private void OnLoadTransferFunction(RuntimeFileBrowser.DialogResult result)
{
if (!result.cancelled)
{
string extension = Path.GetExtension(result.path);
if (extension == ".tf")
{
TransferFunction tf = TransferFunctionDatabase.LoadTransferFunction(result.path);
if (tf != null)
{
targetObject.transferFunction = tf;
targetObject.SetTransferFunctionMode(TFRenderMode.TF1D);
}
}
if (extension == ".tf2d")
{
TransferFunction2D tf = TransferFunctionDatabase.LoadTransferFunction2D(result.path);
if (tf != null)
{
targetObject.transferFunction2D = tf;
targetObject.SetTransferFunctionMode(TFRenderMode.TF2D);
}
}
}
}
public static void SaveTransferFunction(TransferFunction tf, string filepath)
{
TF1DSerialisationData data = new TF1DSerialisationData();
data.version = TF1DSerialisationData.VERSION_ID;
data.colourPoints = new List <TFColourControlPoint>(tf.colourControlPoints);
data.alphaPoints = new List <TFAlphaControlPoint>(tf.alphaControlPoints);
string jsonstring = JsonUtility.ToJson(data);
File.WriteAllText(filepath, jsonstring);
}
public static VolumeRenderedObject CreateObject(VolumeDataset dataset)
{
GameObject outerObject = new GameObject("VolumeRenderedObject_" + dataset.datasetName);
VolumeRenderedObject volObj = outerObject.AddComponent <VolumeRenderedObject>();
GameObject meshContainer = GameObject.Instantiate((GameObject)Resources.Load("VolumeContainer"));
meshContainer.transform.parent = outerObject.transform;
meshContainer.transform.localScale = Vector3.one;
meshContainer.transform.localPosition = Vector3.zero;
meshContainer.transform.parent = outerObject.transform;
outerObject.transform.localRotation = Quaternion.Euler(90.0f, 0.0f, 0.0f);
MeshRenderer meshRenderer = meshContainer.GetComponent <MeshRenderer>();
meshRenderer.sharedMaterial = new Material(meshRenderer.sharedMaterial);
volObj.meshRenderer = meshRenderer;
volObj.dataset = dataset;
const int noiseDimX = 512;
const int noiseDimY = 512;
Texture2D noiseTexture = NoiseTextureGenerator.GenerateNoiseTexture(noiseDimX, noiseDimY);
TransferFunction tf = TransferFunctionDatabase.CreateTransferFunction();
Texture2D tfTexture = tf.GetTexture();
volObj.transferFunction = tf;
TransferFunction2D tf2D = TransferFunctionDatabase.CreateTransferFunction2D();
volObj.transferFunction2D = tf2D;
meshRenderer.sharedMaterial.SetTexture("_DataTex", dataset.GetDataTexture());
meshRenderer.sharedMaterial.SetTexture("_GradientTex", null);
meshRenderer.sharedMaterial.SetTexture("_NoiseTex", noiseTexture);
meshRenderer.sharedMaterial.SetTexture("_TFTex", tfTexture);
meshRenderer.sharedMaterial.EnableKeyword("MODE_DVR");
meshRenderer.sharedMaterial.DisableKeyword("MODE_MIP");
meshRenderer.sharedMaterial.DisableKeyword("MODE_SURF");
if (dataset.scaleX != 0.0f && dataset.scaleY != 0.0f && dataset.scaleZ != 0.0f)
{
float maxScale = Mathf.Max(dataset.scaleX, dataset.scaleY, dataset.scaleZ);
volObj.transform.localScale = new Vector3(dataset.scaleX / maxScale, dataset.scaleY / maxScale, dataset.scaleZ / maxScale);
}
return(volObj);
}
