snxxz_client.git

			@@ -1,280 +1,280 @@
			using UnityEditorInternal;
			using UnityEngine;
			using UnityEngine.PostProcessing;

			namespace UnityEditor.PostProcessing
			{
			public class WaveformMonitor : PostProcessingMonitor
			{
			static GUIContent s_MonitorTitle = new GUIContent("Waveform");

			ComputeShader m_ComputeShader;
			ComputeBuffer m_Buffer;
			Material m_Material;
			RenderTexture m_WaveformTexture;
			Rect m_MonitorAreaRect;

			public WaveformMonitor()
			{
			m_ComputeShader = EditorResources.Load<ComputeShader>("Monitors/WaveformCompute.compute");
			}

			public override void Dispose()
			{
			GraphicsUtils.Destroy(m_Material);
			GraphicsUtils.Destroy(m_WaveformTexture);

			if (m_Buffer != null)
			m_Buffer.Release();

			m_Material = null;
			m_WaveformTexture = null;
			m_Buffer = null;
			}

			public override bool IsSupported()
			{
			return m_ComputeShader != null && GraphicsUtils.supportsDX11;
			}

			public override GUIContent GetMonitorTitle()
			{
			return s_MonitorTitle;
			}

			public override void OnMonitorSettings()
			{
			EditorGUI.BeginChangeCheck();

			bool refreshOnPlay = m_MonitorSettings.refreshOnPlay;
			float exposure = m_MonitorSettings.waveformExposure;
			bool Y = m_MonitorSettings.waveformY;
			bool R = m_MonitorSettings.waveformR;
			bool G = m_MonitorSettings.waveformG;
			bool B = m_MonitorSettings.waveformB;

			refreshOnPlay = GUILayout.Toggle(refreshOnPlay, new GUIContent(FxStyles.playIcon, "Keep refreshing the waveform in play mode; this may impact performances."), FxStyles.preButton);

			exposure = GUILayout.HorizontalSlider(exposure, 0.05f, 0.3f, FxStyles.preSlider, FxStyles.preSliderThumb, GUILayout.Width(40f));

			Y = GUILayout.Toggle(Y, new GUIContent("Y", "Show the luminance waveform only."), FxStyles.preButton);

			if (Y)
			{
			R = false;
			G = false;
			B = false;
			}

			R = GUILayout.Toggle(R, new GUIContent("R", "Show the red waveform."), FxStyles.preButton);
			G = GUILayout.Toggle(G, new GUIContent("G", "Show the green waveform."), FxStyles.preButton);
			B = GUILayout.Toggle(B, new GUIContent("B", "Show the blue waveform."), FxStyles.preButton);

			if (R \|\| G \|\| B)
			Y = false;

			if (!Y && !R && !G && !B)
			{
			R = true;
			G = true;
			B = true;
			}

			if (EditorGUI.EndChangeCheck())
			{
			Undo.RecordObject(m_BaseEditor.serializedObject.targetObject, "Waveforme Settings Changed");
			m_MonitorSettings.refreshOnPlay = refreshOnPlay;
			m_MonitorSettings.waveformExposure = exposure;
			m_MonitorSettings.waveformY = Y;
			m_MonitorSettings.waveformR = R;
			m_MonitorSettings.waveformG = G;
			m_MonitorSettings.waveformB = B;
			InternalEditorUtility.RepaintAllViews();
			}
			}

			public override void OnMonitorGUI(Rect r)
			{
			if (Event.current.type == EventType.Repaint)
			{
			// If m_MonitorAreaRect isn't set the preview was just opened so refresh the render to get the waveform data
			if (Mathf.Approximately(m_MonitorAreaRect.width, 0) && Mathf.Approximately(m_MonitorAreaRect.height, 0))
			InternalEditorUtility.RepaintAllViews();

			// Sizing
			float width = m_WaveformTexture != null
			? Mathf.Min(m_WaveformTexture.width, r.width - 65f)
			: r.width;
			float height = m_WaveformTexture != null
			? Mathf.Min(m_WaveformTexture.height, r.height - 45f)
			: r.height;

			m_MonitorAreaRect = new Rect(
			Mathf.Floor(r.x + r.width / 2f - width / 2f),
			Mathf.Floor(r.y + r.height / 2f - height / 2f - 5f),
			width, height
			);

			if (m_WaveformTexture != null)
			{
			m_Material.SetFloat("_Exposure", m_MonitorSettings.waveformExposure);

			var oldActive = RenderTexture.active;
			Graphics.Blit(null, m_WaveformTexture, m_Material, 0);
			RenderTexture.active = oldActive;

