path: root/libs/assimp/test/unit/utFBXImporterExporter.cpp

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#include "AbstractImportExportBase.h"
#include "UnitTestPCH.h"

#include <assimp/commonMetaData.h>
#include <assimp/material.h>
#include <assimp/postprocess.h>
#include <assimp/scene.h>
#include <assimp/types.h>
#include <assimp/Importer.hpp>

using namespace Assimp;

class utFBXImporterExporter : public AbstractImportExportBase {
public:
    bool importerTest() override {
        Assimp::Importer importer;
        const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/spider.fbx", aiProcess_ValidateDataStructure);
        return nullptr != scene;
    }
};

TEST_F(utFBXImporterExporter, importXFromFileTest) {
    EXPECT_TRUE(importerTest());
}

TEST_F(utFBXImporterExporter, importBareBoxWithoutColorsAndTextureCoords) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/box.fbx", aiProcess_ValidateDataStructure);
    EXPECT_NE(nullptr, scene);
    EXPECT_EQ(scene->mNumMeshes, 1u);
    aiMesh *mesh = scene->mMeshes[0];
    EXPECT_EQ(mesh->mNumFaces, 12u);
    EXPECT_EQ(mesh->mNumVertices, 36u);
}

TEST_F(utFBXImporterExporter, importCubesWithNoNames) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/cubes_nonames.fbx", aiProcess_ValidateDataStructure);
    ASSERT_TRUE(scene);

    ASSERT_TRUE(scene->mRootNode);
    const auto root = scene->mRootNode;
    ASSERT_STREQ(root->mName.C_Str(), "RootNode");
    ASSERT_TRUE(root->mChildren);
    ASSERT_EQ(root->mNumChildren, 2u);
}

TEST_F(utFBXImporterExporter, importCubesWithUnicodeDuplicatedNames) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/cubes_with_names.fbx", aiProcess_ValidateDataStructure);
    ASSERT_TRUE(scene);

    ASSERT_TRUE(scene->mRootNode);
    const auto root = scene->mRootNode;
    ASSERT_STREQ(root->mName.C_Str(), "RootNode");
    ASSERT_TRUE(root->mChildren);
    ASSERT_EQ(root->mNumChildren, 2u);

    const auto child0 = root->mChildren[0];
    ASSERT_TRUE(child0);
    ASSERT_STREQ(child0->mName.C_Str(), "Cube2");
    ASSERT_TRUE(child0->mChildren);
    ASSERT_EQ(child0->mNumChildren, 1u);

    const auto child00 = child0->mChildren[0];
    ASSERT_TRUE(child00);
    ASSERT_STREQ(child00->mName.C_Str(), "\xd0\x9a\xd1\x83\xd0\xb1\x31");

    const auto child1 = root->mChildren[1];
    ASSERT_TRUE(child1);
    ASSERT_STREQ(child1->mName.C_Str(), "Cube3");
    ASSERT_TRUE(child1->mChildren);
    ASSERT_EQ(child1->mNumChildren, 1u);

    const auto child10 = child1->mChildren[0];
    ASSERT_TRUE(child10);
    ASSERT_STREQ(child10->mName.C_Str(), "\xd0\x9a\xd1\x83\xd0\xb1\x31");
}

TEST_F(utFBXImporterExporter, importCubesComplexTransform) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/cubes_with_mirroring_and_pivot.fbx", aiProcess_ValidateDataStructure);
    ASSERT_TRUE(scene);

    ASSERT_TRUE(scene->mRootNode);
    const auto root = scene->mRootNode;
    ASSERT_STREQ(root->mName.C_Str(), "RootNode");
    ASSERT_TRUE(root->mChildren);
    ASSERT_EQ(root->mNumChildren, 2u);

    const auto child0 = root->mChildren[0];
    ASSERT_TRUE(child0);
    ASSERT_STREQ(child0->mName.C_Str(), "Cube2");
    ASSERT_TRUE(child0->mChildren);
    ASSERT_EQ(child0->mNumChildren, 1u);

    const auto child00 = child0->mChildren[0];
    ASSERT_TRUE(child00);
    ASSERT_STREQ(child00->mName.C_Str(), "Cube1");

    const auto child1 = root->mChildren[1];
    ASSERT_TRUE(child1);
    ASSERT_STREQ(child1->mName.C_Str(), "Cube3");

    auto parent = child1;
    const size_t chain_length = 8u;
    const char *chainStr[chain_length] = {
        "Cube1_$AssimpFbx$_Translation",
        "Cube1_$AssimpFbx$_RotationPivot",
        "Cube1_$AssimpFbx$_RotationPivotInverse",
        "Cube1_$AssimpFbx$_ScalingOffset",
        "Cube1_$AssimpFbx$_ScalingPivot",
        "Cube1_$AssimpFbx$_Scaling",
        "Cube1_$AssimpFbx$_ScalingPivotInverse",
        "Cube1"
    };
    for (size_t i = 0; i < chain_length; ++i) {
        ASSERT_TRUE(parent->mChildren);
        ASSERT_EQ(parent->mNumChildren, 1u);
        auto node = parent->mChildren[0];
        ASSERT_TRUE(node);
        ASSERT_STREQ(node->mName.C_Str(), chainStr[i]);
        parent = node;
    }
    ASSERT_EQ(0u, parent->mNumChildren) << "Leaf node";
}

