Exemple #1
0
    /// <summary>
    /// 2値画像中の輪郭を検出します.
    /// 入力画像は,8ビット,シングルチャンネル.0以外のピクセルは 1として,0のピクセルは0のまま扱われます.
    /// また,この関数は,輪郭抽出処理中に入力画像の中身を書き換えます.
    /// </summary>
    /// <param name="contours">検出された輪郭.各輪郭は,点のベクトルとして格納されます.</param>
    /// <param name="hierarchy">画像のトポロジーに関する情報を含む出力ベクトル.これは,輪郭数と同じ数の要素を持ちます.各輪郭 contours[i] に対して,
    /// 要素 hierarchy[i]のメンバにはそれぞれ,同じ階層レベルに存在する前後の輪郭,最初の子輪郭,および親輪郭の 
    /// contours インデックス(0 基準)がセットされます.また,輪郭 i において,前後,親,子の輪郭が存在しない場合,
    /// それに対応する hierarchy[i] の要素は,負の値になります.</param>
    /// <param name="mode">輪郭抽出モード</param>
    /// <param name="method">輪郭の近似手法</param>
    /// <param name="offset">オプションのオフセット.各輪郭点はこの値の分だけシフトします.これは,ROIの中で抽出された輪郭を,画像全体に対して位置づけて解析する場合に役立ちます.</param>
#else
        /// <summary>
        /// Finds contours in a binary image.
        /// The source is an 8-bit single-channel image. Non-zero pixels are treated as 1’s. 
        /// Zero pixels remain 0’s, so the image is treated as binary. The function modifies this image while extracting the contours.
        /// </summary>
        /// <param name="contours">Detected contours. Each contour is stored as a vector of points.</param>
        /// <param name="hierarchy">Optional output vector, containing information about the image topology. 
        /// It has as many elements as the number of contours. For each i-th contour contours[i], 
        /// the members of the elements hierarchy[i] are set to 0-based indices in contours of the next 
        /// and previous contours at the same hierarchical level, the first child contour and the parent contour, respectively. 
        /// If for the contour i there are no next, previous, parent, or nested contours, the corresponding elements of hierarchy[i] will be negative.</param>
        /// <param name="mode">Contour retrieval mode</param>
        /// <param name="method">Contour approximation method</param>
        /// <param name="offset"> Optional offset by which every contour point is shifted. 
        /// This is useful if the contours are extracted from the image ROI and then they should be analyzed in the whole image context.</param>
#endif
        public void FindContours(out Point[][] contours, out HiearchyIndex[] hierarchy, 
            ContourRetrieval mode, ContourChain method, Point? offset = null)
        {
            Cv2.FindContours(this, out contours, out hierarchy, mode, method, offset);
        }
Exemple #2
0
        /// <summary>
        /// 2値画像中の輪郭を検出します.
        /// </summary>
        /// <param name="image">入力画像,8ビット,シングルチャンネル.0以外のピクセルは 1として,0のピクセルは0のまま扱われます.
        /// また,この関数は,輪郭抽出処理中に入力画像 image の中身を書き換えます.</param>
        /// <param name="contours">検出された輪郭.各輪郭は,点のベクトルとして格納されます.</param>
        /// <param name="hierarchy">画像のトポロジーに関する情報を含む出力ベクトル.これは,輪郭数と同じ数の要素を持ちます.各輪郭 contours[i] に対して,
        /// 要素 hierarchy[i]のメンバにはそれぞれ,同じ階層レベルに存在する前後の輪郭,最初の子輪郭,および親輪郭の 
        /// contours インデックス(0 基準)がセットされます.また,輪郭 i において,前後,親,子の輪郭が存在しない場合,
        /// それに対応する hierarchy[i] の要素は,負の値になります.</param>
        /// <param name="mode">輪郭抽出モード</param>
        /// <param name="method">輪郭の近似手法</param>
        /// <param name="offset">オプションのオフセット.各輪郭点はこの値の分だけシフトします.これは,ROIの中で抽出された輪郭を,画像全体に対して位置づけて解析する場合に役立ちます.</param>
#else
        /// <summary>
        /// Finds contours in a binary image.
        /// </summary>
        /// <param name="image">Source, an 8-bit single-channel image. Non-zero pixels are treated as 1’s. 
        /// Zero pixels remain 0’s, so the image is treated as binary.
        /// The function modifies the image while extracting the contours.</param> 
        /// <param name="contours">Detected contours. Each contour is stored as a vector of points.</param>
        /// <param name="hierarchy">Optional output vector, containing information about the image topology. 
        /// It has as many elements as the number of contours. For each i-th contour contours[i], 
        /// the members of the elements hierarchy[i] are set to 0-based indices in contours of the next 
        /// and previous contours at the same hierarchical level, the first child contour and the parent contour, respectively. 
        /// If for the contour i there are no next, previous, parent, or nested contours, the corresponding elements of hierarchy[i] will be negative.</param>
        /// <param name="mode">Contour retrieval mode</param>
        /// <param name="method">Contour approximation method</param>
        /// <param name="offset"> Optional offset by which every contour point is shifted. 
        /// This is useful if the contours are extracted from the image ROI and then they should be analyzed in the whole image context.</param>
#endif
        public static void FindContours(InputOutputArray image, out Point[][] contours,
            out HiearchyIndex[] hierarchy, ContourRetrieval mode, ContourChain method, Point? offset = null)
        {
            if (image == null)
                throw new ArgumentNullException("image");
            image.ThrowIfNotReady();

            CvPoint offset0 = offset.GetValueOrDefault(new Point());
            IntPtr contoursPtr, hierarchyPtr;
            NativeMethods.imgproc_findContours1_vector(image.CvPtr, out contoursPtr, out hierarchyPtr, (int)mode, (int)method, offset0);

            using (var contoursVec = new VectorOfVectorPoint(contoursPtr))
            using (var hierarchyVec = new VectorOfVec4i(hierarchyPtr))
            {
                contours = contoursVec.ToArray();
                Vec4i[] hierarchyOrg = hierarchyVec.ToArray();
                hierarchy = EnumerableEx.SelectToArray(hierarchyOrg, HiearchyIndex.FromVec4i);
            }
            image.Fix();
        }