Schaken/Firstborn
Schaken/Firstborn
2
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
Firstborn/Assets/AwesomeTechnologies/VegetationStudioPro/Runtime/VegetationSystemPro/TextureMasks/TextureMask.cs
Schaken-Mods 959e80cf72 assets upload 
assets upload description.
2023-03-28 12:16:30 -05:00

620 lines
24 KiB
C#
Raw Permalink Blame History

using AwesomeTechnologies.VegetationSystem;
using Unity.Burst;
using Unity.Collections;
using Unity.Jobs;
using Unity.Mathematics;
using UnityEngine;
namespace AwesomeTechnologies.Vegetation.Masks
{
// [BurstCompile]
// public struct SampleRgbaChannelIncludeMask : IJob
// {
// public NativeList<VegetationInstance> InstanceList;
// [ReadOnly]
// public NativeArray<RGBABytes> RgbaNativeArray;
//
// public bool Inverse;
// public int SelectedChannel;
//
// public int Width;
// public int Height;
// public Rect TextureRect;
//
// public float MinValue;
// public float MaxValue;
//
// public void Execute()
// {
// float2 cellSize = new float2(TextureRect.width/Width,TextureRect.height/Height);
// float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width/2f, 0, TextureRect.center.y - TextureRect.height / 2f);
//
// int minValue = Mathf.RoundToInt(MinValue * 256);
// int maxValue = Mathf.RoundToInt(MaxValue * 256);
//
// for (int i = 0; i <= InstanceList.Length - 1; i++)
// {
// VegetationInstance vegetationInstance = InstanceList[i];
// float3 localPosition = vegetationInstance.Position - texturePosition;
//
// int x = Mathf.RoundToInt(localPosition.x / cellSize.x);
// int z = Mathf.RoundToInt(localPosition.z / cellSize.y);
//
// if (x < 0 || x > Width - 1) continue;
// if (z < 0 || z > Height -1) continue;
//
// int value = 0;
//
//
//
// switch (SelectedChannel)
// {
// case 0:
// value = RgbaNativeArray[x + (z * Width)].R;
// break;
// case 1:
// value = RgbaNativeArray[x + (z * Width)].G;
// break;
// case 2:
// value = RgbaNativeArray[x + (z * Width)].B;
// break;
// case 3:
// value = RgbaNativeArray[x + (z * Width)].A;
// break;
// }
//
// if (Inverse)
// {
// value = 256 - value;
// }
//
// if (value >= minValue && value <= maxValue)
// {
// vegetationInstance.TextureMaskData = 1;
// }
// InstanceList[i] = vegetationInstance;
// }
// }
// }
[BurstCompile]
public struct SampleRgbaChannelIncludeMaskJob : IJobParallelForDefer
{
[NativeDisableParallelForRestriction]
public NativeList<float3> Position;
[NativeDisableParallelForRestriction]
public NativeList<byte> TextureMaskData;
[NativeDisableParallelForRestriction]
public NativeList<byte> Excluded;
[ReadOnly] public NativeArray<RGBABytes> RgbaNativeArray;
public bool Inverse;
public int SelectedChannel;
public int Width;
public int Height;
public Rect TextureRect;
public float MinValue;
public float MaxValue;
public float2 Repeat;
public void Execute(int index)
{
if (Excluded[index] == 1) return;
float2 cellSize = new float2(TextureRect.width / Width, TextureRect.height / Height);
float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width / 2f, 0,
TextureRect.center.y - TextureRect.height / 2f);
int minValue = Mathf.RoundToInt(MinValue * 256);
int maxValue = Mathf.RoundToInt(MaxValue * 256);
float3 localPosition = Position[index] - texturePosition;
localPosition = new float3(localPosition.x / cellSize.x ,0,localPosition.z / cellSize.y);
float3 normalizedPosition = new float3(localPosition.x/Width, 0, localPosition.z/Height);
normalizedPosition = new float3(normalizedPosition.x*Repeat.x,0, normalizedPosition.z* Repeat.y);
normalizedPosition = math.frac(normalizedPosition);
int x = Mathf.RoundToInt(normalizedPosition.x * Width);