public static TransferFunction CreateTransferFunction()
{
TransferFunction tf = new TransferFunction();
tf.AddControlPoint(new TFColourControlPoint(0.0f, new Color(0.11f, 0.14f, 0.13f, 1.0f)));
tf.AddControlPoint(new TFColourControlPoint(0.2415f, new Color(0.469f, 0.354f, 0.223f, 1.0f)));
tf.AddControlPoint(new TFColourControlPoint(0.3253f, new Color(1.0f, 1.0f, 1.0f, 1.0f)));
tf.AddControlPoint(new TFAlphaControlPoint(0.0f, 0.0f));
tf.AddControlPoint(new TFAlphaControlPoint(0.1787f, 0.0f));
tf.AddControlPoint(new TFAlphaControlPoint(0.2f, 0.024f));
tf.AddControlPoint(new TFAlphaControlPoint(0.28f, 0.03f));
tf.AddControlPoint(new TFAlphaControlPoint(0.4f, 0.546f));
tf.AddControlPoint(new TFAlphaControlPoint(0.547f, 0.5266f));
tf.GenerateTexture();
return(tf);
}
public static TransferFunction LoadTransferFunction(string filepath)
{
if (!File.Exists(filepath))
{
Debug.LogError(string.Format("File does not exist: {0}", filepath));
return(null);
}
string jsonstring = File.ReadAllText(filepath);
TF1DSerialisationData data = JsonUtility.FromJson <TF1DSerialisationData>(jsonstring);
Debug.Log(jsonstring);
Debug.Log(data.colourPoints.ToString());
Debug.Log(data.alphaPoints.ToString());
TransferFunction tf = new TransferFunction();
tf.colourControlPoints = data.colourPoints;
tf.alphaControlPoints = data.alphaPoints;
return(tf);
}
public static VolumeRenderedObject CreateObject(VolumeDataset dataset)
{
GameObject obj = GameObject.Instantiate((GameObject)Resources.Load("VolumeRenderedObject"));
VolumeRenderedObject volObj = obj.GetComponent <VolumeRenderedObject>();
MeshRenderer meshRenderer = obj.GetComponent <MeshRenderer>();
meshRenderer.material = new Material(meshRenderer.sharedMaterial);
volObj.dataset = dataset;
const int noiseDimX = 512;
const int noiseDimY = 512;
Texture2D noiseTexture = NoiseTextureGenerator.GenerateNoiseTexture(noiseDimX, noiseDimY);
TransferFunction tf = TransferFunctionDatabase.CreateTransferFunction();
Texture2D tfTexture = tf.GetTexture();
volObj.transferFunction = tf;
tf.histogramTexture = HistogramTextureGenerator.GenerateHistogramTexture(dataset);
TransferFunction2D tf2D = TransferFunctionDatabase.CreateTransferFunction2D();
volObj.transferFunction2D = tf2D;
meshRenderer.sharedMaterial.SetTexture("_DataTex", dataset.GetDataTexture());
meshRenderer.sharedMaterial.SetTexture("_GradientTex", null);
meshRenderer.sharedMaterial.SetTexture("_NoiseTex", noiseTexture);
meshRenderer.sharedMaterial.SetTexture("_TFTex", tfTexture);
meshRenderer.sharedMaterial.EnableKeyword("MODE_DVR");
meshRenderer.sharedMaterial.DisableKeyword("MODE_MIP");
meshRenderer.sharedMaterial.DisableKeyword("MODE_SURF");
return(volObj);
}
private void OnGUI()
{
// Update selected object
if (volRendObject == null)
{
volRendObject = SelectionHelper.GetSelectedVolumeObject();
}
if (volRendObject == null)
{
return;
}
tf = volRendObject.transferFunction;
Event currentEvent = new Event(Event.current);
Color oldColour = GUI.color;
float contentWidth = Mathf.Min(this.position.width - 20.0f, (this.position.height - 100.0f) * 2.0f);
