xcore/interface/stitcher.h - platform/external/libxcam - Git at Google

 /*
  * stitcher.h - stitcher interface
  *
  *  Copyright (c) 2017 Intel Corporation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  * Author: Wind Yuan <feng.yuan@intel.com>
  * Author: Yinhang Liu <yinhangx.liu@intel.com>
  */

 #ifndef XCAM_INTERFACE_STITCHER_H
 #define XCAM_INTERFACE_STITCHER_H

 #include <xcam_std.h>
 #include <interface/data_types.h>
 #include <vector>
 #include <video_buffer.h>

 #define XCAM_STITCH_FISHEYE_MAX_NUM    6
 #define XCAM_STITCH_MAX_CAMERAS XCAM_STITCH_FISHEYE_MAX_NUM
 #define XCAM_STITCH_MIN_SEAM_WIDTH 56

 #define INVALID_INDEX (uint32_t)(-1)

 namespace XCam {

 enum StitchResMode {
     StitchRes1080P,
     StitchRes1080P4,
     StitchRes4K
 };

 struct StitchInfo {
     uint32_t merge_width[XCAM_STITCH_FISHEYE_MAX_NUM];

     ImageCropInfo crop[XCAM_STITCH_FISHEYE_MAX_NUM];
     FisheyeInfo fisheye_info[XCAM_STITCH_FISHEYE_MAX_NUM];

     StitchInfo () {
         xcam_mem_clear (merge_width);
     }
 };

 struct ImageMergeInfo {
     Rect left;
     Rect right;
 };

 class Stitcher;

 struct CalibrationInfo {
     ExtrinsicParameter extrinsic;
     IntrinsicParameter intrinsic;
 };

 struct CameraInfo {
     CalibrationInfo   calibration;
     float             round_angle_start;
     float             angle_range;;
 };

 class Stitcher
 {
 public:
     struct RoundViewSlice {
         float          hori_angle_start;
         float          hori_angle_range;
         uint32_t       width;
         uint32_t       height;

         RoundViewSlice ()
             : hori_angle_start (0.0f), hori_angle_range (0.0f)
             , width (0), height (0)
         {}
     };

     struct CenterMark {
         uint32_t slice_center_x;
         uint32_t out_center_x;
         CenterMark ()
             : slice_center_x (0)
             , out_center_x (0)
         {}
     };

     struct ScaleFactor {
         float left_scale;
         float right_scale;

         ScaleFactor ()
             : left_scale (1.0f)
             , right_scale (1.0f)
         {}
     };

     struct ImageOverlapInfo {
         Rect left;
         Rect right;
         Rect out_area;
     };

     struct CopyArea {
         uint32_t in_idx;
         Rect     in_area;
         Rect     out_area;

         CopyArea ()
             : in_idx (INVALID_INDEX)
         {}
     };
     typedef std::vector<CopyArea>  CopyAreaArray;

 public:
     explicit Stitcher (uint32_t align_x, uint32_t align_y = 1);
     virtual ~Stitcher ();
     static SmartPtr<Stitcher> create_ocl_stitcher ();
     static SmartPtr<Stitcher> create_soft_stitcher ();

     bool set_bowl_config (const BowlDataConfig &config);
     const BowlDataConfig &get_bowl_config () {
         return _bowl_config;
     }
     bool set_camera_num (uint32_t num);
     uint32_t get_camera_num () const {
         return _camera_num;
     }
     bool set_camera_info (uint32_t index, const CameraInfo &info);
     bool get_camera_info (uint32_t index, CameraInfo &info) const;

     bool set_crop_info (uint32_t index, const ImageCropInfo &info);
     bool get_crop_info (uint32_t index, ImageCropInfo &info) const;
     bool is_crop_info_set () const {
         return _is_crop_set;
     }
     //bool set_overlap_info (uint32_t index, const ImageOverlapInfo &info);
     bool is_overlap_info_set () const {
         return _is_overlap_set;
     }

     //bool set_stitch_info (const StitchInfo &stitch_info);
     void set_output_size (uint32_t width, uint32_t height) {
         _output_width = width; //XCAM_ALIGN_UP (width, XCAM_BLENDER_ALIGNED_WIDTH);
         _output_height = height;
     }

     void get_output_size (uint32_t &width, uint32_t &height) const {
         width = _output_width;
         height = _output_height;
     }
     virtual XCamReturn stitch_buffers (const VideoBufferList &in_bufs, SmartPtr<VideoBuffer> &out_buf) = 0;

 protected:
     XCamReturn estimate_round_slices ();
     virtual XCamReturn estimate_coarse_crops ();
     XCamReturn mark_centers ();
     XCamReturn estimate_overlap ();
     XCamReturn update_copy_areas ();

     const CenterMark &get_center (uint32_t idx) const {
         return _center_marks[idx];
     }
     const RoundViewSlice &get_round_view_slice (uint32_t idx) const {
         return _round_view_slices[idx];
     }
     const ImageOverlapInfo &get_overlap (uint32_t idx) const {
         return _overlap_info[idx];
     }
     const ImageCropInfo &get_crop (uint32_t idx) const {
         return _crop_info[idx];
     }
     const CopyAreaArray &get_copy_area () const {
         return _copy_areas;
     }