TEST_F(utFBXImporterExporter, importCloseToIdentityTransforms) {
    Assimp::Importer importer;
    // This was asserting in FBXConverter.cpp because the transforms appeared to be the identity by one test, but not by another.
    // This asset should now load successfully.
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/close_to_identity_transforms.fbx", aiProcess_ValidateDataStructure);
    ASSERT_TRUE(scene);
}

TEST_F(utFBXImporterExporter, importPhongMaterial) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/phong_cube.fbx", aiProcess_ValidateDataStructure);
    EXPECT_NE(nullptr, scene);
    EXPECT_EQ(1u, scene->mNumMaterials);
    const aiMaterial *mat = scene->mMaterials[0];
    EXPECT_NE(nullptr, mat);
    float f;
    aiColor3D c;

    // phong_cube.fbx has all properties defined
    EXPECT_EQ(mat->Get(AI_MATKEY_COLOR_DIFFUSE, c), aiReturn_SUCCESS);
    EXPECT_EQ(c, aiColor3D(0.5, 0.25, 0.25));
    EXPECT_EQ(mat->Get(AI_MATKEY_COLOR_SPECULAR, c), aiReturn_SUCCESS);
    EXPECT_EQ(c, aiColor3D(0.25, 0.25, 0.5));
    EXPECT_EQ(mat->Get(AI_MATKEY_SHININESS_STRENGTH, f), aiReturn_SUCCESS);
    EXPECT_EQ(f, 0.5f);
    EXPECT_EQ(mat->Get(AI_MATKEY_SHININESS, f), aiReturn_SUCCESS);
    EXPECT_EQ(f, 10.0f);
    EXPECT_EQ(mat->Get(AI_MATKEY_COLOR_AMBIENT, c), aiReturn_SUCCESS);
    EXPECT_EQ(c, aiColor3D(0.125, 0.25, 0.25));
    EXPECT_EQ(mat->Get(AI_MATKEY_COLOR_EMISSIVE, c), aiReturn_SUCCESS);
    EXPECT_EQ(c, aiColor3D(0.25, 0.125, 0.25));
    EXPECT_EQ(mat->Get(AI_MATKEY_COLOR_TRANSPARENT, c), aiReturn_SUCCESS);
    EXPECT_EQ(c, aiColor3D(0.75, 0.5, 0.25));
    EXPECT_EQ(mat->Get(AI_MATKEY_OPACITY, f), aiReturn_SUCCESS);
    EXPECT_EQ(f, 0.5f);
}

TEST_F(utFBXImporterExporter, importUnitScaleFactor) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/global_settings.fbx", aiProcess_ValidateDataStructure);

    EXPECT_NE(nullptr, scene);
    EXPECT_NE(nullptr, scene->mMetaData);

    float factor(0.0f);
    scene->mMetaData->Get("UnitScaleFactor", factor);
    EXPECT_EQ(500.0f, factor);

    scene->mMetaData->Set("UnitScaleFactor", factor * 2.0f);
    scene->mMetaData->Get("UnitScaleFactor", factor);
    EXPECT_EQ(1000.0f, factor);
}

TEST_F(utFBXImporterExporter, importEmbeddedAsciiTest) {
    // see https://github.com/assimp/assimp/issues/1957
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/embedded_ascii/box.FBX", aiProcess_ValidateDataStructure);
    EXPECT_NE(nullptr, scene);

    EXPECT_EQ(1u, scene->mNumMaterials);
    aiMaterial *mat = scene->mMaterials[0];
    ASSERT_NE(nullptr, mat);

    aiString path;
    aiTextureMapMode modes[2];
    EXPECT_EQ(aiReturn_SUCCESS, mat->GetTexture(aiTextureType_DIFFUSE, 0, &path, nullptr, nullptr, nullptr, nullptr, modes));
    ASSERT_STREQ(path.C_Str(), "..\\..\\..\\Desktop\\uv_test.png");

