fixed the ordering of parameters in PyArg_ParseTupleAndKeywords, added correct Ptr<CvDTreeSplit>::delete_obj() (ticket #406 An error occurred )

modules/imgproc/include/opencv2/imgproc/imgproc.hpp

@@ -383,7 +383,7 @@ CV_EXPORTS_W void copyMakeBorder( const Mat& src, CV_OUT Mat& dst,
 //! smooths the image using median filter.
 CV_EXPORTS_W void medianBlur( const Mat& src, CV_OUT Mat& dst, int ksize );
 //! smooths the image using Gaussian filter.
-CV_EXPORTS_W void GaussianBlur( const Mat& src, CV_OUT Mat& dst, Size ksize,
+CV_EXPORTS_AS(gaussianBlur) void GaussianBlur( const Mat& src, CV_OUT Mat& dst, Size ksize,
                               double sigma1, double sigma2=0,
                               int borderType=BORDER_DEFAULT );
 //! smooths the image using bilateral filter
@@ -412,23 +412,23 @@ CV_EXPORTS_W void sepFilter2D( const Mat& src, CV_OUT Mat& dst, int ddepth,
                              double delta=0, int borderType=BORDER_DEFAULT );
     
 //! applies generalized Sobel operator to the image
-CV_EXPORTS_W void Sobel( const Mat& src, CV_OUT Mat& dst, int ddepth,
+CV_EXPORTS_AS(sobel) void Sobel( const Mat& src, CV_OUT Mat& dst, int ddepth,
                        int dx, int dy, int ksize=3,
                        double scale=1, double delta=0,
                        int borderType=BORDER_DEFAULT );
 
 //! applies the vertical or horizontal Scharr operator to the image
-CV_EXPORTS_W void Scharr( const Mat& src, CV_OUT Mat& dst, int ddepth,
+CV_EXPORTS_AS(scharr) void Scharr( const Mat& src, CV_OUT Mat& dst, int ddepth,
                         int dx, int dy, double scale=1, double delta=0,
                         int borderType=BORDER_DEFAULT );
 
 //! applies Laplacian operator to the image
-CV_EXPORTS_W void Laplacian( const Mat& src, CV_OUT Mat& dst, int ddepth,
+CV_EXPORTS_AS(laplacian) void Laplacian( const Mat& src, CV_OUT Mat& dst, int ddepth,
                            int ksize=1, double scale=1, double delta=0,
                            int borderType=BORDER_DEFAULT );
 
 //! applies Canny edge detector and produces the edge map.
-CV_EXPORTS_W void Canny( const Mat& image, CV_OUT Mat& edges,
+CV_EXPORTS_AS(canny) void Canny( const Mat& image, CV_OUT Mat& edges,
                        double threshold1, double threshold2,
                        int apertureSize=3, bool L2gradient=false );
 
@@ -463,17 +463,17 @@ CV_EXPORTS_W void goodFeaturesToTrack( const Mat& image, CV_OUT vector<Point2f>&
                                      bool useHarrisDetector=false, double k=0.04 );
 
 //! finds lines in the black-n-white image using the standard or pyramid Hough transform
-CV_EXPORTS_W void HoughLines( const Mat& image, CV_OUT vector<Vec2f>& lines,
+CV_EXPORTS_AS(houghLines) void HoughLines( const Mat& image, CV_OUT vector<Vec2f>& lines,
                             double rho, double theta, int threshold,
                             double srn=0, double stn=0 );
 
 //! finds line segments in the black-n-white image using probabalistic Hough transform
-CV_EXPORTS_W void HoughLinesP( Mat& image, CV_OUT vector<Vec4i>& lines,
+CV_EXPORTS_AS(houghLinesP) void HoughLinesP( Mat& image, CV_OUT vector<Vec4i>& lines,
                              double rho, double theta, int threshold,
                              double minLineLength=0, double maxLineGap=0 );
 
 //! finds circles in the grayscale image using 2+1 gradient Hough transform 
-CV_EXPORTS_W void HoughCircles( const Mat& image, CV_OUT vector<Vec3f>& circles,
+CV_EXPORTS_AS(houghCircles) void HoughCircles( const Mat& image, CV_OUT vector<Vec3f>& circles,
                               int method, double dp, double minDist,
                               double param1=100, double param2=100,
                               int minRadius=0, int maxRadius=0 );

modules/ml/include/opencv2/ml/ml.hpp

@@ -748,7 +748,6 @@ struct CvDTreeSplit
     };
 };
 
-
 struct CvDTreeNode
 {
     int class_idx;
@@ -2211,6 +2210,8 @@ typedef CvANN_MLP_TrainParams ANN_MLP_TrainParams;
 typedef CvANN_MLP NeuralNet_MLP;
 typedef CvGBTreesParams GradientBoostingTreeParams;
 typedef CvGBTrees GradientBoostingTrees;
+
+template<> CV_EXPORTS void Ptr<CvDTreeSplit>::delete_obj();
     