			Graphics.DrawTexture(m_MonitorAreaRect, m_WaveformTexture);

			var color = Color.white;
			const float kTickSize = 5f;

			// Rect, lines & ticks points
			// A B C D E
			// P F
			// O G
			// N H
			// M L K J I

			var A = new Vector3(m_MonitorAreaRect.x, m_MonitorAreaRect.y);
			var E = new Vector3(A.x + m_MonitorAreaRect.width + 1f, m_MonitorAreaRect.y);
			var I = new Vector3(E.x, E.y + m_MonitorAreaRect.height + 1f);
			var M = new Vector3(A.x, I.y);

			var C = new Vector3(A.x + (E.x - A.x) / 2f, A.y);
			var G = new Vector3(E.x, E.y + (I.y - E.y) / 2f);
			var K = new Vector3(M.x + (I.x - M.x) / 2f, M.y);
			var O = new Vector3(A.x, A.y + (M.y - A.y) / 2f);

			var P = new Vector3(A.x, A.y + (O.y - A.y) / 2f);
			var F = new Vector3(E.x, E.y + (G.y - E.y) / 2f);
			var N = new Vector3(A.x, O.y + (M.y - O.y) / 2f);
			var H = new Vector3(E.x, G.y + (I.y - G.y) / 2f);

			var B = new Vector3(A.x + (C.x - A.x) / 2f, A.y);
			var L = new Vector3(M.x + (K.x - M.x) / 2f, M.y);
			var D = new Vector3(C.x + (E.x - C.x) / 2f, A.y);
			var J = new Vector3(K.x + (I.x - K.x) / 2f, M.y);

			// Borders
			Handles.color = color;
			Handles.DrawLine(A, E);
			Handles.DrawLine(E, I);
			Handles.DrawLine(I, M);
			Handles.DrawLine(M, new Vector3(A.x, A.y - 1f));

			// Vertical ticks
			Handles.DrawLine(A, new Vector3(A.x - kTickSize, A.y));
			Handles.DrawLine(P, new Vector3(P.x - kTickSize, P.y));
			Handles.DrawLine(O, new Vector3(O.x - kTickSize, O.y));
			Handles.DrawLine(N, new Vector3(N.x - kTickSize, N.y));
			Handles.DrawLine(M, new Vector3(M.x - kTickSize, M.y));

			Handles.DrawLine(E, new Vector3(E.x + kTickSize, E.y));
			Handles.DrawLine(F, new Vector3(F.x + kTickSize, F.y));
			Handles.DrawLine(G, new Vector3(G.x + kTickSize, G.y));
			Handles.DrawLine(H, new Vector3(H.x + kTickSize, H.y));
			Handles.DrawLine(I, new Vector3(I.x + kTickSize, I.y));

			// Horizontal ticks
			Handles.DrawLine(A, new Vector3(A.x, A.y - kTickSize));
			Handles.DrawLine(B, new Vector3(B.x, B.y - kTickSize));
			Handles.DrawLine(C, new Vector3(C.x, C.y - kTickSize));
			Handles.DrawLine(D, new Vector3(D.x, D.y - kTickSize));
			Handles.DrawLine(E, new Vector3(E.x, E.y - kTickSize));

			Handles.DrawLine(M, new Vector3(M.x, M.y + kTickSize));
			Handles.DrawLine(L, new Vector3(L.x, L.y + kTickSize));
			Handles.DrawLine(K, new Vector3(K.x, K.y + kTickSize));
			Handles.DrawLine(J, new Vector3(J.x, J.y + kTickSize));
			Handles.DrawLine(I, new Vector3(I.x, I.y + kTickSize));

			// Labels
			GUI.color = color;
			GUI.Label(new Rect(A.x - kTickSize - 34f, A.y - 15f, 30f, 30f), "1.0", FxStyles.tickStyleRight);
			GUI.Label(new Rect(O.x - kTickSize - 34f, O.y - 15f, 30f, 30f), "0.5", FxStyles.tickStyleRight);
			GUI.Label(new Rect(M.x - kTickSize - 34f, M.y - 15f, 30f, 30f), "0.0", FxStyles.tickStyleRight);