    ASSERT_EQ(1u, scene->mNumTextures);
    ASSERT_TRUE(scene->mTextures[0]->pcData);
    ASSERT_EQ(439176u, scene->mTextures[0]->mWidth) << "FBX ASCII base64 compression splits data by 512Kb, it should be two parts for this texture";
}

TEST_F(utFBXImporterExporter, importEmbeddedFragmentedAsciiTest) {
    // see https://github.com/assimp/assimp/issues/1957
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/embedded_ascii/box_embedded_texture_fragmented.fbx", aiProcess_ValidateDataStructure);
    EXPECT_NE(nullptr, scene);

    EXPECT_EQ(1u, scene->mNumMaterials);
    aiMaterial *mat = scene->mMaterials[0];
    ASSERT_NE(nullptr, mat);

    aiString path;
    aiTextureMapMode modes[2];
    ASSERT_EQ(aiReturn_SUCCESS, mat->GetTexture(aiTextureType_DIFFUSE, 0, &path, nullptr, nullptr, nullptr, nullptr, modes));
    ASSERT_STREQ(path.C_Str(), "paper.png");

    ASSERT_EQ(1u, scene->mNumTextures);
    ASSERT_TRUE(scene->mTextures[0]->pcData);
    ASSERT_EQ(968029u, scene->mTextures[0]->mWidth) << "FBX ASCII base64 compression splits data by 512Kb, it should be two parts for this texture";
}

TEST_F(utFBXImporterExporter, fbxTokenizeTestTest) {
    //Assimp::Importer importer;
    //const aiScene* scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/transparentTest2.fbx", aiProcess_ValidateDataStructure);
    //EXPECT_NE(nullptr, scene);
}

TEST_F(utFBXImporterExporter, importOrphantEmbeddedTextureTest) {
    // see https://github.com/assimp/assimp/issues/1957
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/box_orphant_embedded_texture.fbx", aiProcess_ValidateDataStructure);
    EXPECT_NE(nullptr, scene);

    EXPECT_EQ(1u, scene->mNumMaterials);
    aiMaterial *mat = scene->mMaterials[0];
    ASSERT_NE(nullptr, mat);

    aiString path;
    aiTextureMapMode modes[2];
    ASSERT_EQ(aiReturn_SUCCESS, mat->GetTexture(aiTextureType_DIFFUSE, 0, &path, nullptr, nullptr, nullptr, nullptr, modes));
    ASSERT_STREQ(path.C_Str(), "..\\Primitives\\GridGrey.tga");

    ASSERT_EQ(1u, scene->mNumTextures);
    ASSERT_TRUE(scene->mTextures[0]->pcData);
    ASSERT_EQ(9026u, scene->mTextures[0]->mWidth) << "FBX ASCII base64 compression used for a texture.";
}

TEST_F(utFBXImporterExporter, sceneMetadata) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/global_settings.fbx",
            aiProcess_ValidateDataStructure);
    ASSERT_NE(scene, nullptr);
    ASSERT_NE(scene->mMetaData, nullptr);
    {
        ASSERT_TRUE(scene->mMetaData->HasKey(AI_METADATA_SOURCE_FORMAT));
        aiString format;
        ASSERT_TRUE(scene->mMetaData->Get(AI_METADATA_SOURCE_FORMAT, format));
        ASSERT_EQ(strcmp(format.C_Str(), "Autodesk FBX Importer"), 0);
    }
    {
        ASSERT_TRUE(scene->mMetaData->HasKey(AI_METADATA_SOURCE_FORMAT_VERSION));
        aiString version;
        ASSERT_TRUE(scene->mMetaData->Get(AI_METADATA_SOURCE_FORMAT_VERSION, version));
        ASSERT_EQ(strcmp(version.C_Str(), "7400"), 0);
    }
    {
        ASSERT_TRUE(scene->mMetaData->HasKey(AI_METADATA_SOURCE_GENERATOR));
        aiString generator;
        ASSERT_TRUE(scene->mMetaData->Get(AI_METADATA_SOURCE_GENERATOR, generator));
        ASSERT_EQ(strncmp(generator.C_Str(), "Blender", 7), 0);
    }
}

TEST_F(utFBXImporterExporter, importCubesWithOutOfRangeFloat) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/cubes_with_outofrange_float.fbx", aiProcess_ValidateDataStructure);
    ASSERT_NE(nullptr, scene);
    ASSERT_TRUE(scene->mRootNode);
}

TEST_F(utFBXImporterExporter, importMaxPbrMaterialsMetalRoughness) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/maxPbrMaterial_metalRough.fbx", aiProcess_ValidateDataStructure);
    ASSERT_NE(nullptr, scene);
    ASSERT_TRUE(scene->mRootNode);

