// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. #include "precomp.hpp" //#undef CV_CXX11 // debug non C++11 mode #include "opencv2/core/async.hpp" #include "opencv2/core/detail/async_promise.hpp" #include "opencv2/core/cvstd.hpp" #include #undef CV_LOG_STRIP_LEVEL #define CV_LOG_STRIP_LEVEL CV_LOG_LEVEL_DEBUG + 1 #include #ifdef CV_CXX11 #include #include #include #endif namespace cv { /** Manages shared state of asynchronous result */ struct AsyncArray::Impl { int refcount; void addrefFuture() CV_NOEXCEPT { CV_XADD(&refcount_future, 1); CV_XADD(&refcount, 1); } \ void releaseFuture() CV_NOEXCEPT { CV_XADD(&refcount_future, -1); if(1 == CV_XADD(&refcount, -1)) delete this; } \ int refcount_future; void addrefPromise() CV_NOEXCEPT { CV_XADD(&refcount_promise, 1); CV_XADD(&refcount, 1); } \ void releasePromise() CV_NOEXCEPT { CV_XADD(&refcount_promise, -1); if(1 == CV_XADD(&refcount, -1)) delete this; } \ int refcount_promise; #ifdef CV_CXX11 mutable std::mutex mtx; mutable std::condition_variable cond_var; #else mutable cv::Mutex mtx; #endif mutable bool has_result; // Mat, UMat or exception mutable cv::Ptr result_mat; mutable cv::Ptr result_umat; bool has_exception; #if CV__EXCEPTION_PTR std::exception_ptr exception; #endif cv::Exception cv_exception; mutable bool result_is_fetched; bool future_is_returned; Impl() : refcount(1), refcount_future(0), refcount_promise(1) , has_result(false) , has_exception(false) , result_is_fetched(false) , future_is_returned(false) { // nothing } ~Impl() { if (has_result && !result_is_fetched) { CV_LOG_INFO(NULL, "Asynchronous result has not been fetched"); } } bool get(OutputArray dst, int64 timeoutNs) const { CV_Assert(!result_is_fetched); if (!has_result) { if(refcount_promise == 0) CV_Error(Error::StsInternal, "Asynchronous result producer has been destroyed"); if (!wait_for(timeoutNs)) return false; } #ifdef CV_CXX11 std::unique_lock lock(mtx); #else cv::AutoLock lock(mtx); #endif if (has_result) { if (!result_mat.empty()) { dst.move(*result_mat.get()); result_mat.release(); result_is_fetched = true; return true; } if (!result_umat.empty()) { dst.move(*result_umat.get()); result_umat.release(); result_is_fetched = true; return true; } #if CV__EXCEPTION_PTR if (has_exception && exception) { result_is_fetched = true; std::rethrow_exception(exception); } #endif if (has_exception) { result_is_fetched = true; throw cv_exception; } CV_Error(Error::StsInternal, "AsyncArray: invalid state of 'has_result = true'"); } CV_Assert(!has_result); CV_Assert(timeoutNs < 0); return false; } bool valid() const CV_NOEXCEPT { if (result_is_fetched) return false; if (refcount_promise == 0 && !has_result) return false; return true; } bool wait_for(int64 timeoutNs) const { CV_Assert(valid()); if (has_result) return has_result; if (timeoutNs == 0) return has_result; CV_LOG_INFO(NULL, "Waiting for async result ..."); #ifdef CV_CXX11 std::unique_lock lock(mtx); const auto cond_pred = [&]{ return has_result == true; }; if (timeoutNs > 0) return cond_var.wait_for(lock, std::chrono::nanoseconds(timeoutNs), cond_pred); else { cond_var.wait(lock, cond_pred); CV_Assert(has_result); return true; } #else CV_Error(Error::StsNotImplemented, "OpenCV has been built without async waiting support (C++11 is required)"); #endif } AsyncArray getArrayResult() { CV_Assert(refcount_future == 0); AsyncArray result; addrefFuture(); result.p = this; future_is_returned = true; return result; } void setValue(InputArray value) { if (future_is_returned && refcount_future == 0) CV_Error(Error::StsError, "Associated AsyncArray has been destroyed"); #ifdef CV_CXX11 std::unique_lock lock(mtx); #else cv::AutoLock lock(mtx); #endif CV_Assert(!has_result); int k = value.kind(); if (k == _InputArray::UMAT) { result_umat = makePtr(); value.copyTo(*result_umat.get()); } else { result_mat = makePtr(); value.copyTo(*result_mat.get()); } has_result = true; #ifdef CV_CXX11 cond_var.notify_all(); #endif } #if CV__EXCEPTION_PTR void setException(std::exception_ptr e) { if (future_is_returned && refcount_future == 0) CV_Error(Error::StsError, "Associated AsyncArray has been destroyed"); #ifdef CV_CXX11 std::unique_lock lock(mtx); #else cv::AutoLock lock(mtx); #endif CV_Assert(!has_result); has_exception = true; exception = e; has_result = true; #ifdef CV_CXX11 cond_var.notify_all(); #endif } #endif void setException(const cv::Exception e) { if (future_is_returned && refcount_future == 0) CV_Error(Error::StsError, "Associated AsyncArray has been destroyed"); #ifdef CV_CXX11 std::unique_lock lock(mtx); #else cv::AutoLock lock(mtx); #endif CV_Assert(!has_result); has_exception = true; cv_exception = e; has_result = true; #ifdef CV_CXX11 cond_var.notify_all(); #endif } }; AsyncArray::AsyncArray() CV_NOEXCEPT : p(NULL) { } AsyncArray::~AsyncArray() CV_NOEXCEPT { release(); } AsyncArray::AsyncArray(const AsyncArray& o) CV_NOEXCEPT : p(o.p) { if (p) p->addrefFuture(); } AsyncArray& AsyncArray::operator=(const AsyncArray& o) CV_NOEXCEPT { Impl* newp = o.p; if (newp) newp->addrefFuture(); release(); p = newp; return *this; } void AsyncArray::release() CV_NOEXCEPT { Impl* impl = p; p = NULL; if (impl) impl->releaseFuture(); } bool AsyncArray::get(OutputArray dst, int64 timeoutNs) const { CV_Assert(p); return p->get(dst, timeoutNs); } void AsyncArray::get(OutputArray dst) const { CV_Assert(p); bool res = p->get(dst, -1); CV_Assert(res); } bool AsyncArray::wait_for(int64 timeoutNs) const { CV_Assert(p); return p->wait_for(timeoutNs); } bool AsyncArray::valid() const CV_NOEXCEPT { if (!p) return false; return p->valid(); } // // AsyncPromise // AsyncPromise::AsyncPromise() CV_NOEXCEPT : p(new AsyncArray::Impl()) { } AsyncPromise::~AsyncPromise() CV_NOEXCEPT { release(); } AsyncPromise::AsyncPromise(const AsyncPromise& o) CV_NOEXCEPT : p(o.p) { if (p) p->addrefPromise(); } AsyncPromise& AsyncPromise::operator=(const AsyncPromise& o) CV_NOEXCEPT { Impl* newp = o.p; if (newp) newp->addrefPromise(); release(); p = newp; return *this; } void AsyncPromise::release() CV_NOEXCEPT { Impl* impl = p; p = NULL; if (impl) impl->releasePromise(); } AsyncArray AsyncPromise::getArrayResult() { CV_Assert(p); return p->getArrayResult(); } void AsyncPromise::setValue(InputArray value) { CV_Assert(p); return p->setValue(value); } void AsyncPromise::setException(const cv::Exception& exception) { CV_Assert(p); return p->setException(exception); } #if CV__EXCEPTION_PTR void AsyncPromise::setException(std::exception_ptr exception) { CV_Assert(p); return p->setException(exception); } #endif } // namespace