear >= count)
{
continue;
}
if (isFindArr[xNear + zNear * count])
{
heightValue += new Vector4(heightMap.GetPixel(xNear, zNear).r,
heightMap.GetPixel(xNear, zNear).g, heightMap.GetPixel(xNear, zNear).b, 1);
findCount++;
}
}
}
if (findCount > 1)
{
heightValue = heightValue / (float)findCount;
}
resetArr[x + z * count] = heightValue;
}
}
}
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
if (!isFindArr[x + z * count] &&
resetArr[x + z * count].r > 0.001f)
{
heightMap.SetPixel(x, z, resetArr[x + z * count]);
}
}
}
}
//计算一个三角形面所在场景格子编号集合,顶点信息为世界坐标(类似光栅化算法)
private void GetCellsByTriangle(Vector3[] worldPosArr, SceneInfoInEditor mapInfo, ref List <int> cellNums)
{
if (mapInfo == null)
{
Debug.LogWarning("mapInfo为Null!");
return;
}
if (worldPosArr == null || worldPosArr.Length != 3)
{
Debug.LogWarning("传入的三角面数据错误,无数据或顶点数不是3!");
return;
}
Vector2[] worldPos2D = new Vector2[3]
{
new Vector2(worldPosArr[0].x, worldPosArr[0].z),
new Vector2(worldPosArr[1].x, worldPosArr[1].z),
new Vector2(worldPosArr[2].x, worldPosArr[2].z)
};
if (cellNums == null)
{
cellNums = new List <int>();
}
//先算出每个顶点所在格子
foreach (var worldPos in worldPos2D)
{
//算出所在xz行列,进而得出所在格子编号
int xNum = (int)((worldPos.x - mapInfo.xMin) / mapInfo.xCellSize);
int zNum = (int)((worldPos.y - mapInfo.zMin) / mapInfo.zCellSize);
//越界规范
if (xNum < 0)
{
xNum = 0;
}
else if (xNum >= mapInfo.xCellCount)
{
xNum = mapInfo.xCellCount - 1;
}
if (zNum < 0)
{
zNum = 0;
}
else if (zNum >= mapInfo.zCellCount)
{
zNum = mapInfo.zCellCount - 1;
}
int num = xNum + zNum * mapInfo.xCellCount;
if (!cellNums.Contains(num))
{
cellNums.Add(num);
}
}
//如果面片较小,则不进行后面运算
for (int i = 0; i < worldPos2D.Length; i++)
{
int j = i + 1;
if (j >= worldPos2D.Length)
{
j = 0;
}
float len = (worldPos2D[i] - worldPos2D[j]).magnitude;
if (len < Mathf.Min(mapInfo.xCellSize, mapInfo.zCellSize))
{
return;
}
}
//---通过格子边框与三角形的边是否相交计算---
List <int> otherAxis = new List <int>(); //交点列表;
//遍历行边框
for (int i = 0; i < mapInfo.zCellCount - 1; i++)
{
float zVal = mapInfo.zMin + (i + 1) * mapInfo.zCellSize;
otherAxis.Clear();
for (int j1 = 0; j1 < worldPos2D.Length; j1++)//遍历3条边,求与此边框线是否相交
{
int j2 = j1 + 1;
if (j2 >= worldPos2D.Length)
{
j2 = 0;
}
if (zVal > worldPos2D[j1].y && zVal <worldPos2D[j2].y ||
zVal> worldPos2D[j2].y && zVal < worldPos2D[j1].y)
{
float xVal = (zVal - worldPos2D[j1].y) * (worldPos2D[j2].x - worldPos2D[j1].x) /
(worldPos2D[j2].y - worldPos2D[j1].y) + worldPos2D[j1].x;
int xNum = (int)(xVal / mapInfo.xCellSize); //交点所在位置对应的格子列数
if (xNum < 0)
{
xNum = 0;
}
else if (xNum >= mapInfo.xCellCount)
{
xNum = mapInfo.xCellCount - 1;
}
if (!otherAxis.Contains(xNum))
{
otherAxis.Add(xNum);
}
}
}
if (otherAxis.Count == 0)
{
continue;
}
if (otherAxis.Count > 2)
{
Debug.LogWarning("计算错误,一条直线与三角形不可能相交于3个点");
continue;
}
int xNumMin, xNumMax;
if (otherAxis.Count == 2)
{
xNumMin = Mathf.Min(otherAxis[0], otherAxis[1]);
