b486678290
Library -Artifacts
157 lines
6.5 KiB
C#
157 lines
6.5 KiB
C#
using UnityEngine;
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using System;
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using System.Collections.Generic;
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namespace UnityEditor.TerrainTools.Erosion
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{
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[Serializable]
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internal class ThermalEroder : ITerrainEroder
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{
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Material m_Material = null;
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Material GetPaintMaterial()
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{
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if (m_Material == null)
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m_Material = new Material(Shader.Find("SimpleHeightBlend"));
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return m_Material;
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}
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Material m_SplatMaterial = null;
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Material GetSplatMaterial()
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{
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if (m_SplatMaterial == null)
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m_SplatMaterial = new Material(Shader.Find("SedimentSplat"));
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return m_SplatMaterial;
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}
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ComputeShader m_ComputeShader = null;
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ComputeShader GetComputeShader()
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{
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if (m_ComputeShader == null)
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{
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m_ComputeShader = ComputeUtility.GetShader("Thermal");
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}
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return m_ComputeShader;
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}
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[SerializeField]
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public int m_AddHeightAmt = 10;
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[SerializeField]
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public int m_ReposeJitter = 0;
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[SerializeField]
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public float m_ReposeNoiseScale = 0.5f;
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[SerializeField]
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public float m_ReposeNoiseAmount = 1.0f;
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[SerializeField]
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public Vector2 m_AngleOfRepose = new Vector2(32.0f, 36.0f);
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[SerializeField]
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public float m_dt = 0.0025f;
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[SerializeField]
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public int m_ThermalIterations = 50;
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[SerializeField]
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public int m_MatPreset = 8; //dry sand
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public Dictionary<string, RenderTexture> inputTextures { get; set; } = new Dictionary<string, RenderTexture>();
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public void OnEnable() { }
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public void ResetTool()
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{
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//presets will always reset resting angle correctly so that will not be reset here
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m_ThermalIterations = 50;
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m_dt = 0.0025f;
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m_ReposeJitter = 0;
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}
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public void ErodeHeightmap(RenderTexture dest, Vector3 terrainDimensions, Rect domainRect, Vector2 texelSize, bool invertEffect = false)
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{
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ErodeHelper(dest, terrainDimensions, domainRect, texelSize, invertEffect, false);
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}
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private void ErodeHelper(RenderTexture dest, Vector3 terrainScale, Rect domainRect, Vector2 texelSize, bool invertEffect, bool lowRes)
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{
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ComputeShader cs = GetComputeShader();
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RenderTexture prevRT = RenderTexture.active;
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int[] numWorkGroups = { 1, 1, 1 };
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//this one is mandatory
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if (!inputTextures.ContainsKey("Height"))
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{
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throw (new Exception("No input heightfield specified!"));
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}
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//figure out what size we need our render targets to be
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int xRes = inputTextures["Height"].width;
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int yRes = inputTextures["Height"].height;
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var heightmapRT0 = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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var heightmapRT1 = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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var sedimentRT = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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var hardnessRT = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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var reposeAngleRT = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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var collisionRT = RTUtils.GetTempHandle(RTUtils.GetDescriptorRW(xRes, yRes, 0, RenderTextureFormat.RFloat));
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//clear the render textures (also calls rt.Create())
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Graphics.Blit(inputTextures["Height"], heightmapRT0);
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Graphics.Blit(inputTextures["Height"], heightmapRT1);
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Graphics.Blit(Texture2D.blackTexture, sedimentRT);
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Graphics.Blit(Texture2D.blackTexture, hardnessRT);
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Graphics.Blit(Texture2D.blackTexture, reposeAngleRT);
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Graphics.Blit(Texture2D.blackTexture, collisionRT);
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int thermalKernelIdx = cs.FindKernel("ThermalErosion");
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//precompute some values on the CPU (constants in the shader)
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float dx = (float)texelSize.x;
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float dy = (float)texelSize.y;
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float dxdy = Mathf.Sqrt(dx * dx + dy * dy);
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cs.SetFloat("dt", m_dt);
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cs.SetFloat("InvDiagMag", 1.0f / dxdy);
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cs.SetVector("dxdy", new Vector4(dx, dy, 1.0f / dx, 1.0f / dy));
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cs.SetVector("terrainDim", new Vector4(terrainScale.x, terrainScale.y, terrainScale.z));
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cs.SetVector("texDim", new Vector4((float)xRes, (float)yRes, 0.0f, 0.0f));
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cs.SetTexture(thermalKernelIdx, "Sediment", sedimentRT);
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cs.SetTexture(thermalKernelIdx, "ReposeMask", reposeAngleRT);
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cs.SetTexture(thermalKernelIdx, "Collision", collisionRT);
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cs.SetTexture(thermalKernelIdx, "Hardness", hardnessRT);
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for (int i = 0; i < m_ThermalIterations; i++)
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{
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cs.SetTexture(thermalKernelIdx, "TerrainHeightPrev", heightmapRT0);
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cs.SetTexture(thermalKernelIdx, "TerrainHeight", heightmapRT1);
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//jitter tau (want a new value each iteration)
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Vector2 jitteredTau = m_AngleOfRepose + new Vector2(0.9f * (float)m_ReposeJitter * (UnityEngine.Random.value - 0.5f), 0.9f * (float)m_ReposeJitter * (UnityEngine.Random.value - 0.5f));
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jitteredTau.x = Mathf.Clamp(jitteredTau.x, 0.0f, 89.9f);
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jitteredTau.y = Mathf.Clamp(jitteredTau.y, 0.0f, 89.9f);
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Vector2 m = new Vector2(Mathf.Tan(jitteredTau.x * Mathf.Deg2Rad), Mathf.Tan(jitteredTau.y * Mathf.Deg2Rad));
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cs.SetVector("angleOfRepose", new Vector4(m.x, m.y, 0.0f, 0.0f));
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cs.Dispatch(thermalKernelIdx, xRes / numWorkGroups[0], yRes / numWorkGroups[1], numWorkGroups[2]);
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// swap
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var temp = heightmapRT0;
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heightmapRT0 = heightmapRT1;
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heightmapRT1 = temp;
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}
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Graphics.Blit((m_ThermalIterations - 1) % 2 == 0 ? heightmapRT1 : heightmapRT0, dest);
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//reset the active render texture so weird stuff doesn't happen (Blit overwrites this)
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RenderTexture.active = prevRT;
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RTUtils.Release(heightmapRT0);
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RTUtils.Release(heightmapRT1);
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RTUtils.Release(sedimentRT);
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RTUtils.Release(hardnessRT);
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RTUtils.Release(reposeAngleRT);
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RTUtils.Release(collisionRT);
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}
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}
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} |