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mujoco / data /unity /Tests /Editor /Components /Shapes /MeshGeneratorsTests.cs
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// Copyright 2019 DeepMind Technologies Limited
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using NUnit.Framework;
using UnityEngine;
using UnityEngine.TestTools.Utils;
namespace Mujoco {
[TestFixture]
 public class MeshGeneratorsEditorTests {
 [Test]
 public void FirstAndLastVerticalSlicesContainVerticesLocatedInTheSamePlace() {
 var meshData = MeshGenerators.BuildSphere(scale: Vector3.one, numVerticalSlices: 4,
 numHorizontalSlices: 3);
 var vertices = meshData.Item1;
 Assert.That(vertices[0], Is.EqualTo(vertices[1]));
 Assert.That(vertices[1], Is.EqualTo(vertices[2]));
 Assert.That(vertices[2], Is.EqualTo(vertices[3]));
 Assert.That(vertices[8], Is.EqualTo(vertices[9]));
 Assert.That(vertices[9], Is.EqualTo(vertices[10]));
 Assert.That(vertices[10], Is.EqualTo(vertices[11]));
 }
[Test]
 public void GeneratedSphereWithProperScaling() {
 var scale = new Vector3(0.5f, 2, 3);
 var meshData =
 MeshGenerators.BuildSphere(scale: scale, numVerticalSlices: 4, numHorizontalSlices: 3);
 var vertices = meshData.Item1;
 // One of the vertices of the bottom cap.
 Assert.That(vertices[0], Is.EqualTo(Vector3.down * scale.y).Using(Vector3ComparerWithEqualsOperator.Instance));
 // One of the vertices of the top cap.
 Assert.That(vertices[8], Is.EqualTo(Vector3.up * scale.y).Using(Vector3ComparerWithEqualsOperator.Instance));
 // The sides.
 Assert.That(vertices[4], Is.EqualTo(Vector3.right * scale.x).Using(Vector3ComparerWithEqualsOperator.Instance));
 Assert.That(vertices[5], Is.EqualTo(Vector3.back * scale.z).Using(Vector3ComparerWithEqualsOperator.Instance));
 Assert.That(vertices[6], Is.EqualTo(Vector3.left * scale.x).Using(Vector3ComparerWithEqualsOperator.Instance));
 Assert.That(vertices[7],
 Is.EqualTo(Vector3.forward * scale.z).Using(Vector3ComparerWithEqualsOperator.Instance));
 }
[Test]
 public void GeneratedCylinderHasCorrectHeight() {
 var meshData = MeshGenerators.BuildCylinder(radius: 1.0f, height: 5.0f, numVerticalSlices: 4);
 var bottomVertex =
 meshData.Item1.Aggregate((result, item) => result.y < item.y ? result : item);
 var topVertex = meshData.Item1.Aggregate((result, item) => result.y > item.y ? result : item);
 Assert.That(topVertex.y - bottomVertex.y, Is.EqualTo(5.0f).Within(1e-3f));
 }
[Test]
 public void GeneratedCylinderHasCorrectRadius() {
 var meshData = MeshGenerators.BuildCylinder(radius: 2.0f, height: 1.0f, numVerticalSlices: 4);
 var averageRadius =
 meshData.Item1.Select(v => new Vector3(v.x, 0, v.z).magnitude).Average(radius => radius);
 Assert.That(averageRadius, Is.EqualTo(2.0f).Within(1e-3f));
 }
[Test]
 public void GeneratedCapsuleHasCorrectHeight() {
 var meshData = MeshGenerators.BuildCapsule(radius: 1.0f, height: 5.0f, numVerticalSlices: 4,
 numHorizontalSlices: 3);
 var bottomVertex =
 meshData.Item1.Aggregate((result, item) => result.y < item.y ? result : item);
 var topVertex = meshData.Item1.Aggregate((result, item) => result.y > item.y ? result : item);
 // The height of the capsule is the height of the body plus the diameter of the sphere that
 // forms the bases.