float contentHeight = contentWidth * 0.5f;
Rect bgRect = new Rect(0.0f, 0.0f, contentWidth, contentHeight);
// TODO:
tf.GenerateTexture();
if (histTex == null)
{
histTex = HistogramTextureGenerator.GenerateHistogramTexture(volRendObject.dataset);
}
tfGUIMat.SetTexture("_TFTex", tf.GetTexture());
tfGUIMat.SetTexture("_HistTex", histTex);
Graphics.DrawTexture(bgRect, tf.GetTexture(), tfGUIMat);
Texture2D tfTexture = tf.GetTexture();
tfPaletteGUIMat.SetTexture("_TFTex", tf.GetTexture());
Graphics.DrawTexture(new Rect(bgRect.x, bgRect.y + bgRect.height + 20, bgRect.width, 20.0f), tfTexture, tfPaletteGUIMat);
// Colour control points
for (int iCol = 0; iCol < tf.colourControlPoints.Count; iCol++)
{
TFColourControlPoint colPoint = tf.colourControlPoints[iCol];
Rect ctrlBox = new Rect(bgRect.x + bgRect.width * colPoint.dataValue, bgRect.y + bgRect.height + 20, 10, 20);
GUI.color = Color.red;
GUI.skin.box.fontSize = 6;
GUI.Box(ctrlBox, "*");
if (currentEvent.type == EventType.MouseDown && ctrlBox.Contains(new Vector2(currentEvent.mousePosition.x, currentEvent.mousePosition.y)))
{
// Move colour control point
if (currentEvent.button == 0)
{
movingColPointIndex = iCol;
selectedColPointIndex = iCol;
}
// Remove it (if ctrl + right click)
else if (currentEvent.button == 1 && currentEvent.control)
{
tf.colourControlPoints.RemoveAt(iCol);
currentEvent.type = EventType.Ignore;
selectedColPointIndex = -1;
continue;
}
}
else if (movingColPointIndex == iCol)
{
colPoint.dataValue = Mathf.Clamp((currentEvent.mousePosition.x - bgRect.x) / bgRect.width, 0.0f, 1.0f);
}
tf.colourControlPoints[iCol] = colPoint;
}
// Alpha control points
for (int iAlpha = 0; iAlpha < tf.alphaControlPoints.Count; iAlpha++)
{
TFAlphaControlPoint alphaPoint = tf.alphaControlPoints[iAlpha];
Rect ctrlBox = new Rect(bgRect.x + bgRect.width * alphaPoint.dataValue, bgRect.y + (1.0f - alphaPoint.alphaValue) * bgRect.height, 10, 10);
GUI.color = oldColour;
GUI.skin.box.fontSize = 6;
GUI.Box(ctrlBox, "*");
if (currentEvent.type == EventType.MouseDown && ctrlBox.Contains(new Vector2(currentEvent.mousePosition.x, currentEvent.mousePosition.y)))
{
// Move alpha point
if (currentEvent.button == 0)
{
movingAlphaPointIndex = iAlpha;
}
// Remove alpha point
else if (currentEvent.button == 1 && currentEvent.control)
{
tf.alphaControlPoints.RemoveAt(iAlpha);
currentEvent.type = EventType.Ignore;
selectedColPointIndex = -1;
continue;
}
}
else if (movingAlphaPointIndex == iAlpha)
{
alphaPoint.dataValue = Mathf.Clamp((currentEvent.mousePosition.x - bgRect.x) / bgRect.width, 0.0f, 1.0f);
alphaPoint.alphaValue = Mathf.Clamp(1.0f - (currentEvent.mousePosition.y - bgRect.y) / bgRect.height, 0.0f, 1.0f);
}
tf.alphaControlPoints[iAlpha] = alphaPoint;
}
if (currentEvent.type == EventType.MouseUp)
{
movingColPointIndex = -1;
movingAlphaPointIndex = -1;
}
// Add points
if (currentEvent.type == EventType.MouseDown && currentEvent.button == 1)
{
if (bgRect.Contains(new Vector2(currentEvent.mousePosition.x, currentEvent.mousePosition.y)))
{