 private:
     XCAM_DEAD_COPY (Stitcher);

 protected:
     ImageCropInfo               _crop_info[XCAM_STITCH_MAX_CAMERAS];
     bool                        _is_crop_set;
     //update after each feature match
     ScaleFactor                 _scale_factors[XCAM_STITCH_MAX_CAMERAS];

 private:
     uint32_t                    _alignment_x, _alignment_y;
     uint32_t                    _output_width, _output_height;
     float                       _out_start_angle;
     uint32_t                    _camera_num;
     CameraInfo                  _camera_info[XCAM_STITCH_MAX_CAMERAS];
     RoundViewSlice              _round_view_slices[XCAM_STITCH_MAX_CAMERAS];
     bool                        _is_round_view_set;

     ImageOverlapInfo            _overlap_info[XCAM_STITCH_MAX_CAMERAS];
     BowlDataConfig              _bowl_config;
     bool                        _is_overlap_set;

     //auto calculation
     CenterMark                  _center_marks[XCAM_STITCH_MAX_CAMERAS];
     bool                        _is_center_marked;
     CopyAreaArray               _copy_areas;
 };

 class BowlModel {
 public:
     typedef std::vector<PointFloat3> VertexMap;
     typedef std::vector<PointFloat2> PointMap;
     typedef std::vector<int32_t> IndexVector;

 public:
     BowlModel (const BowlDataConfig &config, const uint32_t image_width, const uint32_t image_height);
     bool get_max_topview_area_mm (float &length_mm, float &width_mm);
     bool get_topview_rect_map (
         PointMap &texture_points,
         uint32_t res_width, uint32_t res_height,
         float length_mm = 0.0f, float width_mm = 0.0f);

     bool get_stitch_image_vertex_model (
         VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
         uint32_t res_width, uint32_t res_height, float vertex_height);

     bool get_bowlview_vertex_model (
         VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
         uint32_t res_width, uint32_t res_height);

     bool get_topview_vertex_model (
         VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
         uint32_t res_width, uint32_t res_height);

 private:
     BowlDataConfig    _config;
     uint32_t          _bowl_img_width, _bowl_img_height;
     float             _max_topview_width_mm;
     float             _max_topview_length_mm;
 };

 }

 #endif //XCAM_INTERFACE_STITCHER_H
	/*
	* stitcher.h - stitcher interface
	*
	* Copyright (c) 2017 Intel Corporation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	* Author: Wind Yuan <feng.yuan@intel.com>
	* Author: Yinhang Liu <yinhangx.liu@intel.com>
	*/

	#ifndef XCAM_INTERFACE_STITCHER_H
	#define XCAM_INTERFACE_STITCHER_H

	#include <xcam_std.h>
	#include <interface/data_types.h>
	#include <vector>
	#include <video_buffer.h>

	#define XCAM_STITCH_FISHEYE_MAX_NUM 6
	#define XCAM_STITCH_MAX_CAMERAS XCAM_STITCH_FISHEYE_MAX_NUM
	#define XCAM_STITCH_MIN_SEAM_WIDTH 56

	#define INVALID_INDEX (uint32_t)(-1)

	namespace XCam {

	enum StitchResMode {
	StitchRes1080P,
	StitchRes1080P4,
	StitchRes4K
	};

	struct StitchInfo {
	uint32_t merge_width[XCAM_STITCH_FISHEYE_MAX_NUM];

	ImageCropInfo crop[XCAM_STITCH_FISHEYE_MAX_NUM];
	FisheyeInfo fisheye_info[XCAM_STITCH_FISHEYE_MAX_NUM];

	StitchInfo () {
	xcam_mem_clear (merge_width);
	}
	};

	struct ImageMergeInfo {
	Rect left;
	Rect right;
	};

	class Stitcher;

	struct CalibrationInfo {
	ExtrinsicParameter extrinsic;
	IntrinsicParameter intrinsic;
	};

	struct CameraInfo {
	CalibrationInfo calibration;
	float round_angle_start;
	float angle_range;;
	};

	class Stitcher
	{
	public:
	struct RoundViewSlice {
	float hori_angle_start;
	float hori_angle_range;
	uint32_t width;
	uint32_t height;

	RoundViewSlice ()
	: hori_angle_start (0.0f), hori_angle_range (0.0f)
	, width (0), height (0)
	{}
	};

	struct CenterMark {
	uint32_t slice_center_x;
	uint32_t out_center_x;
	CenterMark ()
	: slice_center_x (0)
	, out_center_x (0)
	{}
	};

	struct ScaleFactor {
	float left_scale;
	float right_scale;