xNumMax = Mathf.Max(otherAxis[0], otherAxis[1]);
}
else
{
xNumMin = xNumMax = otherAxis[0];
}
for (int xNum = xNumMin; xNum <= xNumMax; xNum++)
{
//交点上下两个格子都要添加
int num = xNum + i * mapInfo.xCellCount;
if (!cellNums.Contains(num))
{
cellNums.Add(num);
}
num = xNum + (i + 1) * mapInfo.xCellCount;
if (!cellNums.Contains(num))
{
cellNums.Add(num);
}
}
}
//遍历列边框
for (int i = 0; i < mapInfo.xCellCount - 1; i++)
{
float xVal = mapInfo.xMin + (i + 1) * mapInfo.xCellSize;
otherAxis.Clear();
for (int j1 = 0; j1 < worldPos2D.Length; j1++)//遍历3条边,求与此边框线是否相交
{
int j2 = j1 + 1;
if (j2 >= worldPos2D.Length)
{
j2 = 0;
}
if (xVal > worldPos2D[j1].x && xVal <worldPos2D[j2].x ||
xVal> worldPos2D[j2].x && xVal < worldPos2D[j1].x)
{
float zVal = (xVal - worldPos2D[j1].x) * (worldPos2D[j2].y - worldPos2D[j1].y) /
(worldPos2D[j2].x - worldPos2D[j1].x) + worldPos2D[j1].y;
int zNum = (int)(zVal / mapInfo.zCellSize); //交点所在位置对应的格子行数
if (zNum < 0)
{
zNum = 0;
}
else if (zNum >= mapInfo.zCellCount)
{
zNum = mapInfo.zCellCount - 1;
}
if (!otherAxis.Contains(zNum))
{
otherAxis.Add(zNum);
}
}
}
if (otherAxis.Count == 0)
{
continue;
}
if (otherAxis.Count > 2)
{
Debug.LogWarning("计算错误,一条直线与三角形不可能相交于3个点");
continue;
}
int zNumMin, zNumMax;
if (otherAxis.Count == 2)
{
zNumMin = Mathf.Min(otherAxis[0], otherAxis[1]);
zNumMax = Mathf.Max(otherAxis[0], otherAxis[1]);
}
else
{
zNumMin = zNumMax = otherAxis[0];
}
for (int zNum = zNumMin; zNum <= zNumMax; zNum++)
{
//交点左右两个格子都要添加
int num = i + zNum * mapInfo.xCellCount;
if (!cellNums.Contains(num))
{
cellNums.Add(num);
}
num = i + 1 + zNum * mapInfo.xCellCount;
if (!cellNums.Contains(num))
{
cellNums.Add(num);
}
}
}
}
//判断一个物体对应的格子编号集合
//Todo
// 1、需要考虑子物体的mesh,
// 2、需要考虑少量顶点组成的大面片所处所有格子 (已完成,需要研究是否可以改进算法逻辑)
private List <int> GetCellIdByGameObjectMesh(GameObject obj, SceneInfoInEditor mapInfo)
{
if (obj == null || mapInfo == null)
{
return(null);
}
List <int> insideCellIdList = new List <int>();
Mesh mesh = null;
if (obj.GetComponent <MeshFilter>() != null)
{
mesh = obj.GetComponent <MeshFilter>().sharedMesh;
}
if (mesh != null)
{
//地图边界
float xMin = mapInfo.xMin;
float zMin = mapInfo.zMin;
//格子数量
int cellCount = mapInfo.xCellCount * mapInfo.zCellCount;
List <Vector3> vertexList = new List <Vector3>();
//缩放变换后的xz坐标size
Vector2 meshSize = new Vector2(mesh.bounds.size.x * obj.transform.lossyScale.x,
mesh.bounds.size.z * obj.transform.lossyScale.z);
//如果尺寸不超过一个格子的长或宽,则进行简易检测
if (true)//meshSize.magnitude <= Mathf.Min(mapInfo.xCellSize, mapInfo.zCellSize))
{
//遍历顶点
foreach (var vertex in mesh.vertices)
{
//---将顶点世界变换后存入list---
Vector3 worldPos = obj.transform.TransformPoint(vertex);
//算出所在xz行列,进而得出所在格子编号
int xNum = (int)((worldPos.x - xMin) / mapInfo.xCellSize);
int zNum = (int)((worldPos.z - zMin) / mapInfo.zCellSize);
//越界规范
if (xNum < 0)
{
xNum = 0;
}
else if (xNum >= mapInfo.xCellCount)
{
xNum = mapInfo.xCellCount - 1;
}
if (zNum < 0)
{
