public void RecreateSprite()
{
Vector3[] pos = new Vector3[4];
Vector3[] norm = new Vector3[4];
Vector2[] uv = new Vector2[4];
int[] offsetsX = { 0, 0, 1, 1 };
int[] offsetsY = { 1, 0, 0, 1 };
float normalizedX = rect.x / spriteSheet.width;
float normalizedY = rect.y / spriteSheet.height;
float normalizedW = rect.width / spriteSheet.width;
float normalizedH = rect.height / spriteSheet.height;
for (int i = 0; i < 4; ++i)
{
pos[i].Set(offsetsX[i] * rect.width,
offsetsY[i] * rect.height,
0);
norm[i].Set(0, 0, -1);
//color[vertex] = new Color32(255, 255, 255, 255);
uv[i].Set(normalizedX + offsetsX[i] * normalizedW, normalizedY + offsetsY[i] * normalizedH);
}
MeshFilter mf = GetComponent <MeshFilter>();
if (mf == null)
{
mf = gameObject.AddComponent <MeshFilter>();
}
DestroyImmediate(mf.sharedMesh);
mf.sharedMesh = new Mesh();
mf.sharedMesh.vertices = pos;
mf.sharedMesh.normals = norm;
mf.sharedMesh.uv = uv;
mf.sharedMesh.triangles = new int[] { 0, 3, 1, 1, 3, 2 };
mf.sharedMesh.RecalculateBounds();
MeshRenderer mr = GetComponent <MeshRenderer>();
if (mr == null)
{
mr = gameObject.AddComponent <MeshRenderer>();
mr.sharedMaterial = MaterialDatabase.Get(spriteSheet);
}
if (mr.sharedMaterial.mainTexture != spriteSheet)
{
MaterialDatabase.Unload(mr.sharedMaterial.mainTexture as Texture2D);
mr.sharedMaterial = MaterialDatabase.Get(spriteSheet);
}
}
protected void OnDisable()
{
MaterialDatabase.Unload(spriteSheet);
_allSprite.Remove(this);
}
void OnDestroy()
{
MaterialDatabase.Unload(spriteSheet);
}
public void MakeTilemap()
{
if (indexes == null || indexes.Length < _internalHeight * _internalWidth)
{
BuildMap();
}
MeshFilter mf = GetComponent <MeshFilter>();
if (mf.sharedMesh == null)
{
mf.sharedMesh = new Mesh();
}
Vector3[] positions = new Vector3[_internalWidth * _internalHeight * 4];
Vector2[] uv = new Vector2[_internalWidth * _internalHeight * 4];
Vector3[] normals = new Vector3[_internalWidth * _internalHeight * 4];
Color32[] color = new Color32[_internalWidth * _internalHeight * 4];
int[] triangles = new int[_internalWidth * _internalHeight * 6];
float normalizedW = tileSize / (float)spriteSheet.width;
float normalizedH = tileSize / (float)spriteSheet.height;
int nbTileLine = spriteSheet.width / tileSize;
for (int i = 0; i < _internalWidth; ++i)
{
for (int j = 0; j < _internalHeight; ++j)
{
int idx = (i * _internalHeight + j);
for (int k = 0; k < 4; ++k)
{
int[] offsetsX = { 0, 0, 1, 1 };
int[] offsetsY = { 0, 1, 1, 0 };
int vertex = idx * 4 + k;
positions[vertex].Set(i * tileSize + offsetsX[k] * tileSize,
j * tileSize + offsetsY[k] * tileSize,
0);
int line = indexes[i * height + j] / nbTileLine;
int col = indexes[i * height + j] - line * nbTileLine;
normals[vertex].Set(0, 0, -1);
if (indexes[i * _internalHeight + j] == -1)
{
color[vertex] = new Color32(0, 0, 0, 0);
uv[vertex].Set(0, 0);
}
else
{
color[vertex] = new Color32(255, 255, 255, 255);
uv[vertex].Set(col * normalizedW + offsetsX[k] * normalizedW, line * normalizedH + offsetsY[k] * normalizedH);
}
}
triangles[idx * 6 + 0] = idx * 4;
triangles[idx * 6 + 1] = idx * 4 + 1;
triangles[idx * 6 + 2] = idx * 4 + 3;
triangles[idx * 6 + 3] = idx * 4 + 1;
triangles[idx * 6 + 4] = idx * 4 + 2;
triangles[idx * 6 + 5] = idx * 4 + 3;
}
}
mf.sharedMesh.Clear();
mf.sharedMesh.vertices = positions;
mf.sharedMesh.uv = uv;
mf.sharedMesh.normals = normals;
mf.sharedMesh.colors32 = color;
mf.sharedMesh.triangles = triangles;
MeshRenderer mr = GetComponent <MeshRenderer>();
if (mr.sharedMaterial != null)
{
MaterialDatabase.Unload(mr.sharedMaterial.mainTexture as Texture2D);
}
mr.sharedMaterial = MaterialDatabase.Get(spriteSheet);
}