axmol/thirdparty/jni.hpp/include/jni/functions.hpp

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#pragma once
#include <jni/types.hpp>
#include <jni/errors.hpp>
#include <jni/wrapping.hpp>
#include <jni/ownership.hpp>
#include <jni/typed_methods.hpp>
#include <jni/arraylike.hpp>
#include <type_traits>
#include <cstdlib>
namespace jni
{
inline jint GetVersion(JNIEnv& env)
{
return env.GetVersion();
}
inline jclass& DefineClass(JNIEnv& env, const char* name, jobject& loader, const jbyte* buf, jsize size)
{
return *CheckJavaException(env,
Wrap<jclass*>(env.DefineClass(name, Unwrap(loader), buf, Unwrap(size))));
}
template < class Array >
auto DefineClass(JNIEnv& env, const char* name, jobject& loader, const Array& buf)
-> std::enable_if_t< IsArraylike<Array>::value, jclass& >
{
return DefineClass(env, name, loader, ArraylikeData(buf), ArraylikeSize(buf));
}
inline jclass& FindClass(JNIEnv& env, const char* name)
{
return *CheckJavaException(env, Wrap<jclass*>(env.FindClass(name)));
}
inline jmethodID* FromReflectedMethod(JNIEnv& env, jobject* obj)
{
return CheckJavaException(env,
Wrap<jmethodID*>(env.FromReflectedMethod(Unwrap(obj))));
}
inline jfieldID* FromReflectedField(JNIEnv& env, jobject* obj)
{
return CheckJavaException(env,
Wrap<jfieldID*>(env.FromReflectedField(Unwrap(obj))));
}
inline jobject& ToReflectedMethod(JNIEnv& env, jclass& clazz, jmethodID& method, bool isStatic)
{
return *CheckJavaException(env,
Wrap<jobject*>(env.ToReflectedMethod(Unwrap(clazz), Unwrap(method), isStatic)));
}
inline jobject& ToReflectedField(JNIEnv& env, jclass& clazz, jfieldID& field, bool isStatic)
{
return *CheckJavaException(env,
Wrap<jobject*>(env.ToReflectedField(Unwrap(clazz), Unwrap(field), isStatic)));
}
inline jclass* GetSuperclass(JNIEnv& env, jclass& clazz)
{
return CheckJavaException(env,
Wrap<jclass*>(env.GetSuperclass(Unwrap(clazz))));
}
inline bool IsAssignableFrom(JNIEnv& env, jclass& clazz1, jclass& clazz2)
{
return CheckJavaException(env,
env.IsAssignableFrom(Unwrap(clazz1), Unwrap(clazz2)));
}
[[noreturn]] inline void Throw(JNIEnv& env, jthrowable& obj)
{
CheckErrorCode(env.Throw(Unwrap(obj)));
throw PendingJavaException();
}
[[noreturn]] inline void ThrowNew(JNIEnv& env, jclass& clazz, const char* msg = nullptr)
{
CheckErrorCode(env.ThrowNew(Unwrap(clazz), msg));
throw PendingJavaException();
}
inline bool ExceptionCheck(JNIEnv& env)
{
return env.ExceptionCheck();
}
inline jthrowable* ExceptionOccurred(JNIEnv& env)
{
return Wrap<jthrowable*>(env.ExceptionOccurred());
}
inline void ExceptionDescribe(JNIEnv& env)
{
env.ExceptionDescribe();
}
inline void ExceptionClear(JNIEnv& env)
{
env.ExceptionClear();
}
[[noreturn]] inline void FatalError(JNIEnv& env, const char* msg)
{
env.FatalError(msg);
std::abort();
}
inline UniqueLocalFrame PushLocalFrame(JNIEnv& env, jint capacity)
{
CheckJavaExceptionThenErrorCode(env, env.PushLocalFrame(capacity));
return UniqueLocalFrame(&env, LocalFrameDeleter());
}
inline jobject* PopLocalFrame(JNIEnv& env, UniqueLocalFrame&& frame, jobject* result = nullptr)
{
frame.release();
return CheckJavaException(env,
Wrap<jobject*>(env.PopLocalFrame(Unwrap(result))));
}
template < template < RefDeletionMethod > class Deleter, class T >
UniqueGlobalRef<T, Deleter> NewGlobalRef(JNIEnv& env, T* t)
{
jobject* obj = Wrap<jobject*>(env.NewGlobalRef(Unwrap(t)));
CheckJavaException(env);
if (t && !obj)
throw std::bad_alloc();
return UniqueGlobalRef<T, Deleter>(reinterpret_cast<T*>(obj), Deleter<&JNIEnv::DeleteGlobalRef>(env));
}
template < class T >
UniqueGlobalRef<T> NewGlobalRef(JNIEnv& env, T* t)
{
return NewGlobalRef<DefaultRefDeleter>(env, t);
}
// Attempt to promote a weak reference to a strong one. Returns an empty result
// if the weak reference has expired.
