#ifndef ANSPaddleOCR_H #define ANSPaddleOCR_H #pragma once #include "opencv2/core.hpp" #include "opencv2/imgcodecs.hpp" #include "opencv2/imgproc.hpp" #include #include #include #include #include #include "LabVIEWHeader/extcode.h" #include "ANSLicense.h" #include "ANSOCRBase.h" #include namespace ANSCENTER { class ANSOCR_API ANSCPUOCR :public ANSOCRBase { public: [[nodiscard]] virtual bool Initialize(const std::string& licenseKey, OCRModelConfig modelConfig, const std::string& modelZipFilePath, const std::string& modelZipPassword, int engineMode) override; [[nodiscard]] std::vector RunInference(const cv::Mat& input); [[nodiscard]] std::vector RunInference(const cv::Mat& input, const std::string &cameraId); [[nodiscard]] std::vector RunInference(const cv::Mat& input, const std::vector& Bbox); [[nodiscard]] std::vector RunInference(const cv::Mat& input, const std::vector &Bbox, const std::string& cameraId); ~ANSCPUOCR(); [[nodiscard]] bool Destroy(); private: std::unique_ptr ppocr = std::make_unique(); std::mutex _mutex; std::atomic _modelLoading{ false }; cv::Mat _frameBuffer; // Reusable buffer for color conversion // Try to lock _mutex with a timeout for non-recursive mutex std::unique_lock TryLockWithTimeout( const char* caller, unsigned int timeoutMs = 5000) { const auto deadline = std::chrono::steady_clock::now() + std::chrono::milliseconds(timeoutMs); std::unique_lock lk(_mutex, std::defer_lock); while (!lk.try_lock()) { if (std::chrono::steady_clock::now() >= deadline) { _logger.LogWarn(caller, "Mutex acquisition timed out after " + std::to_string(timeoutMs) + " ms" + (_modelLoading.load() ? " (model loading in progress)" : ""), __FILE__, __LINE__); return lk; } std::this_thread::sleep_for(std::chrono::milliseconds(1)); } return lk; } }; } #endif