tf.alphaControlPoints.Add(new TFAlphaControlPoint(Mathf.Clamp((currentEvent.mousePosition.x - bgRect.x) / bgRect.width, 0.0f, 1.0f), Mathf.Clamp(1.0f - (currentEvent.mousePosition.y - bgRect.y) / bgRect.height, 0.0f, 1.0f)));
}
else
{
tf.colourControlPoints.Add(new TFColourControlPoint(Mathf.Clamp((currentEvent.mousePosition.x - bgRect.x) / bgRect.width, 0.0f, 1.0f), Random.ColorHSV()));
}
selectedColPointIndex = -1;
}
if (selectedColPointIndex != -1)
{
TFColourControlPoint colPoint = tf.colourControlPoints[selectedColPointIndex];
colPoint.colourValue = EditorGUI.ColorField(new Rect(150, bgRect.y + bgRect.height + 50, 100.0f, 40.0f), colPoint.colourValue);
tf.colourControlPoints[selectedColPointIndex] = colPoint;
}
if (GUI.Button(new Rect(0.0f, bgRect.y + bgRect.height + 50.0f, 70.0f, 30.0f), "Save"))
{
string filepath = EditorUtility.SaveFilePanel("Save transfer function", "", "default.tf", "tf");
if (filepath != "")
{
TransferFunctionDatabase.SaveTransferFunction(tf, filepath);
}
}
if (GUI.Button(new Rect(75.0f, bgRect.y + bgRect.height + 50.0f, 70.0f, 30.0f), "Load"))
{
string filepath = EditorUtility.OpenFilePanel("Save transfer function", "", "tf");
if (filepath != "")
{
TransferFunction newTF = TransferFunctionDatabase.LoadTransferFunction(filepath);
if (newTF != null)
{
volRendObject.transferFunction = tf = newTF;
}
}
}
GUI.skin.label.wordWrap = false;
GUI.Label(new Rect(0.0f, bgRect.y + bgRect.height + 85.0f, 700.0f, 30.0f), "Left click to select and move a control point. Right click to add a control point, and ctrl + right click to delete.");
GUI.color = oldColour;
}
private void OnGUI()
{
// Update selected object
if (volRendObject == null)
{
volRendObject = SelectionHelper.GetSelectedVolumeObject();
}
if (volRendObject == null)
{
return;
}
tf = volRendObject.transferFunction;
Event currentEvent = new Event(Event.current);
Color oldColour = GUI.color; // Used for setting GUI.color when drawing UI elements
float contentWidth = Mathf.Min(this.position.width, (this.position.height - 100.0f) * 2.0f);
float contentHeight = contentWidth * 0.5f;
// Interaction area (slightly larger than the histogram rect)
Rect interactRect = new Rect(0.0f, 0.0f, contentWidth, contentHeight);
// Histogram rect (histogram view and alpha control points)
Rect histRect = new Rect(interactRect.x + 20.0f, interactRect.y + 20.0f, interactRect.width - 40.0f, interactRect.height - 40.0f);
// Colour palette rect (colour control points)
Rect paletteRect = new Rect(histRect.x, histRect.y + histRect.height + 20, histRect.width, 20.0f);
// TODO: Don't do this every frame
tf.GenerateTexture();
// Create histogram texture
if (histTex == null)
{
if (SystemInfo.supportsComputeShaders)
{
histTex = HistogramTextureGenerator.GenerateHistogramTextureOnGPU(volRendObject.dataset);
}
else
{
histTex = HistogramTextureGenerator.GenerateHistogramTexture(volRendObject.dataset);
}
}
// Draw histogram
tfGUIMat.SetTexture("_TFTex", tf.GetTexture());
tfGUIMat.SetTexture("_HistTex", histTex);
Graphics.DrawTexture(histRect, tf.GetTexture(), tfGUIMat);