template < template < RefDeletionMethod > class Deleter, class T, template < RefDeletionMethod > class WeakDeleter >
UniqueGlobalRef<T, Deleter> NewGlobalRef(JNIEnv& env, const UniqueWeakGlobalRef<T, WeakDeleter>& t)
{
jobject* obj = Wrap<jobject*>(env.NewGlobalRef(Unwrap(t)));
CheckJavaException(env);
return UniqueGlobalRef<T, Deleter>(reinterpret_cast<T*>(obj), Deleter<&JNIEnv::DeleteGlobalRef>(env));
}
template < class T, template < RefDeletionMethod > class WeakDeleter >
UniqueGlobalRef<T> NewGlobalRef(JNIEnv& env, const UniqueWeakGlobalRef<T, WeakDeleter>& t)
{
return NewGlobalRef<DefaultRefDeleter>(env, t);
}
template < class T, template < RefDeletionMethod > class Deleter >
void DeleteGlobalRef(JNIEnv& env, UniqueGlobalRef<T, Deleter>&& ref)
{
env.DeleteGlobalRef(Unwrap(ref.release()));
CheckJavaException(env);
}
template < class T >
UniqueLocalRef<T> NewLocalRef(JNIEnv& env, T* t)
{
jobject* obj = Wrap<jobject*>(env.NewLocalRef(Unwrap(t)));
CheckJavaException(env);
if (t && !obj)
throw std::bad_alloc();
return UniqueLocalRef<T>(reinterpret_cast<T*>(obj), DefaultRefDeleter<&JNIEnv::DeleteLocalRef>(env));
}
// Attempt to promote a weak reference to a strong one. Returns an empty result
// if the weak reference has expired.
template < class T, template < RefDeletionMethod > class WeakDeleter >
UniqueLocalRef<T> NewLocalRef(JNIEnv& env, const UniqueWeakGlobalRef<T, WeakDeleter>& t)
{
jobject* obj = Wrap<jobject*>(env.NewLocalRef(Unwrap(t)));
CheckJavaException(env);
return UniqueLocalRef<T>(reinterpret_cast<T*>(obj), DefaultRefDeleter<&JNIEnv::DeleteLocalRef>(env));
}
template < class T >
void DeleteLocalRef(JNIEnv& env, UniqueLocalRef<T>&& ref)
{
env.DeleteLocalRef(Unwrap(ref.release()));
CheckJavaException(env);
}
inline void EnsureLocalCapacity(JNIEnv& env, jint capacity)
{
CheckJavaExceptionThenErrorCode(env, env.EnsureLocalCapacity(capacity));
}
template < template < RefDeletionMethod > class Deleter, class T >
UniqueWeakGlobalRef<T, Deleter> NewWeakGlobalRef(JNIEnv& env, T* t)
{
jobject* obj = Wrap<jobject*>(env.NewWeakGlobalRef(Unwrap(t)));
CheckJavaException(env);
if (t && !obj)
throw std::bad_alloc();
return UniqueWeakGlobalRef<T, Deleter>(reinterpret_cast<T*>(obj), Deleter<&JNIEnv::DeleteWeakGlobalRef>(env));
}
template < class T >
UniqueWeakGlobalRef<T> NewWeakGlobalRef(JNIEnv& env, T* t)
{
return NewWeakGlobalRef<DefaultRefDeleter>(env, t);
}
template < class T, template < RefDeletionMethod > class Deleter >
void DeleteWeakGlobalRef(JNIEnv& env, UniqueWeakGlobalRef<T, Deleter>&& ref)
{
env.DeleteWeakGlobalRef(Unwrap(ref.release()));
CheckJavaException(env);
}
inline bool IsSameObject(JNIEnv& env, jobject* ref1, jobject* ref2)
{
return CheckJavaException(env,
env.IsSameObject(Unwrap(ref1), Unwrap(ref2)));
}
inline jobject& AllocObject(JNIEnv& env, jclass& clazz)
{
return *CheckJavaException(env,
Wrap<jobject*>(env.AllocObject(Unwrap(clazz))));
}
template < class... Args >
jobject& NewObject(JNIEnv& env, jclass& clazz, jmethodID& method, Args&&... args)
{
return *CheckJavaException(env,
Wrap<jobject*>(env.NewObject(Unwrap(clazz), Unwrap(method), Unwrap(std::forward<Args>(args))...)));
}
inline jclass& GetObjectClass(JNIEnv& env, jobject& obj)
{
return *CheckJavaException(env,
Wrap<jclass*>(env.GetObjectClass(Unwrap(obj))));
}