	ScaleFactor ()
	: left_scale (1.0f)
	, right_scale (1.0f)
	{}
	};

	struct ImageOverlapInfo {
	Rect left;
	Rect right;
	Rect out_area;
	};

	struct CopyArea {
	uint32_t in_idx;
	Rect in_area;
	Rect out_area;

	CopyArea ()
	: in_idx (INVALID_INDEX)
	{}
	};
	typedef std::vector<CopyArea> CopyAreaArray;

	public:
	explicit Stitcher (uint32_t align_x, uint32_t align_y = 1);
	virtual ~Stitcher ();
	static SmartPtr<Stitcher> create_ocl_stitcher ();
	static SmartPtr<Stitcher> create_soft_stitcher ();

	bool set_bowl_config (const BowlDataConfig &config);
	const BowlDataConfig &get_bowl_config () {
	return _bowl_config;
	}
	bool set_camera_num (uint32_t num);
	uint32_t get_camera_num () const {
	return _camera_num;
	}
	bool set_camera_info (uint32_t index, const CameraInfo &info);
	bool get_camera_info (uint32_t index, CameraInfo &info) const;

	bool set_crop_info (uint32_t index, const ImageCropInfo &info);
	bool get_crop_info (uint32_t index, ImageCropInfo &info) const;
	bool is_crop_info_set () const {
	return _is_crop_set;
	}
	//bool set_overlap_info (uint32_t index, const ImageOverlapInfo &info);
	bool is_overlap_info_set () const {
	return _is_overlap_set;
	}

	//bool set_stitch_info (const StitchInfo &stitch_info);
	void set_output_size (uint32_t width, uint32_t height) {
	_output_width = width; //XCAM_ALIGN_UP (width, XCAM_BLENDER_ALIGNED_WIDTH);
	_output_height = height;
	}

	void get_output_size (uint32_t &width, uint32_t &height) const {
	width = _output_width;
	height = _output_height;
	}
	virtual XCamReturn stitch_buffers (const VideoBufferList &in_bufs, SmartPtr<VideoBuffer> &out_buf) = 0;

	protected:
	XCamReturn estimate_round_slices ();
	virtual XCamReturn estimate_coarse_crops ();
	XCamReturn mark_centers ();
	XCamReturn estimate_overlap ();
	XCamReturn update_copy_areas ();

	const CenterMark &get_center (uint32_t idx) const {
	return _center_marks[idx];
	}
	const RoundViewSlice &get_round_view_slice (uint32_t idx) const {
	return _round_view_slices[idx];
	}
	const ImageOverlapInfo &get_overlap (uint32_t idx) const {
	return _overlap_info[idx];
	}
	const ImageCropInfo &get_crop (uint32_t idx) const {
	return _crop_info[idx];
	}
	const CopyAreaArray &get_copy_area () const {
	return _copy_areas;
	}

	private:
	XCAM_DEAD_COPY (Stitcher);

	protected:
	ImageCropInfo _crop_info[XCAM_STITCH_MAX_CAMERAS];
	bool _is_crop_set;
	//update after each feature match
	ScaleFactor _scale_factors[XCAM_STITCH_MAX_CAMERAS];

	private:
	uint32_t _alignment_x, _alignment_y;
	uint32_t _output_width, _output_height;
	float _out_start_angle;
	uint32_t _camera_num;
	CameraInfo _camera_info[XCAM_STITCH_MAX_CAMERAS];
	RoundViewSlice _round_view_slices[XCAM_STITCH_MAX_CAMERAS];
	bool _is_round_view_set;

	ImageOverlapInfo _overlap_info[XCAM_STITCH_MAX_CAMERAS];
	BowlDataConfig _bowl_config;
	bool _is_overlap_set;

	//auto calculation
	CenterMark _center_marks[XCAM_STITCH_MAX_CAMERAS];
	bool _is_center_marked;
	CopyAreaArray _copy_areas;
	};

	class BowlModel {
	public:
	typedef std::vector<PointFloat3> VertexMap;
	typedef std::vector<PointFloat2> PointMap;
	typedef std::vector<int32_t> IndexVector;

	public:
	BowlModel (const BowlDataConfig &config, const uint32_t image_width, const uint32_t image_height);
	bool get_max_topview_area_mm (float &length_mm, float &width_mm);
	bool get_topview_rect_map (
	PointMap &texture_points,
	uint32_t res_width, uint32_t res_height,
	float length_mm = 0.0f, float width_mm = 0.0f);

	bool get_stitch_image_vertex_model (
	VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
	uint32_t res_width, uint32_t res_height, float vertex_height);

	bool get_bowlview_vertex_model (
	VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
	uint32_t res_width, uint32_t res_height);

	bool get_topview_vertex_model (
	VertexMap &vertices, PointMap &texture_points, IndexVector &indeices,
	uint32_t res_width, uint32_t res_height);

	private:
	BowlDataConfig _config;
	uint32_t _bowl_img_width, _bowl_img_height;
	float _max_topview_width_mm;
	float _max_topview_length_mm;
	};

	}

	#endif //XCAM_INTERFACE_STITCHER_H