zNum = 0;
}
else if (zNum >= mapInfo.zCellCount)
{
zNum = mapInfo.zCellCount - 1;
}
int num = xNum + zNum * mapInfo.xCellCount;
if (!insideCellIdList.Contains(num))
{
insideCellIdList.Add(num);
}
}
}
else//如果尺寸超过一个格子的长或宽,则检测每个三角形面片所包裹的格子
{
//遍历每个顶点
foreach (var vertex in mesh.vertices)
{
//---将顶点世界变换后存入list---
Vector3 worldPos = obj.transform.TransformPoint(vertex);
vertexList.Add(worldPos);
}
//遍历每个三角形面片
for (int i = 0; i < mesh.triangles.Length / 3; i++)
{
//---算出此面所覆盖的所有格子编号---
Vector3[] verticesWorld = new Vector3[3]
{
vertexList[mesh.triangles[i * 3]],
vertexList[mesh.triangles[i * 3 + 1]],
vertexList[mesh.triangles[i * 3 + 2]]
};
GetCellsByTriangle(verticesWorld, mapInfo, ref insideCellIdList);
}
}
}
else // 如果预制物不含mesh,则视为一个点
{
//地图边界
float xMin = mapInfo.xMin;
float zMin = mapInfo.zMin;
int cellCount = mapInfo.xCellCount * mapInfo.zCellCount; //格子数
Vector3 worldPos = obj.transform.position;
//算出所在xz行列,进而得出所在格子编号
int xNum = (int)((worldPos.x - xMin) / mapInfo.xCellSize);
int zNum = (int)((worldPos.z - zMin) / mapInfo.zCellSize);
//越界规范
if (xNum < 0)
{
xNum = 0;
}
else if (xNum >= mapInfo.xCellCount)
{
xNum = mapInfo.xCellCount - 1;
}
if (zNum < 0)
{
zNum = 0;
}
else if (zNum > mapInfo.zCellCount)
{
zNum = mapInfo.zCellCount - 1;
}
int num = xNum + zNum * mapInfo.xCellCount;
if (!insideCellIdList.Contains(num))
{
insideCellIdList.Add(num);
}
}
return(insideCellIdList);
}
private void SetSceneCellObjectInfo(Transform sceneRoot, SceneInfoInEditor sceneInfo)
{
//初始化节点、预制物容器
List <SceneLayerInfo> layerList = new List <SceneLayerInfo>();
List <SceneItemInfoInEditor> prefabList = new List <SceneItemInfoInEditor>();
SceneCellInfoInEditor[] cellsInfo = new SceneCellInfoInEditor[CurrentSceneInfo.xCellCount * CurrentSceneInfo.zCellCount];
for (int i = 0; i < cellsInfo.Length; i++)
{
cellsInfo[i] = new SceneCellInfoInEditor();
cellsInfo[i].cellId = i;
cellsInfo[i].itemsNum = new List <int>();
cellsInfo[i].OnlyInThisCellItemIds = new List <int>();
}
//prefab总数
int prefabNum = 0;
TraverseHierarchy(sceneRoot.transform, (Transform trans) =>
{
UnityEngine.Object objPrefab = PrefabUtility.GetCorrespondingObjectFromSource(trans.gameObject);
if (objPrefab != null) //如果对象是有预制物的对象(objPrefab为预制物对象,谨慎使用)
{
prefabNum++;
return(true);
}
return(false);
});
int itemNum = 0;
//前序遍历所有节点,视prefab为叶
TraverseHierarchy(sceneRoot.transform, (Transform trans) =>
{
EditorUtility.DisplayProgressBar("Title", string.Format("正在构建地图分块加载数据:{0}/{1}",
itemNum, prefabNum), (float)itemNum / prefabNum);
bool isPrefab = false;
UnityEngine.Object objPrefab = PrefabUtility.GetCorrespondingObjectFromSource(trans.gameObject);
if (objPrefab != null) //如果对象是有预制物的对象(objPrefab为预制物对象,谨慎使用)
{
isPrefab = true;
string prefabPath = AssetDatabase.GetAssetPath(objPrefab);
//Todo 可能需要添加获取资源其他信息
//prefabPath = CopyFileToResources(prefabPath);
SceneItemInfoInEditor itemInfo = new SceneItemInfoInEditor();
