GoakeFlax/Source/Game/MyScript.cpp

#include "MyScript.h"

#include "Engine/Content/Content.h"
#include "Engine/Level/Actor.h"
#include "Engine/Core/Log.h"
#include "Engine/Renderer/RenderList.h"
#include "Engine/Scripting/ManagedCLR/MUtils.h"
#include "Engine/Scripting/ManagedCLR/MCore.h"
#include "Engine/Scripting/ManagedCLR/MClass.h"
#include "Engine/Scripting/ManagedCLR/MEvent.h"
#include "Engine/Scripting/ManagedCLR/MMethod.h"
#include "Engine/Level/Scene/Scene.h"
#include "Engine/Core/Collections/Sorting.h"
#include "Engine/Render2D/FontAsset.h"

#define NEW_VERSION 1

#if BUILD_DEBUG
#define LONGER 3
#define CHUNK_TIMES 100
#else
#define LONGER 10*10
#define CHUNK_TIMES 1000
#endif
#define TIMES (10000*LONGER)
#define TIMES2 (1000*LONGER)
#define TIMES3 (100*LONGER)
#define TIMES4 (10*LONGER)
#define TIMES5 (1*LONGER)
#define TIMES_ONCE 1

MyScript2::MyScript2(const SpawnParams& params)
    : Script(params)
{
    //  _tickUpdate = true; 

}

MyScript::MyScript(const SpawnParams& params)
    : Script(params)
{
    //  _tickUpdate = true; 
    
}

#define BENCHMARK_CALL_ARGS0(REPEAT, FUNC) \
{ \
    LOG(Info, #FUNC); \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            scriptTwo->FUNC(); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - VirtualCall: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes); \
}
#define BENCHMARK_CALL_ARGS1(REPEAT, FUNC, PARAM1) \
{ \
    LOG(Info, #FUNC); \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            scriptTwo->FUNC(PARAM1); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - VirtualCall: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes); \
}
#define BENCHMARK_CALL_ARGS1_REF(REPEAT, FUNC, PARAM1) \
{ \
    LOG(Info, #FUNC); \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
        { \
            auto _param1_orig_value = PARAM1; \
            scriptTwo->FUNC(_param1_orig_value); \
        } \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - VirtualCall: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes); \
}
#define BENCHMARK_CALL_ARGS5(REPEAT, FUNC, PARAM1, PARAM2, PARAM3, PARAM4, PARAM5) \
{ \
    LOG(Info, #FUNC); \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            scriptTwo->FUNC(PARAM1, PARAM2, PARAM3, PARAM4, PARAM5); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - VirtualCall: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes); \
}
#define BENCHMARK_THUNK_BEGIN_ARGS0(REPEAT, FUNC) \
{ \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    typedef void (*Thunk)(void* instance, MObject** exception); \
    const auto thunk = (Thunk)scriptTwo->GetClass()->GetMethod(#FUNC, 0)->GetThunk(); \
    const auto instance = scriptTwo->GetOrCreateManagedInstance(); \
    MObject* exception = nullptr;
#define BENCHMARK_THUNK_CALL_ARGS0() \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            thunk(instance, &exception); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - InvokeThunkOnly: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes);
#define BENCHMARK_THUNK_BEGIN_ARGS1(REPEAT, FUNC) \
{ \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    typedef void (*Thunk)(void* instance, void*, MObject** exception); \
    const auto thunk = (Thunk)scriptTwo->GetClass()->GetMethod(#FUNC, 1)->GetThunk(); \
    const auto instance = scriptTwo->GetOrCreateManagedInstance(); \
    MObject* exception = nullptr; \
    void* params[1];
#define BENCHMARK_THUNK_CALL_ARGS1() \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            thunk(instance, params[0], &exception); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - InvokeThunkOnly: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes);
#define BENCHMARK_THUNK_CALL_ARGS1_REF(FUN) \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
        { \
            thunk(instance, params[0], &exception); \
            FUN \
        } \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - InvokeThunkOnly: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes);
#define BENCHMARK_THUNK_BEGIN_ARGS5(REPEAT, FUNC) \
{ \
    const auto times = REPEAT; \
    const auto chunkTimes = CHUNK_TIMES; \
    typedef void (*Thunk)(void* instance, void*, void*, void*, void*, void*, MObject** exception); \
    const auto thunk = (Thunk)scriptTwo->GetClass()->GetMethod(#FUNC, 5)->GetThunk(); \
    const auto instance = scriptTwo->GetOrCreateManagedInstance(); \
    MObject* exception = nullptr; \
    void* params[5];
#define BENCHMARK_THUNK_CALL_ARGS5() \
    const auto freq = Platform::GetClockFrequency(); \
    results.Clear(); \
    auto start2 = Platform::GetTimeCycles(); \
    for (int i = 0; i < times; ++i) \
    { \
        auto start = Platform::GetTimeCycles(); \
        for (int j = 0; j < chunkTimes; ++j) \
            thunk(instance, params[0], params[1], params[2], params[3], params[4], &exception); \
        auto end = Platform::GetTimeCycles(); \
        auto elapsed = end - start; \
        results.Add(elapsed); \
    } \
    auto end2 = Platform::GetTimeCycles(); \
    auto elapsed2 = end2 - start2; \
    Sorting::MergeSort(results); \
    const auto resultsIndex = 0; \
    LOG(Info, "  - InvokeThunkOnly: {:.1f}ns ({:.0f}ms total {} times)", (results[resultsIndex] * (1.0 / static_cast<double>(freq)) * 1000000000 / chunkTimes), (elapsed2 * (1.0 / static_cast<double>(freq)) * 1000), times*chunkTimes);
#define BENCHMARK_THUNK_END() \
}
#define COVERAGE_CALL_ARGS2(FUNC, PARAM1, PARAM2) \
{ \
    LOG(Info, #FUNC); \
    scriptTwo->FUNC(PARAM1, PARAM2); \
}
#define COVERAGE_CALL_ARGS3(FUNC, PARAM1, PARAM2, PARAM3) \
{ \
    LOG(Info, #FUNC); \
    scriptTwo->FUNC(PARAM1, PARAM2, PARAM3); \
}
#define COVERAGE_CALL_ARGS4(FUNC, PARAM1, PARAM2, PARAM3, PARAM4) \
{ \
    LOG(Info, #FUNC); \
    scriptTwo->FUNC(PARAM1, PARAM2, PARAM3, PARAM4); \
}
#define COVERAGE_CALL_ARGS5(FUNC, PARAM1, PARAM2, PARAM3, PARAM4, PARAM5) \
{ \
    LOG(Info, #FUNC); \
    scriptTwo->FUNC(PARAM1, PARAM2, PARAM3, PARAM4, PARAM5); \
}
#define COVERAGE_CALL_ARGS6(FUNC, PARAM1, PARAM2, PARAM3, PARAM4, PARAM5, PARAM6) \
{ \
    LOG(Info, #FUNC); \
    scriptTwo->FUNC(PARAM1, PARAM2, PARAM3, PARAM4, PARAM5, PARAM6); \
}

