Fixed compilation of boxed_object.hpp in non-debug builds.

Finally implemented object pools.
Added missing template parameter.
2025-07-25 00:51:53 +02:00 · 2025-07-25 00:51:32 +02:00 · 2025-07-17 23:47:00 +02:00 · 2025-07-17 10:56:52 +02:00 · 2025-07-17 10:56:39 +02:00 · 2025-07-17 10:56:15 +02:00
37 changed files with 1407 additions and 758 deletions
--- a/1
+++ b/1
@ -16,6 +16,7 @@ mijin_sources = Split("""
    source/mijin/platform/folders.cpp
    source/mijin/util/os.cpp
    source/mijin/types/name.cpp
    source/mijin/types/path.cpp
    source/mijin/virtual_filesystem/filesystem.cpp
    source/mijin/virtual_filesystem/memory.cpp
    source/mijin/virtual_filesystem/stacked.cpp
--- a/source/mijin/async/coroutine.hpp
+++ b/source/mijin/async/coroutine.hpp
@ -5,6 +5,10 @@
 #define MIJIN_ASYNC_COROUTINE_HPP_INCLUDED 1
 #if !defined(MIJIN_COROUTINE_ENABLE_DEBUG_INFO)
 #   define MIJIN_COROUTINE_ENABLE_DEBUG_INFO 0 // Capture stack each time a coroutine is started. Warning, expensive! // TODO: maybe implement a lighter version only storing the return address?
 #endif
 #include <any>
 #include <chrono>
 #include <coroutine>
@ -21,17 +25,7 @@
 #include "../util/flag.hpp"
 #include "../util/iterators.hpp"
 #include "../util/misc.hpp"
 #include "../util/scope_guard.hpp"
 #include "../util/traits.hpp"
 #if !defined(MIJIN_COROUTINE_ENABLE_DEBUG_INFO)
 #   define MIJIN_COROUTINE_ENABLE_DEBUG_INFO 0 // Capture stack each time a coroutine is started. Warning, expensive! // TODO: maybe implement a lighter version only storing the return address?
 #endif
 #if !defined(MIJIN_COROUTINE_ENABLE_EXCEPTIONS)
 #   define MIJIN_COROUTINE_ENABLE_EXCEPTIONS 0
 #endif
 #if MIJIN_COROUTINE_ENABLE_DEBUG_INFO
 #include "../debug/stacktrace.hpp"
 #endif
@ -191,16 +185,10 @@ struct TaskReturn<void, TPromise>
 };
 }
-template<typename TValue, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
+template<typename TValue>
 using TaskFuture = Future<TValue, TAllocator, MIJIN_COROUTINE_ENABLE_EXCEPTIONS>;
 template<typename TValue, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
 using TaskFuturePtr = FuturePtr<TValue, TAllocator, MIJIN_COROUTINE_ENABLE_EXCEPTIONS>;
 template<typename TValue, template<typename> typename TAllocator>
 struct TaskAwaitableFuture
 {
-    TaskFuturePtr<TValue, TAllocator> future;
+    FuturePtr<TValue> future;
    [[nodiscard]] constexpr bool await_ready() const MIJIN_NOEXCEPT { return future->ready(); }
    constexpr void await_suspend(std::coroutine_handle<>) const MIJIN_NOEXCEPT {}
@ -340,12 +328,12 @@ struct TaskPromise : impl::TaskReturn<typename TTraits::result_t, TaskPromise<TT
    // constexpr void unhandled_exception() MIJIN_NOEXCEPT {}
-    template<typename TValue, template<typename> typename TAllocator2>
+    template<typename TValue>
-    auto await_transform(TaskFuturePtr<TValue, TAllocator2> future, std::source_location sourceLoc = std::source_location::current()) MIJIN_NOEXCEPT
+    auto await_transform(FuturePtr<TValue> future, std::source_location sourceLoc = std::source_location::current()) MIJIN_NOEXCEPT
    {
        MIJIN_ASSERT(loop_ != nullptr, "Cannot await future outside of a loop!");
        sharedState_->sourceLoc = std::move(sourceLoc);
-        TaskAwaitableFuture<TValue, TAllocator> awaitable{future};
+        TaskAwaitableFuture<TValue> awaitable{future};
        if (!awaitable.await_ready())
        {
            state_.status = TaskStatus::WAITING;
@ -646,10 +634,10 @@ public:
    void setUncaughtExceptionHandler(exception_handler_t handler) MIJIN_NOEXCEPT { uncaughtExceptionHandler_ = std::move(handler); }
    template<typename TResult>
-    TaskFuturePtr<TResult, TAllocator> addTaskImpl(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle) MIJIN_NOEXCEPT;
+    FuturePtr<TResult> addTaskImpl(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle) MIJIN_NOEXCEPT;
    template<typename TResult>
-    TaskFuturePtr<TResult, TAllocator> addTask(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle = nullptr) MIJIN_NOEXCEPT
+    FuturePtr<TResult> addTask(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle = nullptr) MIJIN_NOEXCEPT
    {
        static_assert(TaskAllocatorTraits<TAllocator>::default_is_valid_v, "Allocator is not valid when default constructed, use makeTask() instead.");
        return addTaskImpl(std::move(task), outHandle);
@ -675,7 +663,7 @@ protected:
 protected:
    static inline TaskLoop*& currentLoopStorage() MIJIN_NOEXCEPT;
    template<typename TResult>
-    static inline void setFutureHelper(StoredTask& storedTask) MIJIN_NOEXCEPT_IF(!MIJIN_COROUTINE_ENABLE_EXCEPTIONS);
+    static inline void setFutureHelper(StoredTask& storedTask) MIJIN_NOEXCEPT;
 };
 template<typename TResult = void>
@ -822,12 +810,12 @@ TaskBase<TResult, TAllocator>::~TaskBase() MIJIN_NOEXCEPT
 template<template<typename> typename TAllocator>
 template<typename TResult>
-TaskFuturePtr<TResult, TAllocator> TaskLoop<TAllocator>::addTaskImpl(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle) MIJIN_NOEXCEPT
+FuturePtr<TResult> TaskLoop<TAllocator>::addTaskImpl(TaskBase<TResult, TAllocator> task, TaskHandle* outHandle) MIJIN_NOEXCEPT
 {
    MIJIN_ASSERT(!task.getLoop(), "Attempting to add task that already has a loop!");
    task.setLoop(this);
-    TaskFuturePtr<TResult, TAllocator> future = std::allocate_shared<TaskFuture<TResult, TAllocator>>(TAllocator<Future<TResult, TAllocator>>(allocator_), allocator_);
+    FuturePtr<TResult> future = std::allocate_shared<Future<TResult>>(TAllocator<Future<TResult>>(allocator_), allocator_);
    auto setFuture = &setFutureHelper<TResult>;
    if (outHandle != nullptr)
@ -866,7 +854,7 @@ TaskStatus TaskLoop<TAllocator>::tickTask(StoredTask& task)
    while (status == TaskStatus::RUNNING);
    impl::gCurrentTaskState = nullptr;
-#if MIJIN_COROUTINE_ENABLE_EXCEPTION_HANDLING && !MIJIN_COROUTINE_ENABLE_EXCEPTIONS
+#if MIJIN_COROUTINE_ENABLE_EXCEPTION_HANDLING
    if (task.task && task.task->exception())
    {
        try
@ -893,24 +881,9 @@ TaskStatus TaskLoop<TAllocator>::tickTask(StoredTask& task)
    }
 #endif // MIJIN_COROUTINE_ENABLE_EXCEPTION_HANDLING
    if (status == TaskStatus::YIELDED || status == TaskStatus::FINISHED)
    {
        try
    {
        task.setFuture(task);
    }
        catch(TaskCancelled&) {}
        catch(...)
        {
            if (uncaughtExceptionHandler_)
            {
                uncaughtExceptionHandler_(std::current_exception());
            }
            else
            {
                throw;
            }
        }
    }
    return status;
 }
@ -936,22 +909,10 @@ template<template<typename> typename TAllocator>
 template<template<typename> typename TAllocator>
 template<typename TResult>
-/* static */ inline void TaskLoop<TAllocator>::setFutureHelper(StoredTask& storedTask) MIJIN_NOEXCEPT_IF(!MIJIN_COROUTINE_ENABLE_EXCEPTIONS)
+/* static */ inline void TaskLoop<TAllocator>::setFutureHelper(StoredTask& storedTask) MIJIN_NOEXCEPT
 {
    TaskBase<TResult, TAllocator>& task = *static_cast<TaskBase<TResult, TAllocator>*>(storedTask.task->raw());
-    const auto& future = std::any_cast<TaskFuturePtr<TResult, TAllocator>&>(storedTask.resultData);
+    auto future = std::any_cast<FuturePtr<TResult>>(storedTask.resultData);
 #if MIJIN_COROUTINE_ENABLE_EXCEPTIONS
    if (task.state().exception)
    {
        if (future.use_count() < 2)
        {
            // future has been discarded, but someone must handle the exception
            std::rethrow_exception(task.state().exception);
        }
        future->setException(task.state().exception);
        return;
    }
 #endif
    if constexpr (!std::is_same_v<TResult, void>)
    {
@ -1036,9 +997,6 @@ inline auto BaseSimpleTaskLoop<TAllocator>::tick() -> CanContinue
    // set current taskloop
    MIJIN_ASSERT(TaskLoop<TAllocator>::currentLoopStorage() == nullptr, "Trying to tick a loop from a coroutine, this is not supported.");
    TaskLoop<TAllocator>::currentLoopStorage() = this;
    MIJIN_SCOPE_EXIT {
        TaskLoop<TAllocator>::currentLoopStorage() = nullptr;
    };
    threadId_ = std::this_thread::get_id();
    // move over all tasks from newTasks
@ -1088,6 +1046,8 @@ inline auto BaseSimpleTaskLoop<TAllocator>::tick() -> CanContinue
            canContinue = CanContinue::YES;
        }
    }
    // reset current loop
    TaskLoop<TAllocator>::currentLoopStorage() = nullptr;
    // remove any tasks that have been transferred to another queue
    it = std::remove_if(tasks_.begin(), tasks_.end(), [](const StoredTask& task) {
@ -1287,14 +1247,14 @@ inline TaskAwaitableSuspend c_suspend() {
    return TaskAwaitableSuspend();
 }
-template<template<typename...> typename TCollection, FutureType TFuture, typename... TTemplateArgs>
+template<template<typename...> typename TCollection, typename TType, typename... TTemplateArgs>
-Task<> c_allDone(const TCollection<TFuture, TTemplateArgs...>& futures)
+Task<> c_allDone(const TCollection<FuturePtr<TType>, TTemplateArgs...>& futures)
 {
    bool allDone = true;
    do
    {
        allDone = true;
-        for (const TFuture& future : futures)
+        for (const FuturePtr<TType>& future : futures)
        {
            if (future && !future->ready()) {
                allDone = false;
--- a/source/mijin/async/future.hpp
+++ b/source/mijin/async/future.hpp
@ -4,7 +4,6 @@
 #if !defined(MIJIN_ASYNC_FUTURE_HPP_INCLUDED)
 #define MIJIN_ASYNC_FUTURE_HPP_INCLUDED 1
 #include <exception>
 #include <memory>
 #include <optional>
 #include <tuple>
@ -28,113 +27,43 @@ namespace mijin
 //
 // public types
 //
-template<typename TValue, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR, bool exceptions = false>
+template<typename TValue, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
 class Future;
 // TODO: add support for mutexes and waiting for futures
 namespace impl
 {
-template<typename TValue, bool exceptions>
+template<typename TValue>
 struct FutureStorage
 {
    Optional<TValue> value;
    [[nodiscard]]
    bool hasValue() const MIJIN_NOEXCEPT
    {
        return !value.empty();
    }
    void setValue(TValue value_) MIJIN_NOEXCEPT { value = std::move(value_); }
    [[nodiscard]] TValue& getValue() MIJIN_NOEXCEPT { return value.get(); }
 };
-template<>
+// template<typename TValue>
-struct FutureStorage<void, false>
+// struct FutureStorage<TValue&>
-{
+// {
-    bool isSet = false;
+//     Optional<TValue*> value;
-
+//
-    [[nodiscard]]
+//     void setValue(TValue& value_) MIJIN_NOEXCEPT { value = &value_; }
-    bool hasValue() const MIJIN_NOEXCEPT
+//     [[nodiscard]] TValue& getValue() const MIJIN_NOEXCEPT { return *value.get(); }
-    {
+// };
        return isSet;
    }
    void setValue() MIJIN_NOEXCEPT
    {
        isSet = true;
    }
    void getValue() MIJIN_NOEXCEPT {}
 };
 #if MIJIN_ENABLE_EXCEPTIONS
 template<typename TValue>
 struct FutureStorage<TValue, true>
 {
    Optional<TValue> value;
    std::exception_ptr exception;
    [[nodiscard]]
    bool hasValue() const MIJIN_NOEXCEPT
    {
        if (exception) {
            return true;
        }
        return !value.empty();
    }
    void setException(std::exception_ptr exc) MIJIN_NOEXCEPT
    {
        exception = std::move(exc);
    }
    void setValue(TValue value_) MIJIN_NOEXCEPT { value = std::move(value_); }
    [[nodiscard]] TValue& getValue()
    {
        if (exception) {
            std::rethrow_exception(exception);
        }
        return value.get();
    }
 };
 template<>
-struct FutureStorage<void, true>
+struct FutureStorage<void>
 {
    bool isSet = false;
    std::exception_ptr exception;
    [[nodiscard]]
    bool hasValue() const MIJIN_NOEXCEPT
    {
        if (exception) {
            return true;
        }
        return isSet;
    }
    void setException(std::exception_ptr exc) MIJIN_NOEXCEPT
    {
        exception = std::move(exc);
    }
    void setValue() MIJIN_NOEXCEPT
    {
        isSet = true;
    }
    void getValue()
    {
        if (exception) {
            std::rethrow_exception(exception);
        }
    }
 };
 #endif
 } // namespace impl
-template<typename TValue, template<typename> typename TAllocator, bool exceptions>
+template<typename TValue, template<typename> typename TAllocator>
 class Future
 {
 private:
-    impl::FutureStorage<TValue, exceptions> value_;
+    [[no_unique_address]] impl::FutureStorage<TValue> value_;