itemInfo.parentLayer = MyMapTool.GetELaterByName(trans.parent.name, sceneRoot.name);
List <int> numList;
if (itemInfo.parentLayer == EMapLayer.Animation)
{
//如果是animation类型,则每个格子均加载
numList = new List <int>(sceneInfo.CellCount);
for (int cellNum = 0; cellNum < sceneInfo.CellCount; cellNum++)
{
numList.Add(cellNum);
}
}
else
{
numList = GetCellIdByGameObjectMesh(trans.gameObject, sceneInfo); //算出此游戏对象所在格子集合
}
if (numList != null && numList.Count > 0 && itemInfo.parentLayer != EMapLayer.None)
{
//初始化物体info
prefabList.Add(itemInfo);
itemInfo.obj = trans.gameObject;
itemInfo.pos = trans.position;
itemInfo.scale = trans.lossyScale;
itemInfo.rot = trans.eulerAngles;
itemInfo.objNum = itemNum;
itemInfo.objName = trans.name;
itemInfo.prefabName = objPrefab.name;
itemInfo.prefabAssetPath = prefabPath;
//保存Item lightmap信息
Renderer[] renders = trans.gameObject.GetComponentsInChildren <Renderer>();
if (renders.Length > 0)
{
itemInfo.lightmapIndexes = new int[renders.Length];
itemInfo.lightmapScaleOffsets = new MyVector4[renders.Length];
itemInfo.realtimeLightmapIndexes = new int[renders.Length];
itemInfo.realtimeLightmapScaleOffsets = new MyVector4[renders.Length];
for (int i = 0; i < renders.Length; i++)
{
itemInfo.lightmapIndexes[i] = renders[i].lightmapIndex;
itemInfo.lightmapScaleOffsets[i] = new MyVector4(renders[i].lightmapScaleOffset);
itemInfo.realtimeLightmapIndexes[i] = renders[i].realtimeLightmapIndex;
itemInfo.realtimeLightmapScaleOffsets[i] = new MyVector4(renders[i].realtimeLightmapScaleOffset);
}
}
if (numList.Count == 1)
{
cellsInfo[numList[0]].OnlyInThisCellItemIds.Add(itemInfo.objNum);
cellsInfo[numList[0]].itemsNum.Add(itemInfo.objNum);
}
else
{
foreach (int num in numList) //遍历对应编号的格子info,存入物体info
{
if (num >= 0 && num < cellsInfo.Length)
{
cellsInfo[num].itemsNum.Add(itemInfo.objNum);
}
}
}
itemNum++;
}
return(true);
}
else //如果对象不是预制物,则认为是层对象
{
string layerName = trans.name;
if (trans.gameObject == sceneRoot)
{
layerName = layerName.Split('#')[0];
}
SceneLayerInfo layerInfo = new SceneLayerInfo();
layerInfo.layerName = layerName;
layerInfo.pos = new MyVector3(trans.position);
layerInfo.rot = new MyVector3(trans.eulerAngles);
layerInfo.scal = new MyVector3(trans.lossyScale);
if (trans.parent != null && trans != sceneRoot.transform)
{
layerInfo.parentLayer = MyMapTool.GetELaterByName(trans.parent.name, sceneRoot.name);
}
layerList.Add(layerInfo);
}
return(isPrefab);
}
);
EditorUtility.ClearProgressBar();
CurrentSceneInfo.layers = layerList.ToArray();
CurrentSceneInfo.items = prefabList.ToArray();
CurrentSceneInfo.cells = cellsInfo;
}
private void SetLightMapInfo(SceneInfoInEditor sceneInfo)
{
if (LightmapSettings.lightmaps.Length == 0)
{
sceneInfo = null;
return;
}
//lightmap图片资源(不参与资源打包)
List <Texture2D> lmTexs = new List <Texture2D>();
List <int> dataIndex = new List <int>();
List <SceneLightInfo.ELightmapType> lmType = new List <SceneLightInfo.ELightmapType>();
