cup_edit/thermion_dart/test/geometry_tests.dart

// ignore_for_file: unused_local_variable
import 'dart:io';
import 'dart:math';
import 'package:thermion_dart/thermion_dart.dart';
import 'package:test/test.dart';
import 'package:vector_math/vector_math_64.dart';
import 'helpers.dart';

void main() async {
  final testHelper = TestHelper("geometry");
  await testHelper.setup();
  group("custom geometry", () {
    test('add geometry', () async {
      await testHelper.withViewer((viewer) async {
        final asset = await viewer.createGeometry(GeometryHelper.cube());
        await viewer.addToScene(asset);
        await testHelper.capture(viewer.view, "add_geometry");
        await viewer.removeFromScene(asset);
        await testHelper.capture(viewer.view, "remove_geometry");
        await viewer.destroyAsset(asset);
      }, bg: kRed);
    });
  });
  //   test('create cube with normals & uvs', () async {
  //     var viewer = await testHelper.createViewer();
  //     await viewer
  //         .createGeometry(GeometryHelper.cube(normals: true, uvs: true));
  //     await testHelper.capture(viewer, "geometry_cube_with_normals_uvs");
  //   });

  //   test('create cube (no normals/uvs)', () async {
  //     await testHelper.withViewer((viewer) async {
  //       var viewMatrix =
  //           makeViewMatrix(Vector3(0, 2, 5), Vector3.zero(), Vector3(0, 1, 0));
  //       viewMatrix.invert();
  //       await viewer.setCameraModelMatrix4(viewMatrix);
  //       final cube = await viewer
  //           .createGeometry(GeometryHelper.cube(normals: false, uvs: false));
  //       await testHelper.capture(viewer, "geometry_cube_no_normals_uvs");
  //       await viewer.destroyAsset(cube);
  //       await testHelper.capture(viewer, "geometry_remove_cube");
  //     });
  //   });

  //   test('create cube with unlit ubershader material (no normals/uvs)',
  //       () async {
  //     await testHelper.withViewer((viewer) async {
  //       final materialInstance =
  //           await viewer.createUbershaderMaterialInstance(unlit: true);
  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //       final cube = await viewer.createGeometry(
  //           GeometryHelper.cube(normals: false, uvs: false),
  //           materialInstances: [materialInstance]);
  //       await testHelper.capture(viewer, "geometry_cube_ubershader");
  //     });
  //   });

  //   test('create cube with lit ubershader material (normals/ no uvs)',
  //       () async {
  //     await testHelper.withViewer((viewer) async {
  //       final materialInstance = await viewer.createUbershaderMaterialInstance(
  //           unlit: false, alphaMode: AlphaMode.BLEND, hasVertexColors: false);
  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //       final cube = await viewer.createGeometry(
  //           GeometryHelper.cube(normals: true, uvs: false),
  //           materialInstances: [materialInstance]);

  //       await viewer.addDirectLight(DirectLight.sun(
  //           intensity: 100000,
  //           castShadows: false,
  //           direction: Vector3(0, -0.5, -1)));
  //       // await viewer.addDirectLight(DirectLight.spot(
  //       //   intensity: 1000000,
  //       //   position: Vector3(0,3,3),
  //       //   direction: Vector3(0,-1.5,-1),
  //       //   falloffRadius: 10));
  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //       await testHelper.capture(viewer, "geometry_cube_lit_ubershader");
  //     });
  //   });

  //   test('create instance', () async {
  //     await testHelper.withViewer((viewer) async {
  //       final cube = await viewer
  //           .createGeometry(GeometryHelper.cube(normals: false, uvs: false));
  //       await viewer.setTransform(
  //           cube.entity, Matrix4.translation(Vector3.all(-1)));
  //       final instance = await cube.createInstance();
  //       await instance.addToScene();
  //       await viewer.setTransform(
  //           instance.entity, Matrix4.translation(Vector3.all(1)));

  //       await testHelper.capture(viewer, "geometry_instanced");
  //       await viewer.destroyAsset(instance);
  //       await testHelper.capture(viewer, "geometry_instance_removed");
  //     });
  //   });

  //   test('create instance (shared material)', () async {
  //     await testHelper.withViewer((viewer) async {
  //       final materialInstance = await viewer.createUnlitMaterialInstance();
  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //       final cube = await viewer.createGeometry(
  //           GeometryHelper.cube(normals: true, uvs: false),
  //           materialInstances: [materialInstance]);

