rabidus-test/Assets/Dreamteck/Splines/Components/WaveformGenerator.cs

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C#
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2023-07-24 16:38:13 +03:00
using UnityEngine;
using System.Collections;
using System.Collections.Generic;
namespace Dreamteck.Splines
{
[RequireComponent(typeof(MeshFilter))]
[RequireComponent(typeof(MeshRenderer))]
[AddComponentMenu("Dreamteck/Splines/Users/Waveform Generator")]
public class WaveformGenerator : MeshGenerator
{
public enum Axis { X, Y, Z }
public enum Space { World, Local }
public enum UVWrapMode { Clamp, UniformX, UniformY, Uniform }
public Axis axis
{
get { return _axis; }
set
{
if (value != _axis)
{
_axis = value;
Rebuild();
}
}
}
public bool symmetry
{
get { return _symmetry; }
set
{
if (value != _symmetry)
{
_symmetry = value;
Rebuild();
}
}
}
public UVWrapMode uvWrapMode
{
get { return _uvWrapMode; }
set
{
if (value != _uvWrapMode)
{
_uvWrapMode = value;
Rebuild();
}
}
}
public int slices
{
get { return _slices; }
set
{
if (value != _slices)
{
if (value < 1) value = 1;
_slices = value;
Rebuild();
}
}
}
[SerializeField]
[HideInInspector]
private Axis _axis = Axis.Y;
[SerializeField]
[HideInInspector]
private bool _symmetry = false;
[SerializeField]
[HideInInspector]
private UVWrapMode _uvWrapMode = UVWrapMode.Clamp;
[SerializeField]
[HideInInspector]
private int _slices = 1;
protected override string meshName => "Waveform";
protected override void BuildMesh()
{
base.BuildMesh();
Generate();
}
protected override void Build()
{
base.Build();
}
protected override void LateRun()
{
base.LateRun();
}
private void Generate()
{
int vertexCount = sampleCount * (_slices + 1);
AllocateMesh(vertexCount, _slices * (sampleCount - 1) * 6);
int vertIndex = 0;
float avgTop = 0f;
float totalLength = 0f;
Vector3 computerPosition = spline.position;
Vector3 normal = spline.TransformDirection(Vector3.right);
switch (_axis)
{
case Axis.Y: normal = spline.TransformDirection(Vector3.up); break;
case Axis.Z: normal = spline.TransformDirection(Vector3.forward); break;
}
Vector3 lastPosition = Vector3.zero;
for (int i = 0; i < sampleCount; i++)
{
GetSample(i, ref evalResult);
float resultSize = GetBaseSize(evalResult);
Vector3 samplePosition = evalResult.position;
Vector3 localSamplePosition = spline.InverseTransformPoint(samplePosition);
Vector3 bottomPosition = localSamplePosition;
Vector3 sampleDirection = evalResult.forward;
Vector3 sampleNormal = evalResult.up;
float heightPercent = 1f;
if (_uvWrapMode == UVWrapMode.UniformX || _uvWrapMode == UVWrapMode.Uniform)
{
if (i > 0)
{
totalLength += Vector3.Distance(evalResult.position, lastPosition);
}
}
switch (_axis)
{
case Axis.X: bottomPosition.x = _symmetry ? -localSamplePosition.x : 0f; heightPercent = uvScale.y * Mathf.Abs(localSamplePosition.x); avgTop += localSamplePosition.x; break;
case Axis.Y: bottomPosition.y = _symmetry ? -localSamplePosition.y : 0f; heightPercent = uvScale.y * Mathf.Abs(localSamplePosition.y); avgTop += localSamplePosition.y; break;
case Axis.Z: bottomPosition.z = _symmetry ? -localSamplePosition.z : 0f; heightPercent = uvScale.y * Mathf.Abs(localSamplePosition.z); avgTop += localSamplePosition.z; break;
}
bottomPosition = spline.TransformPoint(bottomPosition);
Vector3 right = Vector3.Cross(normal, sampleDirection).normalized;
Vector3 offsetRight = Vector3.Cross(sampleNormal, sampleDirection);
for (int n = 0; n < _slices + 1; n++)
{
float slicePercent = ((float)n / _slices);
_tsMesh.vertices[vertIndex] = Vector3.Lerp(bottomPosition, samplePosition, slicePercent) + normal * (offset.y * resultSize) + offsetRight * (offset.x * resultSize);
_tsMesh.normals[vertIndex] = right;
switch (_uvWrapMode)
{
case UVWrapMode.Clamp: _tsMesh.uv[vertIndex] = new Vector2((float)evalResult.percent * uvScale.x + uvOffset.x, slicePercent * uvScale.y + uvOffset.y); break;
case UVWrapMode.UniformX: _tsMesh.uv[vertIndex] = new Vector2(totalLength * uvScale.x + uvOffset.x, slicePercent * uvScale.y + uvOffset.y); break;
case UVWrapMode.UniformY: _tsMesh.uv[vertIndex] = new Vector2((float)evalResult.percent * uvScale.x + uvOffset.x, heightPercent * slicePercent * uvScale.y + uvOffset.y); break;
case UVWrapMode.Uniform: _tsMesh.uv[vertIndex] = new Vector2(totalLength * uvScale.x + uvOffset.x, heightPercent * slicePercent * uvScale.y + uvOffset.y); break;
}
_tsMesh.colors[vertIndex] = GetBaseColor(evalResult) * color;
vertIndex++;
}
lastPosition = evalResult.position;
}
if (sampleCount > 0) avgTop /= sampleCount;
MeshUtility.GeneratePlaneTriangles(ref _tsMesh.triangles, _slices, sampleCount, avgTop < 0f);
}
}
}