XCEngine/tests/Components/test_mesh_render_components.cpp

#include <gtest/gtest.h>

#include <XCEngine/Components/GameObject.h>
#include <XCEngine/Components/MeshFilterComponent.h>
#include <XCEngine/Components/MeshRendererComponent.h>
#include <XCEngine/Core/Asset/IResource.h>
#include <XCEngine/Core/Asset/ResourceManager.h>
#include <XCEngine/Core/IO/IResourceLoader.h>
#include <XCEngine/Resources/Material/Material.h>
#include <XCEngine/Resources/Mesh/Mesh.h>

#include <filesystem>
#include <fstream>
#include <sstream>
#include <chrono>
#include <thread>

using namespace XCEngine::Components;
using namespace XCEngine::Resources;

namespace {

Mesh* CreateTestMesh(const char* name, const char* path) {
    auto* mesh = new Mesh();
    IResource::ConstructParams params = {};
    params.name = name;
    params.path = path;
    params.guid = ResourceGUID::Generate(path);
    mesh->Initialize(params);
    return mesh;
}

Material* CreateTestMaterial(const char* name, const char* path) {
    auto* material = new Material();
    IResource::ConstructParams params = {};
    params.name = name;
    params.path = path;
    params.guid = ResourceGUID::Generate(path);
    material->Initialize(params);
    return material;
}

class FakeAsyncMeshLoader : public IResourceLoader {
public:
    ResourceType GetResourceType() const override { return ResourceType::Mesh; }

    XCEngine::Containers::Array<XCEngine::Containers::String> GetSupportedExtensions() const override {
        XCEngine::Containers::Array<XCEngine::Containers::String> extensions;
        extensions.PushBack("mesh");
        return extensions;
    }

    bool CanLoad(const XCEngine::Containers::String& path) const override {
        (void)path;
        return true;
    }

    LoadResult Load(const XCEngine::Containers::String& path,
                    const ImportSettings* settings = nullptr) override {
        (void)settings;

        auto* mesh = new Mesh();
        IResource::ConstructParams params = {};
        params.name = "AsyncMesh";
        params.path = path;
        params.guid = ResourceGUID::Generate(path);
        mesh->Initialize(params);

        const StaticMeshVertex vertices[3] = {};
        const XCEngine::Core::uint32 indices[3] = {0, 1, 2};
        mesh->SetVertexData(vertices, sizeof(vertices), 3, sizeof(StaticMeshVertex), VertexAttribute::Position);
        mesh->SetIndexData(indices, sizeof(indices), 3, true);
        return LoadResult(mesh);
    }

    ImportSettings* GetDefaultSettings() const override {
        return nullptr;
    }
};

bool PumpAsyncLoadsUntilIdle(ResourceManager& manager,
                             std::chrono::milliseconds timeout = std::chrono::milliseconds(2000)) {
    const auto deadline = std::chrono::steady_clock::now() + timeout;
    while (manager.IsAsyncLoading() && std::chrono::steady_clock::now() < deadline) {
        manager.UpdateAsyncLoads();
        std::this_thread::sleep_for(std::chrono::milliseconds(5));
    }

    manager.UpdateAsyncLoads();
    return !manager.IsAsyncLoading();
}

TEST(MeshFilterComponent_Test, SetMeshCachesResourceAndPath) {
    GameObject gameObject("MeshHolder");
    auto* component = gameObject.AddComponent<MeshFilterComponent>();
    Mesh* mesh = CreateTestMesh("Quad", "Meshes/quad.mesh");

    component->SetMesh(mesh);

    EXPECT_EQ(component->GetMesh(), mesh);
    EXPECT_EQ(component->GetMeshPath(), "Meshes/quad.mesh");

    component->ClearMesh();
    delete mesh;
}

TEST(MeshFilterComponent_Test, SerializeAndDeserializePreservesPath) {
    MeshFilterComponent source;
    Mesh* mesh = CreateTestMesh("Quad", "Meshes/serialized.mesh");
    source.SetMesh(mesh);

    std::stringstream stream;
    source.Serialize(stream);

    MeshFilterComponent target;
    target.Deserialize(stream);

    EXPECT_EQ(target.GetMeshPath(), "Meshes/serialized.mesh");
    EXPECT_EQ(target.GetMesh(), nullptr);

    source.ClearMesh();
    delete mesh;
}

TEST(MeshFilterComponent_Test, SetMeshPathPreservesPathWithoutLoadedResource) {
    MeshFilterComponent component;

    component.SetMeshPath("Meshes/runtime.mesh");

    EXPECT_EQ(component.GetMeshPath(), "Meshes/runtime.mesh");
    EXPECT_EQ(component.GetMesh(), nullptr);

    component.SetMeshPath("");
    EXPECT_EQ(component.GetMeshPath(), "");
    EXPECT_EQ(component.GetMesh(), nullptr);
}

TEST(MeshFilterComponent_Test, DeferredSceneDeserializeLoadsMeshAsyncByPath) {
    ResourceManager& manager = ResourceManager::Get();
    manager.Initialize();