for (int i = 0; i < LightmapSettings.lightmaps.Length; i++)
{
LightmapData lmdata = LightmapSettings.lightmaps[i];
if (lmdata.lightmapColor != null)
{
lmTexs.Add(lmdata.lightmapColor);
dataIndex.Add(i);
lmType.Add(SceneLightInfo.ELightmapType.color);
}
if (lmdata.lightmapDir != null)
{
lmTexs.Add(lmdata.lightmapDir);
dataIndex.Add(i);
lmType.Add(SceneLightInfo.ELightmapType.dir);
}
if (lmdata.shadowMask != null)
{
lmTexs.Add(lmdata.shadowMask);
dataIndex.Add(i);
lmType.Add(SceneLightInfo.ELightmapType.shadowmask);
}
}
string[] texNames = new string[lmTexs.Count];
string[] texPaths = new string[lmTexs.Count];
for (int i = 0; i < lmTexs.Count; i++)
{
if (lmTexs[i] != null)
{
texNames[i] = lmTexs[i].name;
texPaths[i] = AssetDatabase.GetAssetPath(lmTexs[i]);
}
else
{
texNames[i] = null;
}
}
SceneLightInfo lmInfo = new SceneLightInfo();
lmInfo.lightmapTexNames = texNames;
lmInfo.lightmapTexPath = texPaths;
lmInfo.dataIndexes = dataIndex.ToArray();
lmInfo.types = lmType.ToArray();
lmInfo.lightmapMode = LightmapSettings.lightmapsMode;
sceneInfo.lightmapInfo = lmInfo;
}
//获取高度图
private static void SaveHeightMap(Transform rootTrans, SceneInfoInEditor mapInfo, string fullPathName)
{
EditorUtility.DisplayProgressBar("提示", "正在生成高度图", 1.0f);
Transform SceneHeightRoot = GameObject.Find("HeightMap").transform;
if (SceneHeightRoot == null)
{
Debug.LogError("没有高度物体");
mapInfo.ConsiderHeightMap = false;
return;
}
int count = 1024;
Texture2D heightMap = new Texture2D(count, count, TextureFormat.RG16, false, false);
float xMin = mapInfo.heightMapOriX;
float xMax = mapInfo.heightMapSizeX + xMin;
float yMin = mapInfo.heightMapMinY;
float yMax = float.MinValue;
float zMin = mapInfo.heightMapOriZ;
float zMax = zMin + mapInfo.heightMapSizeZ;
List <Transform> transList = new
List <Transform>(SceneHeightRoot.GetComponentsInChildren <Transform>());
foreach (var meshCollider in SceneHeightRoot.GetComponentsInChildren <MeshCollider>())
{
Mesh mesh = meshCollider.sharedMesh;
if (mesh == null)
{
continue;
}
Transform trans = meshCollider.transform;
foreach (var vertex in mesh.vertices)
{
Vector3 worldPos = trans.TransformPoint(vertex);
if (worldPos.x < xMin)
{
xMin = worldPos.x;
}
else if (worldPos.x > xMax)
{
xMax = worldPos.x;
}
if (worldPos.y < yMin)
{
yMin = worldPos.y;
}
else if (worldPos.y > yMax)
{
yMax = worldPos.y;
}
if (worldPos.z < zMin)
{
zMin = worldPos.z;
}
else if (worldPos.z > zMax)
{
zMax = worldPos.z;
}
}
}
foreach (var collider in SceneHeightRoot.GetComponentsInChildren <Collider>())
{
if (collider is MeshCollider)
{
continue;
}
Vector3 minPos = collider.bounds.min;
Vector3 maxPos = collider.bounds.max;
if (minPos.x < xMin)
{
xMin = minPos.x;
}
if (maxPos.x > xMax)
{
xMax = maxPos.x;
}
if (minPos.y < yMin)
{
yMin = minPos.y;
}
if (maxPos.y > yMax)
{
yMax = maxPos.y;
}
if (minPos.z < zMin)
{
zMin = minPos.z;
}
if (maxPos.z > zMax)