inline bool IsInstanceOf(JNIEnv& env, jobject* obj, jclass& clazz)
{
return CheckJavaException(env,
env.IsInstanceOf(Unwrap(obj), Unwrap(clazz))) == JNI_TRUE;
}
inline jmethodID& GetMethodID(JNIEnv& env, jclass& clazz, const char* name, const char* sig)
{
return *CheckJavaException(env,
Wrap<jmethodID*>(env.GetMethodID(Unwrap(clazz), name, sig)));
}
template < class R, class... Args >
std::enable_if_t<!std::is_void<R>::value, R>
CallMethod(JNIEnv& env, jobject* obj, jmethodID& method, Args&&... args)
{
return CheckJavaException(env,
Wrap<R>((env.*(TypedMethods<R>::CallMethod))(Unwrap(obj), Unwrap(method), Unwrap(std::forward<Args>(args))...)));
}
template < class R, class... Args >
std::enable_if_t<std::is_void<R>::value, R>
CallMethod(JNIEnv& env, jobject* obj, jmethodID& method, Args&&... args)
{
env.CallVoidMethod(Unwrap(obj), Unwrap(method), Unwrap(std::forward<Args>(args))...);
CheckJavaException(env);
}
template < class R, class... Args >
std::enable_if_t<!std::is_void<R>::value, R>
CallNonvirtualMethod(JNIEnv& env, jobject* obj, jclass& clazz, jmethodID& method, Args&&... args)
{
return CheckJavaException(env,
Wrap<R>((env.*(TypedMethods<R>::CallNonvirtualMethod))(Unwrap(obj), Unwrap(clazz), Unwrap(method), Unwrap(std::forward<Args>(args))...)));
}
template < class R, class... Args >
std::enable_if_t<std::is_void<R>::value, R>
CallNonvirtualMethod(JNIEnv& env, jobject* obj, jclass& clazz, jmethodID& method, Args&&... args)
{
env.CallNonvirtualVoidMethod(Unwrap(obj), Unwrap(clazz), Unwrap(method), Unwrap(std::forward<Args>(args))...);
CheckJavaException(env);
}
inline jfieldID& GetFieldID(JNIEnv& env, jclass& clazz, const char* name, const char* sig)
{
return *CheckJavaException(env,
Wrap<jfieldID*>(env.GetFieldID(Unwrap(clazz), name, sig)));
}
template < class T >
T GetField(JNIEnv& env, jobject* obj, jfieldID& field)
{
return CheckJavaException(env,
Wrap<T>((env.*(TypedMethods<T>::GetField))(Unwrap(obj), Unwrap(field))));
}
template < class T >
void SetField(JNIEnv& env, jobject* obj, jfieldID& field, T value)
{
(env.*(TypedMethods<T>::SetField))(Unwrap(obj), Unwrap(field), Unwrap(value));
CheckJavaException(env);
}
inline jmethodID& GetStaticMethodID(JNIEnv& env, jclass& clazz, const char* name, const char* sig)
{
return *CheckJavaException(env,
Wrap<jmethodID*>(env.GetStaticMethodID(Unwrap(clazz), name, sig)));
}
template < class R, class... Args >
std::enable_if_t<!std::is_void<R>::value, R>
CallStaticMethod(JNIEnv& env, jclass& clazz, jmethodID& method, Args&&... args)
{
return CheckJavaException(env,
Wrap<R>((env.*(TypedMethods<R>::CallStaticMethod))(Unwrap(clazz), Unwrap(method), Unwrap(std::forward<Args>(args))...)));
}
template < class R, class... Args >
std::enable_if_t<std::is_void<R>::value, R>
CallStaticMethod(JNIEnv& env, jclass& clazz, jmethodID& method, Args&&... args)
{
env.CallStaticVoidMethod(Unwrap(clazz), Unwrap(method), Unwrap(std::forward<Args>(args))...);
CheckJavaException(env);
}
inline jfieldID& GetStaticFieldID(JNIEnv& env, jclass& clazz, const char* name, const char* sig)
{
return *CheckJavaException(env,
Wrap<jfieldID*>(env.GetStaticFieldID(Unwrap(clazz), name, sig)));
}
template < class T >
T GetStaticField(JNIEnv& env, jclass& clazz, jfieldID& field)
{
return CheckJavaException(env,
Wrap<T>((env.*(TypedMethods<T>::GetStaticField))(Unwrap(clazz), Unwrap(field))));