int z = Mathf.RoundToInt(normalizedPosition.z * Height);
//int x = Mathf.RoundToInt((localPosition.x / cellSize.x));
//int z = Mathf.RoundToInt((localPosition.z / cellSize.y));
if (x < 0 || x > Width - 1) return;
if (z < 0 || z > Height - 1) return;
int value = 0;
switch (SelectedChannel)
{
case 0:
value = RgbaNativeArray[x + (z * Width)].R;
break;
case 1:
value = RgbaNativeArray[x + (z * Width)].G;
break;
case 2:
value = RgbaNativeArray[x + (z * Width)].B;
break;
case 3:
value = RgbaNativeArray[x + (z * Width)].A;
break;
}
if (Inverse)
{
value = 256 - value;
}
if (value >= minValue && value <= maxValue)
{
TextureMaskData[index] = 1;
}
}
}
// [BurstCompile]
// public struct SampleRgbaChannelExcludeMask : IJob
// {
// public NativeList<VegetationInstance> InstanceList;
// [ReadOnly] public NativeArray<RGBABytes> RgbaNativeArray;
//
// public bool Inverse;
// public int SelectedChannel;
//
// public int Width;
// public int Height;
// public Rect TextureRect;
//
// public float MinValue;
// public float MaxValue;
//
// public void Execute()
// {
// float2 cellSize = new float2(TextureRect.width / Width, TextureRect.height / Height);
// float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width / 2f, 0,
// TextureRect.center.y - TextureRect.height / 2f);
//
// int minValue = Mathf.RoundToInt(MinValue * 256);
// int maxValue = Mathf.RoundToInt(MaxValue * 256);
//
// for (int i = InstanceList.Length - 1; i >= 0; i--)
// {
// VegetationInstance vegetationInstance = InstanceList[i];
// float3 localPosition = vegetationInstance.Position - texturePosition;
//
// int x = Mathf.RoundToInt(localPosition.x / cellSize.x);
// int z = Mathf.RoundToInt(localPosition.z / cellSize.y);
//
// if (x < 0 || x > Width - 1) continue;
// if (z < 0 || z > Height - 1) continue;
//
// int value = 0;
//
// switch (SelectedChannel)
// {
// case 0:
// value = RgbaNativeArray[x + (z * Width)].R;
// break;
// case 1:
// value = RgbaNativeArray[x + (z * Width)].G;
// break;
// case 2:
// value = RgbaNativeArray[x + (z * Width)].B;
// break;
// case 3:
// value = RgbaNativeArray[x + (z * Width)].A;
// break;
// }
//
// if (Inverse)
// {
// value = 256 - value;
// }
//
// if (value >= minValue && value <= maxValue)
// {
// InstanceList.RemoveAtSwapBack(i);
// }
// }
// }
// }
[BurstCompile]
public struct SampleRgbaChannelDensityMaskJob : IJobParallelForDefer
{
[NativeDisableParallelForRestriction]
public NativeList<VegetationSpawnLocationInstance> SpawnLocations;
[ReadOnly] public NativeArray<RGBABytes> RgbaNativeArray;
public bool Inverse;
public int SelectedChannel;
public int Width;
public int Height;
public Rect TextureRect;
public float DensityMultiplier;
public float2 Repeat;
public void Execute(int index)
{
VegetationSpawnLocationInstance spawnLocation = SpawnLocations[index];
float2 cellSize = new float2(TextureRect.width / Width, TextureRect.height / Height);
float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width / 2f, 0,
TextureRect.center.y - TextureRect.height / 2f);
float3 localPosition = spawnLocation.Position - texturePosition;
localPosition = new float3(localPosition.x / cellSize.x, 0, localPosition.z / cellSize.y);
float3 normalizedPosition = new float3(localPosition.x / Width, 0, localPosition.z / Height);
normalizedPosition = new float3(normalizedPosition.x * Repeat.x, 0, normalizedPosition.z * Repeat.y);
normalizedPosition = math.frac(normalizedPosition);
int x = Mathf.RoundToInt(normalizedPosition.x * Width);
int z = Mathf.RoundToInt(normalizedPosition.z * Height);
if (x < 0 || x > Width - 1) return;
if (z < 0 || z > Height - 1) return;
int value = 0;