    IResourceLoader* originalLoader = manager.GetLoader(ResourceType::Mesh);
    FakeAsyncMeshLoader fakeLoader;
    manager.RegisterLoader(&fakeLoader);

    MeshFilterComponent target;
    {
        ResourceManager::ScopedDeferredSceneLoad deferredLoadScope;
        EXPECT_TRUE(manager.IsDeferredSceneLoadEnabled());
        std::stringstream stream("mesh=Meshes/async.mesh;meshRef=;");
        target.Deserialize(stream);
        EXPECT_GT(manager.GetAsyncPendingCount(), 0u);
    }

    EXPECT_EQ(target.GetMeshPath(), "Meshes/async.mesh");
    ASSERT_TRUE(PumpAsyncLoadsUntilIdle(manager));
    ASSERT_NE(target.GetMesh(), nullptr);
    EXPECT_EQ(target.GetMeshPath(), "Meshes/async.mesh");
    EXPECT_EQ(target.GetMesh()->GetVertexCount(), 3u);

    manager.RegisterLoader(originalLoader);
    manager.Shutdown();
}

TEST(MeshRendererComponent_Test, SetMaterialsKeepsSlotsAndFlags) {
    GameObject gameObject("RendererHolder");
    auto* component = gameObject.AddComponent<MeshRendererComponent>();
    Material* material0 = CreateTestMaterial("M0", "Materials/m0.mat");
    Material* material1 = CreateTestMaterial("M1", "Materials/m1.mat");

    component->SetMaterial(0, material0);
    component->SetMaterial(1, material1);
    component->SetCastShadows(false);
    component->SetReceiveShadows(false);
    component->SetRenderLayer(7);

    ASSERT_EQ(component->GetMaterialCount(), 2u);
    EXPECT_EQ(component->GetMaterial(0), material0);
    EXPECT_EQ(component->GetMaterial(1), material1);
    EXPECT_EQ(component->GetMaterialPaths()[0], "Materials/m0.mat");
    EXPECT_EQ(component->GetMaterialPaths()[1], "Materials/m1.mat");
    EXPECT_FALSE(component->GetCastShadows());
    EXPECT_FALSE(component->GetReceiveShadows());
    EXPECT_EQ(component->GetRenderLayer(), 7u);

    component->ClearMaterials();
    delete material0;
    delete material1;
}

TEST(MeshRendererComponent_Test, SerializeAndDeserializePreservesMaterialPathsAndSettings) {
    MeshRendererComponent source;
    Material* material0 = CreateTestMaterial("M0", "Materials/serialized0.mat");
    Material* material1 = CreateTestMaterial("M1", "Materials/serialized1.mat");
    source.SetMaterial(0, material0);
    source.SetMaterial(1, material1);
    source.SetCastShadows(false);
    source.SetReceiveShadows(true);
    source.SetRenderLayer(3);

    std::stringstream stream;
    source.Serialize(stream);

    MeshRendererComponent target;
    target.Deserialize(stream);

    ASSERT_EQ(target.GetMaterialCount(), 2u);
    EXPECT_EQ(target.GetMaterial(0), nullptr);
    EXPECT_EQ(target.GetMaterial(1), nullptr);
    EXPECT_EQ(target.GetMaterialPaths()[0], "Materials/serialized0.mat");
    EXPECT_EQ(target.GetMaterialPaths()[1], "Materials/serialized1.mat");
    EXPECT_FALSE(target.GetCastShadows());
    EXPECT_TRUE(target.GetReceiveShadows());
    EXPECT_EQ(target.GetRenderLayer(), 3u);

    source.ClearMaterials();
    delete material0;
    delete material1;
}

TEST(MeshRendererComponent_Test, SerializeAndDeserializePreservesTrailingEmptyMaterialSlots) {
    MeshRendererComponent source;
    Material* material0 = CreateTestMaterial("M0", "Materials/serialized0.mat");
    source.SetMaterial(0, material0);
    source.SetMaterialPath(1, "");
    source.SetCastShadows(false);
    source.SetReceiveShadows(true);
    source.SetRenderLayer(9);

    std::stringstream stream;
    source.Serialize(stream);

    MeshRendererComponent target;
    target.Deserialize(stream);

    ASSERT_EQ(target.GetMaterialCount(), 2u);
    EXPECT_EQ(target.GetMaterial(0), nullptr);
    EXPECT_EQ(target.GetMaterial(1), nullptr);
    EXPECT_EQ(target.GetMaterialPath(0), "Materials/serialized0.mat");
    EXPECT_EQ(target.GetMaterialPath(1), "");
    EXPECT_FALSE(target.GetCastShadows());
    EXPECT_TRUE(target.GetReceiveShadows());
    EXPECT_EQ(target.GetRenderLayer(), 9u);

    source.ClearMaterials();
    delete material0;
}

TEST(MeshRendererComponent_Test, SetMaterialPathPreservesPathWithoutLoadedResource) {
    MeshRendererComponent component;

    component.SetMaterialPath(1, "Materials/runtime.mat");