    bool isSet_ = false;
 public:
    Future() = default;
    Future(const Future&) = delete;
@ -151,12 +80,10 @@ public:
    constexpr bool operator!() const MIJIN_NOEXCEPT { return !ready(); }
 public: // access
    [[nodiscard]]
-    constexpr decltype(auto) get() MIJIN_NOEXCEPT_IF(!exceptions)
+    constexpr decltype(auto) get() MIJIN_NOEXCEPT
    {
-        MIJIN_ASSERT(ready(), "Attempting to get from future that is not ready.");
+        MIJIN_ASSERT(isSet_, "Attempting to get from future that is not ready.");
-        if constexpr(std::is_same_v<TValue, void>)
+        if constexpr(std::is_same_v<TValue, void>) {
        {
            value_.getValue(); // in case of exceptions
            return;
        }
        else {
@ -164,12 +91,10 @@ public: // access
        }
    }
    [[nodiscard]]
-    constexpr decltype(auto) get() const MIJIN_NOEXCEPT_IF(!exceptions)
+    constexpr decltype(auto) get() const MIJIN_NOEXCEPT
    {
-        MIJIN_ASSERT(ready(), "Attempting to get from future that is not ready.");
+        MIJIN_ASSERT(isSet_, "Attempting to get from future that is not ready.");
-        if constexpr(std::is_same_v<TValue, void>)
+        if constexpr(std::is_same_v<TValue, void>) {
        {
            value_.getValue(); // in case of exceptions
            return;
        }
        else {
@ -179,22 +104,22 @@ public: // access
    [[nodiscard]]
    constexpr bool ready() const MIJIN_NOEXCEPT
    {
-        return value_.hasValue();
+        return isSet_;
    }
 public: // modification
    template<typename TArg> requires (!std::is_same_v<TValue, void>)
    constexpr void set(TArg&& value) MIJIN_NOEXCEPT
    {
-        MIJIN_ASSERT(!ready(), "Trying to set a future twice!");
+        MIJIN_ASSERT(!isSet_, "Trying to set a future twice!");
        value_.setValue(std::move(value));
        isSet_ = true;
        sigSet.emit();
    }
    constexpr void set() MIJIN_NOEXCEPT requires (std::is_same_v<TValue, void>)
    {
-        MIJIN_ASSERT(!ready(), "Trying to set a future twice!");
+        MIJIN_ASSERT(!isSet_, "Trying to set a future twice!");
-        if constexpr (std::is_same_v<TValue, void>)
+        isSet_ = true;
-        {
+        if constexpr (std::is_same_v<TValue, void>) {
            value_.setValue();
            sigSet.emit();
        }
        else {
@ -202,38 +127,12 @@ public: // modification
            MIJIN_ERROR("Attempting to call set(void) on future with value.");
        }
    }
    constexpr void setException(std::exception_ptr exception) requires (exceptions)
    {
        MIJIN_ASSERT(!ready(), "Trying to set a future twice!");
        if constexpr (exceptions)
        {
            value_.setException(std::move(exception));
        }
    }
 public: // signals
    BaseSignal<TAllocator> sigSet;
 };
 template<typename TValue = void, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR, bool exceptions = false>
 using FuturePtr = std::shared_ptr<Future<TValue, TAllocator, exceptions>>;
 template<typename TValue = void, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
-using ExceptFuture = Future<TValue, TAllocator, true>;
+using FuturePtr = std::shared_ptr<Future<TValue, TAllocator>>;
 template<typename TValue = void, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
 using ExceptFuturePtr = std::shared_ptr<Future<TValue, TAllocator, true>>;
 template<typename T>
 struct is_future : std::false_type {};
 template<typename TValue, template<typename> typename TAllocator, bool exceptions>
 struct is_future<Future<TValue, TAllocator, exceptions>> : std::true_type {};
 template<typename T>
 inline constexpr bool is_future_t = is_future<T>::value;
 template<typename T>
 concept FutureType = is_future<T>::value;
 //
 // public functions
--- a/source/mijin/container/boxed_object.hpp
+++ b/source/mijin/container/boxed_object.hpp
@ -68,12 +68,12 @@ public:
    BoxedObject(const BoxedObject&) = delete;
    BoxedObject(BoxedObject&&) = delete;
 #if MIJIN_BOXED_OBJECT_DEBUG
    constexpr ~BoxedObject() noexcept
    {
 #if MIJIN_BOXED_OBJECT_DEBUG
        MIJIN_ASSERT(!constructed, "BoxedObject::~BoxedObject(): Object has not been destroyed prior to destructor!");
    }
 #endif
    }
    BoxedObject& operator=(const BoxedObject&) = delete;
    BoxedObject& operator=(BoxedObject&&) = delete;
--- a/source/mijin/container/vector_map.hpp
+++ b/source/mijin/container/vector_map.hpp
@ -133,8 +133,7 @@ public:
    VectorMap& operator=(VectorMap&&) = default;
    auto operator<=>(const VectorMap& other) const noexcept = default;
-    template<typename TIndex>
+    TValue& operator[](const TKey& key)
    TValue& operator[](const TIndex& key)
    {
        auto it = find(key);
        if (it != end())
@ -144,8 +143,7 @@ public:
        return emplace(key, TValue()).first->second;
    }
-    template<typename TIndex>
+    const TValue& operator[](const TKey& key) const
    const TValue& operator[](const TIndex& key) const
    {
        return at(key);
    }
@ -253,13 +251,13 @@ public:
        return eraseImpl(idx, count);
    }
-    template<typename TSearch>
+    template<std::equality_comparable_with<TKey> T>
    [[nodiscard]]
-    iterator find(const TSearch& key) MIJIN_NOEXCEPT
+    iterator find(const T& keyValue) MIJIN_NOEXCEPT
    {
        for (std::size_t idx = 0; idx < keys_.size(); ++idx)
        {
-            if (keys_[idx] == key)
+            if (keys_[idx] == keyValue)
            {
                return iterator(&keys_[idx], &values_[idx]);
            }
@ -267,13 +265,13 @@ public:
        return end();
    }
-    template<typename TSearch>
+    template<std::equality_comparable_with<TKey> T>
    [[nodiscard]]
-    const_iterator find(const TSearch& key) const MIJIN_NOEXCEPT
+    const_iterator find(const T& keyValue) const MIJIN_NOEXCEPT
    {
        for (std::size_t idx = 0; idx < keys_.size(); ++idx)
        {
-            if (keys_[idx] == key)
+            if (keys_[idx] == keyValue)
            {
                return const_iterator(&keys_[idx], &values_[idx]);
            }
@ -281,10 +279,11 @@ public:
        return end();
    }
    template<std::equality_comparable_with<TKey> T>
    [[nodiscard]]
-    bool contains(const TKey& key) const MIJIN_NOEXCEPT
+    bool contains(const T& keyValue) const MIJIN_NOEXCEPT
    {
-        return std::ranges::contains(keys_, key);
+        return std::ranges::contains(keys_, keyValue);
    }
 private:
    iterator eraseImpl(std::ptrdiff_t idx, std::ptrdiff_t count = 1) MIJIN_NOEXCEPT
--- a/source/mijin/debug/assert.hpp
+++ b/source/mijin/debug/assert.hpp
@ -19,7 +19,6 @@
 #pragma comment(lib, "kernel32")
 extern "C" __declspec(dllimport) void __stdcall DebugBreak();
 #define MIJIN_TRAP() DebugBreak()
 #define MIJIN_FUNC() __FUNCSIG__
 #else // _WIN32
 #include <unistd.h>
 #define MIJIN_TRAP()                            \
@ -34,7 +33,6 @@ extern "C" __declspec(dllimport) void __stdcall DebugBreak();
        : "rcx", "r11", "memory"                \
    );                                          \
 }
 #define MIJIN_FUNC() "" // TODO: __PRETTY_FUNCTION__ is not working for some reason -.-
 #endif // !_WIN32
 namespace mijin
--- a/source/mijin/debug/stacktrace.cpp
+++ b/source/mijin/debug/stacktrace.cpp
@ -122,7 +122,7 @@ bool initDbgHelp() MIJIN_NOEXCEPT
        return false;
    }
-    [[maybe_unused]] const int result = std::atexit(&cleanupDbgHelp);
+    const int result = std::atexit(&cleanupDbgHelp);
    MIJIN_ASSERT(result == 0, "Error registering DbgHelp cleanup handler.");
    // only copy in the end so we can still figure out if initialization was successful
--- a/source/mijin/detect.hpp
+++ b/source/mijin/detect.hpp
@ -61,26 +61,6 @@ namespace mijin
    #endif
 #endif
 #if !defined(MIJIN_RTTI)
    #if MIJIN_COMPILER == MIJIN_COMPILER_GCC
        #if defined(__GXX_RTTI)
            #define MIJIN_RTTI 1
        #else
            #define MIJIN_RTTI 0
        #endif
    #elif MIJIN_COMPILER == MIJIN_COMPILER_CLANG
        #define MIJIN_RTTI (__has_feature(cxx_rtti))
    #elif MIJIN_COMPILER == MIJIN_COMPILER_MSVC
        #if defined(_CPPRTTI)
            #define MIJIN_RTTI 1
        #else
            #define MIJIN_RTTI 0
        #endif
    #else
        #define MIJIN_RTTI 0
    #endif
 #endif
 //
 // public constants
 //
--- a/source/mijin/io/stream.cpp
+++ b/source/mijin/io/stream.cpp
@ -290,29 +290,6 @@ mijin::Task<StreamError> Stream::c_readLine(std::string& outString)
    co_return StreamError::SUCCESS;
 }
 StreamError Stream::copyTo(Stream& other)
 {
    MIJIN_ASSERT(getFeatures().read, "Stream must support reading.");
    MIJIN_ASSERT(other.getFeatures().write, "Other stream must support writing.");
    static constexpr std::size_t CHUNK_SIZE = 4096;
    std::array<std::byte, CHUNK_SIZE> chunk = {};
    while (!isAtEnd())
    {
        std::size_t bytesRead = 0;
        if (const StreamError error = readRaw(chunk, {.partial = true}, &bytesRead); error != StreamError::SUCCESS)
        {
            return error;
        }
        if (const StreamError error = other.writeRaw(chunk.data(), bytesRead); error != StreamError::SUCCESS)
        {
            return error;
        }
    }
    return StreamError::SUCCESS;
 }
 FileStream::~FileStream()
 {
    if (handle) {
@ -464,7 +441,7 @@ StreamFeatures FileStream::getFeatures()
    if (handle)
    {
        return {
-            .read = (mode == FileOpenMode::READ || mode == FileOpenMode::READ_WRITE),
+            .read = (mode == FileOpenMode::READ),
            .write = (mode == FileOpenMode::WRITE || mode == FileOpenMode::APPEND || mode == FileOpenMode::READ_WRITE),
            .tell = true,
            .seek = true,
--- a/source/mijin/io/stream.hpp
+++ b/source/mijin/io/stream.hpp
@ -275,8 +275,6 @@ public:
    StreamError getTotalLength(std::size_t& outLength);
    StreamError copyTo(Stream& otherStream);
    template<template<typename> typename TAllocator>
    StreamError readRest(BaseTypelessBuffer<TAllocator>& outBuffer);
@ -546,7 +544,7 @@ inline void throwOnError(mijin::StreamError error)
    if (error == mijin::StreamError::SUCCESS) {
        return;
    }
-    throw Exception(errorName(error));
+    throw std::runtime_error(errorName(error));
 }
 inline void throwOnError(mijin::StreamError error, std::string message)
@ -554,7 +552,7 @@ inline void throwOnError(mijin::StreamError error, std::string message)
    if (error == mijin::StreamError::SUCCESS) {
        return;
    }
-    throw Exception(message + ": " + errorName(error));
+    throw std::runtime_error(message + ": " + errorName(error));
 }
 template<typename TSuccess>
--- a/source/mijin/logging/debug_output_sink.hpp
+++ b/source/mijin/logging/debug_output_sink.hpp
@ -1,67 +0,0 @@
 #pragma once
 #if !defined(MIJIN_LOGGING_DEBUG_OUTPUT_SINK_HPP_INCLUDED)
 #define MIJIN_LOGGING_DEBUG_OUTPUT_SINK_HPP_INCLUDED 1
 #include "./formatting.hpp"
 #include "../detect.hpp"
 #include "../util/traits.hpp"
 #if MIJIN_TARGET_OS == MIJIN_OS_WINDOWS
 #pragma comment(lib, "Kernel32.lib")
 extern "C" void OutputDebugStringA(const char* lpOutputString);
 extern "C" void OutputDebugStringW(const wchar_t* lpOutputString);
 namespace mijin
 {
 template<MIJIN_FORMATTING_SINK_TMPL_ARGS_INIT>
    requires(allocator_type<TAllocator<TChar>>)
 class BaseDebugOutputSink : public BaseFormattingLogSink<MIJIN_FORMATTING_SINK_TMP_ARG_NAMES>
 {
 public:
    using base_t = BaseFormattingLogSink<MIJIN_FORMATTING_SINK_TMP_ARG_NAMES>;
    using typename base_t::char_t;
    using typename base_t::allocator_t;
    using typename base_t::formatter_ptr_t;
    using typename base_t::message_t;
 public:
    explicit BaseDebugOutputSink(formatter_ptr_t formatter, allocator_t allocator = {})
        MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible_v<allocator_t>)
            : base_t(std::move(formatter), std::move(allocator)) {}
    void handleMessageFormatted(const message_t&, const char_t* formatted) MIJIN_NOEXCEPT override
    {
        if constexpr (std::is_same_v<char_t, char>)
        {
            OutputDebugStringA(formatted);
            OutputDebugStringA("\n");
        }
        else if constexpr (std::is_same_v<char_t, wchar_t>)
        {
            OutputDebugStringW(formatted);
            OutputDebugStringW(L"\n");
        }
        else if constexpr (sizeof(char_t) == sizeof(char))
        {
            // char8_t etc.