switch (SelectedChannel)
{
case 0:
value = RgbaNativeArray[x + (z * Width)].R;
break;
case 1:
value = RgbaNativeArray[x + (z * Width)].G;
break;
case 2:
value = RgbaNativeArray[x + (z * Width)].B;
break;
case 3:
value = RgbaNativeArray[x + (z * Width)].A;
break;
}
if (Inverse)
{
value = 256 - value;
}
float densityFactor = (value / 256f) * DensityMultiplier;
spawnLocation.SpawnChance = spawnLocation.SpawnChance * densityFactor;
SpawnLocations[index] = spawnLocation;
}
}
[BurstCompile]
public struct SampleRgbaChannelScaleMaskJob : IJobParallelForDefer
{
[NativeDisableParallelForRestriction]
public NativeList<float3> Position;
[NativeDisableParallelForRestriction]
public NativeList<byte> Excluded;
[NativeDisableParallelForRestriction]
public NativeList<float3> Scale;
[ReadOnly] public NativeArray<RGBABytes> RgbaNativeArray;
public bool Inverse;
public int SelectedChannel;
public int Width;
public int Height;
public Rect TextureRect;
public float ScaleMultiplier;
public float2 Repeat;
public void Execute(int index)
{
if (Excluded[index] == 1) return;
float2 cellSize = new float2(TextureRect.width / Width, TextureRect.height / Height);
float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width / 2f, 0,
TextureRect.center.y - TextureRect.height / 2f);
float3 localPosition = Position[index] - texturePosition;
localPosition = new float3(localPosition.x / cellSize.x, 0, localPosition.z / cellSize.y);
float3 normalizedPosition = new float3(localPosition.x / Width, 0, localPosition.z / Height);
normalizedPosition = new float3(normalizedPosition.x * Repeat.x, 0, normalizedPosition.z * Repeat.y);
normalizedPosition = math.frac(normalizedPosition);
int x = Mathf.RoundToInt(normalizedPosition.x * Width);
int z = Mathf.RoundToInt(normalizedPosition.z * Height);
if (x < 0 || x > Width - 1) return;
if (z < 0 || z > Height - 1) return;
int value = 0;
switch (SelectedChannel)
{
case 0:
value = RgbaNativeArray[x + (z * Width)].R;
break;
case 1:
value = RgbaNativeArray[x + (z * Width)].G;
break;
case 2:
value = RgbaNativeArray[x + (z * Width)].B;
break;
case 3:
value = RgbaNativeArray[x + (z * Width)].A;
break;
}
if (Inverse)
{
value = 256 - value;
}
float3 originalScale = Scale[index];
float scaleFactor = (value / 256f) * ScaleMultiplier;
Scale[index] = new float3(originalScale.x * scaleFactor, originalScale.y* scaleFactor, originalScale.z * scaleFactor);
}
}
[BurstCompile]
public struct SampleRgbaChannelExcludeMaskJob : IJobParallelForDefer
{
[NativeDisableParallelForRestriction]
public NativeList<float3> Position;
[NativeDisableParallelForRestriction]
public NativeList<byte> Excluded;
[ReadOnly] public NativeArray<RGBABytes> RgbaNativeArray;
public bool Inverse;
public int SelectedChannel;
public int Width;
public int Height;
public Rect TextureRect;
public float MinValue;
public float MaxValue;
public float2 Repeat;
public void Execute(int index)
{
if (Excluded[index] == 1) return;
float2 cellSize = new float2(TextureRect.width / Width, TextureRect.height / Height);
float3 texturePosition = new float3(TextureRect.center.x - TextureRect.width / 2f, 0,
TextureRect.center.y - TextureRect.height / 2f);
int minValue = Mathf.RoundToInt(MinValue * 256);
int maxValue = Mathf.RoundToInt(MaxValue * 256);
float3 localPosition = Position[index] - texturePosition;
localPosition = new float3(localPosition.x / cellSize.x ,0,localPosition.z / cellSize.y);
float3 normalizedPosition = new float3(localPosition.x/Width, 0, localPosition.z/Height);
normalizedPosition = new float3(normalizedPosition.x*Repeat.x,0, normalizedPosition.z* Repeat.y);
normalizedPosition = math.frac(normalizedPosition);