void MyScript::OnStart()
{
    LOG(Info, "C++ OnStart");
    MyScript2* scriptTwo = (MyScript2*)GetActor()->GetScript(1);
    if (scriptTwo == nullptr)
        return;

    bool coverageTests = false;
    bool otherTests = true;
    bool arrayTests = true;
    bool asRefTests = true;

    Array<uint64> results(TIMES);
    auto CyclesToSeconds = 1.0 / static_cast<double>(Platform::GetClockFrequency());
    LOG(Info, "CyclesToSeconds: {}, freq: {}", CyclesToSeconds, Platform::GetClockFrequency());
    
    String shortString = TEXT("Testing string parameter marshalling");
    StringAnsi shortStringAnsi = "Testing string parameter marshalling";
    Actor* actor = GetActor();
    SceneReference sceneRef; sceneRef.ID = actor->GetScene()->GetID();
    BehaviorUpdateContext behaviorUpdateContext = {};
    RenderContext renderContext = MainRenderTask::Instance;
    renderContext.List = RenderList::GetFromPool();
    Array<int> simpleArray; for (int i=0; i<10; i++) simpleArray.Add(i);
    Array<Actor*> actorArray; for (int i=0; i<10; i++) actorArray.Add(actor);
    TestStruct testStruct; testStruct.Object = actor; testStruct.SceneRef = sceneRef;
    Array<TestStruct> complexArray; for (int i=0; i<10; i++) complexArray.Add(testStruct);