{
zMax = maxPos.z;
}
}
float deltaX = (xMax - xMin) / count;
float deltaZ = (zMax - zMin) / count;
float height = yMax - yMin;
if (mapInfo != null)
{
mapInfo.heightMapOriX = xMin;
mapInfo.heightMapOriZ = zMin;
mapInfo.heightMapSizeX = xMax - xMin;
mapInfo.heightMapSizeZ = zMax - zMin;
mapInfo.heightMapMinY = yMin;
mapInfo.heightMapSizeY = height;
}
bool[] isFindArr = new bool[count * count];
Color[] resetArr = new Color[count * count];
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
Vector3 pos = new Vector3(xMin + (x + 0.5f) * deltaX,
yMax + 1.0f, zMin + (z + 0.5f) * deltaZ);
heightMap.SetPixel(x, z, new Color(0, 0, 0));
RaycastHit[] hitArr = Physics.RaycastAll(pos, Vector3.down, height + 2.0f);
isFindArr[x + z * count] = false;
if (hitArr != null)
{
float maxHeight = yMin;
foreach (var hit in hitArr)
{
if (transList.Contains(hit.transform))
{
if (hit.point.y > maxHeight)
{
maxHeight = hit.point.y;
isFindArr[x + z * count] = true;
}
}
}
float heightValue = (maxHeight - yMin) / height;
ushort shortValue = (ushort)(heightValue * 65535.0f);
byte[] byteArr = BitConverter.GetBytes(shortValue);
//float rValue = (((int)(heightValue * 65536)) / 256) / 256.0f;
//float gValue = (((int)(heightValue * 65536)) % 256) / 256.0f;
heightMap.SetPixel(x, z, new Color32(byteArr[0], byteArr[1], 0, 0));
}
}
}
//没有采样到高度信息的,值设置为周围2格有高度信息的,以避免边界误差
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
if (!isFindArr[x + z * count]) //如果这个像素没获取到高度
{
Vector4 heightValue = Vector4.zero;
int findCount = 0;
for (int zNear = z - 5; zNear <= z + 5; zNear++)
{
if (zNear < 0 || zNear >= count)
{
continue;
}
for (int xNear = x - 5; xNear <= x + 5; xNear++)
{
if (xNear < 0 || xNear >= count)
{
continue;
}
if (isFindArr[xNear + zNear * count])
{
heightValue += new Vector4(heightMap.GetPixel(xNear, zNear).r,
heightMap.GetPixel(xNear, zNear).g, heightMap.GetPixel(xNear, zNear).b, 1);
findCount++;
}
}
}
if (findCount > 1)
{
heightValue = heightValue / (float)findCount;
}
resetArr[x + z * count] = heightValue;
}
}
}
for (int z = 0; z < count; z++)
{
for (int x = 0; x < count; x++)
{
if (!isFindArr[x + z * count] &&
resetArr[x + z * count].r > 0.001f)
{
heightMap.SetPixel(x, z, resetArr[x + z * count]);
}
}
}
byte[] bytes = heightMap.EncodeToPNG();
string fullPath = Application.dataPath;
fullPath = fullPath.Remove(fullPath.IndexOf("Assets"));
fullPath = fullPath + fullPathName;
File.WriteAllBytes(fullPathName, bytes);
AssetDatabase.Refresh();
TextureImporter texImporter = TextureImporter.GetAtPath(fullPathName) as TextureImporter;
if (texImporter != null)
{
TextureImporterPlatformSettings setting = new TextureImporterPlatformSettings();
setting.format = TextureImporterFormat.RG16;
texImporter.SetPlatformTextureSettings(setting);
texImporter.isReadable = true;
texImporter.SaveAndReimport();
AssetDatabase.ImportAsset(fullPathName);
}
EditorUtility.ClearProgressBar();
}
