using UnityEngine; namespace UnityEditor.Experimental.VFX.Toolbox.ImageSequencer { internal class ProcessingNode { public int OutputWidth { get { if (Enabled) return GetOutputWidth(); else return InputSequence.width; } } public int OutputHeight { get { if (Enabled) return GetOutputHeight(); else return InputSequence.width; } } public int NumU { get { if (Enabled) return m_Processor.numU; else return InputSequence.numU; } } public int NumV { get { if (Enabled) return m_Processor.numV; else return InputSequence.numV; } } public bool GenerateMipMaps; public bool Linear; public bool Enabled { get{ return m_bEnabled; } set {SetEnabled(value); } } public ProcessingFrameSequence InputSequence { get { return m_ProcessingNodeStack.GetInputSequence(this); } } public ProcessingFrameSequence OutputSequence { get { if (m_bEnabled) return m_OutputSequence; else return InputSequence; } } public ProcessorInfo ProcessorInfo { get { return m_ProcessorInfo; } } private ProcessingNodeStack m_ProcessingNodeStack; private ProcessingFrameSequence m_OutputSequence; private bool m_bEnabled; private int m_OutputWidth; private int m_OutputHeight; public ProcessorBase processor { get { return m_Processor; } private set { m_Processor = value; m_SerializedObject = new SerializedObject(m_Processor); } } private SerializedObject m_SerializedObject; private ProcessorBase m_Processor; private ProcessorInfo m_ProcessorInfo; public Shader shader { get; private set; } public Material material { get; private set; } public bool isCurrentlyPreviewed => m_ProcessingNodeStack.imageSequencer.previewCanvas.sequence.processingNode == this; public int previewCurrentFrame => m_ProcessingNodeStack.imageSequencer.previewCanvas.currentFrameIndex; public int previewSequenceLength => m_ProcessingNodeStack.imageSequencer.previewCanvas.numFrames; public ProcessingNode(ProcessingNodeStack processorStack, ProcessorInfo info) { m_ProcessorInfo = info; m_bEnabled = m_ProcessorInfo.Enabled; m_ProcessingNodeStack = processorStack; processor = m_ProcessorInfo.Settings; m_OutputSequence = new ProcessingFrameSequence(this); shader = AssetDatabase.LoadAssetAtPath(processor.shaderPath); material = new Material(shader) { hideFlags = HideFlags.DontSave }; material.hideFlags = HideFlags.DontSave; Linear = true; GenerateMipMaps = true; processor.AttachTo(this); } public void SetEnabled(bool value) { m_bEnabled = value; var info = new SerializedObject(m_ProcessorInfo); info.Update(); info.FindProperty("Enabled").boolValue = value; info.ApplyModifiedProperties(); } public void Dispose() { Material.DestroyImmediate(material); m_OutputSequence.Dispose(); } public void Refresh() { if(Enabled != m_ProcessorInfo.Enabled) Enabled = m_ProcessorInfo.Enabled; UpdateSequenceLength(); m_Processor.UpdateOutputSize(); } protected virtual int GetOutputWidth() { m_Processor.UpdateOutputSize(); return m_OutputWidth; } protected virtual int GetOutputHeight() { m_Processor.UpdateOutputSize(); return m_OutputHeight; } public void SetOutputSize(int width, int height) { if(m_OutputWidth != width || m_OutputHeight != height) { m_OutputWidth = Mathf.Clamp(width,1,8192); m_OutputHeight = Mathf.Clamp(height,1,8192); } } protected int GetNumU() { if (InputSequence.processingNode == null) return 1; return InputSequence.numU; } protected int GetNumV() { if (InputSequence.processingNode == null) return 1; return InputSequence.numV; } protected bool DrawSidePanelHeader() { bool bHasChanged = false; bool previousEnabled = Enabled; Enabled = VFXToolboxGUIUtility.ToggleableHeader(Enabled, false, GetName()); if(previousEnabled != Enabled) { SerializedObject o = new SerializedObject(m_ProcessorInfo); o.FindProperty("Enabled").boolValue = Enabled; o.ApplyModifiedProperties(); m_ProcessingNodeStack.Invalidate(this); bHasChanged = true; } return bHasChanged; } public bool OnSidePanelGUI(ImageSequence asset, int ProcessorIndex) { bool bHasChanged = DrawSidePanelHeader(); using (new EditorGUI.DisabledScope(!Enabled)) { m_SerializedObject.Update(); bHasChanged = m_Processor.OnInspectorGUI(bHasChanged, m_SerializedObject); m_SerializedObject.ApplyModifiedProperties(); } return bHasChanged; } public bool OnCanvasGUI(ImageSequencerCanvas canvas) { return m_Processor.OnCanvasGUI(canvas); } public void RequestProcessOneFrame(int currentFrame) { int length = OutputSequence.length; int i = (currentFrame + 1) % length; while (i != currentFrame) { bool advance = false; if(OutputSequence.frames[i].dirty) { advance = OutputSequence.Process(i); if(advance) return; } i = (i + 1); i %= length; } } public bool Process(int frame) { return m_Processor.Process(frame); } public void ExecuteShaderAndDump(int outputframe, Texture mainTex) { ExecuteShaderAndDump(outputframe, mainTex, material); } public void ExecuteShaderAndDump(int outputframe, Texture mainTex, Material material) { RenderTexture backup = RenderTexture.active; Graphics.Blit(mainTex, (RenderTexture)m_OutputSequence.frames[outputframe].texture, material); RenderTexture.active = backup; } public int GetProcessorSequenceLength() { return m_Processor.sequenceLength; } public bool Process(ProcessingFrame frame) { return Process(OutputSequence.frames.IndexOf(frame)); } public void UpdateSequenceLength() { int currentCount = m_OutputSequence.frames.Count; int requiredCount = GetProcessorSequenceLength(); if (currentCount == requiredCount) return; if(currentCount > requiredCount) { for(int i = requiredCount - 1; i < currentCount - 1; i++) { m_OutputSequence.frames[i].Dispose(); } m_OutputSequence.frames.RemoveRange(requiredCount - 1, currentCount - requiredCount); } else { for(int i = 0; i < requiredCount - currentCount; i++) { m_OutputSequence.frames.Add(new ProcessingFrame(this)); } } } public void Invalidate() { UpdateSequenceLength(); SetOutputSize(GetOutputWidth(), GetOutputHeight()); m_OutputSequence.InvalidateAll(); ProcessingNode next = m_ProcessingNodeStack.GetNextProcessor(this); if(next != null) next.Invalidate(); } public string GetName() { return m_Processor.processorName; } public string GetLabel() { return m_Processor.label; } public override string ToString() { return GetLabel() + (Enabled ? "" : " (Disabled)"); } public ProcessorBase GetSettingsAbstract() { return processor; } } }