            OutputDebugStringA(std::bit_cast<const char*>(formatted));
            OutputDebugStringA("\n");
        }
        else
        {
            static_assert(always_false_v<char_t>, "Character type not supported.");
        }
    }
 };
 #define SINK_SET_ARGS(chr_type) chr_type, std::char_traits<chr_type>, TAllocator, TDeleter
 MIJIN_DEFINE_CHAR_VERSIONS_TMPL(DebugOutputSink, MIJIN_FORMATTING_SINK_COMMON_ARGS, SINK_SET_ARGS)
 #undef SINK_SET_ARGS
 } // namespace mijin
 #endif // MIJIN_TARGET_OS == MIJIN_OS_WINDOWS
 #endif // !defined(MIJIN_LOGGING_DEBUG_OUTPUT_SINK_HPP_INCLUDED)
--- a/source/mijin/logging/formatting.hpp
+++ b/source/mijin/logging/formatting.hpp
@ -92,10 +92,10 @@ public:
    using string_t = formatter_t::string_t;
    using typename base_t::message_t;
 private:
-    formatter_ptr_t mFormatter;
+    not_null_t<formatter_ptr_t> mFormatter;
    string_t mBuffer;
 public:
-    explicit BaseFormattingLogSink(formatter_ptr_t formatter, allocator_t allocator = {})
+    explicit BaseFormattingLogSink(not_null_t<formatter_ptr_t> formatter, allocator_t allocator = {})
        MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible_v<allocator_t>)
        : mFormatter(std::move(formatter)), mBuffer(std::move(allocator))
    {}
--- a/source/mijin/logging/logger.hpp
+++ b/source/mijin/logging/logger.hpp
@ -12,6 +12,7 @@
 #include <vector>
 #include "../internal/common.hpp"
 #include "../util/annot.hpp"
 #include "../util/iterators.hpp"
 namespace mijin
 {
@ -148,11 +149,8 @@ public:
    {}
    BaseLogger(const BaseLogger&) = default;
    BaseLogger(BaseLogger&&) = default;
    BaseLogger& operator=(const BaseLogger&) = default;
    BaseLogger& operator=(BaseLogger&&) = default;
    void addSink(sink_t& sink)
@ -191,12 +189,28 @@ public:
    template<typename... TArgs>
    void log(const level_t& level, const channel_t& channel, std::source_location sourceLocation,
-             std::basic_format_string<char_t, std::type_identity_t<TArgs>...> fmt, TArgs&& ... args) const
+             std::basic_format_string<char_t, std::type_identity_t<TArgs>...> fmt, TArgs&& ... args) const MIJIN_NOEXCEPT
             MIJIN_NOEXCEPT_IF(noexcept(std::declval<allocator_t>().allocate(1)))
    {
-        string_t buffer(allocator_t(mSinks.get_allocator()));
+        // TODO: make the logger use a traits struct to make this adjustable
-        std::format_to(std::back_inserter(buffer), fmt, std::forward<TArgs>(args)...);
+        static constexpr std::size_t BUFFER_SIZE = 256;
-        log(level, channel, std::move(sourceLocation), buffer.c_str());
+        std::array<char_t, BUFFER_SIZE> buffer;
        // first try to write into a buffer on the stack
        FixedArrayOutputIterator itAfter = std::format_to(FixedArrayOutputIterator(buffer), fmt, std::forward<TArgs>(args)...);
        *itAfter = '\0';
        ++itAfter;
        if (!itAfter.didOverflow())
        {
            log(level, channel, std::move(sourceLocation), buffer.data());
            return;
        }
        // if that didn't work, allocate more space
        const std::size_t newBufferSize = itAfter.getCounter();
        char_t* newBuffer = static_cast<char_t*>(alloca(newBufferSize * sizeof(char_t)));
        const std::format_to_n_result result = std::format_to_n(newBuffer, newBufferSize - 1, fmt, std::forward<TArgs>(args)...);
        *result.out = '\0';
        log(level, channel, std::move(sourceLocation), newBuffer);
    }
 };
@ -258,10 +272,6 @@ MIJIN_DEFINE_LOG_LEVEL(ERROR, MIJIN_LOG_LEVEL_VALUE_ERROR)
 if constexpr (MIJIN_LOG_LEVEL_OBJECT(level).value < MIJIN_FUNCNAME_MIN_LOG_LEVEL_COMPILE()) {} \
 else MIJIN_LOG_ALWAYS(level, channel, __VA_ARGS__)
 #define MIJIN_LOG_IF(cond, level, channel, ...)                                                \
 if constexpr (MIJIN_LOG_LEVEL_OBJECT(level).value < MIJIN_FUNCNAME_MIN_LOG_LEVEL_COMPILE()) {} \
 else if (cond) MIJIN_LOG_ALWAYS(level, channel, __VA_ARGS__)
 #define MIJIN_SET_CLASS_LOGGER(loggerExpr)             \
 const auto& MIJIN_FUNCNAME_GET_LOGGER() const noexcept \
 {                                                      \
@ -272,11 +282,6 @@ auto MIJIN_FUNCNAME_GET_LOGGER = [&]() -> const auto& \
 {                                                     \
    return loggerExpr;                                \
 };
 #define MIJIN_SET_NS_LOGGER(loggerExpr)                 \
 inline const mijin::Logger& MIJIN_FUNCNAME_GET_LOGGER() \
 {                                                       \
    return loggerExpr;                                  \
 }
 #define MIJIN_SET_CLASS_MIN_LOG_LEVEL_COMPILE(level)      \
 int MIJIN_FUNCNAME_MIN_LOG_LEVEL_COMPILE() MIJIN_NOEXCEPT \
 {                                                         \
--- a/source/mijin/logging/stdio_sink.hpp
+++ b/source/mijin/logging/stdio_sink.hpp
@ -22,7 +22,7 @@ public:
 private:
    int mMinStderrLevel = MIJIN_LOG_LEVEL_VALUE_WARNING;
 public:
-    explicit BaseStdioSink(formatter_ptr_t formatter, allocator_t allocator = {})
+    explicit BaseStdioSink(not_null_t<formatter_ptr_t> formatter, allocator_t allocator = {})
        MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible_v<allocator_t>)
        : base_t(std::move(formatter), std::move(allocator)) {}
--- a/source/mijin/memory/dynamic_pointer.hpp
+++ b/source/mijin/memory/dynamic_pointer.hpp
@ -35,11 +35,10 @@ public:
    {
        MIJIN_ASSERT((std::bit_cast<std::uintptr_t>(ptr) & 1) == 0, "Invalid address, DynamicPointer requires addresses to be divisible by two.");
    }
-    template<typename TOther, typename TOtherDeleter> requires (std::is_assignable_v<T*&, TOther*> && std::is_constructible_v<TDeleter, TOtherDeleter&&>)
+    template<typename TOther, typename TOtherDeleter> requires (std::is_constructible_v<TDeleter, TOtherDeleter&&>)
    constexpr DynamicPointer(DynamicPointer<TOther, TOtherDeleter>&& other) MIJIN_NOEXCEPT_IF((std::is_nothrow_convertible_v<TOtherDeleter, TDeleter>))
-        : DynamicPointer(other.get(), other.isOwning() ? Owning::YES : Owning::NO, TDeleter(std::move(other.mDeleter)))
+        : mData(std::exchange(other.mData, 0)), mDeleter(std::move(other.mDeleter)) {
-    {
+        MIJIN_ASSERT(other.mData == 0, "");
        other.mData = 0;
    }
    constexpr ~DynamicPointer() noexcept
    {
@ -65,15 +64,6 @@ public:
        return *this;
    }
    // template<typename TOther, typename TOtherDeleter> requires (std::is_base_of_v<TOther, T>)
    // constexpr operator DynamicPointer<TOther, TOtherDeleter>() && // MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible_v<TDeleter>>)
    // {
    //     const Owning owning = isOwning() ? Owning::YES : Owning::NO;
    //     T* const ptr = release();
    // 
    //     return DynamicPointer<TOther, TOtherDeleter>(static_cast<TOther*>(ptr), owning, TOtherDeleter(std::move(mDeleter)));
    // }
    template<typename TOther, typename TOtherDeleter> requires(std::equality_comparable_with<T, TOther>)
    auto operator<=>(const DynamicPointer<TOther, TOtherDeleter>& other) MIJIN_NOEXCEPT
    {
@ -165,9 +155,9 @@ bool operator!=(std::nullptr_t, const DynamicPointer<T, TDeleter>& pointer) MIJI
 }
 template<typename T, typename... TArgs>
-DynamicPointer<T> makeDynamic(TArgs&&... args) MIJIN_NOEXCEPT_IF((std::is_nothrow_constructible_v<T, TArgs...>))
+DynamicPointer<T, std::default_delete<T>> makeDynamic(TArgs&&... args) MIJIN_NOEXCEPT_IF((std::is_nothrow_constructible_v<T, TArgs...>))
 {
-    return DynamicPointer<T>(new T(std::forward<TArgs>(args)...), Owning::YES);
+    return DynamicPointer<T, std::default_delete<T>>(new T(std::forward<TArgs>(args)...), Owning::YES);
 }
 template<typename T, allocator_type_for<T> TAllocator, typename... TArgs>
@ -181,12 +171,6 @@ DynamicPointer<T, AllocatorDeleter<TAllocator>> makeDynamicWithAllocator(TAlloca
    }
    return DynamicPointer<T, AllocatorDeleter<TAllocator>>(obj, Owning::YES, AllocatorDeleter<TAllocator>(std::move(allocator)));
 }
 template<typename T>
 DynamicPointer<T> wrapDynamic(T* raw)
 {
    return DynamicPointer<T>(raw, Owning::NO);
 }
 } // namespace mijin
 #endif // !defined(MIJIN_MEMORY_DYNAMIC_POINTER_HPP_INCLUDED)
--- a/source/mijin/memory/object_pool.hpp
+++ b/source/mijin/memory/object_pool.hpp
@ -7,56 +7,317 @@
 #include <array>
 #include <cstddef>
 #include <cstdint>
-#include <limits>
+#include "../internal/common.hpp"
 #include <memory>
 #include <vector>
 #include "../debug/assert.hpp"
 #include "../util/align.hpp"
 namespace mijin
 {
-template<typename TObject, std::size_t OBJECTS_PER_PAGE = 1024>
+namespace impl
 class ObjectPool
 {
-private:
+struct ObjectPoolGap
    struct GapInfo
 {
-        std::uint32_t objectCount;
+    std::uint16_t nextGapOffset;
-        std::uint32_t nextGap;
+    std::uint16_t remainingObjects;
    };
    static constexpr std::size_t ALIGN = std::max(alignof(TObject), alignof(GapInfo));
-    struct alignas(ALIGN) ObjectData
+    ObjectPoolGap* nextGap() noexcept {
-    {
+        return nextGapOffset == 0 ? nullptr : reinterpret_cast<ObjectPoolGap*>(reinterpret_cast<std::byte*>(this) + nextGapOffset);
-        std::array<std::byte, sizeof(TObject)> bytes;
+    }
    };
    struct Page
    {
        std::uint32_t freeOffset = 0;
        std::array<ObjectData, OBJECTS_PER_PAGE> data;
    };
    std::vector<std::unique_ptr<Page>> pages;
 public:
    [[nodiscard]] TObject* allocate(std::size_t count = 1) noexcept;
    void free(TObject* object, std::size_t count = 1) noexcept;
 };
 template<typename TObject, std::size_t OBJECTS_PER_PAGE>
-TObject* ObjectPool<TObject, OBJECTS_PER_PAGE>::allocate(std::size_t count) noexcept
+struct ObjectPoolPage
 {
-    MIJIN_ASSERT(count <= OBJECTS_PER_PAGE, "Cannot allocate more than OBJECTS_PER_PAGE elements at once!");
+    ObjectPoolGap* firstGap;
    ObjectPoolPage* nextPage = nullptr;
    std::array<std::byte, OBJECTS_PER_PAGE * MIJIN_STRIDEOF(TObject)> data;
    ObjectPoolPage() noexcept
    {
        firstGap = reinterpret_cast<ObjectPoolGap*>(data.data());
        firstGap->nextGapOffset = 0;
        firstGap->remainingObjects = OBJECTS_PER_PAGE;
    }
 };
 }
 template<typename TObject, std::size_t OBJECTS_PER_PAGE>
 class ObjectPoolIterator
 {
 public:
    using value_type = TObject;
    using difference_type = std::ptrdiff_t;
 private:
    using gap_t = impl::ObjectPoolGap;
    using page_t = impl::ObjectPoolPage<TObject, OBJECTS_PER_PAGE>;
    page_t* currentPage_ = nullptr;
    gap_t* currentGap_ = nullptr;
    std::uint16_t currentObject_ = 0;
    explicit ObjectPoolIterator(page_t& firstPage) noexcept
    {
        seekNextOnPage(firstPage);
    }
 public:
    ObjectPoolIterator() noexcept = default;
    ObjectPoolIterator(const ObjectPoolIterator&) noexcept = default;
    ObjectPoolIterator& operator=(const ObjectPoolIterator&) noexcept = default;
    auto operator<=>(const ObjectPoolIterator&) const noexcept = default;
    TObject& operator*() const noexcept { return getObject(); }
    TObject* operator->() const noexcept { return &getObject(); }
    ObjectPoolIterator& operator++() noexcept
    {
        seekNext();
        return *this;
    }
    ObjectPoolIterator operator++(int) const noexcept
    {
        ObjectPoolIterator copy(*this);
        ++(*this);
        return copy;
    }
 private:
    TObject& getObject() const noexcept
    {
        MIJIN_ASSERT(currentGap_ != nullptr, "Attempting to dereference an invalid iterator.");
        return *(reinterpret_cast<TObject*>(currentGap_) + currentGap_->remainingObjects + currentObject_);
    }
    bool seekNextOnPage(page_t& firstPage) noexcept
    {
        for (page_t* page = &firstPage; page != nullptr; page = page->nextPage)
        {
            if (page->firstGap != nullptr && seekNextInGap(*page->firstGap))
            {
                currentPage_ = page;
                return true;
            }
        }
        return false;
    }
    bool seekNextInGap(gap_t& firstGap) noexcept
    {
        for (gap_t* gap = &firstGap; gap != nullptr; gap = gap->nextGap())
        {
            if (gap->remainingObjects < OBJECTS_PER_PAGE)
            {
                currentGap_ = gap;
                currentObject_ = 0;
                return true;
            }
        }
        return false;
    }
    void seekNext() noexcept
    {
        if (++currentObject_ < OBJECTS_PER_PAGE - currentGap_->remainingObjects)
        {
            return;
        }
        if (currentGap_->nextGapOffset != 0 && seekNextInGap(*currentGap_->nextGap())) {
            return;
        }
        if (currentPage_->nextPage != nullptr && seekNextOnPage(*currentPage_->nextPage)) {
            return;
        }
        currentPage_ = nullptr;
        currentGap_ = nullptr;
        currentObject_ = 0;
    }
    template<typename TObject2, std::size_t OBJECTS_PER_PAGE2, template<typename> typename TAllocator>
    friend class ObjectPool;
 };
 template<typename TObject, std::size_t OBJECTS_PER_PAGE = 1024, template<typename> typename TAllocator = MIJIN_DEFAULT_ALLOCATOR>
 class ObjectPool
 {
 public:
    using iterator = ObjectPoolIterator<TObject, OBJECTS_PER_PAGE>;
    using const_iterator = iterator;
 private:
    using gap_t = impl::ObjectPoolGap;
    using page_t = impl::ObjectPoolPage<TObject, OBJECTS_PER_PAGE>;
    static_assert(sizeof(gap_t) <= sizeof(TObject));
    [[no_unique_address]] TAllocator<page_t> allocator_;
    page_t* firstPage = nullptr;
 public:
    explicit ObjectPool(TAllocator<void> allocator = {}) MIJIN_NOEXCEPT_IF((std::is_nothrow_constructible_v<TAllocator<page_t>, TAllocator<void>&&>))
        : allocator_(std::move(allocator))
    {
    }
    ObjectPool(const ObjectPool&) = delete;
    ObjectPool(ObjectPool&&) = default;
    ObjectPool& operator=(const ObjectPool&) = delete;
    ObjectPool& operator=(ObjectPool&&) = default;
    [[nodiscard]]
    TObject* allocate(std::size_t count = 1) noexcept
    {
        MIJIN_ASSERT(count <= OBJECTS_PER_PAGE, "Cannot allocate that many objects at once.");
        // first try to find a free spot in the existing pages
-
+        for (page_t* page = firstPage; page != nullptr; page = page->nextPage)
    for (std::unique_ptr<Page>& page : pages)
        {
-        std::uint32_t offset = page->freeOffset;
+            if (TObject* result = allocateFromPage(*page, count); result != nullptr) {
-        while (offset < OBJECTS_PER_PAGE)
+                return result;
-        {
+            }
-            GapInfo& gapInfo = *std::bit_cast<GapInfo*>(&page->data[offset]);
+        }