  //       final instance = await cube.createInstance();
  //       await instance.addToScene();
  //       await viewer.setTransform(
  //           instance.entity, Matrix4.translation(Vector3.all(1)));

  //       await testHelper.capture(
  //           viewer, "geometry_instanced_with_shared_material");
  //     });
  //   });

  //   // test('create instance (no material on second instance)', () async {
  //   //   await testHelper.withViewer((viewer) async {
  //   //     final materialInstance = await viewer.createUnlitMaterialInstance();
  //   //     await materialInstance.setParameterFloat4(
  //   //         "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //   //     final cube = await viewer.createGeometry(
  //   //         GeometryHelper.cube(normals: true, uvs: false),
  //   //         materialInstances: [materialInstance]);

  //   //     final instance = await viewer
  //   //         .createInstance(cube);
  //   //     await viewer.setTransform(
  //   //         instance.entity, Matrix4.translation(Vector3.all(1)));

  //   //     await testHelper.capture(
  //   //         viewer, "geometry_instanced_with_no_material_instance");
  //   //   });
  //   // });

  //   // test('create instance (separate materials)', () async {
  //   //   await testHelper.withViewer((viewer) async {
  //   //     final materialInstance = await viewer.createUnlitMaterialInstance();
  //   //     await materialInstance.setParameterFloat4(
  //   //         "baseColorFactor", 1.0, 0.0, 0.0, 1.0);
  //   //     final cube = await viewer.createGeometry(
  //   //         GeometryHelper.cube(normals: true, uvs: false),
  //   //         materialInstances: [materialInstance]);

  //   //     final materialInstance2 = await viewer.createUnlitMaterialInstance();
  //   //     await materialInstance2.setParameterFloat4(
  //   //         "baseColorFactor", 0.0, 1.0, 0.0, 1.0);
  //   //     final instance = await viewer
  //   //         .createInstance(cube, materialInstances: [materialInstance2]);
  //   //     await viewer.setTransform(
  //   //         instance.entity, Matrix4.translation(Vector3.all(1)));

  //   //     await testHelper.capture(
  //   //         viewer, "geometry_instanced_with_separate_material_instances");
  //   //   });
  //   // });

  //   test('create cube with custom ubershader material (color)', () async {
  //     await testHelper.withViewer((viewer) async {
  //       await viewer.addLight(LightType.SUN, 6500, 1000000, 0, 0, 0, 0, 0, -1);
  //       await viewer.setCameraPosition(0, 2, 6);
  //       await viewer
  //           .setCameraRotation(Quaternion.axisAngle(Vector3(1, 0, 0), -pi / 8));
  //       await viewer.setBackgroundColor(1.0, 0.0, 1.0, 1.0);

  //       var materialInstance =
  //           await viewer.createUbershaderMaterialInstance(unlit: true);
  //       final cube = await viewer.createGeometry(
  //           GeometryHelper.cube(uvs: false, normals: true),
  //           materialInstances: [materialInstance]);
  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 0.0, 1.0, 0.0, 0.0);
  //       await testHelper.capture(
  //           viewer, "geometry_cube_with_custom_material_ubershader");
  //       await viewer.destroyAsset(cube);
  //     });
  //   });

  //   test('create cube with custom ubershader material instance (texture)',
  //       () async {
  //     var viewer = await testHelper.createViewer();
  //     await viewer.addLight(LightType.SUN, 6500, 1000000, 0, 0, 0, 0, 0, -1);
  //     await viewer.setCameraPosition(0, 2, 6);
  //     await viewer
  //         .setCameraRotation(Quaternion.axisAngle(Vector3(1, 0, 0), -pi / 8));
  //     await viewer.setBackgroundColor(1.0, 0.0, 0.0, 1.0);

  //     var materialInstance = await viewer.createUbershaderMaterialInstance();
  //     final cube = await viewer.createGeometry(
  //         GeometryHelper.cube(uvs: true, normals: true),
  //         materialInstances: [materialInstance]);
  //     final image = await viewer.decodeImage(
  //         File("${testHelper.testDir}/assets/cube_texture_512x512.png")
  //             .readAsBytesSync());
  //     var texture = await viewer.createTexture(
  //         await image.getWidth(), await image.getHeight());
  //     await texture.setLinearImage(
  //         image, PixelDataFormat.RGBA, PixelDataType.FLOAT);
  //     await testHelper.capture(
  //         viewer, "geometry_cube_with_custom_material_ubershader_texture");
  //     await viewer.destroyAsset(cube);
  //     await texture.dispose();
  //     await image.destroy();
  //   });

