/* Copyright 2017 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef HAL_USB_CACHED_FRAME_H_ #define HAL_USB_CACHED_FRAME_H_ #include #include #include "arc/image_processor.h" namespace arc { // CachedFrame contains a source FrameBuffer and a cached, converted // FrameBuffer. The incoming frames would be converted to YU12, the default // format of libyuv, to allow convenient processing. class CachedFrame { public: CachedFrame(); ~CachedFrame(); // SetSource() doesn't take ownership of |frame|. The caller can only release // |frame| after calling UnsetSource(). SetSource() immediately converts // incoming frame into YU12. Return non-zero values if it encounters errors. // If |rotate_degree| is 90 or 270, |frame| will be cropped, rotated by the // specified amount and scaled. // If |rotate_degree| is -1, |frame| will not be cropped, rotated, and scaled. // This function will return an error if |rotate_degree| is not -1, 90, or // 270. int SetSource(const FrameBuffer* frame, int rotate_degree); void UnsetSource(); uint8_t* GetSourceBuffer() const; size_t GetSourceDataSize() const; uint32_t GetSourceFourCC() const; uint8_t* GetCachedBuffer() const; uint32_t GetCachedFourCC() const; uint32_t GetWidth() const; uint32_t GetHeight() const; // Calculate the output buffer size when converting to the specified pixel // format. |fourcc| is defined as V4L2_PIX_FMT_* in linux/videodev2.h. Return // 0 on error. size_t GetConvertedSize(int fourcc) const; // Caller should fill everything except |data_size| and |fd| of |out_frame|. // The function will do format conversion and scale to fit |out_frame| // requirement. // If |video_hack| is true, it outputs YU12 when |hal_pixel_format| is YV12 // (swapping U/V planes). Caller should fill |fourcc|, |data|, and // Return non-zero error code on failure; return 0 on success. int Convert(const android::CameraMetadata& metadata, FrameBuffer* out_frame, bool video_hack = false); private: int ConvertToYU12(); // When we have a landscape mounted camera and the current camera activity is // portrait, the frames shown in the activity would be stretched. Therefore, // we want to simulate a native portrait camera. That's why we want to crop, // rotate |rotate_degree| clockwise and scale the frame. HAL would not change // CameraInfo.orientation. Instead, framework would fake the // CameraInfo.orientation. Framework would then tell HAL how much the frame // needs to rotate clockwise by |rotate_degree|. int CropRotateScale(int rotate_degree); const FrameBuffer* source_frame_; // const V4L2FrameBuffer* source_frame_; // Temporary buffer for cropped and rotated results. std::unique_ptr cropped_buffer_; size_t cropped_buffer_capacity_; // Cache YU12 decoded results. std::unique_ptr yu12_frame_; // Temporary buffer for scaled results. std::unique_ptr scaled_frame_; }; } // namespace arc #endif // HAL_USB_CACHED_FRAME_H_