        // nothing found in the existing pages, allocate a new one and return memory from there
        page_t* newPage = ::new (allocator_.allocate(1)) page_t;
        if (firstPage == nullptr)
        {
            firstPage = newPage;
        }
        else
        {
            page_t* lastPage = firstPage;
            for (; lastPage->nextPage != nullptr; lastPage = lastPage->nextPage);
            lastPage->nextPage = newPage;
        }
        return allocateFromPage(*newPage, count);
    }
    void deallocate(TObject* object, std::size_t count = 1) noexcept
    {
        std::byte* const objectPtr = reinterpret_cast<std::byte*>(object); // for easier comparison
        for (page_t* page = firstPage; page != nullptr; page = page->nextPage)
        {
            // first find the page it's in
            std::byte* pageStart = page->data.data();
            std::byte* pageEnd = pageStart + (OBJECTS_PER_PAGE * sizeof(TObject));
            if (objectPtr >= pageStart && objectPtr <= pageEnd)
            {
                // then the corresponding gap
                if (page->firstGap == nullptr)
                {
                    // everything is used, create a new gap
                    gap_t* newGap = reinterpret_cast<gap_t*>(objectPtr);
                    newGap->remainingObjects = count;
                    newGap->nextGapOffset = 0;
                    page->firstGap = newGap;
                    return;
                }
                for (gap_t* gap = page->firstGap; gap != nullptr; gap = gap->nextGap())
                {
                    std::byte* gapStart = reinterpret_cast<std::byte*>(gap);
                    std::byte* gapEnd = gap->nextGapOffset == 0 ? pageEnd : gapStart + gap->nextGapOffset;
                    if (objectPtr > gapStart && objectPtr < gapEnd)
                    {
                        if (objectPtr + (count * sizeof(TObject)) == gapEnd)
                        {
                            // deallocating right from the end -> just increase the gap remainingObjects
                            gap->remainingObjects += count;
                            mergeGaps(gap);
                        }
                        else
                        {
                            // deallocating from the middle -> create a new gap
                            gap_t* newGap = reinterpret_cast<gap_t*>(objectPtr);
                            newGap->remainingObjects = count;
                            newGap->nextGapOffset = gap->nextGapOffset == 0 ? 0 : (gapEnd - reinterpret_cast<std::byte*>(newGap));
                            gap->nextGapOffset -= objectPtr - gapStart;
                            mergeGaps(newGap);
                        }
                        return;
                    }
                }
            }
        }
    }
    template<typename... TArgs>
    [[nodiscard]]
    TObject* create(TArgs&&... args) noexcept
    {
        TObject* result = allocate();
        if (result == nullptr) {
            return nullptr;
        }
        return ::new (result) TObject(std::forward<TArgs>(args)...);
    }
    [[nodiscard]]
    TObject* createMultiple(std::size_t count = 1) noexcept
    {
        TObject* result = allocate(count);
        if (result == nullptr) {
            return nullptr;
        }
        return ::new (result) TObject[count];
    }
    void destroy(TObject* ptr, std::size_t count = 1) noexcept
    {
        for (std::size_t idx = 0; idx < count; ++idx) {
            ptr[idx].~TObject();
        }
        deallocate(ptr, count);
    }
    [[nodiscard]]
    iterator begin() const noexcept { return firstPage != nullptr ? iterator(*firstPage) : iterator(); }
    [[nodiscard]]
    iterator end() const noexcept { return {}; }
 private:
    TObject* allocateFromPage(page_t& page, std::size_t count)
    {
        gap_t* previousGap = nullptr;
        for (gap_t* gap = page.firstGap; gap != nullptr; previousGap = gap, gap = gap->nextGap())
        {
            if (gap->remainingObjects == count)
            {
                // exactly the correct size
                if (previousGap != nullptr) {
                    previousGap->nextGapOffset += gap->nextGapOffset;
                }
                else {
                    page.firstGap = gap->nextGap();
                }
                return reinterpret_cast<TObject*>(gap);
            }
            else if (gap->remainingObjects > count)
            {
                // still enough space
                TObject* memory = reinterpret_cast<TObject*>(gap) + gap->remainingObjects - count;
                gap->remainingObjects -= count;
                return reinterpret_cast<TObject*>(memory);
            }
        }
        return nullptr;
    }
    void mergeGaps(gap_t* start) noexcept
    {
        while (start->nextGapOffset != 0 && start->remainingObjects == start->nextGapOffset * sizeof(TObject))
        {
            gap_t& next = *start->nextGap();
            start->remainingObjects += start->nextGap()->remainingObjects;
            if (next.nextGapOffset == 0) {
                start->nextGapOffset = 0;
            }
            else {
                start->nextGapOffset += next.nextGapOffset;
            }
        }
    }
 };
 } // namespace mijin
 #endif // !defined(MIJIN_MEMORY_OBJECT_POOL_HPP_INCLUDED)
--- a/source/mijin/types/path.cpp
+++ b/source/mijin/types/path.cpp
@ -0,0 +1,40 @@
 #include "./path.hpp"
 #include <filesystem>
 namespace fs = std::filesystem;
 namespace mijin
 {
 //
 // internal defines
 //
 //
 // internal constants
 //
 //
 // internal types
 //
 //
 // internal variables
 //
 //
 // internal functions
 //
 //
 // public functions
 //
 NativePath getWorkingDirectory()
 {
    return fs::current_path().generic_string();
 }
 } // namespace mijin
--- a/source/mijin/types/path.hpp
+++ b/source/mijin/types/path.hpp
@ -0,0 +1,511 @@
 #pragma once
 #if !defined(MIJIN_TYPES_PATH_HPP_INCLUDED)
 #define MIJIN_TYPES_PATH_HPP_INCLUDED 1
 #include "../debug/assert.hpp"
 #include "../internal/common.hpp"
 #include "../util/traits.hpp"
 #include <ranges>
 #include <string>
 #include <type_traits>
 namespace mijin
 {
 template<typename T>
 concept BasePathType = requires(const T& path)
 {
    typename T::traits_t;
    typename T::char_t;
    typename T::char_traits_t;
    typename T::allocator_t;
    typename T::string_t;
    typename T::string_view_t;
    typename T::size_type;
    typename T::difference_type;
    typename T::path_view_t;
    { T::SEPARATOR } -> std::convertible_to<typename T::char_t>;
    { path.stringView() } -> std::convertible_to<typename T::string_view_t>;
 };
 template<typename T>
 concept PathType = BasePathType<T> && std::is_same_v<typename T::char_t, char>;
 template<typename T>
 concept WPathType = BasePathType<T> && std::is_same_v<typename T::char_t, wchar_t>;
 template<typename TChar, TChar separator = TChar('/')>
 struct DefaultPathTraits
 {
    using char_t = TChar;
    using char_traits_t = std::char_traits<TChar>;
    using allocator_t = std::allocator<TChar>;
    using string_t = std::basic_string<char_t, char_traits_t, allocator_t>;
    using string_view_t = std::basic_string_view<char_t, char_traits_t>;
    using size_type = string_view_t::size_type;
    using difference_type = string_view_t::difference_type;
    static constexpr char_t SEPARATOR = separator;
    static constexpr bool isAbsolute(string_view_t path) MIJIN_NOEXCEPT
    {
        return !path.empty() && path[0] == SEPARATOR;
    }
 };
 template<typename TChar = char, typename TTraits = DefaultPathTraits<TChar>>
 class BasePathView;
 template<typename TConcrete, typename TChar = char, typename TTraits = DefaultPathTraits<TChar>>
 class MixinPath;
 namespace impl
 {
 template<typename TChar, typename TTraits, TChar separator>
 class BasePathIterator
 {
 private:
    std::string_view full_;
    std::string_view::iterator pos_;
    std::string_view::iterator next_;
    BasePathIterator(std::string_view full, std::string_view::iterator pos) MIJIN_NOEXCEPT : full_(full), pos_(pos) {
        if (pos != full_.end() && *pos == separator) {
            ++pos;
        }
        findNext();
    }
 public:
    BasePathIterator() MIJIN_NOEXCEPT : pos_(full_.end()), next_(full_.end()) {}
    BasePathIterator(const BasePathIterator&) noexcept = default;
    BasePathIterator& operator=(const BasePathIterator&) noexcept = default;
    bool operator==(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ == other.pos_; }
    bool operator!=(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ != other.pos_; }
    bool operator<(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ < other.pos_; }
    bool operator<=(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ <= other.pos_; }
    bool operator>(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ > other.pos_; }
    bool operator>=(const BasePathIterator& other) MIJIN_NOEXCEPT { MIJIN_ASSERT(full_ == other.full_, "Comparing unrelated iterators."); return pos_ >= other.pos_; }
    std::string_view operator*() const MIJIN_NOEXCEPT
    {
        MIJIN_ASSERT(pos_ != full_.end(), "Dereferencing an invalid iterator.");
        return {pos_, next_};
    }
    BasePathIterator& operator++() MIJIN_NOEXCEPT
    {
        MIJIN_ASSERT(pos_ != full_.end(), "Iterating past end.");
        if (next_ == full_.end()) {
            pos_ = full_.end();
        }
        else
        {
            pos_ = std::next(next_);
            findNext();
        }
        return *this;
    }
    BasePathIterator operator++(int) const MIJIN_NOEXCEPT
    {
        BasePathIterator copy(*this);
        ++copy;
        return copy;
    }
    // TODO
    // BasePathIterator& operator--() MIJIN_NOEXCEPT
    // {
    //     MIJIN_ASSERT(pos_ != full_.begin(), "Iterating past begin.");
    //     next_ = std::prev(pos_);
    //     pos_ = std::find(std::reverse_iterator(next_), std::reverse_iterator(full_.begin()), separator).base();
    // }
 private:
    void findNext()
    {
        next_ = std::find(pos_, full_.end(), separator);
    }
    template<typename TConcrete, typename TCharOther, typename TTraitsOther>
    friend class ::mijin::MixinPath;
 };
 }
 template<typename TConcrete, typename TChar, typename TTraits>
 class MixinPath
 {
 public:
    using traits_t = TTraits;
    using char_t = typename traits_t::char_t;
    using char_traits_t = typename traits_t::char_traits_t;
    using allocator_t = typename traits_t::allocator_t;
    using string_t = typename traits_t::string_t;
    using string_view_t = typename traits_t::string_view_t;
    using size_type = typename traits_t::size_type;
    using difference_type = typename traits_t::difference_type;
    using path_view_t = BasePathView<TChar, traits_t>;
    using iterator = impl::BasePathIterator<char_t, char_traits_t, traits_t::SEPARATOR>;
    using const_iterator = iterator;
    static constexpr char_t SEPARATOR = traits_t::SEPARATOR;
    constexpr bool operator==(string_view_t stringView) const MIJIN_NOEXCEPT { return stringView() == stringView; }
    constexpr bool operator==(const TChar* cString) const MIJIN_NOEXCEPT { return stringView() == cString; }
    [[nodiscard]]
    constexpr string_view_t getName() const MIJIN_NOEXCEPT;
    [[nodiscard]]
    constexpr path_view_t getParent() const MIJIN_NOEXCEPT;
    [[nodiscard]]
    constexpr string_view_t stringView() const MIJIN_NOEXCEPT
    {
        return static_cast<const TConcrete*>(this)->stringViewImpl();
    }
    [[nodiscard]]
    constexpr bool empty() const MIJIN_NOEXCEPT { return stringView().empty(); }
    [[nodiscard]]
    constexpr size_type size() const MIJIN_NOEXCEPT { return stringView().size(); }
    [[nodiscard]]
    constexpr bool isAbsolute() const MIJIN_NOEXCEPT
    {
        return traits_t::isAbsolute(stringView());
    }
    [[nodiscard]]
    iterator begin() const MIJIN_NOEXCEPT { return iterator(stringView(), stringView().begin()); }
    [[nodiscard]]
    iterator end() const MIJIN_NOEXCEPT { return iterator(stringView(), stringView().end()); }
 private:
    template<typename TConcreteOther, typename TCharOther, typename TTraitsOther>
    friend class MixinPath;
 };
 template<typename TConcreteA, typename TConcreteB, typename TChar, typename TTraits>
 constexpr bool operator==(const MixinPath<TConcreteA, TChar, TTraits>& pathA, const MixinPath<TConcreteB, TChar, TTraits>& pathB)  MIJIN_NOEXCEPT
 {
    return pathA.stringView() == pathB.stringView();
 }
 template<typename TChar = char, typename TTraits = DefaultPathTraits<TChar>>
 class BasePath : public MixinPath<BasePath<TChar, TTraits>, TChar, TTraits>
 {
 public:
    using mixin_t = MixinPath<BasePath<TChar, TTraits>, TChar, TTraits>;
    using typename mixin_t::traits_t;
    using typename mixin_t::char_t;
    using typename mixin_t::char_traits_t;
    using typename mixin_t::allocator_t;
    using typename mixin_t::string_t;
    using typename mixin_t::string_view_t;
    using typename mixin_t::difference_type;
    using typename mixin_t::path_view_t;
    static constexpr char_t SEPARATOR = mixin_t::SEPARATOR;
 private:
    struct NoSimplify {};
    string_t storage_;
    constexpr BasePath(string_t storage, NoSimplify) MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible<string_t>()) : storage_(std::move(storage)) {}
 public:
    constexpr BasePath() = default;
    constexpr BasePath(const BasePath&) = default;
    constexpr BasePath(BasePath&&) = default;
    constexpr BasePath(string_t string) MIJIN_NOEXCEPT_IF(std::is_nothrow_move_constructible<string_t>()) : storage_(std::move(string)) {
        simplify();
    }
    constexpr BasePath(const char_t* cString, allocator_t allocator = {}) : BasePath(string_t(cString, std::move(allocator))) {}
    constexpr BasePath(string_view_t stringView, allocator_t allocator = {}) : BasePath(string_t(stringView, std::move(allocator))) {}
    template<typename TConcreteOther> requires (!std::is_same_v<BasePath<TChar, TTraits>, TConcreteOther>)
    explicit constexpr BasePath(const MixinPath<TConcreteOther, TChar, TTraits> other, allocator_t allocator = {}) : BasePath(string_t(other.stringView(), std::move(allocator)), NoSimplify()) {}
    constexpr BasePath& operator=(const BasePath&) = default;
    constexpr BasePath& operator=(BasePath&&) = default;
    constexpr auto operator<=>(const BasePath&) const noexcept = default;
    using mixin_t::operator==;
    template<typename TConcreteOther>
    BasePath& operator/=(const MixinPath<TConcreteOther, char_t, traits_t>& other);
    BasePath& operator/=(string_view_t more);