			GUI.Label(new Rect(E.x + kTickSize + 4f, E.y - 15f, 30f, 30f), "1.0", FxStyles.tickStyleLeft);
			GUI.Label(new Rect(G.x + kTickSize + 4f, G.y - 15f, 30f, 30f), "0.5", FxStyles.tickStyleLeft);
			GUI.Label(new Rect(I.x + kTickSize + 4f, I.y - 15f, 30f, 30f), "0.0", FxStyles.tickStyleLeft);

			GUI.Label(new Rect(M.x - 15f, M.y + kTickSize - 4f, 30f, 30f), "0.0", FxStyles.tickStyleCenter);
			GUI.Label(new Rect(K.x - 15f, K.y + kTickSize - 4f, 30f, 30f), "0.5", FxStyles.tickStyleCenter);
			GUI.Label(new Rect(I.x - 15f, I.y + kTickSize - 4f, 30f, 30f), "1.0", FxStyles.tickStyleCenter);
			}
			}
			}

			public override void OnFrameData(RenderTexture source)
			{
			if (Application.isPlaying && !m_MonitorSettings.refreshOnPlay)
			return;

			if (Mathf.Approximately(m_MonitorAreaRect.width, 0) \|\| Mathf.Approximately(m_MonitorAreaRect.height, 0))
			return;

			float ratio = (float)source.width / (float)source.height;
			int h = 384;
			int w = Mathf.FloorToInt(h * ratio);

			var rt = RenderTexture.GetTemporary(w, h, 0, source.format);
			Graphics.Blit(source, rt);
			ComputeWaveform(rt);
			m_BaseEditor.Repaint();
			RenderTexture.ReleaseTemporary(rt);
			}

			void CreateBuffer(int width, int height)
			{
			m_Buffer = new ComputeBuffer(width * height, sizeof(uint) << 2);
			}

			void ComputeWaveform(RenderTexture source)
			{
			if (m_Buffer == null)
			{
			CreateBuffer(source.width, source.height);
			}
			else if (m_Buffer.count != (source.width * source.height))
			{
			m_Buffer.Release();
			CreateBuffer(source.width, source.height);
			}

			var channels = m_MonitorSettings.waveformY
			? new Vector4(0f, 0f, 0f, 1f)
			: new Vector4(m_MonitorSettings.waveformR ? 1f : 0f, m_MonitorSettings.waveformG ? 1f : 0f, m_MonitorSettings.waveformB ? 1f : 0f, 0f);

			var cs = m_ComputeShader;

			int kernel = cs.FindKernel("KWaveformClear");
			cs.SetBuffer(kernel, "_Waveform", m_Buffer);
			cs.Dispatch(kernel, source.width, 1, 1);

			kernel = cs.FindKernel("KWaveform");
			cs.SetBuffer(kernel, "_Waveform", m_Buffer);
			cs.SetTexture(kernel, "_Source", source);
			cs.SetInt("_IsLinear", GraphicsUtils.isLinearColorSpace ? 1 : 0);
			cs.SetVector("_Channels", channels);
			cs.Dispatch(kernel, source.width, 1, 1);

			if (m_WaveformTexture == null \|\| m_WaveformTexture.width != source.width \|\| m_WaveformTexture.height != source.height)
			{
			GraphicsUtils.Destroy(m_WaveformTexture);
			m_WaveformTexture = new RenderTexture(source.width, source.height, 0, RenderTextureFormat.ARGB32, RenderTextureReadWrite.Linear)
			{
			hideFlags = HideFlags.DontSave,
			wrapMode = TextureWrapMode.Clamp,
			filterMode = FilterMode.Bilinear
			};
			}

			if (m_Material == null)
			m_Material = new Material(Shader.Find("Hidden/Post FX/Monitors/Waveform Render")) { hideFlags = HideFlags.DontSave };

			m_Material.SetBuffer("_Waveform", m_Buffer);
			m_Material.SetVector("_Size", new Vector2(m_WaveformTexture.width, m_WaveformTexture.height));
			m_Material.SetVector("_Channels", channels);
			}
			}
			}
			using UnityEditorInternal;
			using UnityEngine;
			using UnityEngine.PostProcessing;

			namespace UnityEditor.PostProcessing
			{
			public class WaveformMonitor : PostProcessingMonitor
			{
			static GUIContent s_MonitorTitle = new GUIContent("Waveform");