}
template < class T >
void SetStaticField(JNIEnv& env, jclass& clazz, jfieldID& field, T value)
{
(env.*(TypedMethods<T>::SetStaticField))(Unwrap(clazz), Unwrap(field), Unwrap(value));
CheckJavaException(env);
}
inline jstring& NewString(JNIEnv& env, const char16_t* chars, jsize len)
{
return *CheckJavaException(env,
Wrap<jstring*>(env.NewString(Unwrap(chars), Unwrap(len))));
}
template < class Array >
auto NewString(JNIEnv& env, const Array& chars)
-> std::enable_if_t< IsArraylike<Array>::value, jstring& >
{
return NewString(env, ArraylikeData(chars), ArraylikeSize(chars));
}
inline jsize GetStringLength(JNIEnv& env, jstring& string)
{
return CheckJavaException(env,
Wrap<jsize>(env.GetStringLength(Unwrap(string))));
}
inline std::tuple<UniqueStringChars, bool> GetStringChars(JNIEnv& env, jstring& string)
{
::jboolean isCopy = JNI_FALSE;
const char16_t* result = CheckJavaException(env,
Wrap<const char16_t*>(env.GetStringChars(Unwrap(string), &isCopy)));
return std::make_tuple(UniqueStringChars(result, StringCharsDeleter(env, string)), isCopy);
}
inline void ReleaseStringChars(JNIEnv& env, jstring& string, UniqueStringChars&& chars)
{
env.ReleaseStringChars(Unwrap(string), Unwrap(chars.release()));
CheckJavaException(env);
}
inline jstring& NewStringUTF(JNIEnv& env, const char* bytes)
{
return *CheckJavaException(env,
Wrap<jstring*>(env.NewStringUTF(bytes)));
}
inline jsize GetStringUTFLength(JNIEnv& env, jstring& string)
{
return CheckJavaException(env,
Wrap<jsize>(env.GetStringUTFLength(Unwrap(string))));
}
inline std::tuple<UniqueStringUTFChars, bool> GetStringUTFChars(JNIEnv& env, jstring& string)
{
::jboolean isCopy = JNI_FALSE;
const char* result = CheckJavaException(env,
env.GetStringUTFChars(Unwrap(string), &isCopy));
return std::make_tuple(UniqueStringUTFChars(result, StringUTFCharsDeleter(env, string)), isCopy);
}
inline void ReleaseStringUTFChars(JNIEnv& env, jstring& string, UniqueStringUTFChars&& chars)
{
env.ReleaseStringUTFChars(Unwrap(string), chars.release());
CheckJavaException(env);
}
inline void GetStringRegion(JNIEnv& env, jstring& string, jsize start, jsize len, char16_t* buf)
{
env.GetStringRegion(Unwrap(string), Unwrap(start), Unwrap(len), Unwrap(buf));
CheckJavaException(env);
}
template < class Array >
auto GetStringRegion(JNIEnv& env, jstring& string, jsize start, Array& buf)
-> std::enable_if_t< IsArraylike<Array>::value >
{
GetStringRegion(env, string, start, ArraylikeSize(buf), ArraylikeData(buf));
}
inline void GetStringUTFRegion(JNIEnv& env, jstring& string, jsize start, jsize len, char* buf)
{
env.GetStringUTFRegion(Unwrap(string), Unwrap(start), Unwrap(len), buf);
CheckJavaException(env);
}
template < class Array >
auto GetStringUTFRegion(JNIEnv& env, jstring& string, jsize start, Array& buf)
-> std::enable_if_t< IsArraylike<Array>::value >
{
GetStringUTFRegion(env, string, start, ArraylikeSize(buf), ArraylikeData(buf));
}
inline std::tuple<UniqueStringCritical, bool> GetStringCritical(JNIEnv& env, jstring& string)
{
::jboolean isCopy = JNI_FALSE;
const char16_t* result = CheckJavaException(env,
Wrap<const char16_t*>(env.GetStringCritical(Unwrap(string), &isCopy)));
return std::make_tuple(UniqueStringCritical(result, StringCriticalDeleter(env, string)), isCopy);
}