    template<typename TConcreteOther>
    BasePath operator/(const MixinPath<TConcreteOther, char_t, traits_t>& other) const;
    BasePath operator/(string_view_t more) const;
    [[nodiscard]]
    constexpr const string_t& string() const MIJIN_NOEXCEPT
    {
        return storage_;
    }
    [[nodiscard]]
    constexpr string_view_t stringViewImpl() const MIJIN_NOEXCEPT
    {
        return storage_;
    }
 private:
    constexpr void simplify() MIJIN_NOEXCEPT;
 };
 using Path = BasePath<char>;
 using WPath = BasePath<wchar_t>;
 using NativePath = Path; // TODO
 template<typename TChar, typename TTraits>
 class BasePathView : public MixinPath<BasePathView<TChar, TTraits>, TChar, TTraits>
 {
 public:
    using mixin_t = MixinPath<BasePathView<TChar, TTraits>, TChar, TTraits>;
    using typename mixin_t::char_t;
    using typename mixin_t::string_view_t;
 private:
    string_view_t view_;
 public:
    constexpr BasePathView() noexcept = default;
    constexpr BasePathView(const BasePathView&) noexcept = default;
    explicit constexpr BasePathView(string_view_t view) MIJIN_NOEXCEPT : view_(view) {}
    template<typename TIterator>
    constexpr BasePathView(const TIterator& begin, const TIterator& end) MIJIN_NOEXCEPT : view_(begin, end) {}
    template<typename TConcreteOther> requires (!std::is_same_v<BasePathView<TChar, TTraits>, TConcreteOther>)
    constexpr BasePathView(const MixinPath<TConcreteOther>& other) MIJIN_NOEXCEPT : view_(other.stringView()) {}
    constexpr BasePathView& operator=(const BasePathView&) noexcept = default;
    constexpr auto operator<=>(const BasePathView&) const noexcept = default;
    using mixin_t::operator==;
    [[nodiscard]]
    constexpr string_view_t stringViewImpl() const MIJIN_NOEXCEPT
    {
        return view_;
    }
 };
 using PathView = BasePathView<char>;
 using WPathView = BasePathView<wchar_t>;
 using NativePathView = PathView; // TODO
 template<typename TConcrete, typename TChar, typename TTraits>
 constexpr auto MixinPath<TConcrete, TChar, TTraits>::getName() const MIJIN_NOEXCEPT -> string_view_t
 {
    const string_view_t strView = stringView();
    auto it = std::ranges::find(std::ranges::reverse_view(strView), SEPARATOR).base();
    return {it, strView.end()};
 }
 template<typename TConcrete, typename TChar, typename TTraits>
 constexpr auto MixinPath<TConcrete, TChar, TTraits>::getParent() const MIJIN_NOEXCEPT -> path_view_t
 {
    const string_view_t strView = stringView();
    auto it = std::ranges::find(std::ranges::reverse_view(strView), SEPARATOR).base();
    if (it == strView.begin()) {
        return {};
    }
    if (std::prev(it) == strView.begin()) {
        return {strView.begin(), it}; // edge case, return "/" instead of nothing
    }
    return {strView.begin(), std::prev(it)};
 }
 template<typename TChar, typename TTraits>
 template<typename TConcreteOther>
 auto BasePath<TChar, TTraits>::operator/=(const MixinPath<TConcreteOther, char_t, traits_t>& other) -> BasePath&
 {
    if (other.isAbsolute())
    {
        storage_ = other.stringView();
    }
    else if (!other.empty())
    {
        if (other.stringView()[0] != SEPARATOR)
        {
            storage_.reserve(storage_.size() + other.size() + 1);
            storage_.push_back(SEPARATOR);
        }
        storage_.append_range(other.stringView());
    }
    return *this;
 }
 template<typename TChar, typename TTraits>
 auto BasePath<TChar, TTraits>::operator/=(string_view_t more) -> BasePath&
 {
    operator/=(path_view_t(more));
    simplify();
    return *this;
 }
 template<typename TChar, typename TTraits>
 template<typename TConcreteOther>
 auto BasePath<TChar, TTraits>::operator/(const MixinPath<TConcreteOther, char_t, traits_t>& other) const -> BasePath
 {
    if (other.isAbsolute() || other.empty())
    {
        return BasePath(string_t(other.stringView(), storage_.get_allocator()), NoSimplify());
    }
    const bool addSeparator = other.stringView()[0] != SEPARATOR;
    string_t combined(storage_.get_allocator());
    combined.reserve(storage_.size() + other.stringView().size() + (addSeparator ? 1 : 0));
    combined.append_range(storage_);
    if (addSeparator) {
        combined.push_back(SEPARATOR);
    }
    combined.append_range(other.stringView());
    return BasePath(std::move(combined), NoSimplify());
 }
 template<typename TChar, typename TTraits>
 auto BasePath<TChar, TTraits>::operator/(string_view_t other) const -> BasePath
 {
    BasePath combined = (*this / path_view_t(other));
    combined.simplify();
    return combined;
 }
 template<typename TChar, typename TTraits>
 constexpr void BasePath<TChar, TTraits>::simplify() MIJIN_NOEXCEPT
 {
    // step 1: remove double slashes
    difference_type moveBy = 0;
    for (auto it = std::next(storage_.begin()); it < storage_.end(); ++it)
    {
        const bool doubleSlash = (*it == SEPARATOR && *std::prev(it) == SEPARATOR); // check this before moving the current character, as that might create a double slash itself
        if (moveBy > 0) {
            *std::prev(it, moveBy) = *it;
        }
        if (doubleSlash) {
            ++moveBy;
        }
    }
    // step 1.5: remove trailing slash (but only if it's not the only remaining char)
    if (moveBy < static_cast<difference_type>(storage_.size() - 1) && storage_[storage_.size() - moveBy - 1] == SEPARATOR) {
        ++moveBy;
    }
    storage_.resize(storage_.size() - moveBy);
    // step 2: get rid of any "/.." together with the preceeding segment
    moveBy = 0;
    for (auto it = std::next(storage_.begin(), 2); it < storage_.end(); ++it)
    {
        if (moveBy > 0)
        {
            *std::prev(it, moveBy) = *it;
        }
        if (*std::prev(it, moveBy) == TChar('.') && *std::prev(it, moveBy + 1) == TChar('.') && *std::prev(it, moveBy + 2) == SEPARATOR
            && (std::next(it) == storage_.end() || *std::next(it) == SEPARATOR))
        {
            if (std::prev(it, moveBy + 2) == storage_.begin())
            {
                // leading "/.." -> just remove it
                moveBy += 3;
                continue;
            }
            // find the start of the preceeding segment
            for (auto itStart = std::prev(it, moveBy + 3);; --itStart)
            {
                if (*std::prev(itStart) == SEPARATOR || std::prev(itStart) == storage_.begin())
                {
                    //     /path/with/../double/dot
                    // itStart --A     A
                    // it -------------|
                    // remove everything from itStart to it + two slashes
                    moveBy += std::distance(itStart, std::prev(it, moveBy)) + 2; // skip it all
                    break;
                }
            }
        }
    }
    storage_.resize(storage_.size() - moveBy);
    // step 3: eliminate any segments that are just "."
    moveBy = 0;
    if (storage_.size() == 1) {
        return; // just stop it here
    }
    for (auto it = storage_.begin(); it < storage_.end(); ++it)
    {
        const bool atStart = (it == storage_.begin());
        const bool atEnd = (std::next(it) == storage_.end());
        const bool emptyEle = (*it == TChar('.') // char is a dot
            && (atStart || *std::prev(it, moveBy + 1) == SEPARATOR) // previous is a slash or doesn't exist
            && (atEnd || *std::next(it) == SEPARATOR)); // next is a slash or doesn't exist
        if (moveBy > 0) {
            *std::prev(it, moveBy) = *it;
        }
        if (emptyEle) {
            moveBy += 2;
            if (!atEnd) {
                ++it; // skip the next one
            }
        }
    }
    storage_.resize(storage_.size() - moveBy);
 }
 template<typename TChar, TChar separator = TChar('/'), typename TTraits = std::char_traits<TChar>>
 constexpr bool verifyPathString(std::basic_string_view<TChar, TTraits> stringView) MIJIN_NOEXCEPT
 {
    for (auto it = std::next(stringView.begin()); it < stringView.end(); ++it)
    {
        if(*it == separator && *std::prev(it) == separator) {
            return false; // double slash
        }
        if (it != std::next(stringView.begin())
            && *it == TChar('.') && *std::prev(it) == TChar('.') && *std::prev(it,  2) == separator
            && (std::next(it) == stringView.end() || *std::next(it) == separator)) {
            return false; // "/.."
        }
        const bool atStart = (it == stringView.begin());
        const bool atEnd = (std::next(it) == stringView.end());
        if(*it == TChar('.') // char is a dot
            && (atStart || *std::prev(it) == separator) // previous is a slash or doesn't exist
            && (atEnd || *std::next(it) == separator)) // next is a slash or doesn't exist
        {
            return false; // "/."
        }
    }
    return true;
 }
 consteval PathView operator""_pv(const char* cString, std::size_t len)
 {
    if (!verifyPathString(std::string_view(cString, len))) {
        throw "Invalid path string.";
    }
    return PathView(std::string_view(cString, len));
 }
 consteval WPathView operator""_pv(const wchar_t* cString, std::size_t len)
 {
    if (!verifyPathString(std::wstring_view(cString, len))) {
        throw "Invalid path string.";
    }
    return WPathView(std::wstring_view(cString, len));
 }
 [[nodiscard]]
 NativePath getWorkingDirectory();
 } // namespace mijin
 template<mijin::BasePathType TPath>
 struct std::hash<TPath>
 {
    std::size_t operator()(const TPath& path) const MIJIN_NOEXCEPT
    {
        return std::hash<std::string_view>()(path.stringView());
    }
 };
 #endif // !defined(MIJIN_TYPES_PATH_HPP_INCLUDED)
--- a/source/mijin/types/result.hpp
+++ b/source/mijin/types/result.hpp
@ -60,32 +60,6 @@ public:
    [[nodiscard]] const TError& getError() const MIJIN_NOEXCEPT { return std::get<TError>(state_); }
 };
 namespace impl
 {
 struct ResultSuccess {};
 }
 template<typename TError>
 class ResultBase<void, TError> : public ResultBase<impl::ResultSuccess, TError>
 {
 public:
    ResultBase() MIJIN_NOEXCEPT : ResultBase<impl::ResultSuccess, TError>(impl::ResultSuccess{}) {}
    ResultBase(const ResultBase&) MIJIN_NOEXCEPT = default;
    ResultBase(ResultBase&&) MIJIN_NOEXCEPT = default;
    ResultBase(TError errorValue) MIJIN_NOEXCEPT : ResultBase<impl::ResultSuccess, TError>(std::move(errorValue)) {}
    ResultBase& operator=(const ResultBase&) = default;
    ResultBase& operator=(ResultBase&&) = default;
    impl::ResultSuccess& operator*() MIJIN_NOEXCEPT = delete;
    const impl::ResultSuccess& operator*() const MIJIN_NOEXCEPT = delete;
    impl::ResultSuccess* operator->() MIJIN_NOEXCEPT = delete;
    const impl::ResultSuccess* operator->() const MIJIN_NOEXCEPT = delete;
    [[nodiscard]] impl::ResultSuccess& getValue() MIJIN_NOEXCEPT = delete;
    [[nodiscard]] const impl::ResultSuccess& getValue() const MIJIN_NOEXCEPT = delete;
 };
 struct ResultError
 {
    std::string message;
@ -99,7 +73,7 @@ struct ResultError
    ResultError& operator=(ResultError&&) MIJIN_NOEXCEPT = default;
 };
-template<typename TSuccess = void>
+template<typename TSuccess>
 using Result = ResultBase<TSuccess, ResultError>;
 //
--- a/source/mijin/util/annot.hpp
+++ b/source/mijin/util/annot.hpp
@ -35,6 +35,10 @@ concept nullable_type = !std::is_same_v<T, std::nullptr_t> && requires(T t) { t
 template<nullable_type T>
 class NotNullable
 {
 public:
    using wrapped_t = T;
    using element_type = std::remove_reference_t<decltype(*std::declval<const wrapped_t>())>;
    using pointer = element_type*;
 private:
    T base_;
 public:
@ -55,6 +59,12 @@ public:
    {
        MIJIN_ASSERT(base_ != nullptr, "Constructed non-nullable type with nullptr.");
    }
    template<typename TOther> requires(std::is_base_of_v<typename NotNullable<TOther>::element_type, element_type> && std::is_constructible_v<T, pointer>)
    explicit constexpr NotNullable(const NotNullable<TOther>& other) MIJIN_NOEXCEPT_IF((std::is_nothrow_constructible_v<T, pointer>))
            : base_(static_cast<pointer>(&*other))
    {
        MIJIN_ASSERT(base_ != nullptr, "Constructed non-nullable type with nullptr.");
    }
    template<typename TOther> requires(std::is_constructible_v<T, TOther&&>)
    constexpr NotNullable(NotNullable<TOther>&& other) MIJIN_NOEXCEPT_IF((std::is_nothrow_constructible_v<T, TOther&&>))
            : base_(std::exchange(other.base_, nullptr))
--- a/source/mijin/util/common_macros.hpp
+++ b/source/mijin/util/common_macros.hpp
@ -4,8 +4,18 @@
 #if !defined(MIJIN_UTIL_COMMON_MACROS_HPP_INCLUDED)
 #define MIJIN_UTIL_COMMON_MACROS_HPP_INCLUDED 1
 #include "../detect.hpp"
 #define MIJIN_CONCAT_DETAIL(a, b) a ## b
 #define MIJIN_CONCAT(a, b) MIJIN_CONCAT_DETAIL(a, b)
 #define MIJIN_CONCAT3(a, b, c) MIJIN_CONCAT(a, MIJIN_CONCAT(b, c))
 #if MIJIN_COMPILER == MIJIN_COMPILER_GCC || MIJIN_COMPILER == MIJIN_COMPILER_CLANG
 #define MIJIN_FUNCNAME() __PRETTY_FUNCTION__
 #elif MIJIN_COMPILER == MIJIN_COMPILER_MSVC
 #define MIJIN_FUNCNAME() __FUNCSIG__
 #else
 #define MIJIN_FUNCNAME() __func__
 #endif
 #endif // defined(MIJIN_UTIL_COMMON_MACROS_HPP_INCLUDED)
--- a/source/mijin/util/exception.hpp
+++ b/source/mijin/util/exception.hpp
@ -4,11 +4,8 @@
 #ifndef MIJIN_UTIL_EXCEPTION_HPP_INCLUDED
 #define MIJIN_UTIL_EXCEPTION_HPP_INCLUDED 1
 #include <format>
 #include <stdexcept>
 #include <typeinfo>
 #include "../detect.hpp"
 #include "../debug/stacktrace.hpp"
 namespace mijin
@ -76,76 +73,5 @@ void walkExceptionCause(const std::exception_ptr& cause, TFunc func)
        }
    }
 }
 template<typename TFunc>
 void walkException(const std::exception& exc, TFunc func)
 {
    func(exc);
 }
 template<typename TFunc>
 void walkException(const mijin::Exception& exc, TFunc func)
 {
    func(exc);
    walkExceptionCause(exc.getCause(), func);
 }
 } // namespace mijin
 template<typename TChar>
 struct std::formatter<mijin::Exception, TChar>
 {
    using char_t = TChar;
    template<class TContext>
    constexpr TContext::iterator parse(TContext& ctx)
    {
        auto it = ctx.begin();
        auto end = ctx.end();
        if (it != end && *it != MIJIN_SMART_QUOTE(char_t, '}'))
        {
            throw std::format_error("invalid format");
        }
        return it;
    }
    template<typename TContext>
    TContext::iterator format(const mijin::Exception& exception, TContext& ctx) const
    {
        using namespace std::literals;
        auto it = ctx.out();
        bool first = true;
        mijin::walkException(exception, [&]<typename T>(const T& exc)
        {
            if constexpr (!std::is_same_v<T, std::nullptr_t>)
            {