int x = Mathf.RoundToInt(normalizedPosition.x * Width);
int z = Mathf.RoundToInt(normalizedPosition.z * Height);
//int x = Mathf.RoundToInt((localPosition.x / Repeat.x) / cellSize.x);
//int z = Mathf.RoundToInt((localPosition.z / Repeat.y) / cellSize.y);
if (x < 0 || x > Width - 1) return;
if (z < 0 || z > Height - 1) return;
int value = 0;
switch (SelectedChannel)
{
case 0:
value = RgbaNativeArray[x + (z * Width)].R;
break;
case 1:
value = RgbaNativeArray[x + (z * Width)].G;
break;
case 2:
value = RgbaNativeArray[x + (z * Width)].B;
break;
case 3:
value = RgbaNativeArray[x + (z * Width)].A;
break;
}
if (Inverse)
{
value = 256 - value;
}
if (value >= minValue && value <= maxValue)
{
Excluded[index] = 1;
}
}
}
[System.Serializable]
public class TextureMask
{
public Rect TextureRect;
public Vector2 Repeat = Vector2.one;
public Texture2D MaskTexture;
private NativeArray<RGBABytes> _rgbaNativeArray;
public JobHandle SampleIncludeMask(VegetationInstanceData instanceData, Rect spawnRect,
TextureMaskType textureMaskType, TextureMaskRule textureMaskRule, JobHandle dependsOn)
{
if (!spawnRect.Overlaps(TextureRect)) return dependsOn;
if (MaskTexture == null) return dependsOn;
switch (textureMaskType)
{
case TextureMaskType.RGBAChannel:
_rgbaNativeArray = MaskTexture.GetRawTextureData<RGBABytes>();
bool inverse = textureMaskRule.GetBooleanPropertyValue("Inverse");
int selectedChannel = textureMaskRule.GetIntPropertyValue("ChannelSelector");
if (MaskTexture.format == TextureFormat.RGBA32)
{
selectedChannel--;
if (selectedChannel == -1) selectedChannel = 3;
}
SampleRgbaChannelIncludeMaskJob sampleRgbaChannelIncludeMaskJob =
new SampleRgbaChannelIncludeMaskJob();
sampleRgbaChannelIncludeMaskJob.Width = MaskTexture.width;
sampleRgbaChannelIncludeMaskJob.Height = MaskTexture.height;
sampleRgbaChannelIncludeMaskJob.Repeat = Repeat;
sampleRgbaChannelIncludeMaskJob.Excluded = instanceData.Excluded;
sampleRgbaChannelIncludeMaskJob.Position = instanceData.Position;
sampleRgbaChannelIncludeMaskJob.TextureMaskData = instanceData.TextureMaskData;
sampleRgbaChannelIncludeMaskJob.RgbaNativeArray = _rgbaNativeArray;
sampleRgbaChannelIncludeMaskJob.SelectedChannel = selectedChannel;
sampleRgbaChannelIncludeMaskJob.Inverse = inverse;
sampleRgbaChannelIncludeMaskJob.TextureRect = TextureRect;
sampleRgbaChannelIncludeMaskJob.MinValue = textureMaskRule.MinDensity;
sampleRgbaChannelIncludeMaskJob.MaxValue = textureMaskRule.MaxDensity;
return sampleRgbaChannelIncludeMaskJob.Schedule(instanceData.Excluded, 32, dependsOn);
}
return dependsOn;
}
public JobHandle SampleExcludeMask(VegetationInstanceData instanceData, Rect spawnRect,
TextureMaskType textureMaskType, TextureMaskRule textureMaskRule, JobHandle dependsOn)
{
if (!spawnRect.Overlaps(TextureRect)) return dependsOn;
if (MaskTexture == null) return dependsOn;
switch (textureMaskType)
{
case TextureMaskType.RGBAChannel:
_rgbaNativeArray = MaskTexture.GetRawTextureData<RGBABytes>();
bool inverse = textureMaskRule.GetBooleanPropertyValue("Inverse");
int selectedChannel = textureMaskRule.GetIntPropertyValue("ChannelSelector");
if (MaskTexture.format == TextureFormat.RGBA32)
{
selectedChannel--;
if (selectedChannel == -1) selectedChannel = 3;
}
SampleRgbaChannelExcludeMaskJob sampleRgbaChannelExcludeMaskJob = new SampleRgbaChannelExcludeMaskJob();
sampleRgbaChannelExcludeMaskJob.Width = MaskTexture.width;
sampleRgbaChannelExcludeMaskJob.Height = MaskTexture.height;
sampleRgbaChannelExcludeMaskJob.Repeat = Repeat;
sampleRgbaChannelExcludeMaskJob.Excluded = instanceData.Excluded;