// Draw colour palette
Texture2D tfTexture = tf.GetTexture();
tfPaletteGUIMat.SetTexture("_TFTex", tf.GetTexture());
Graphics.DrawTexture(new Rect(paletteRect.x, paletteRect.y, paletteRect.width, paletteRect.height), tfTexture, tfPaletteGUIMat);
// Release selected colour/alpha points if mouse leaves window
if (movingAlphaPointIndex != -1 && !interactRect.Contains(currentEvent.mousePosition))
{
movingAlphaPointIndex = -1;
}
if (movingColPointIndex != -1 && !(currentEvent.mousePosition.x >= paletteRect.x && currentEvent.mousePosition.x <= paletteRect.x + paletteRect.width))
{
movingColPointIndex = -1;
}
// Mouse down => Move or remove selected colour control point
if (currentEvent.type == EventType.MouseDown && paletteRect.Contains(currentEvent.mousePosition))
{
float mousePos = (currentEvent.mousePosition.x - paletteRect.x) / paletteRect.width;
int pointIndex = PickColourControlPoint(mousePos);
if (pointIndex != -1)
{
// Add control point
if (currentEvent.button == 0 && !currentEvent.control)
{
movingColPointIndex = selectedColPointIndex = pointIndex;
}
// Remove control point
else if (currentEvent.button == 1 && currentEvent.control)
{
tf.colourControlPoints.RemoveAt(pointIndex);
currentEvent.type = EventType.Ignore;
movingColPointIndex = selectedColPointIndex = -1;
}
}
}
else if (currentEvent.type == EventType.MouseUp)
{
movingColPointIndex = -1;
}
// Mouse down => Move or remove selected alpha control point
if (currentEvent.type == EventType.MouseDown)
{
Vector2 mousePos = new Vector2((currentEvent.mousePosition.x - histRect.x) / histRect.width, 1.0f - (currentEvent.mousePosition.y - histRect.y) / histRect.height);
int pointIndex = PickAlphaControlPoint(mousePos);
if (pointIndex != -1)
{
// Add control point
if (currentEvent.button == 0 && !currentEvent.control)
{
movingAlphaPointIndex = pointIndex;
}
// Remove control point
else if (currentEvent.button == 1 && currentEvent.control)
{
tf.alphaControlPoints.RemoveAt(pointIndex);
currentEvent.type = EventType.Ignore;
selectedColPointIndex = -1;
}
}
}
// Move selected alpha control point
if (movingAlphaPointIndex != -1)
{
TFAlphaControlPoint alphaPoint = tf.alphaControlPoints[movingAlphaPointIndex];
alphaPoint.dataValue = Mathf.Clamp((currentEvent.mousePosition.x - histRect.x) / histRect.width, 0.0f, 1.0f);
alphaPoint.alphaValue = Mathf.Clamp(1.0f - (currentEvent.mousePosition.y - histRect.y) / histRect.height, 0.0f, 1.0f);
tf.alphaControlPoints[movingAlphaPointIndex] = alphaPoint;
}
// Move selected colour control point
if (movingColPointIndex != -1)
{
TFColourControlPoint colPoint = tf.colourControlPoints[movingColPointIndex];
colPoint.dataValue = Mathf.Clamp((currentEvent.mousePosition.x - paletteRect.x) / paletteRect.width, 0.0f, 1.0f);
tf.colourControlPoints[movingColPointIndex] = colPoint;
}
// Draw colour control points
for (int iCol = 0; iCol < tf.colourControlPoints.Count; iCol++)
{
TFColourControlPoint colPoint = tf.colourControlPoints[iCol];
Rect ctrlBox = new Rect(histRect.x + histRect.width * colPoint.dataValue, histRect.y + histRect.height + 20, 10, 20);