  //   test('unlit material with color only', () async {
  //     await testHelper.withViewer((viewer) async {
  //       var materialInstance = await viewer.createUnlitMaterialInstance();
  //       var cube = await viewer.createGeometry(GeometryHelper.cube(),
  //           materialInstances: [materialInstance]);

  //       await materialInstance.setParameterFloat4(
  //           "baseColorFactor", 0.0, 1.0, 0.0, 1.0);

  //       await testHelper.capture(viewer, "unlit_material_base_color");
  //     });
  //   });

  //   test('unlit material with texture', () async {
  //     await testHelper.withViewer((viewer) async {
  //       var materialInstance = await viewer.createUnlitMaterialInstance();
  //       var cube = await viewer.createGeometry(GeometryHelper.cube(),
  //           materialInstances: [materialInstance]);

  //       await materialInstance.setParameterInt("baseColorIndex", 0);

  //       final image = await viewer.decodeImage(
  //           File("${testHelper.testDir}/assets/cube_texture_512x512.png")
  //               .readAsBytesSync());
  //       var texture = await viewer.createTexture(
  //           await image.getWidth(), await image.getHeight());
  //       await texture.setLinearImage(
  //           image, PixelDataFormat.RGBA, PixelDataType.FLOAT);
  //       await testHelper.capture(viewer, "unlit_material_texture_only");
  //       await viewer.destroyAsset(cube);
  //     });
  //   });

  //   test('shared material instance with texture and base color', () async {
  //     await testHelper.withViewer((viewer) async {
  //       var materialInstance = await viewer.createUnlitMaterialInstance();
  //       var cube1 = await viewer.createGeometry(GeometryHelper.cube(),
  //           materialInstances: [materialInstance]);
  //       var cube2 = await viewer.createGeometry(GeometryHelper.cube(),
  //           materialInstances: [materialInstance]);
  //       await viewer.setTransform(
  //           cube2.entity, Matrix4.translation(Vector3(1, 1, 1)));

  //       await materialInstance.setParameterInt("baseColorIndex", 0);
  //       final image = await viewer.decodeImage(
  //           File("${testHelper.testDir}/assets/cube_texture_512x512.png")
  //               .readAsBytesSync());
  //       var texture = await viewer.createTexture(
  //           await image.getWidth(), await image.getHeight());
  //       await texture.setLinearImage(
  //           image, PixelDataFormat.RGBA, PixelDataType.FLOAT);

  //       await testHelper.capture(viewer, "unlit_material_shared");
  //       await texture.dispose();
  //       await image.destroy();
  //     });
  //   });

  //   test('create sphere (no normals)', () async {
  //     await testHelper.withViewer((viewer) async {
  //       await viewer
  //           .createGeometry(GeometryHelper.sphere(normals: false, uvs: false));
  //       await testHelper.capture(viewer, "geometry_sphere_no_normals");
  //     }, bg: kBlue, cameraPosition: Vector3(0, 0, 6));
  //   });

  //   test('create multiple (non-instanced) geometry', () async {
  //     await testHelper.withViewer((viewer) async {
  //       final cube1 = await viewer
  //           .createGeometry(GeometryHelper.cube(normals: false, uvs: false));
  //       final cube2 = await viewer
  //           .createGeometry(GeometryHelper.cube(normals: false, uvs: false));
  //       await viewer.setTransform(
  //           cube2.entity, Matrix4.translation(Vector3(0, 1.5, 0)));
  //       await testHelper.capture(viewer, "multiple_geometry");
  //     }, bg: kRed);
  //   });

  //   test('create camera geometry', () async {
  //     await testHelper.withViewer((viewer) async {
  //       final camera = await viewer.createGeometry(
  //           GeometryHelper.wireframeCamera(normals: false, uvs: false));
  //       await viewer.setTransform(camera.entity, Matrix4.rotationY(pi / 4));
  //       await testHelper.capture(viewer, "camera_geometry");
  //     });
  //   });
  // });
}