sampleRgbaChannelExcludeMaskJob.Position = instanceData.Position;
sampleRgbaChannelExcludeMaskJob.RgbaNativeArray = _rgbaNativeArray;
sampleRgbaChannelExcludeMaskJob.SelectedChannel = selectedChannel;
sampleRgbaChannelExcludeMaskJob.Inverse = inverse;
sampleRgbaChannelExcludeMaskJob.TextureRect = TextureRect;
sampleRgbaChannelExcludeMaskJob.MinValue = textureMaskRule.MinDensity;
sampleRgbaChannelExcludeMaskJob.MaxValue = textureMaskRule.MaxDensity;
return sampleRgbaChannelExcludeMaskJob.Schedule(instanceData.Excluded,32,dependsOn);
}
return dependsOn;
}
public JobHandle SampleScaleMask(VegetationInstanceData instanceData, Rect spawnRect,
TextureMaskType textureMaskType, TextureMaskRule textureMaskRule, JobHandle dependsOn)
{
if (!spawnRect.Overlaps(TextureRect)) return dependsOn;
if (MaskTexture == null) return dependsOn;
switch (textureMaskType)
{
case TextureMaskType.RGBAChannel:
_rgbaNativeArray = MaskTexture.GetRawTextureData<RGBABytes>();
bool inverse = textureMaskRule.GetBooleanPropertyValue("Inverse");
int selectedChannel = textureMaskRule.GetIntPropertyValue("ChannelSelector");
if (MaskTexture.format == TextureFormat.RGBA32)
{
selectedChannel--;
if (selectedChannel == -1) selectedChannel = 3;
}
SampleRgbaChannelScaleMaskJob sampleRgbaChannelScaleMaskJob = new SampleRgbaChannelScaleMaskJob();
sampleRgbaChannelScaleMaskJob.Width = MaskTexture.width;
sampleRgbaChannelScaleMaskJob.Height = MaskTexture.height;
sampleRgbaChannelScaleMaskJob.Repeat = Repeat;
sampleRgbaChannelScaleMaskJob.Excluded = instanceData.Excluded;
sampleRgbaChannelScaleMaskJob.Position = instanceData.Position;
sampleRgbaChannelScaleMaskJob.Scale = instanceData.Scale;
sampleRgbaChannelScaleMaskJob.RgbaNativeArray = _rgbaNativeArray;
sampleRgbaChannelScaleMaskJob.SelectedChannel = selectedChannel;
sampleRgbaChannelScaleMaskJob.Inverse = inverse;
sampleRgbaChannelScaleMaskJob.TextureRect = TextureRect;
sampleRgbaChannelScaleMaskJob.ScaleMultiplier = textureMaskRule.ScaleMultiplier;
return sampleRgbaChannelScaleMaskJob.Schedule(instanceData.Excluded, 32, dependsOn);
}
return dependsOn;
}
public JobHandle SampleDensityMask(VegetationInstanceData instanceData, Rect spawnRect,
TextureMaskType textureMaskType, TextureMaskRule textureMaskRule, JobHandle dependsOn)
{
if (!spawnRect.Overlaps(TextureRect)) return dependsOn;
if (MaskTexture == null) return dependsOn;
switch (textureMaskType)
{
case TextureMaskType.RGBAChannel:
_rgbaNativeArray = MaskTexture.GetRawTextureData<RGBABytes>();
bool inverse = textureMaskRule.GetBooleanPropertyValue("Inverse");
int selectedChannel = textureMaskRule.GetIntPropertyValue("ChannelSelector");
if (MaskTexture.format == TextureFormat.RGBA32)
{
selectedChannel--;
if (selectedChannel == -1) selectedChannel = 3;
}
SampleRgbaChannelDensityMaskJob sampleRgbaChannelDensityMaskJob = new SampleRgbaChannelDensityMaskJob();
sampleRgbaChannelDensityMaskJob.Width = MaskTexture.width;
sampleRgbaChannelDensityMaskJob.Height = MaskTexture.height;
sampleRgbaChannelDensityMaskJob.Repeat = Repeat;
sampleRgbaChannelDensityMaskJob.SpawnLocations = instanceData.SpawnLocations;
sampleRgbaChannelDensityMaskJob.RgbaNativeArray = _rgbaNativeArray;
sampleRgbaChannelDensityMaskJob.SelectedChannel = selectedChannel;
sampleRgbaChannelDensityMaskJob.Inverse = inverse;
sampleRgbaChannelDensityMaskJob.TextureRect = TextureRect;
sampleRgbaChannelDensityMaskJob.DensityMultiplier = textureMaskRule.DensityMultiplier;
return sampleRgbaChannelDensityMaskJob.Schedule(instanceData.SpawnLocations, 32, dependsOn);
}
return dependsOn;
}
public void Dispose()
{
}
}
}
Reference in New Issue View Git Blame Copy Permalink