GUI.color = Color.red;
GUI.skin.box.fontSize = 6;
GUI.Box(ctrlBox, "*");
}
// Draw alpha control points
for (int iAlpha = 0; iAlpha < tf.alphaControlPoints.Count; iAlpha++)
{
const int pointSize = 10;
TFAlphaControlPoint alphaPoint = tf.alphaControlPoints[iAlpha];
Rect ctrlBox = new Rect(histRect.x + histRect.width * alphaPoint.dataValue - pointSize / 2, histRect.y + (1.0f - alphaPoint.alphaValue) * histRect.height - pointSize / 2, pointSize, pointSize);
GUI.color = Color.red;
GUI.skin.box.fontSize = 6;
GUI.Box(ctrlBox, "*");
GUI.color = oldColour;
}
if (currentEvent.type == EventType.MouseUp)
{
movingColPointIndex = -1;
movingAlphaPointIndex = -1;
}
// Add points
if (currentEvent.type == EventType.MouseDown && currentEvent.button == 1)
{
if (histRect.Contains(new Vector2(currentEvent.mousePosition.x, currentEvent.mousePosition.y)))
{
tf.alphaControlPoints.Add(new TFAlphaControlPoint(Mathf.Clamp((currentEvent.mousePosition.x - histRect.x) / histRect.width, 0.0f, 1.0f), Mathf.Clamp(1.0f - (currentEvent.mousePosition.y - histRect.y) / histRect.height, 0.0f, 1.0f)));
}
else
{
tf.colourControlPoints.Add(new TFColourControlPoint(Mathf.Clamp((currentEvent.mousePosition.x - histRect.x) / histRect.width, 0.0f, 1.0f), Random.ColorHSV()));
}
selectedColPointIndex = -1;
}
// Save TF
if (GUI.Button(new Rect(histRect.x, histRect.y + histRect.height + 50.0f, 70.0f, 30.0f), "Save"))
{
string filepath = EditorUtility.SaveFilePanel("Save transfer function", "", "default.tf", "tf");
if (filepath != "")
{
TransferFunctionDatabase.SaveTransferFunction(tf, filepath);
}
}
// Load TF
if (GUI.Button(new Rect(histRect.x + 75.0f, histRect.y + histRect.height + 50.0f, 70.0f, 30.0f), "Load"))
{
string filepath = EditorUtility.OpenFilePanel("Save transfer function", "", "tf");
if (filepath != "")
{
TransferFunction newTF = TransferFunctionDatabase.LoadTransferFunction(filepath);
if (newTF != null)
{
volRendObject.transferFunction = tf = newTF;
}
}
}
// Clear TF
if (GUI.Button(new Rect(histRect.x + 150.0f, histRect.y + histRect.height + 50.0f, 70.0f, 30.0f), "Clear"))
{
tf = volRendObject.transferFunction = new TransferFunction();
tf.alphaControlPoints.Add(new TFAlphaControlPoint(0.2f, 0.0f));
tf.alphaControlPoints.Add(new TFAlphaControlPoint(0.8f, 1.0f));
tf.colourControlPoints.Add(new TFColourControlPoint(0.5f, new Color(0.469f, 0.354f, 0.223f, 1.0f)));
selectedColPointIndex = -1;
}
// Colour picker
if (selectedColPointIndex != -1)
{
TFColourControlPoint colPoint = tf.colourControlPoints[selectedColPointIndex];
colPoint.colourValue = EditorGUI.ColorField(new Rect(histRect.x + 225, histRect.y + histRect.height + 50, 100.0f, 40.0f), colPoint.colourValue);
tf.colourControlPoints[selectedColPointIndex] = colPoint;
}
GUI.skin.label.wordWrap = false;
GUI.Label(new Rect(histRect.x, histRect.y + histRect.height + 85.0f, 720.0f, 30.0f), "Left click to select and move a control point. Right click to add a control point, and ctrl + right click to delete.");
GUI.color = oldColour;
}