                if (!first) {
                    it = std::ranges::copy(MIJIN_SMART_QUOTE(char_t, "\nCaused by:\n"sv), it).out;
                }
                first = false;
 #if MIJIN_RTTI
                it = std::ranges::copy(std::basic_string_view(typeid(exc).name()), it).out;
                it = std::ranges::copy(MIJIN_SMART_QUOTE(char_t, ": "sv), it).out;
 #endif
                it = std::ranges::copy(std::basic_string_view(exc.what()), it).out;
                if constexpr (std::is_same_v<T, mijin::Exception>)
                {
                    if (const mijin::Result<mijin::Stacktrace>& trace = exc.getStacktrace(); trace.isSuccess())
                    {
                        *it = MIJIN_SMART_QUOTE(char_t, '\n');
                        ++it;
                        it = std::format_to(it, MIJIN_SMART_QUOTE(char_t, "{}"), trace.getValue());
                    }
                }
            }
            else
            {
                it = std::ranges::copy(MIJIN_SMART_QUOTE(char_t, "<unknown exception>"sv), it).out;
            }
        });
        return it;
    }
 };
 #endif // MIJIN_UTIL_EXCEPTION_HPP_INCLUDED
--- a/source/mijin/util/formattable.hpp
+++ b/source/mijin/util/formattable.hpp
@ -0,0 +1,122 @@
 #pragma once
 #ifndef MIJIN_UTIL_FORMATTABLE_HPP_INCLUDED
 #define MIJIN_UTIL_FORMATTABLE_HPP_INCLUDED 1
 #include <format>
 #include "../container/boxed_object.hpp"
 namespace mijin
 {
 //
 // public concepts
 //
 template<typename T>
 concept parse_result_type = requires
 {
    typename T::parse_result_t;
 };
 template<typename T, typename TParseContext>
 concept parseable_by_type = parse_result_type<T> &&
        requires(const T& object, TParseContext& parseContext)
 {
    { T::parseFormat(parseContext) } -> std::convertible_to<std::pair<typename TParseContext::iterator, typename T::parse_result_t>>;
 };
 template<typename T, typename TFmtContext>
 concept simple_formattable_to_type = requires(const T& object, TFmtContext& formatContext)
 {
    { object.format(formatContext) } -> std::convertible_to<typename TFmtContext::iterator>;
 };
 template<typename T, typename TFmtContext, typename TParseContext>
 concept complex_formattable_to_type = parseable_by_type<T, TParseContext> &&
        requires(const T& object, TParseContext& parseContext, TFmtContext& formatContext, T::parse_result_t& parseResult)
 {
    { object.format(formatContext, parseResult) } -> std::convertible_to<typename TFmtContext::iterator>;
 };
 template<typename T, typename TFmtContext, typename TParseContext>
 concept formattable_to_type = simple_formattable_to_type<T, TFmtContext> || complex_formattable_to_type<T, TFmtContext, TParseContext>;
 template<typename T>
 concept cformattable_type = formattable_to_type<T, std::format_context, std::format_parse_context>;
 template<typename T>
 concept wformattable_type = formattable_to_type<T, std::wformat_context, std::wformat_parse_context>;
 template<typename T>
 concept formattable_type = cformattable_type<T> && wformattable_type<T>;
 template<typename T>
 concept any_formattable_type = cformattable_type<T> || wformattable_type<T>;
 //
 // internal types
 //
 namespace impl
 {
 template<typename T>
 struct ParseResult
 {
 };
 template<parse_result_type T>
 struct ParseResult<T>
 {
    BoxedObject<typename T::parse_result_t> value;
 };
 }
 } // namespace mijin
 template<mijin::any_formattable_type T>
 struct std::formatter<T>
 {
    [[no_unique_address]] [[maybe_unused]] mijin::impl::ParseResult<T> parseResult;
    template<typename TContext>
    constexpr TContext::iterator parse(TContext& ctx)
    {
        if constexpr (mijin::parse_result_type<T>)
        {
            static_assert(mijin::parseable_by_type<T, TContext>, "Type does not support parsing by this context.");
            auto [it, result] = T::parseFormat(ctx);
            parseResult.value.construct(std::move(result));
            return it;
        }
        else
        {
            auto it = ctx.begin();
            auto end = ctx.end();
            if (it != end && *it != '}')
            {
                throw std::format_error("invalid format");
            }
            return it;
        }
    }
    template<typename TContext>
    TContext::iterator format(const T& object, TContext& ctx) const
    {
        if constexpr (mijin::parse_result_type<T>)
        {
            auto it = object.format(ctx, std::move(*parseResult.value));
            parseResult.destroy();
            return it;
        }
        else
        {
            static_assert(mijin::simple_formattable_to_type<T, TContext>, "Type does not support formatting to this context.");
            return object.format(ctx);
        }
    }
 };
 #endif // MIJIN_UTIL_FORMATTABLE_HPP_INCLUDED
--- a/source/mijin/util/iterators.hpp
+++ b/source/mijin/util/iterators.hpp
@ -3,6 +3,7 @@
 #if !defined(MIJIN_UTIL_ITERATORS_HPP_INCLUDED)
 #define MIJIN_UTIL_ITERATORS_HPP_INCLUDED 1
 #include <array>
 #include <cstddef>
 #include <functional>
 #include <optional>
@ -13,6 +14,7 @@
 #include <variant>
 #include "../container/optional.hpp"
 #include "../internal/common.hpp"
 #include "../util/annot.hpp"
 namespace mijin
 {
@ -855,6 +857,64 @@ TAs collect(TIterable&& iterable)
    return TAs(iterable.begin(), iterable.end());
 }
 template<typename TEle, std::size_t numEles>
 class FixedArrayOutputIterator
 {
 public:
    using array_t = std::array<TEle, numEles>;
    using difference_type = std::ptrdiff_t;
    using value_type = TEle;
    using pointer = value_type*;
    using reference = value_type&;
    static constexpr std::size_t NUM_ELES = numEles;
 private:
    not_null_t<array_t*> array_;
    std::size_t counter_ = 0;
 public:
    constexpr explicit FixedArrayOutputIterator(array_t& array) MIJIN_NOEXCEPT : array_(&array) {}
    constexpr explicit FixedArrayOutputIterator(array_t& array, array_t::iterator pos) MIJIN_NOEXCEPT
            : array_(&array), counter_(static_cast<std::size_t>(pos - array.begin())) {}
    constexpr FixedArrayOutputIterator(const FixedArrayOutputIterator&) noexcept = default;
    constexpr FixedArrayOutputIterator& operator=(const FixedArrayOutputIterator&) noexcept = default;
    [[nodiscard]]
    constexpr std::size_t getCounter() const MIJIN_NOEXCEPT
    {
        return counter_;
    }
    [[nodiscard]]
    constexpr bool didOverflow() const MIJIN_NOEXCEPT
    {
        return counter_ >= NUM_ELES;
    }
    constexpr reference operator*() const MIJIN_NOEXCEPT
    {
        static TEle dummy_; // returned when we're at the end of the array
        if (counter_ < NUM_ELES) {
            return array_->at(counter_);
        }
        return dummy_;
    }
    constexpr FixedArrayOutputIterator& operator++() MIJIN_NOEXCEPT
    {
        ++counter_;
        return *this;
    }
    constexpr FixedArrayOutputIterator operator++(int) const MIJIN_NOEXCEPT
    {
        FixedArrayOutputIterator copy(*this);
        ++copy;
        return copy;
    }
 };
 static_assert(std::output_iterator<FixedArrayOutputIterator<int, 1>, int>);
 namespace pipe
 {
 template<typename T>
@ -973,7 +1033,7 @@ auto operator|(TIterable&& iterable, Xth<idx>)
 {
    return map(std::forward<TIterable>(iterable), [](auto&& element) { return std::get<idx>(element); } );
 }
-}
+} // namespace pipe
 } // namespace mijin
 #endif // MIJIN_UTIL_ITERATORS_HPP_INCLUDED
--- a/source/mijin/util/os.cpp
+++ b/source/mijin/util/os.cpp
@ -10,6 +10,7 @@
    #include <mutex>
    #include <dlfcn.h>
    #include <pthread.h>
    #include <time.h>
 #elif MIJIN_TARGET_OS == MIJIN_OS_WINDOWS
    #include <array>
    #include <malloc.h>
@ -38,12 +39,29 @@ namespace mijin
 // internal variables
 //
 #if MIJIN_TARGET_OS == MIJIN_OS_LINUX
 namespace
 {
 #if MIJIN_TARGET_OS == MIJIN_OS_LINUX
 std::mutex gDlErrorMutex; // dlerror may not be thread-safe
 const std::uint64_t gCPUClockResolution = []()
 {
    struct timespec time;
    [[maybe_unused]] const int result = clock_getres(CLOCK_PROCESS_CPUTIME_ID, &time);
    MIJIN_ASSERT(result == 0, "Error getting cputime resolution.");
    MIJIN_ASSERT(time.tv_sec == 0, "What kind of cpu clock is this?");
    return static_cast<std::uint64_t>(time.tv_nsec);
 }();
 #elif MIJIN_TARGET_OS == MIJIN_OS_WINDOWS
 const std::uint64_t gCPUTickFrequency = []()
 {
    LARGE_INTEGER ticks;
    [[maybe_unused]] const BOOL result = QueryPerformanceFrequency(&ticks);
    MIJIN_ASSERT(result, "Error getting cpu frequency.");
    return static_cast<std::uint64_t>(ticks.QuadPart);
 }();
 #endif // MIJIN_TARGET_OS == MIJIN_OS_LINUX || MIJIN_TARGET_OS == MIJIN_OS_WINDOWS
 }
 #endif // MIJIN_TARGET_OS == MIJIN_OS_LINUX
 //
 // internal functions
@ -178,4 +196,27 @@ void alignedFree(void* ptr)
 #endif
 }
 std::uint64_t getCPUTicks() MIJIN_NOEXCEPT
 {
 #if MIJIN_TARGET_OS == MIJIN_OS_LINUX
    struct timespec time;
    [[maybe_unused]] const int result = clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &time);
    MIJIN_ASSERT(result == 0, "Error getting cpu time.");
    return (static_cast<std::uint64_t>(time.tv_sec) * 1e9 + time.tv_nsec) / gCPUClockResolution;
 #else
    LARGE_INTEGER ticks;
    [[maybe_unused]] const BOOL result = QueryPerformanceCounter(&ticks);
    MIJIN_ASSERT(result, "Error getting cpu time.");
    return static_cast<std::uint64_t>(ticks.QuadPart);
 #endif
 }
 std::uint64_t getCPUTicksPerSecond() MIJIN_NOEXCEPT
 {
 #if MIJIN_TARGET_OS == MIJIN_OS_LINUX
    return 1e9 / gCPUClockResolution;
 #else
    return gCPUTickFrequency;
 #endif
 }
 } // namespace mijin
--- a/source/mijin/util/os.hpp
+++ b/source/mijin/util/os.hpp
@ -5,6 +5,7 @@
 #define MIJIN_UTIL_OS_HPP_INCLUDED 1
 #include <csignal>
 #include <cstdint>
 #include <string>
 #include <string_view>
 #include <utility>
@ -85,6 +86,9 @@ void setCurrentThreadName(const char* threadName) MIJIN_NOEXCEPT;
 [[nodiscard]] void* alignedRealloc(void* ptr, std::size_t alignment, std::size_t size) MIJIN_NOEXCEPT;
 void alignedFree(void* ptr);
 [[nodiscard]] std::uint64_t getCPUTicks() MIJIN_NOEXCEPT;
 [[nodiscard]] std::uint64_t getCPUTicksPerSecond() MIJIN_NOEXCEPT;
 SharedLibrary::~SharedLibrary() MIJIN_NOEXCEPT
 {
    close();
--- a/source/mijin/util/string.hpp
+++ b/source/mijin/util/string.hpp
@ -1020,54 +1020,6 @@ bool convertStringType(const TFrom* strFrom, std::basic_string<TTo, TToTraits, T
 {
    return convertStringType(std::basic_string_view<TFrom>(strFrom), outString);
 }
 struct StringQuoteOptions
 {
    bool replaceNewlines = false;
 };
 template<StringQuoteOptions options = {}, typename TChar, typename TTraits, typename TAlloc = MIJIN_DEFAULT_ALLOCATOR<TChar>>
 std::basic_string<TChar, TTraits, TAlloc> quoted(std::basic_string_view<TChar, TTraits> input)
 {
    std::basic_string<TChar, TTraits> result;
    result.reserve(input.size() + 2);
    result.push_back(TChar('"'));
    for (const TChar chr : input)
    {
        switch (chr)
        {
        case TChar('"'):
        case TChar('\\'):
            result.push_back(TChar('\\'));
            break;
        case TChar('\n'):
            if constexpr (options.replaceNewlines)
            {
                result.push_back(TChar('\\'));
                result.push_back(TChar('n'));
                continue;
            }
            break;
        case TChar('\r'):
            if constexpr (options.replaceNewlines)
            {
                result.push_back(TChar('\\'));
                result.push_back(TChar('r'));
                continue;
            }
            break;
        }
        result.push_back(chr);
    }
    result.push_back(TChar('"'));
    return result;
 }
 template<StringQuoteOptions options = {}, typename TChar, typename TTraits, typename TAlloc>
 std::basic_string<TChar, TTraits, TAlloc> quoted(const std::basic_string<TChar, TTraits, TAlloc>& input)
 {
    return quoted<options, TChar, TTraits, TAlloc>(std::basic_string_view(input));
 }
 } // namespace mijin
 #endif // !defined(MIJIN_UTIL_STRING_HPP_INCLUDED)
--- a/source/mijin/util/traits.hpp
+++ b/source/mijin/util/traits.hpp
@ -192,18 +192,6 @@ struct is_type_member<TElement, TCollection<Ts...>>
 template<typename TElement, typename TCollection>
 constexpr bool is_type_member_v = is_type_member<TElement, TCollection>::value;
 template<typename T, typename TObject>
 struct is_member_object_pointer_of : std::false_type {};
 template<typename TMember, typename TObject>
 struct is_member_object_pointer_of<TMember (TObject::*), TObject> : std::true_type {};
 template<typename T, typename TObject>
 inline constexpr bool is_member_object_pointer_of_v = is_member_object_pointer_of<T, TObject>::value;
 template<typename T, typename TObject>
 concept member_object_pointer_of = is_member_object_pointer_of_v<T, TObject>;
 template<typename TFrom, typename TTo>
 using copy_const_t = std::conditional_t<std::is_const_v<TFrom>, std::add_const_t<TTo>, std::remove_const_t<TTo>>;
@ -265,6 +253,42 @@ struct optional_base<T, false>
 template<typename T, bool enable>
 using optional_base_t = optional_base<T, enable>::type;
 namespace impl
 {
 template<typename TFunc>
 struct function_traits_base {};
 template<typename TResult, typename... TParams>
 struct function_traits_base<TResult (*)(TParams...)>
 {
    using result_t = TResult;
    using params_t = std::tuple<TParams...>;
 };
 template<typename TResult, typename TType, typename... TParams>
 struct function_traits_base<TResult (TType::*)(TParams...)>
 {
    using result_t = TResult;
    using params_t = std::tuple<TType*, TParams...>;
 };
 template<typename TResult, typename TType, typename... TParams>
 struct function_traits_base<TResult (TType::*)(TParams...) const>
 {
    using result_t = TResult;
    using params_t = std::tuple<const TType*, TParams...>;
 };
 }
 template<typename TFunc>
 struct function_traits : impl::function_traits_base<TFunc>
 {
    static constexpr std::size_t NUM_PARAMS = std::tuple_size_v<typename impl::function_traits_base<TFunc>::params_t>;
    template<std::size_t pos>
    using param_t = std::tuple_element_t<pos, typename impl::function_traits_base<TFunc>::params_t>;
 };
 //
 // public functions
 //
--- a/source/mijin/util/variant.hpp
+++ b/source/mijin/util/variant.hpp
@ -4,6 +4,7 @@
 #if !defined(MIJIN_UTIL_VARIANT_HPP_INCLUDED)
 #define MIJIN_UTIL_VARIANT_HPP_INCLUDED 1
 #include <utility>
 #include <variant>
 #include "./traits.hpp"
@ -23,10 +24,21 @@ inline constexpr bool variant_contains_v<TSearch, std::variant<TVariantTypes...>
 //
 // public types
 //
 template<typename... TCallable>
 struct Visitor : TCallable ...