 }
 

modules/ml/src/tree.cpp

@@ -1803,17 +1803,22 @@ double CvDTree::calc_node_dir( CvDTreeNode* node )
 namespace cv
 {
 
+template<> CV_EXPORTS void Ptr<CvDTreeSplit>::delete_obj()
+{
+    fastFree(obj);
+}
+    
 DTreeBestSplitFinder::DTreeBestSplitFinder( CvDTree* _tree, CvDTreeNode* _node)
 {
     tree = _tree;
     node = _node;
     splitSize = tree->get_data()->split_heap->elem_size;
 
-    bestSplit = (CvDTreeSplit*)(new char[splitSize]);
+    bestSplit = (CvDTreeSplit*)fastMalloc(splitSize);
     memset((CvDTreeSplit*)bestSplit, 0, splitSize);
     bestSplit->quality = -1;
     bestSplit->condensed_idx = INT_MIN;
-    split = (CvDTreeSplit*)(new char[splitSize]);
+    split = (CvDTreeSplit*)fastMalloc(splitSize);
     memset((CvDTreeSplit*)split, 0, splitSize);
     //haveSplit = false;
 }
@@ -1824,9 +1829,9 @@ DTreeBestSplitFinder::DTreeBestSplitFinder( const DTreeBestSplitFinder& finder,
     node = finder.node;
     splitSize = tree->get_data()->split_heap->elem_size;
 
-    bestSplit = (CvDTreeSplit*)(new char[splitSize]);
+    bestSplit = (CvDTreeSplit*)fastMalloc(splitSize);
     memcpy((CvDTreeSplit*)(bestSplit), (const CvDTreeSplit*)finder.bestSplit, splitSize);
-    split = (CvDTreeSplit*)(new char[splitSize]);
+    split = (CvDTreeSplit*)fastMalloc(splitSize);
     memset((CvDTreeSplit*)split, 0, splitSize);
 }
 

modules/python/gen2.py

@@ -513,15 +513,15 @@ class FuncInfo(object):
                     sys.exit(-1)
 
                 amapping = simple_argtype_mapping.get(tp, (tp, "O", defval0))
-                all_cargs.append(amapping)
+                parse_name = a.name
                 if a.py_inputarg:
                     if amapping[1] == "O":
                         code_decl += "    PyObject* pyobj_%s = NULL;\n" % (a.name,)
-                        parse_arglist.append("pyobj_" + a.name)
+                        parse_name = "pyobj_" + a.name
                         code_cvt_list.append("pyopencv_to(pyobj_%s, %s)" % (a.name, a.name))
-                    else:
-                        parse_arglist.append(a.name)
-
+                
+                all_cargs.append([amapping, parse_name])
+                
                 defval = a.defval
                 if not defval:
                     defval = amapping[2]
@@ -556,7 +556,7 @@ class FuncInfo(object):
 
             if v.args:
                 # form the format spec for PyArg_ParseTupleAndKeywords
-                fmtspec = "".join([all_cargs[argno][1] for aname, argno in v.py_arglist])
+                fmtspec = "".join([all_cargs[argno][0][1] for aname, argno in v.py_arglist])
                 if v.py_noptargs > 0:
                     fmtspec = fmtspec[:-v.py_noptargs] + "|" + fmtspec[-v.py_noptargs:]
                 fmtspec += ":" + fullname
@@ -568,7 +568,7 @@ class FuncInfo(object):
                 code_parse = gen_template_parse_args.substitute(
                     kw_list = ", ".join(['"' + aname + '"' for aname, argno in v.py_arglist]),
                     fmtspec = fmtspec,
-                    parse_arglist = ", ".join(["&" + aname for aname in parse_arglist]),
+                    parse_arglist = ", ".join(["&" + all_cargs[argno][1] for aname, argno in v.py_arglist]),
                     code_cvt = " &&\n        ".join(code_cvt_list))
             else:
                 code_parse = "if(PyObject_Size(args) == 0 && PyObject_Size(kw) == 0)"
@@ -586,7 +586,7 @@ class FuncInfo(object):
                 fmtspec = "N"*len(v.py_outlist)
                 backcvt_arg_list = []
                 for aname, argno in v.py_outlist:
-                    amapping = all_cargs[argno]
+                    amapping = all_cargs[argno][0]
                     backcvt_arg_list.append("%s(%s)" % (amapping[2], aname))
                 code_ret = "return Py_BuildValue(\"(%s)\", %s)" % \
                     (fmtspec, ", ".join(["pyopencv_from(" + aname + ")" for aname, argno in v.py_outlist]))