			ComputeShader m_ComputeShader;
			ComputeBuffer m_Buffer;
			Material m_Material;
			RenderTexture m_WaveformTexture;
			Rect m_MonitorAreaRect;

			public WaveformMonitor()
			{
			m_ComputeShader = EditorResources.Load<ComputeShader>("Monitors/WaveformCompute.compute");
			}

			public override void Dispose()
			{
			GraphicsUtils.Destroy(m_Material);
			GraphicsUtils.Destroy(m_WaveformTexture);

			if (m_Buffer != null)
			m_Buffer.Release();

			m_Material = null;
			m_WaveformTexture = null;
			m_Buffer = null;
			}

			public override bool IsSupported()
			{
			return m_ComputeShader != null && GraphicsUtils.supportsDX11;
			}

			public override GUIContent GetMonitorTitle()
			{
			return s_MonitorTitle;
			}

			public override void OnMonitorSettings()
			{
			EditorGUI.BeginChangeCheck();

			bool refreshOnPlay = m_MonitorSettings.refreshOnPlay;
			float exposure = m_MonitorSettings.waveformExposure;
			bool Y = m_MonitorSettings.waveformY;
			bool R = m_MonitorSettings.waveformR;
			bool G = m_MonitorSettings.waveformG;
			bool B = m_MonitorSettings.waveformB;

			refreshOnPlay = GUILayout.Toggle(refreshOnPlay, new GUIContent(FxStyles.playIcon, "Keep refreshing the waveform in play mode; this may impact performances."), FxStyles.preButton);

			exposure = GUILayout.HorizontalSlider(exposure, 0.05f, 0.3f, FxStyles.preSlider, FxStyles.preSliderThumb, GUILayout.Width(40f));

			Y = GUILayout.Toggle(Y, new GUIContent("Y", "Show the luminance waveform only."), FxStyles.preButton);

			if (Y)
			{
			R = false;
			G = false;
			B = false;
			}

			R = GUILayout.Toggle(R, new GUIContent("R", "Show the red waveform."), FxStyles.preButton);
			G = GUILayout.Toggle(G, new GUIContent("G", "Show the green waveform."), FxStyles.preButton);
			B = GUILayout.Toggle(B, new GUIContent("B", "Show the blue waveform."), FxStyles.preButton);

			if (R \|\| G \|\| B)
			Y = false;

			if (!Y && !R && !G && !B)
			{
			R = true;
			G = true;
			B = true;
			}

			if (EditorGUI.EndChangeCheck())
			{
			Undo.RecordObject(m_BaseEditor.serializedObject.targetObject, "Waveforme Settings Changed");
			m_MonitorSettings.refreshOnPlay = refreshOnPlay;
			m_MonitorSettings.waveformExposure = exposure;
			m_MonitorSettings.waveformY = Y;
			m_MonitorSettings.waveformR = R;
			m_MonitorSettings.waveformG = G;
			m_MonitorSettings.waveformB = B;
			InternalEditorUtility.RepaintAllViews();
			}
			}

			public override void OnMonitorGUI(Rect r)
			{
			if (Event.current.type == EventType.Repaint)
			{
			// If m_MonitorAreaRect isn't set the preview was just opened so refresh the render to get the waveform data
			if (Mathf.Approximately(m_MonitorAreaRect.width, 0) && Mathf.Approximately(m_MonitorAreaRect.height, 0))
			InternalEditorUtility.RepaintAllViews();

			// Sizing
			float width = m_WaveformTexture != null
			? Mathf.Min(m_WaveformTexture.width, r.width - 65f)
			: r.width;
			float height = m_WaveformTexture != null
			? Mathf.Min(m_WaveformTexture.height, r.height - 45f)
			: r.height;

			m_MonitorAreaRect = new Rect(
			Mathf.Floor(r.x + r.width / 2f - width / 2f),
			Mathf.Floor(r.y + r.height / 2f - height / 2f - 5f),
			width, height
			);

			if (m_WaveformTexture != null)
			{
			m_Material.SetFloat("_Exposure", m_MonitorSettings.waveformExposure);

			var oldActive = RenderTexture.active;
			Graphics.Blit(null, m_WaveformTexture, m_Material, 0);
			RenderTexture.active = oldActive;