    ASSERT_EQ(scene->mNumMaterials, 1u);
    const aiMaterial* mat = scene->mMaterials[0];
    aiString texture;
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_BASE_COLOR, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\albedo.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_METALNESS, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\metalness.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_EMISSION_COLOR, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\emission.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_NORMAL_CAMERA, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\normal.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_DIFFUSE_ROUGHNESS, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\roughness.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_AMBIENT_OCCLUSION, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\occlusion.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_OPACITY, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\opacity.png"));

    // The material contains values for standard properties (e.g. SpecularColor), where 3ds Max has presumably
    // used formulas to map the Pbr values into the standard material model. However, the pbr values themselves
    // are available in the material as untyped "raw" properties. We check that these are correctly parsed:

    aiColor4D baseColor;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|basecolor", aiTextureType_NONE, 0, baseColor), aiReturn_SUCCESS);
    EXPECT_EQ(baseColor, aiColor4D(0, 1, 1, 1));

    float metalness;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|metalness", aiTextureType_NONE, 0, metalness), aiReturn_SUCCESS);
    EXPECT_EQ(metalness, 0.25f);

    float roughness;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|roughness", aiTextureType_NONE, 0, roughness), aiReturn_SUCCESS);
    EXPECT_EQ(roughness, 0.5f);

    int useGlossiness;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|useGlossiness", aiTextureType_NONE, 0, useGlossiness), aiReturn_SUCCESS);
    EXPECT_EQ(useGlossiness, 2); // 1 = Roughness map is glossiness, 2 = Roughness map is roughness.

    float bumpMapAmt; // Presumably amount.
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|bump_map_amt", aiTextureType_NONE, 0, bumpMapAmt), aiReturn_SUCCESS);
    EXPECT_EQ(bumpMapAmt, 0.75f);

    aiColor4D emitColor;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|emit_color", aiTextureType_NONE, 0, emitColor), aiReturn_SUCCESS);
    EXPECT_EQ(emitColor, aiColor4D(1, 1, 0, 1));
}

TEST_F(utFBXImporterExporter, importMaxPbrMaterialsSpecularGloss) {
    Assimp::Importer importer;
    const aiScene *scene = importer.ReadFile(ASSIMP_TEST_MODELS_DIR "/FBX/maxPbrMaterial_specGloss.fbx", aiProcess_ValidateDataStructure);
    ASSERT_NE(nullptr, scene);
    ASSERT_TRUE(scene->mRootNode);

    ASSERT_EQ(scene->mNumMaterials, 1u);
    const aiMaterial* mat = scene->mMaterials[0];
    aiString texture;
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_BASE_COLOR, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\albedo.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_SPECULAR, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\specular.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_EMISSION_COLOR, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\emission.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_NORMAL_CAMERA, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\normal.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_SHININESS, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\glossiness.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_AMBIENT_OCCLUSION, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\occlusion.png"));
    ASSERT_EQ(mat->Get(AI_MATKEY_TEXTURE(aiTextureType_OPACITY, 0), texture), AI_SUCCESS);
    EXPECT_EQ(texture, aiString("Textures\\opacity.png"));

    // The material contains values for standard properties (e.g. SpecularColor), where 3ds Max has presumably
    // used formulas to map the Pbr values into the standard material model. However, the pbr values themselves
    // are available in the material as untyped "raw" properties. We check that these are correctly parsed:

    aiColor4D baseColor;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|basecolor", aiTextureType_NONE, 0, baseColor), aiReturn_SUCCESS);
    EXPECT_EQ(baseColor, aiColor4D(0, 1, 1, 1));

    aiColor4D specular;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|Specular", aiTextureType_NONE, 0, specular), aiReturn_SUCCESS);
    EXPECT_EQ(specular, aiColor4D(1, 1, 0, 1));

    float glossiness;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|glossiness", aiTextureType_NONE, 0, glossiness), aiReturn_SUCCESS);
    EXPECT_EQ(glossiness, 0.33f);

    int useGlossiness;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|useGlossiness", aiTextureType_NONE, 0, useGlossiness), aiReturn_SUCCESS);
    EXPECT_EQ(useGlossiness, 1); // 1 = Glossiness map is glossiness, 2 = Glossiness map is roughness.

    float bumpMapAmt; // Presumably amount.
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|bump_map_amt", aiTextureType_NONE, 0, bumpMapAmt), aiReturn_SUCCESS);
    EXPECT_EQ(bumpMapAmt, 0.66f);

    aiColor4D emitColor;
    ASSERT_EQ(mat->Get("$raw.3dsMax|main|emit_color", aiTextureType_NONE, 0, emitColor), aiReturn_SUCCESS);
    EXPECT_EQ(emitColor, aiColor4D(1, 0, 1, 1));
}