    // Coverage
    if (coverageTests)
    {
        int32 integer = 1;
        bool boolean = true;
        Float3 f3(1.0f, 2.0f, 3.0f);
        Guid fontAssetGuid; Guid::Parse("ab96b25a49461d9f4f819484cf5c8213", fontAssetGuid);
        FontAsset* fontAsset = Content::LoadAsync<FontAsset>(fontAssetGuid);
        NetworkChannelType networkChannelType = NetworkChannelType::Reliable;
        OnlineLeaderboardSortModes onlineLeaderboardSortModes = OnlineLeaderboardSortModes::Ascending;
        OnlineLeaderboardValueFormats onlineLeaderboardValueFormats = OnlineLeaderboardValueFormats::Numeric;
        AssetReference<FontAsset> fontAssetRef(fontAsset);
        ModelLOD* lod = nullptr;

        Array<int32> ints(&integer, 1);
        Array<bool> booleans(&boolean, 1);
        Array<Actor*> actors(&actor, 1);
        Array<String> strings(&shortString, 1);
        Array<StringAnsi> ansiStrings(&shortStringAnsi, 1);
        Array<Float3> float3s(&f3, 1);
        Array<ModelLOD*> lods(&lod, 1);

        COVERAGE_CALL_ARGS6(CoverageTest1, integer, boolean, actor, shortString, shortStringAnsi, f3);
        COVERAGE_CALL_ARGS6(CoverageTest1Array, ints, booleans, actors, strings, ansiStrings, float3s);

        COVERAGE_CALL_ARGS5(CoverageTest1ByRef, integer, boolean/*, actor*/, shortString, shortStringAnsi, f3);
        COVERAGE_CALL_ARGS5(CoverageTest1ArrayByRef, ints, booleans/*, actors*/, strings, ansiStrings, float3s);
        COVERAGE_CALL_ARGS4(CoverageTest2, fontAssetGuid, fontAssetRef, Array<Guid>(&fontAssetGuid, 1), Array<AssetReference<FontAsset>>(&fontAssetRef, 1));
        COVERAGE_CALL_ARGS2(CoverageTest3, lod, lods);
        COVERAGE_CALL_ARGS6(CoverageNamespaces1, networkChannelType, Array<NetworkChannelType>(&networkChannelType, 1), onlineLeaderboardSortModes, Array<OnlineLeaderboardSortModes>(&onlineLeaderboardSortModes, 1), onlineLeaderboardValueFormats, Array<OnlineLeaderboardValueFormats>(&onlineLeaderboardValueFormats, 1));

        scriptTwo->ManagedCoverageTests();
    }

#if NEW_VERSION
    int64 allocationsBefore, deallocationsBefore;
    scriptTwo->GetStats(allocationsBefore, deallocationsBefore);
#endif

    if (otherTests)
    {
        BENCHMARK_CALL_ARGS0(TIMES2, SimpleCall);
        BENCHMARK_THUNK_BEGIN_ARGS0(TIMES2, SimpleCall);
        BENCHMARK_THUNK_CALL_ARGS0();
        BENCHMARK_THUNK_END();
    }


    if (otherTests)
    {
        BENCHMARK_CALL_ARGS5(TIMES4, SimpleParams, 1, 2, '3', 4, 5);
        BENCHMARK_THUNK_BEGIN_ARGS5(TIMES3, SimpleParams);
        params[0] = MUtils::Box<int>(1, MCore::TypeCache::Int32);
        params[1] = MUtils::Box<float>(2, MCore::TypeCache::Single);
        params[2] = MUtils::Box<char>('3', MCore::TypeCache::SByte);
        params[3] = MUtils::Box<double>(4, MCore::TypeCache::Double);
        params[4] = MUtils::Box<long>(5, MCore::TypeCache::Int64);
        BENCHMARK_THUNK_CALL_ARGS5();
#if NEW_VERSION
        auto __param0_handle = *(MGCHandle*)&params[0];
        MCore::GCHandle::Free(__param0_handle);
        auto __param1_handle = *(MGCHandle*)&params[1];
        MCore::GCHandle::Free(__param1_handle);
        auto __param2_handle = *(MGCHandle*)&params[2];
        MCore::GCHandle::Free(__param2_handle);
        auto __param3_handle = *(MGCHandle*)&params[3];
        MCore::GCHandle::Free(__param3_handle);
        auto __param4_handle = *(MGCHandle*)&params[4];
        MCore::GCHandle::Free(__param4_handle);
#endif
        BENCHMARK_THUNK_END();
    }