			Graphics.DrawTexture(m_MonitorAreaRect, m_WaveformTexture);

			var color = Color.white;
			const float kTickSize = 5f;

			// Rect, lines & ticks points
			// A B C D E
			// P F
			// O G
			// N H
			// M L K J I

			var A = new Vector3(m_MonitorAreaRect.x, m_MonitorAreaRect.y);
			var E = new Vector3(A.x + m_MonitorAreaRect.width + 1f, m_MonitorAreaRect.y);
			var I = new Vector3(E.x, E.y + m_MonitorAreaRect.height + 1f);
			var M = new Vector3(A.x, I.y);

			var C = new Vector3(A.x + (E.x - A.x) / 2f, A.y);
			var G = new Vector3(E.x, E.y + (I.y - E.y) / 2f);
			var K = new Vector3(M.x + (I.x - M.x) / 2f, M.y);
			var O = new Vector3(A.x, A.y + (M.y - A.y) / 2f);

			var P = new Vector3(A.x, A.y + (O.y - A.y) / 2f);
			var F = new Vector3(E.x, E.y + (G.y - E.y) / 2f);
			var N = new Vector3(A.x, O.y + (M.y - O.y) / 2f);
			var H = new Vector3(E.x, G.y + (I.y - G.y) / 2f);

			var B = new Vector3(A.x + (C.x - A.x) / 2f, A.y);
			var L = new Vector3(M.x + (K.x - M.x) / 2f, M.y);
			var D = new Vector3(C.x + (E.x - C.x) / 2f, A.y);
			var J = new Vector3(K.x + (I.x - K.x) / 2f, M.y);

			// Borders
			Handles.color = color;
			Handles.DrawLine(A, E);
			Handles.DrawLine(E, I);
			Handles.DrawLine(I, M);
			Handles.DrawLine(M, new Vector3(A.x, A.y - 1f));

			// Vertical ticks
			Handles.DrawLine(A, new Vector3(A.x - kTickSize, A.y));
			Handles.DrawLine(P, new Vector3(P.x - kTickSize, P.y));
			Handles.DrawLine(O, new Vector3(O.x - kTickSize, O.y));
			Handles.DrawLine(N, new Vector3(N.x - kTickSize, N.y));
			Handles.DrawLine(M, new Vector3(M.x - kTickSize, M.y));

			Handles.DrawLine(E, new Vector3(E.x + kTickSize, E.y));
			Handles.DrawLine(F, new Vector3(F.x + kTickSize, F.y));
			Handles.DrawLine(G, new Vector3(G.x + kTickSize, G.y));
			Handles.DrawLine(H, new Vector3(H.x + kTickSize, H.y));
			Handles.DrawLine(I, new Vector3(I.x + kTickSize, I.y));

			// Horizontal ticks
			Handles.DrawLine(A, new Vector3(A.x, A.y - kTickSize));
			Handles.DrawLine(B, new Vector3(B.x, B.y - kTickSize));
			Handles.DrawLine(C, new Vector3(C.x, C.y - kTickSize));
			Handles.DrawLine(D, new Vector3(D.x, D.y - kTickSize));
			Handles.DrawLine(E, new Vector3(E.x, E.y - kTickSize));

			Handles.DrawLine(M, new Vector3(M.x, M.y + kTickSize));
			Handles.DrawLine(L, new Vector3(L.x, L.y + kTickSize));
			Handles.DrawLine(K, new Vector3(K.x, K.y + kTickSize));
			Handles.DrawLine(J, new Vector3(J.x, J.y + kTickSize));
			Handles.DrawLine(I, new Vector3(I.x, I.y + kTickSize));

			// Labels
			GUI.color = color;
			GUI.Label(new Rect(A.x - kTickSize - 34f, A.y - 15f, 30f, 30f), "1.0", FxStyles.tickStyleRight);
			GUI.Label(new Rect(O.x - kTickSize - 34f, O.y - 15f, 30f, 30f), "0.5", FxStyles.tickStyleRight);
			GUI.Label(new Rect(M.x - kTickSize - 34f, M.y - 15f, 30f, 30f), "0.0", FxStyles.tickStyleRight);