 Assert.That(topVertex.y - bottomVertex.y, Is.EqualTo(5.0f).Within(1e-3f));
 }
[Test]
 public void GeneratedCapsuleHasCorrectRadius() {
 var meshData = MeshGenerators.BuildCapsule(radius: 2.0f, height: 3.0f, numVerticalSlices: 4,
 numHorizontalSlices: 3);
 var averageRadius = meshData.Item1.Where(v => Math.Abs(v.y) <= 0.5f)
 .Select(v => new Vector3(v.x, 0, v.z).magnitude)
 .Average(radius => radius);
 Assert.That(averageRadius, Is.EqualTo(2.0f).Within(1e-3f));
 }
[Test]
 public void GeneratedBoxHasCorrectExtents() {
 var extents = new Vector3(0.5f, 2, 3);
 var meshData = MeshGenerators.BuildBox(extents: extents);
 var minVertex = meshData.Item1.Aggregate(
 (result, item) =>
 (result.x + result.y + result.z) < (item.x + item.y + item.z) ? result : item);
 var maxVertex = meshData.Item1.Aggregate(
 (result, item) =>
 (result.x + result.y + result.z) > (item.x + item.y + item.z) ? result : item);
 Assert.That(minVertex, Is.EqualTo(extents * -1.0f).Using(Vector3ComparerWithEqualsOperator.Instance));
 Assert.That(maxVertex, Is.EqualTo(extents).Using(Vector3ComparerWithEqualsOperator.Instance));
 }
[Test]
 public void GeneratedBoxTriangleMapIsAListOfConsecutiveIntegers() {
 var meshData = MeshGenerators.BuildBox(extents: Vector3.one);
 Assert.That(meshData.Item2, Has.Length.EqualTo(36));
 for (var i = 0; i < 36; ++i) {
 Assert.That(meshData.Item2[i], Is.EqualTo(i));
 }
 }
[Test]
 public void GeneratedPlaneHasCorrectExtents() {
 var meshData = MeshGenerators.BuildPlane(width: 2, height: 3);
 var minVertex = meshData.Item1.Aggregate(
 (result, item) => (result.x + result.z) < (item.x + item.z) ? result : item);
 var maxVertex = meshData.Item1.Aggregate(
 (result, item) => (result.x + result.z) > (item.x + item.z) ? result : item);
 Assert.That(minVertex, Is.EqualTo(new Vector3(-1, 0, -1.5f)).Using(Vector3ComparerWithEqualsOperator.Instance));
 Assert.That(maxVertex, Is.EqualTo(new Vector3(1, 0, 1.5f)).Using(Vector3ComparerWithEqualsOperator.Instance));
 }
 }
[TestFixture]
 public class MeshMergerEditorTests {
 private MeshMerger _meshMerger;
[SetUp]
 public void SetUp() {
 _meshMerger = new MeshMerger();
 }
[Test]
 public void AddingMeshVerticesAggregatesThem() {
 _meshMerger.Add(vertices: new Vector3[] { Vector3.one }, triangles: new int[] {});
 Assert.That(_meshMerger.Vertices, Has.Length.EqualTo(1));
 _meshMerger.Add(vertices: new Vector3[] { Vector3.forward }, triangles: new int[] {});
 Assert.That(_meshMerger.Vertices, Has.Length.EqualTo(2));
 Assert.That(_meshMerger.Vertices[0], Is.EqualTo(Vector3.one));
 Assert.That(_meshMerger.Vertices[1], Is.EqualTo(Vector3.forward));
 }
[Test]
 public void TriangleIndicesAreOffsetToPointAtTheCorrespondingMeshes() {
 _meshMerger.Add(vertices: new Vector3[] { Vector3.right, Vector3.up },
 triangles: new int[] { 0, 1 });
 _meshMerger.Add(vertices: new Vector3[] { Vector3.forward, Vector3.zero },
 triangles: new int[] { 0, 1 });
 Assert.That(_meshMerger.Triangles, Has.Length.EqualTo(4));
 Assert.That(_meshMerger.Vertices[_meshMerger.Triangles[0]], Is.EqualTo(Vector3.right));
 Assert.That(_meshMerger.Vertices[_meshMerger.Triangles[1]], Is.EqualTo(Vector3.up));
 Assert.That(_meshMerger.Vertices[_meshMerger.Triangles[2]], Is.EqualTo(Vector3.forward));
 Assert.That(_meshMerger.Vertices[_meshMerger.Triangles[3]], Is.EqualTo(Vector3.zero));
 }
[Test]
 public void TranslatingAddedVertices() {
 _meshMerger.AddAndTranslate(vertices: new Vector3[] { Vector3.zero }, triangles: new int[] {},
 translation: Vector3.right);
 _meshMerger.AddAndTranslate(vertices: new Vector3[] { Vector3.zero }, triangles: new int[] {},
 translation: Vector3.up);
 Assert.That(_meshMerger.Vertices[0], Is.EqualTo(Vector3.right));
 Assert.That(_meshMerger.Vertices[1], Is.EqualTo(Vector3.up));
 }
 }
}