    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES3, StringParamAnsi, shortStringAnsi);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, StringParamAnsi);
        params[0] = MUtils::Box<StringAnsi>(shortStringAnsi, MCore::TypeCache::String);
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<StringAnsi>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES3, StringParam, shortString);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, StringParam);
        params[0] = MUtils::Box<String>(shortString, MCore::TypeCache::String);
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<String>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES3, StringParamRef, shortString);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, StringParamRef);
        params[0] = MUtils::Box<String>(shortString, MCore::TypeCache::String);
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<String>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES3, StringParamRefConst, shortString);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, StringParamRefConst);
        params[0] = MUtils::Box<String>(shortString, MCore::TypeCache::String);
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<String>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (asRefTests)
    {
        String str = shortString;
        BENCHMARK_CALL_ARGS1_REF(TIMES3, StringParamAsRef, str);
        LOG(Info, "  - InvokeThunkOnly: not valid");
/*        str = shortString;
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, StringParamAsRef);
#if NEW_VERSION
        auto __param_orig_str = MUtils::Box<String>(str, MCore::TypeCache::String);
        auto __param_str = __param_orig_str;
        params[0] = &__param_str;
#else
        auto __param_str = MUtils::Box<String>(str, MCore::TypeCache::String);
        params[0] = &__param_str;
#endif
        BENCHMARK_THUNK_CALL_ARGS1_REF({ params[0] = &__param_str; });
        str = MUtils::Unbox<String>(*(MObject**)params[0]);
        ASSERT(str == shortString);
#if NEW_VERSION
        MUtils::FreeManaged<String>((MObject*)__param_str);
        if (__param_orig_str != __param_str)
            MUtils::FreeManaged<String>((MObject*)__param_orig_str);
#endif
        BENCHMARK_THUNK_END();*/
    }


    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES2, ActorParam, actor);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, ActorParam);
        params[0] = ScriptingObject::ToManaged((ScriptingObject*)actor);
        BENCHMARK_THUNK_CALL_ARGS1();
        BENCHMARK_THUNK_END();
    }


    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES3, ComplexParam, behaviorUpdateContext);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES2, ComplexParam);
        params[0] = MUtils::Box<BehaviorUpdateContext>(behaviorUpdateContext, BehaviorUpdateContext::TypeInitializer.GetClass());
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<BehaviorUpdateContext>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }


    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES4, Complex2Param, renderContext);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, Complex2Param);
        params[0] = MUtils::Box<RenderContext>(renderContext, RenderContext::TypeInitializer.GetClass());
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<RenderContext>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (otherTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES4, Complex2ParamConst, renderContext);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, Complex2ParamConst);
        params[0] = MUtils::Box<RenderContext>(renderContext, RenderContext::TypeInitializer.GetClass());
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManaged<RenderContext>((MObject*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (asRefTests)
    {
        RenderContext context = renderContext;
        BENCHMARK_CALL_ARGS1_REF(TIMES4, Complex2ParamAsRef, context);
        LOG(Info, "  - InvokeThunkOnly: not valid");
/*        context = renderContext;
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, Complex2ParamAsRef);
#if NEW_VERSION
        auto __param_orig_context = MUtils::Box<RenderContext>(context, RenderContext::TypeInitializer.GetClass());
        auto __param_context = __param_orig_context;
        params[0] = &__param_context;
#else
        auto __param_context = MUtils::Box<RenderContext>(context, RenderContext::TypeInitializer.GetClass());
        params[0] = &__param_context;
#endif
        BENCHMARK_THUNK_CALL_ARGS1_REF({ if (__param_orig_context != __param_context) MUtils::FreeManaged<RenderContext>((MObject*)__param_orig_context); params[0] = &__param_context; });
        context = MUtils::Unbox<RenderContext>(*(MObject**)params[0]);
        ASSERT(context.Buffers == renderContext.Buffers);
        ASSERT(context.Task == renderContext.Task);
#if NEW_VERSION
        context = MUtils::Unbox<RenderContext>(*(MObject**)params[0]);
        MUtils::FreeManaged<RenderContext>((MObject*)__param_context);
        if (__param_orig_context != __param_context)
            MUtils::FreeManaged<RenderContext>((MObject*)__param_orig_context);
#endif
        BENCHMARK_THUNK_END();*/
    }