 {
    using TCallable::operator()...;
 };
 template<typename TRet>
 struct CastTo
 {
    template<typename T>
    TRet operator()(T&& arg) const
    {
        return static_cast<TRet>(std::forward<T>(arg));
    }
 };
 }
 #endif // !defined(MIJIN_UTIL_VARIANT_HPP_INCLUDED)
--- a/source/mijin/util/winundef.hpp
+++ b/source/mijin/util/winundef.hpp
@ -26,3 +26,7 @@
 #if defined(DEBUG)
 #undef DEBUG
 #endif
 #if defined(VOID)
 #undef VOID
 #endif
--- a/source/mijin/virtual_filesystem/filesystem.cpp
+++ b/source/mijin/virtual_filesystem/filesystem.cpp
@ -3,6 +3,10 @@
 #include "../platform/folders.hpp"
 #include <filesystem>
 namespace fs = std::filesystem;
 namespace mijin
 {
@ -26,100 +30,91 @@ namespace mijin
 // internal functions
 //
 namespace
 {
 void doGetFileInfo(const fs::path& stlPath, FileInfo& outInfo)
 {
    std::error_code err;
    outInfo.isFolder = fs::is_directory(stlPath, err);
    outInfo.isSymlink = fs::is_symlink(stlPath, err);
    outInfo.isSpecial = !outInfo.isFolder && !fs::is_regular_file(stlPath, err);
    outInfo.isHidden = stlPath.c_str()[0] == '.'; // at least for Linux
    if (outInfo.isFolder)
    {
        const fs::directory_iterator dirIt(stlPath, err);
        if (err != std::error_code{})
        {
            outInfo.size = std::distance(dirIt, fs::directory_iterator());
        }
        else
        {
            outInfo.size = 0;
        }
    }
    else if (!outInfo.isSpecial)
    {
        outInfo.size = fs::file_size(stlPath, err);
        if (err)
        {
            outInfo.size = 0;
        }
    }
 }
 }
 //
 // public functions
 //
-fs::path OSFileSystemAdapter::getHomeFolder()
+std::vector<FolderEntry> OSFileSystemAdapter::listFiles(PathView folder)
 {
-    return getKnownFolder(KnownFolder::USER_HOME);
+    std::vector<FolderEntry> entries;
 }
 std::vector<FileInfo> OSFileSystemAdapter::listFiles(const fs::path& folder)
 {
    std::vector<FileInfo> entries;
    std::error_code err;
-    const fs::directory_iterator iterator(folder, fs::directory_options::skip_permission_denied, err);
+
    const fs::path stlFolder(folder.stringView());
    const fs::directory_iterator iterator(stlFolder, fs::directory_options::skip_permission_denied, err);
    if (err) {
        return {}; // TODO: propagate?
    }
-    for (const fs::directory_entry& entry : iterator)
+    for (const fs::directory_entry& stlEntry : iterator)
    {
-        FileInfo& info = entries.emplace_back();
+        FolderEntry& entry = entries.emplace_back();
-        info.path = entry.path();
+        entry.path = stlEntry.path().generic_string();
-        info.exists = true;
+        entry.info.exists = true;
-        info.isFolder = entry.is_directory(err);
+        doGetFileInfo(stlEntry.path(), entry.info);
        info.isSymlink = entry.is_symlink(err);
        info.isSpecial = !info.isFolder && !entry.is_regular_file(err);
        info.isHidden = info.path.filename().string().starts_with('.'); // at least for Linux
        if (info.isFolder)
        {
            std::error_code errorCode;
            fs::directory_iterator dirIt(info.path, errorCode);
            if (errorCode != std::error_code{})
            {
                info.size = std::distance(dirIt, fs::directory_iterator());
            }
            else
            {
                info.size = 0;
            }
        }
        else if (!info.isSpecial)
        {
            info.size = entry.file_size(err);
            if (err)
            {
                info.size = 0;
            }
        }
    }
    return entries;
 }
-FileInfo OSFileSystemAdapter::getFileInfo(const fs::path& file)
+FileInfo OSFileSystemAdapter::getFileInfo(PathView file)
 {
    const fs::path stlFile(file.stringView());
    FileInfo info = {};
    std::error_code err;
-    info.path = file;
+    info.exists = fs::exists(stlFile, err);
    info.exists = fs::exists(file, err);
    if (info.exists)
    {
-        info.isFolder = fs::is_directory(file, err);
+        doGetFileInfo(fs::path(file.stringView()), info);
        info.isSymlink = fs::is_symlink(file, err);
        info.isSpecial = !info.isFolder && !fs::is_regular_file(file, err);
        info.isHidden = info.path.filename().string().starts_with('.'); // at least for Linux
        if (info.isFolder) {
            MIJIN_TRY
            {
                info.size = std::distance(fs::directory_iterator(info.path), fs::directory_iterator());
            }
            MIJIN_CATCH(std::runtime_error&)
            {
                info.size = 0;
            }
        }
        else if (!info.isSpecial)
        {
            info.size = fs::file_size(file, err);
            if (err) {
                info.size = 0;
            }
        }
    }
    return info;
 }
-Optional<fs::path> OSFileSystemAdapter::getNativePath(const fs::path& file)
+Optional<NativePath> OSFileSystemAdapter::getNativePath(PathView file)
 {
-    return file;
+    return NativePath(file);
 }
-StreamError OSFileSystemAdapter::open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
+StreamError OSFileSystemAdapter::open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
 {
-    const std::string pathStr = path.string();
+    const PathView::string_view_t pathSv = path.stringView();
    char* pathStr = static_cast<char*>(alloca(pathSv.size() + 1));
    std::memcpy(pathStr, pathSv.data(), pathSv.size());
    pathStr[pathSv.size()] = '\0';
    auto stream = std::make_unique<FileStream>();
-    const StreamError error = stream->open(pathStr.c_str(), mode);
+    const StreamError error = stream->open(pathStr, mode);
    if (error != StreamError::SUCCESS) {
        return error;
    }
--- a/source/mijin/virtual_filesystem/filesystem.hpp
+++ b/source/mijin/virtual_filesystem/filesystem.hpp
@ -6,17 +6,15 @@
 #include <array>
 #include <cmath>
 #include <filesystem>
 #include <sstream>
 #include <string>
 #include <vector>
 #include "../container/optional.hpp"
 #include "../io/stream.hpp"
 #include "../internal/common.hpp"
 #include "../types/path.hpp"
 #include "../util/hash.hpp"
 namespace fs = std::filesystem;
 namespace mijin
 {
@ -34,7 +32,6 @@ namespace mijin
 struct FileInfo
 {
    fs::path path;
    /// either file size in bytes, or number of entries if folder
    std::size_t size = 0;
    bool exists : 1 = false;
@ -44,17 +41,23 @@ struct FileInfo
    bool isHidden : 1 = false;
 };
 struct FolderEntry
 {
    Path path;
    FileInfo info;
 };
 // basically just a thin wrapper around adapter + path, for utility
 class PathReference
 {
 private:
    class FileSystemAdapter* adapter_ = nullptr;
-    fs::path path_ = {};
+    Path path_ = {};
 public:
    PathReference() = default;
    PathReference(const PathReference&) = default;
    PathReference(PathReference&&) = default;
-    PathReference(class FileSystemAdapter* adapter, fs::path path) MIJIN_NOEXCEPT : adapter_(adapter), path_(std::move(path)) {}
+    PathReference(class FileSystemAdapter* adapter, Path path) MIJIN_NOEXCEPT : adapter_(adapter), path_(std::move(path)) {}
    PathReference& operator=(const PathReference&) = default;
    PathReference& operator=(PathReference&&) MIJIN_NOEXCEPT = default;
@ -63,13 +66,13 @@ public:
    [[nodiscard]] bool empty() const MIJIN_NOEXCEPT { return adapter_ == nullptr; }
    [[nodiscard]] class FileSystemAdapter* getAdapter() const noexcept { return adapter_; }
-    [[nodiscard]] const fs::path& getPath() const MIJIN_NOEXCEPT { return path_; }
+    [[nodiscard]] const Path& getPath() const MIJIN_NOEXCEPT { return path_; }
    [[nodiscard]] inline FileInfo getInfo() const;
-    [[nodiscard]] inline Optional<fs::path> getNativePath() const;
+    [[nodiscard]] inline Optional<NativePath> getNativePath() const;
    [[nodiscard]] inline StreamError open(FileOpenMode mode, std::unique_ptr<Stream>& outStream) const;
    [[nodiscard]]
-    PathReference operator/(const fs::path& more) const
+    PathReference operator/(const Path& more) const
    {
        return PathReference(adapter_, path_ / more);
    }
@ -80,16 +83,14 @@ class FileSystemAdapter
 public:
    virtual ~FileSystemAdapter() = default;
-    [[deprecated("Will be removed ASAP, use getKnownFolder(KnownFolder::USER_HOME) from platform/folders.hpp instead.")]]
+    [[nodiscard]] virtual std::vector<FolderEntry> listFiles(PathView folder) = 0;
-    [[nodiscard]] virtual fs::path getHomeFolder() { return {}; } // TODO: get rid of this ...
+    [[nodiscard]] virtual FileInfo getFileInfo(PathView file) = 0;
-    [[nodiscard]] virtual std::vector<FileInfo> listFiles(const fs::path& folder) = 0;
+    [[nodiscard]] virtual Optional<NativePath> getNativePath(PathView /* file */) { return NULL_OPTIONAL; }
-    [[nodiscard]] virtual FileInfo getFileInfo(const fs::path& file) = 0;
+    [[nodiscard]] virtual StreamError open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) = 0;
-    [[nodiscard]] virtual Optional<fs::path> getNativePath(const fs::path& /* file */) { return NULL_OPTIONAL; }
+    virtual void getAllPaths(PathView path, std::vector<PathReference>& outPaths) { outPaths.push_back(getPath(Path(path))); }
    [[nodiscard]] virtual StreamError open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) = 0;
    virtual void getAllPaths(const fs::path& path, std::vector<PathReference>& outPaths) { outPaths.push_back(getPath(path)); }
-    [[nodiscard]] PathReference getPath(fs::path path) MIJIN_NOEXCEPT { return PathReference(this, std::move(path)); }
+    [[nodiscard]] PathReference getPath(Path path) MIJIN_NOEXCEPT { return PathReference(this, std::move(path)); }
-    [[nodiscard]] std::vector<PathReference> getAllPaths(const fs::path& path)
+    [[nodiscard]] std::vector<PathReference> getAllPaths(PathView path)
    {
        std::vector<PathReference> paths;
        getAllPaths(path, paths);
@ -100,11 +101,10 @@ public:
 class OSFileSystemAdapter : public FileSystemAdapter
 {
 public:
-    fs::path getHomeFolder() override;
+    std::vector<FolderEntry> listFiles(PathView folder) override;
-    std::vector<FileInfo> listFiles(const fs::path& folder) override;
+    FileInfo getFileInfo(PathView file) override;
-    FileInfo getFileInfo(const fs::path& file) override;
+    Optional<NativePath> getNativePath(PathView file) override;
-    Optional<fs::path> getNativePath(const fs::path& file) override;
+    StreamError open(PathView, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
    StreamError open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
    static OSFileSystemAdapter& getInstance();
 };
@ -118,7 +118,7 @@ inline FileInfo PathReference::getInfo() const
    return adapter_->getFileInfo(path_);
 }
-Optional<fs::path> PathReference::getNativePath() const
+Optional<NativePath> PathReference::getNativePath() const
 {
    return adapter_->getNativePath(path_);
 }
--- a/source/mijin/virtual_filesystem/memory.cpp
+++ b/source/mijin/virtual_filesystem/memory.cpp
@ -5,30 +5,31 @@
 namespace mijin
 {
-std::vector<FileInfo> MemoryFileSystemAdapter::listFiles(const fs::path& folder)
+std::vector<FolderEntry> MemoryFileSystemAdapter::listFiles(PathView folder)
 {
    const detail::MemoryFolder* folderObj = findFolder(folder);
    if (folderObj == nullptr)
    {
        return {};
    }
-    std::vector<FileInfo> result;
+    std::vector<FolderEntry> result;
    result.reserve(folderObj->folders.size() + folderObj->files.size());
    const Path folderPath(folder);
    for (const auto& [name, subFolder] : folderObj->folders)
    {
-        result.push_back(folderInfo(folder / name, subFolder));
+        result.emplace_back(folderPath / name, folderInfo(subFolder));
    }
    for (const auto& [name, file] : folderObj->files)
    {
-        result.push_back(fileInfo(folder / name, file));
+        result.emplace_back(folderPath / name, fileInfo(file));
    }
    return result;
 }
-FileInfo MemoryFileSystemAdapter::getFileInfo(const fs::path& file)
+FileInfo MemoryFileSystemAdapter::getFileInfo(PathView file)
 {
 #if 0 // shouldn't be necessary
    // empty means root
@ -43,38 +44,38 @@ FileInfo MemoryFileSystemAdapter::getFileInfo(const fs::path& file)
    }
 #endif
-    const detail::MemoryFolder* folderObj = findFolder(file.parent_path());
+    const detail::MemoryFolder* folderObj = findFolder(file.getParent());
    if (folderObj == nullptr)
    {
        return {};
    }
-    const std::string filename = file.filename().generic_string();
+    const std::string_view filename = file.getName();
    if (auto itFolder = folderObj->folders.find(filename); itFolder != folderObj->folders.end())
    {
-        return folderInfo(file, itFolder->second);
+        return folderInfo(itFolder->second);
    }
    if (auto itFile = folderObj->files.find(filename); itFile != folderObj->files.end())
    {
-        return fileInfo(file, itFile->second);
+        return fileInfo(itFile->second);
    }
    return {};
 }
-StreamError MemoryFileSystemAdapter::open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
+StreamError MemoryFileSystemAdapter::open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
 {
    if (mode != FileOpenMode::READ)
    {
        return StreamError::IO_ERROR;
    }
-    const detail::MemoryFolder* folderObj = findFolder(path.parent_path());
+    const detail::MemoryFolder* folderObj = findFolder(path.getParent());
    if (folderObj == nullptr)
    {
        return StreamError::IO_ERROR;
    }
-    auto itFile = folderObj->files.find(path.filename().generic_string());
+    auto itFile = folderObj->files.find(path.getName());
    if (itFile == folderObj->files.end())
    {
        return StreamError::IO_ERROR;
@ -87,10 +88,10 @@ StreamError MemoryFileSystemAdapter::open(const fs::path& path, FileOpenMode mod
    return StreamError::SUCCESS;
 }
-bool MemoryFileSystemAdapter::addFile(const fs::path& path, std::span<const std::uint8_t> data, Overwrite overwrite, CopyData copyData)
+bool MemoryFileSystemAdapter::addFile(PathView path, std::span<const std::uint8_t> data, Overwrite overwrite, CopyData copyData)
 {
-    detail::MemoryFolder& folder = *findFolder(path.parent_path(), true);
+    detail::MemoryFolder& folder = *findFolder(path.getParent(), true);
-    std::string filename = path.filename().generic_string();
+    const std::string_view filename = path.getName();
    if (folder.folders.contains(filename))
    {
@ -107,29 +108,28 @@ bool MemoryFileSystemAdapter::addFile(const fs::path& path, std::span<const std:
        data = fileData_.emplace_back(data.begin(), data.end());
    }
-    folder.files.emplace(std::move(filename), detail::MemoryFile{.data = data});