inline void ReleaseStringCritical(JNIEnv& env, jstring& string, UniqueStringCritical&& chars)
{
env.ReleaseStringCritical(Unwrap(string), Unwrap(chars.release()));
CheckJavaException(env);
}
template < class E >
jsize GetArrayLength(JNIEnv& env, jarray<E>& array)
{
return CheckJavaException(env,
Wrap<jsize>(env.GetArrayLength(Unwrap(array))));
}
template < class E >
jarray<E>& NewArray(JNIEnv& env, jsize length)
{
return *CheckJavaException(env,
Wrap<jarray<E>*>((env.*(TypedMethods<E>::NewArray))(Unwrap(length))));
}
template < class E >
std::tuple<UniqueArrayElements<E>, bool> GetArrayElements(JNIEnv& env, jarray<E>& array)
{
::jboolean isCopy = JNI_FALSE;
E* result = CheckJavaException(env,
(env.*(TypedMethods<E>::GetArrayElements))(Unwrap(array), &isCopy));
return std::make_tuple(UniqueArrayElements<E>(result, ArrayElementsDeleter<E>(env, array)), isCopy);
}
template < class E >
void ReleaseArrayElements(JNIEnv& env, jarray<E>& array, E* elems)
{
(env.*(TypedMethods<E>::ReleaseArrayElements))(Unwrap(array), elems, JNI_COMMIT);
CheckJavaException(env);
}
template < class E >
void ReleaseArrayElements(JNIEnv& env, jarray<E>& array, UniqueArrayElements<E>&& elems)
{
(env.*(TypedMethods<E>::ReleaseArrayElements))(Unwrap(array), elems.release(), 0);
CheckJavaException(env);
}
template < class E >
std::tuple<UniquePrimitiveArrayCritical<E>, bool> GetPrimitiveArrayCritical(JNIEnv& env, jarray<E>& array)
{
::jboolean isCopy = JNI_FALSE;
void* result = CheckJavaException(env,
env.GetPrimitiveArrayCritical(Unwrap(array), &isCopy));
return std::make_tuple(UniquePrimitiveArrayCritical<E>(result, PrimitiveArrayCriticalDeleter<E>(env, array)), isCopy);
}
template < class E >
void ReleasePrimitiveArrayCritical(JNIEnv& env, jarray<E>& array, void* carray)
{
env.ReleasePrimitiveArrayCritical(Unwrap(array), carray, 0);
CheckJavaException(env);
}
template < class E >
void ReleasePrimitiveArrayCritical(JNIEnv& env, jarray<E>& array, UniquePrimitiveArrayCritical<E>&& carray)
{
env.ReleasePrimitiveArrayCritical(Unwrap(array), carray.release(), JNI_COMMIT);
CheckJavaException(env);
}
template < class T >
void GetArrayRegion(JNIEnv& env, jarray<T>& array, jsize start, jsize len, T* buf)
{
(env.*(TypedMethods<T>::GetArrayRegion))(Unwrap(array), Unwrap(start), Unwrap(len), buf);
CheckJavaException(env);
}
template < class T, class Array >
auto GetArrayRegion(JNIEnv& env, jarray<T>& array, jsize start, Array& buf)
-> std::enable_if_t< IsArraylike<Array>::value >
{
GetArrayRegion(env, array, start, ArraylikeSize(buf), ArraylikeData(buf));
}
template < class T >
void SetArrayRegion(JNIEnv& env, jarray<T>& array, jsize start, jsize len, const T* buf)
{
(env.*(TypedMethods<T>::SetArrayRegion))(Unwrap(array), Unwrap(start), Unwrap(len), buf);
CheckJavaException(env);
}
template < class T, class Array >
auto SetArrayRegion(JNIEnv& env, jarray<T>& array, jsize start, const Array& buf)
-> std::enable_if_t< IsArraylike<Array>::value >
{
SetArrayRegion(env, array, start, ArraylikeSize(buf), ArraylikeData(buf));
}
inline jarray<jobject>& NewObjectArray(JNIEnv& env, jsize length, jclass& elementClass, jobject* initialElement = nullptr)
{
return *CheckJavaException(env,
Wrap<jarray<jobject>*>(env.NewObjectArray(Unwrap(length), Unwrap(elementClass), Unwrap(initialElement))));
}