    if (arrayTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES4, SimpleArrayParam, simpleArray);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, SimpleArrayParam);
        params[0] = MUtils::ToArray(simpleArray, MCore::TypeCache::Int32);
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManagedArray<int>((MArray*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (arrayTests && asRefTests)
    {
        Array<int> arr = simpleArray;
        BENCHMARK_CALL_ARGS1_REF(TIMES4, SimpleArrayParamAsRef, simpleArray);
        LOG(Info, "  - InvokeThunkOnly: not valid");
/*        arr = simpleArray;
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, SimpleArrayParamAsRef);
#if NEW_VERSION
        auto __param_orig_arr = MUtils::ToArray(arr, MCore::TypeCache::Int32);
        auto __param_arr = __param_orig_arr;
        params[0] = &__param_arr;
#else
        auto __param_arr = MUtils::ToArray(arr, MCore::TypeCache::Int32);
        params[0] = &__param_arr;
#endif
        BENCHMARK_THUNK_CALL_ARGS1();
        arr = MUtils::Unbox<Array<int>>(*(MObject**)params[0]);
        ASSERT(arr.Count() == simpleArray.Count());
        for (int i=0; i<arr.Count(); i++) ASSERT(arr[i] == simpleArray[i]);
#if NEW_VERSION
        MUtils::FreeManagedArray<int>(__param_arr);  //fgfgh3
        if (__param_orig_arr != __param_arr)
            MUtils::FreeManagedArray<int>(__param_orig_arr);  //fgfgh4
#endif
        BENCHMARK_THUNK_END();*/
    }


    if (arrayTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES4, ActorArrayParam, actorArray);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, ActorArrayParam);
        params[0] = MUtils::ToArray(actorArray, Actor::TypeInitializer.GetClass());
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManagedArray<Actor*>((MArray*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }

    if (arrayTests)
    {
        BENCHMARK_CALL_ARGS1(TIMES4, ComplexArrayParam, complexArray);
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES3, ComplexArrayParam);
        params[0] = MUtils::ToArray(complexArray, TestStruct::TypeInitializer.GetClass());
        BENCHMARK_THUNK_CALL_ARGS1();
#if NEW_VERSION
        MUtils::FreeManagedArray<TestStruct>((MArray*)params[0]);
#endif
        BENCHMARK_THUNK_END();
    }
    if (arrayTests && asRefTests)
    {
        Array<TestStruct> arr = complexArray;
        BENCHMARK_CALL_ARGS1_REF(TIMES4, ComplexArrayParamAsRef, arr);
        LOG(Info, "  - InvokeThunkOnly: not valid");
/*        arr = complexArray;
        BENCHMARK_THUNK_BEGIN_ARGS1(TIMES4, ComplexArrayParamAsRef);
        
#if NEW_VERSION
        auto __param_orig_arr = MUtils::ToArray(arr, TestStruct::TypeInitializer.GetClass());
        auto __param_arr = __param_orig_arr;
        params[0] = &__param_arr;
#else
        auto __param_arr = MUtils::ToArray(arr, TestStruct::TypeInitializer.GetClass());
        params[0] = &__param_arr;
#endif
        BENCHMARK_THUNK_CALL_ARGS1();
        arr = MUtils::Unbox<Array<TestStruct>>(*(MObject**)params[0]);
        ASSERT(arr.Count() == complexArray.Count());
        for (int i = 0; i < arr.Count(); i++) ASSERT(arr[i] == complexArray[i]);
#if NEW_VERSION
        MUtils::FreeManagedArray<TestStruct>(__param_arr);
        if (__param_orig_arr != __param_arr)
            MUtils::FreeManagedArray<TestStruct>(__param_orig_arr);
#endif
        BENCHMARK_THUNK_END();*/
    }

#if NEW_VERSION
    int64 allocationsAfter, deallocationsAfter;
    scriptTwo->GetStats(allocationsAfter, deallocationsAfter);
    int64 allocationsDiff = allocationsAfter-allocationsBefore;
    int64 deallocationsDiff = deallocationsAfter-deallocationsBefore;
    int64 leftover = allocationsDiff - deallocationsDiff;
    LOG(Info, "Total ManagedHandle allocations: {}, deallocations: {}, leftover: {}", allocationsDiff, deallocationsDiff, leftover);
#endif
}

void MyScript::OnEnable()
{
    //LOG(Info, "C++ OnEnable");
}

void MyScript::OnDisable()
{
    LOG(Info, "running garbage collector");
    MCore::GC::Collect(MCore::GC::MaxGeneration(), MGCCollectionMode::Aggressive, true, true);
    MCore::GC::WaitForPendingFinalizers();
}

void MyScript::OnUpdate()
{
}