+    folder.files.emplace(filename, detail::MemoryFile{.data = data});
    return true;
 }
-void MemoryFileSystemAdapter::addFolder(const fs::path& path)
+void MemoryFileSystemAdapter::addFolder(PathView path)
 {
    (void) findFolder(path, true);
 }
-detail::MemoryFolder* MemoryFileSystemAdapter::findFolder(const fs::path& path, bool create) MIJIN_NOEXCEPT
+detail::MemoryFolder* MemoryFileSystemAdapter::findFolder(PathView path, bool create) MIJIN_NOEXCEPT
 {
    detail::MemoryFolder* folder = &root_;
-    for (const fs::path& part : path)
+    for (const std::string_view part : path)
    {
-        std::string partname = part.generic_string();
+        auto it = folder->folders.find(part);
        auto it = folder->folders.find(partname);
        if (it == folder->folders.end())
        {
            if (!create)
            {
                return nullptr;
            }
-            folder = &folder->folders[std::move(partname)];
+            folder = &folder->folders[std::string(part)];
        }
        else
        {
@ -139,20 +139,18 @@ detail::MemoryFolder* MemoryFileSystemAdapter::findFolder(const fs::path& path,
    return folder;
 }
-FileInfo MemoryFileSystemAdapter::folderInfo(const fs::path& path, const detail::MemoryFolder& folder) const MIJIN_NOEXCEPT
+FileInfo MemoryFileSystemAdapter::folderInfo(const detail::MemoryFolder& folder) const MIJIN_NOEXCEPT
 {
    return {
        .path = path,
        .size = folder.folders.size() + folder.files.size(),
        .exists = true,
        .isFolder = true
    };
 }
-FileInfo MemoryFileSystemAdapter::fileInfo(const fs::path& path, const detail::MemoryFile& file) const MIJIN_NOEXCEPT
+FileInfo MemoryFileSystemAdapter::fileInfo(const detail::MemoryFile& file) const MIJIN_NOEXCEPT
 {
    return {
        .path = path,
        .size = file.data.size(),
        .exists = true
    };
--- a/source/mijin/virtual_filesystem/memory.hpp
+++ b/source/mijin/virtual_filesystem/memory.hpp
@ -35,20 +35,20 @@ private:
    detail::MemoryFolder root_;
    std::vector<std::vector<std::uint8_t>> fileData_;
 public:
-    [[nodiscard]] std::vector<FileInfo> listFiles(const fs::path& folder) override;
+    [[nodiscard]] std::vector<FolderEntry> listFiles(PathView folder) override;
-    [[nodiscard]] FileInfo getFileInfo(const fs::path& file) override;
+    [[nodiscard]] FileInfo getFileInfo(PathView file) override;
-    [[nodiscard]] StreamError open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
+    [[nodiscard]] StreamError open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
-    bool addFile(const fs::path& path, std::span<const std::uint8_t> data, Overwrite overwrite = Overwrite::NO, CopyData copyData = CopyData::NO);
+    bool addFile(PathView path, std::span<const std::uint8_t> data, Overwrite overwrite = Overwrite::NO, CopyData copyData = CopyData::NO);
-    bool addFile(const fs::path& path, std::span<const std::uint8_t> data, CopyData copyData)
+    bool addFile(PathView path, std::span<const std::uint8_t> data, CopyData copyData)
    {
        return addFile(path, data, Overwrite::NO, copyData);
    }
-    void addFolder(const fs::path& path);
+    void addFolder(PathView path);
 private:
-    detail::MemoryFolder* findFolder(const fs::path& path, bool create = false) MIJIN_NOEXCEPT;
+    detail::MemoryFolder* findFolder(PathView path, bool create = false) MIJIN_NOEXCEPT;
-    FileInfo folderInfo(const fs::path& path, const detail::MemoryFolder& folder) const MIJIN_NOEXCEPT;
+    FileInfo folderInfo(const detail::MemoryFolder& folder) const MIJIN_NOEXCEPT;
-    FileInfo fileInfo(const fs::path& path, const detail::MemoryFile& file) const MIJIN_NOEXCEPT;
+    FileInfo fileInfo(const detail::MemoryFile& file) const MIJIN_NOEXCEPT;
 };
 } // namespace mijin
--- a/source/mijin/virtual_filesystem/relative.hpp
+++ b/source/mijin/virtual_filesystem/relative.hpp
@ -27,10 +27,10 @@ class RelativeFileSystemAdapter : public FileSystemAdapter
 {
 private:
    TWrapped wrapped_;
-    fs::path root_;
+    Path root_;
 public:
    template<typename... TArgs>
-    explicit RelativeFileSystemAdapter(fs::path root, TArgs&&... args)
+    explicit RelativeFileSystemAdapter(Path root, TArgs&&... args)
        : wrapped_(std::forward<TArgs>(args)...), root_(std::move(root)) {}
    RelativeFileSystemAdapter(const RelativeFileSystemAdapter&) = default;
    RelativeFileSystemAdapter(RelativeFileSystemAdapter&&) MIJIN_NOEXCEPT = default;
@ -38,13 +38,12 @@ public:
    RelativeFileSystemAdapter& operator=(const RelativeFileSystemAdapter&) = default;
    RelativeFileSystemAdapter& operator=(RelativeFileSystemAdapter&&) MIJIN_NOEXCEPT = default;
-    fs::path getHomeFolder() override;
+    std::vector<FolderEntry> listFiles(PathView folder) override;
-    std::vector<FileInfo> listFiles(const fs::path& folder) override;
+    FileInfo getFileInfo(PathView file) override;
-    FileInfo getFileInfo(const fs::path& file) override;
+    Optional<NativePath> getNativePath(PathView file) override;
-    Optional<fs::path> getNativePath(const fs::path& file) override;
+    StreamError open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
    StreamError open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
 private:
-    fs::path appendPath(const fs::path& other) const MIJIN_NOEXCEPT;
+    Path appendPath(PathView other) const MIJIN_NOEXCEPT;
 };
 //
@ -52,52 +51,45 @@ private:
 //
 template<typename TWrapped>
-fs::path RelativeFileSystemAdapter<TWrapped>::getHomeFolder()
+std::vector<FolderEntry> RelativeFileSystemAdapter<TWrapped>::listFiles(PathView folder)
 {
-    return root_;
+    std::vector<FolderEntry> result;
 }
 template<typename TWrapped>
 std::vector<FileInfo> RelativeFileSystemAdapter<TWrapped>::listFiles(const fs::path& folder)
 {
    std::vector<FileInfo> result;
    result = wrapped_.listFiles(appendPath(folder));
-    for (FileInfo& fileInfo : result) {
+    for (FolderEntry& fileInfo : result) {
-        fileInfo.path = "/" / fileInfo.path.lexically_relative(root_);
+        fileInfo.path = Path("/") / fileInfo.path.stringView().substr(root_.size());
    }
    return result;
 }
 template<typename TWrapped>
-FileInfo RelativeFileSystemAdapter<TWrapped>::getFileInfo(const fs::path& file)
+FileInfo RelativeFileSystemAdapter<TWrapped>::getFileInfo(PathView file)
 {
    return wrapped_.getFileInfo(appendPath(file));
 }
 template<typename TWrapped>
-Optional<fs::path> RelativeFileSystemAdapter<TWrapped>::getNativePath(const fs::path& file)
+Optional<NativePath> RelativeFileSystemAdapter<TWrapped>::getNativePath(PathView file)
 {
    return wrapped_.getNativePath(appendPath(file));
 }
 template<typename TWrapped>
-StreamError RelativeFileSystemAdapter<TWrapped>::open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
+StreamError RelativeFileSystemAdapter<TWrapped>::open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
 {
    return wrapped_.open(appendPath(path), mode, outStream);
 }
 template<typename TWrapped>
-fs::path RelativeFileSystemAdapter<TWrapped>::appendPath(const fs::path& other) const MIJIN_NOEXCEPT
+Path RelativeFileSystemAdapter<TWrapped>::appendPath(PathView other) const MIJIN_NOEXCEPT
 {
-    fs::path combinedPath = root_;
+    Path combinedPath = root_;
-    if (other.is_absolute()) {
+    std::string_view otherSv(other.stringView());
-        combinedPath += other;
+    if (!otherSv.empty() && otherSv[0] == Path::SEPARATOR) {
        otherSv = otherSv.substr(1);
    }
-    else {
+    combinedPath /= otherSv;
-        combinedPath /= other;
+    return combinedPath;
    }
    return combinedPath.lexically_normal();
 }
 namespace vfs_pipe
@ -105,7 +97,7 @@ namespace vfs_pipe
 template<typename TBase>
 struct RelativeBuilder : Builder<RelativeBuilder<TBase>, RelativeFileSystemAdapter<typename TBase::adapter_t>>
 {
-    fs::path root;
+    Path root;
    TBase base;
    std::unique_ptr<RelativeFileSystemAdapter<typename TBase::adapter_t>> build()
@ -116,11 +108,11 @@ struct RelativeBuilder : Builder<RelativeBuilder<TBase>, RelativeFileSystemAdapt
 struct RelativeOptions
 {
-    fs::path root;
+    Path root;
 };
 [[nodiscard]]
-inline RelativeOptions relative_to(fs::path root) noexcept
+inline RelativeOptions relative_to(Path root) noexcept
 {
    return {.root = std::move(root) };
 }
--- a/source/mijin/virtual_filesystem/stacked.cpp
+++ b/source/mijin/virtual_filesystem/stacked.cpp
@ -31,40 +31,20 @@ namespace mijin
 // public functions
 //
-fs::path StackedFileSystemAdapter::getHomeFolder()
+std::vector<FolderEntry> StackedFileSystemAdapter::listFiles(PathView folder)
 {
-    if (adapters_.empty()) {
+    std::vector<FolderEntry> files;
        return fs::path();
    }
 #if MIJIN_COMPILER == MIJIN_COMPILER_MSVC
 #pragma warning(push)
 #pragma warning(disable : 4996) // yeah, we're using a deprecated function here, in order to implement another deprecated function ¯\_(ツ)_/¯
 #elif MIJIN_COMPILER == MIJIN_COMPILER_GCC || MIJIN_COMPILER == MIJIN_COMPILER_CLANG
 #pragma GCC diagnostic push
 #pragma GCC diagnostic ignored "-Wdeprecated-declarations"
 #endif
    return adapters_.front()->getHomeFolder();
 #if MIJIN_COMPILER == MIJIN_COMPILER_MSVC
 #pragma warning(pop)
 #elif MIJIN_COMPILER == MIJIN_COMPILER_GCC || MIJIN_COMPILER == MIJIN_COMPILER_CLANG
 #pragma GCC diagnostic pop
 #endif
 }
 std::vector<FileInfo> StackedFileSystemAdapter::listFiles(const fs::path& folder)
 {
    std::vector<FileInfo> files;
    for (auto& adapter : adapters_)
    {
-        for (const FileInfo& file : adapter->listFiles(folder))
+        for (const FolderEntry& entry : adapter->listFiles(folder))
        {
-            auto it = std::find_if(files.begin(), files.end(), [&](const FileInfo& existing)
+            auto it = std::ranges::find_if(files, [&](const FolderEntry& existing)
            {
-                return existing.path == file.path;
+                return existing.path == entry.path;
            });
            if (it == files.end()) {
-                files.push_back(file);
+                files.push_back(entry);
            }
        }
    }
@ -72,7 +52,7 @@ std::vector<FileInfo> StackedFileSystemAdapter::listFiles(const fs::path& folder
    return files;
 }
-FileInfo StackedFileSystemAdapter::getFileInfo(const fs::path& file)
+FileInfo StackedFileSystemAdapter::getFileInfo(PathView file)
 {
    for (auto& adapter : adapters_)
    {
@ -85,11 +65,11 @@ FileInfo StackedFileSystemAdapter::getFileInfo(const fs::path& file)
    return {};
 }
-Optional<fs::path> StackedFileSystemAdapter::getNativePath(const fs::path& file)
+Optional<NativePath> StackedFileSystemAdapter::getNativePath(PathView file)
 {
    for (auto& adapter : adapters_)
    {
-        Optional<fs::path> result = adapter->getNativePath(file);
+        Optional<NativePath> result = adapter->getNativePath(file);
        if (!result.empty())
        {
            return result;
@ -98,7 +78,7 @@ Optional<fs::path> StackedFileSystemAdapter::getNativePath(const fs::path& file)
    return NULL_OPTIONAL;
 }
-StreamError StackedFileSystemAdapter::open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
+StreamError StackedFileSystemAdapter::open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream)
 {
    // try to open existing files first
    for (auto& adapter : adapters_)
@ -125,7 +105,7 @@ StreamError StackedFileSystemAdapter::open(const fs::path& path, FileOpenMode mo
    return StreamError::IO_ERROR;
 }
-void StackedFileSystemAdapter::getAllPaths(const fs::path& path, std::vector<PathReference>& outPaths)
+void StackedFileSystemAdapter::getAllPaths(PathView path, std::vector<PathReference>& outPaths)
 {
    for (auto& adapter : adapters_)
    {
--- a/source/mijin/virtual_filesystem/stacked.hpp
+++ b/source/mijin/virtual_filesystem/stacked.hpp
@ -28,12 +28,11 @@ class StackedFileSystemAdapter : public FileSystemAdapter
 private:
    std::vector<std::unique_ptr<FileSystemAdapter>> adapters_;
 public:
-    fs::path getHomeFolder() override;
+    std::vector<FolderEntry> listFiles(PathView folder) override;
-    std::vector<FileInfo> listFiles(const fs::path& folder) override;
+    FileInfo getFileInfo(PathView file) override;
-    FileInfo getFileInfo(const fs::path& file) override;
+    Optional<NativePath> getNativePath(PathView file) override;
-    Optional<fs::path> getNativePath(const fs::path& file) override;
+    StreamError open(PathView path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
-    StreamError open(const fs::path& path, FileOpenMode mode, std::unique_ptr<Stream>& outStream) override;
+    void getAllPaths(PathView path, std::vector<PathReference> &outPaths) override;
    void getAllPaths(const fs::path &path, std::vector<PathReference> &outPaths) override;
    using FileSystemAdapter::getAllPaths;
    inline FileSystemAdapter* addAdapter(std::unique_ptr<FileSystemAdapter>&& adapter) {
Author	SHA1	Message	Date
Patrick Wuttke	680acdb332	Fixed compilation of boxed_object.hpp in non-debug builds.	2025-07-25 00:51:53 +02:00
Patrick Wuttke	3d507ddef7	Finally implemented object pools.	2025-07-25 00:51:32 +02:00
Patrick Wuttke	d35140d278	Added missing template parameter.	2025-07-17 23:47:00 +02:00
Patrick Wuttke	933a36d992	Added formattable utility.	2025-07-17 10:56:52 +02:00
Patrick Wuttke	d3659f11f7	Implemented getCPUTicks() and getCPUTicksPerSecond() for Windows.	2025-07-17 10:56:39 +02:00
Patrick Wuttke	d207774868	Added missing include.	2025-07-17 10:56:15 +02:00
Patrick Wuttke	54d9cd327a	Added undef for VOID.	2025-07-17 07:51:19 +02:00
Patrick Wuttke	93ef90aeb8	Added function_traits.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	ba6ffa6c42	Added getCPUTicks() and getCPUTicksPerSeconds() functions.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	2cf270df84	Added MIJIN_FUNCNAME() macro.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	9808fcf50e	Removed unused MIJIN_FUNC() macro.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	e91924e049	Added FixedArrayOutputIterator and use it for logging without heap allocations.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	79f49829d3	Added utility type to convert variant members via std::visit.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	042e0d2465	Added explicit constructor for casting between related not-nullable pointers.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	018c75a5ed	First implementation of custom path type.	2025-07-16 21:07:50 +02:00
Patrick Wuttke	33bc48dd58	Added Path type (WIP).	2025-07-16 21:07:50 +02:00