			GUI.Label(new Rect(E.x + kTickSize + 4f, E.y - 15f, 30f, 30f), "1.0", FxStyles.tickStyleLeft);
			GUI.Label(new Rect(G.x + kTickSize + 4f, G.y - 15f, 30f, 30f), "0.5", FxStyles.tickStyleLeft);
			GUI.Label(new Rect(I.x + kTickSize + 4f, I.y - 15f, 30f, 30f), "0.0", FxStyles.tickStyleLeft);

			GUI.Label(new Rect(M.x - 15f, M.y + kTickSize - 4f, 30f, 30f), "0.0", FxStyles.tickStyleCenter);
			GUI.Label(new Rect(K.x - 15f, K.y + kTickSize - 4f, 30f, 30f), "0.5", FxStyles.tickStyleCenter);
			GUI.Label(new Rect(I.x - 15f, I.y + kTickSize - 4f, 30f, 30f), "1.0", FxStyles.tickStyleCenter);
			}
			}
			}

			public override void OnFrameData(RenderTexture source)
			{
			if (Application.isPlaying && !m_MonitorSettings.refreshOnPlay)
			return;

			if (Mathf.Approximately(m_MonitorAreaRect.width, 0) \|\| Mathf.Approximately(m_MonitorAreaRect.height, 0))
			return;

			float ratio = (float)source.width / (float)source.height;
			int h = 384;
			int w = Mathf.FloorToInt(h * ratio);

			var rt = RenderTexture.GetTemporary(w, h, 0, source.format);
			Graphics.Blit(source, rt);
			ComputeWaveform(rt);
			m_BaseEditor.Repaint();
			RenderTexture.ReleaseTemporary(rt);
			}

			void CreateBuffer(int width, int height)
			{
			m_Buffer = new ComputeBuffer(width * height, sizeof(uint) << 2);
			}

			void ComputeWaveform(RenderTexture source)
			{
			if (m_Buffer == null)
			{
			CreateBuffer(source.width, source.height);
			}
			else if (m_Buffer.count != (source.width * source.height))
			{
			m_Buffer.Release();
			CreateBuffer(source.width, source.height);
			}

			var channels = m_MonitorSettings.waveformY
			? new Vector4(0f, 0f, 0f, 1f)
			: new Vector4(m_MonitorSettings.waveformR ? 1f : 0f, m_MonitorSettings.waveformG ? 1f : 0f, m_MonitorSettings.waveformB ? 1f : 0f, 0f);

			var cs = m_ComputeShader;

			int kernel = cs.FindKernel("KWaveformClear");
			cs.SetBuffer(kernel, "_Waveform", m_Buffer);
			cs.Dispatch(kernel, source.width, 1, 1);

			kernel = cs.FindKernel("KWaveform");
			cs.SetBuffer(kernel, "_Waveform", m_Buffer);
			cs.SetTexture(kernel, "_Source", source);
			cs.SetInt("_IsLinear", GraphicsUtils.isLinearColorSpace ? 1 : 0);
			cs.SetVector("_Channels", channels);
			cs.Dispatch(kernel, source.width, 1, 1);

			if (m_WaveformTexture == null \|\| m_WaveformTexture.width != source.width \|\| m_WaveformTexture.height != source.height)
			{
			GraphicsUtils.Destroy(m_WaveformTexture);
			m_WaveformTexture = new RenderTexture(source.width, source.height, 0, RenderTextureFormat.ARGB32, RenderTextureReadWrite.Linear)
			{
			hideFlags = HideFlags.DontSave,
			wrapMode = TextureWrapMode.Clamp,
			filterMode = FilterMode.Bilinear
			};
			}

			if (m_Material == null)
			m_Material = new Material(Shader.Find("Hidden/Post FX/Monitors/Waveform Render")) { hideFlags = HideFlags.DontSave };

			m_Material.SetBuffer("_Waveform", m_Buffer);
			m_Material.SetVector("_Size", new Vector2(m_WaveformTexture.width, m_WaveformTexture.height));
			m_Material.SetVector("_Channels", channels);
			}
			}
			}