    ASSERT_EQ(component.GetMaterialCount(), 2u);
    EXPECT_EQ(component.GetMaterial(0), nullptr);
    EXPECT_EQ(component.GetMaterial(1), nullptr);
    EXPECT_EQ(component.GetMaterialPath(0), "");
    EXPECT_EQ(component.GetMaterialPath(1), "Materials/runtime.mat");

    component.SetMaterialPath(1, "");
    EXPECT_EQ(component.GetMaterialPath(1), "");
    EXPECT_EQ(component.GetMaterial(1), nullptr);
}

TEST(MeshRendererComponent_Test, SerializeAndDeserializeLoadsProjectMaterialByAssetRef) {
    namespace fs = std::filesystem;

    ResourceManager& manager = ResourceManager::Get();
    manager.Initialize();

    const fs::path projectRoot = fs::temp_directory_path() / "xc_mesh_renderer_asset_ref_test";
    const fs::path assetsDir = projectRoot / "Assets";
    const fs::path materialPath = assetsDir / "runtime.material";

    fs::remove_all(projectRoot);
    fs::create_directories(assetsDir);

    {
        std::ofstream materialFile(materialPath);
        ASSERT_TRUE(materialFile.is_open());
        materialFile << "{\n";
        materialFile << "  \"renderQueue\": \"geometry\",\n";
        materialFile << "  \"renderState\": {\n";
        materialFile << "    \"cull\": \"back\"\n";
        materialFile << "  }\n";
        materialFile << "}";
    }

    manager.SetResourceRoot(projectRoot.string().c_str());

    MeshRendererComponent source;
    source.SetMaterialPath(0, "Assets/runtime.material");

    ASSERT_EQ(source.GetMaterialCount(), 1u);
    ASSERT_NE(source.GetMaterial(0), nullptr);
    ASSERT_EQ(source.GetMaterialPath(0), "Assets/runtime.material");
    ASSERT_EQ(source.GetMaterialAssetRefs().size(), 1u);
    EXPECT_TRUE(source.GetMaterialAssetRefs()[0].IsValid());

    std::stringstream stream;
    source.Serialize(stream);
    const std::string serialized = stream.str();
    EXPECT_NE(serialized.find("materialRefs="), std::string::npos);
    EXPECT_EQ(serialized.find("materialRefs=;"), std::string::npos);

    std::stringstream deserializeStream(serialized);
    MeshRendererComponent target;
    target.Deserialize(deserializeStream);

    ASSERT_EQ(target.GetMaterialCount(), 1u);
    EXPECT_EQ(target.GetMaterialPath(0), "Assets/runtime.material");
    ASSERT_NE(target.GetMaterial(0), nullptr);
    EXPECT_TRUE(target.GetMaterialAssetRefs()[0].IsValid());

    manager.SetResourceRoot("");
    manager.Shutdown();
    fs::remove_all(projectRoot);
}

TEST(MeshRendererComponent_Test, DeferredSceneDeserializeLoadsProjectMaterialAsync) {
    namespace fs = std::filesystem;

    ResourceManager& manager = ResourceManager::Get();
    manager.Initialize();

    const fs::path projectRoot = fs::temp_directory_path() / "xc_mesh_renderer_async_asset_ref_test";
    const fs::path assetsDir = projectRoot / "Assets";
    const fs::path materialPath = assetsDir / "runtime.material";

    fs::remove_all(projectRoot);
    fs::create_directories(assetsDir);

    {
        std::ofstream materialFile(materialPath);
        ASSERT_TRUE(materialFile.is_open());
        materialFile << "{\n";
        materialFile << "  \"renderQueue\": \"geometry\",\n";
        materialFile << "  \"renderState\": {\n";
        materialFile << "    \"cull\": \"back\"\n";
        materialFile << "  }\n";
        materialFile << "}";
    }

    manager.SetResourceRoot(projectRoot.string().c_str());

    MeshRendererComponent source;
    source.SetMaterialPath(0, "Assets/runtime.material");

    std::stringstream serializedStream;
    source.Serialize(serializedStream);

    MeshRendererComponent target;
    {
        ResourceManager::ScopedDeferredSceneLoad deferredLoadScope;
        EXPECT_TRUE(manager.IsDeferredSceneLoadEnabled());
        std::stringstream deserializeStream(serializedStream.str());
        target.Deserialize(deserializeStream);
        EXPECT_GT(manager.GetAsyncPendingCount(), 0u);
    }

    ASSERT_EQ(target.GetMaterialCount(), 1u);
    EXPECT_EQ(target.GetMaterialPath(0), "Assets/runtime.material");

    ASSERT_TRUE(PumpAsyncLoadsUntilIdle(manager));
    ASSERT_NE(target.GetMaterial(0), nullptr);
    EXPECT_EQ(target.GetMaterialPath(0), "Assets/runtime.material");
    EXPECT_TRUE(target.GetMaterialAssetRefs()[0].IsValid());

    manager.SetResourceRoot("");
    manager.Shutdown();
    fs::remove_all(projectRoot);
}

} // namespace