inline jobject* GetObjectArrayElement(JNIEnv& env, jarray<jobject>& array, jsize index)
{
return CheckJavaException(env,
Wrap<jobject*>(env.GetObjectArrayElement(Unwrap(array), Unwrap(index))));
}
inline void SetObjectArrayElement(JNIEnv& env, jarray<jobject>& array, jsize index, jobject* value)
{
env.SetObjectArrayElement(Unwrap(array), Unwrap(index), Unwrap(value));
CheckJavaException(env);
}
template < class... Methods >
inline void RegisterNatives(JNIEnv& env, jclass& clazz, const Methods&... methods)
{
::JNINativeMethod unwrapped[sizeof...(methods)] = { Unwrap(methods)... };
CheckJavaExceptionThenErrorCode(env,
env.RegisterNatives(Unwrap(clazz), unwrapped, sizeof...(methods)));
}
inline void UnregisterNatives(JNIEnv& env, jclass& clazz)
{
CheckJavaExceptionThenErrorCode(env, env.UnregisterNatives(Unwrap(clazz)));
}
inline UniqueMonitor MonitorEnter(JNIEnv& env, jobject* obj)
{
CheckJavaExceptionThenErrorCode(env, env.MonitorEnter(Unwrap(obj)));
return UniqueMonitor(obj, MonitorDeleter(env));
}
inline void MonitorExit(JNIEnv& env, UniqueMonitor&& monitor)
{
CheckJavaExceptionThenErrorCode(env, env.MonitorExit(Unwrap(monitor.release())));
}
inline JavaVM& GetJavaVM(JNIEnv& env)
{
JavaVM* result = nullptr;
CheckJavaExceptionThenErrorCode(env, env.GetJavaVM(&result));
return *result;
}
inline jobject& NewDirectByteBuffer(JNIEnv& env, void* address, jlong capacity)
{
return *CheckJavaException(env,
Wrap<jobject*>(env.NewDirectByteBuffer(address, Unwrap(capacity))));
}
inline void* GetDirectBufferAddress(JNIEnv& env, jobject& buf)
{
return CheckJavaException(env,
env.GetDirectBufferAddress(Unwrap(buf)));
}
inline jlong GetDirectBufferCapacity(JNIEnv& env, jobject& buf)
{
return CheckJavaException(env,
env.GetDirectBufferCapacity(Unwrap(buf)));
}
inline jobjectRefType GetObjectRefType(JNIEnv& env, jobject* obj)
{
return env.GetObjectRefType(Unwrap(obj));
}
namespace {
// Some implementations type the parameter as JNIEnv**, others as void**.
// See https://bugs.openjdk.java.net/browse/JDK-6569899
struct JNIEnvCast
{
using FunVoid = jint (JavaVM::*)(void**, void*);
using FunEnv = jint (JavaVM::*)(JNIEnv**, void*);
template <typename Fun, typename = std::enable_if_t<std::is_same<Fun, FunVoid>::value>>
void** operator()(JNIEnv** env, Fun) noexcept {
return reinterpret_cast<void**>(env);
}
template <typename Fun, typename = std::enable_if_t<std::is_same<Fun, FunEnv>::value>>
JNIEnv** operator()(JNIEnv** env, Fun) noexcept {
return env;
}
};
}
inline UniqueEnv AttachCurrentThread(JavaVM& vm)
{
JNIEnv* result;
CheckErrorCode(vm.AttachCurrentThread(JNIEnvCast()(&result, &JavaVM::AttachCurrentThread), nullptr));
return UniqueEnv(result, JNIEnvDeleter(vm));
}
inline void DetachCurrentThread(JavaVM& vm, UniqueEnv&& env)
{
env.release();
CheckErrorCode(vm.DetachCurrentThread());
}
inline JNIEnv& GetEnv(JavaVM& vm, version version = jni_version_1_1)
{
JNIEnv* env = nullptr;
CheckErrorCode(vm.GetEnv(reinterpret_cast<void**>(&env), Unwrap(version)));
return *env;
}
inline UniqueEnv GetAttachedEnv(JavaVM& vm, version version = jni_version_1_1)
{
JNIEnv* env = nullptr;
auto code = vm.GetEnv(reinterpret_cast<void**>(&env), Unwrap(version));
switch (code)
{
case JNI_OK: return UniqueEnv(env,JNIEnvDeleter(vm, false));
case JNI_EDETACHED: return AttachCurrentThread(vm);
default:
CheckErrorCode(code);
return nullptr;
}
}
}