mirror of
https://github.com/opencv/opencv.git
synced 2024-11-30 06:10:02 +08:00
181 lines
5.4 KiB
Python
Executable File
181 lines
5.4 KiB
Python
Executable File
#! /usr/bin/env python
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"""
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This script extracts macros functions from the OpenCV headers and attempts to generate
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standard C function prototypes. Type information is missing in the macros, so SWIG
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cannot generate C code for them unless we provide this.
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"""
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import sys, re
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ARG_MAP = {
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"mat":"CvMat*",
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"type":"int",
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"flags":"int",
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"img":"CvArr *",
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"image":"IplImage *",
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"mat1":"CvMat*",
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"mat2":"CvMat*",
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"seq":"CvSeq*",
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"elem_ptr":"void *",
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"elem":"CvPoint",
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"elem_type":"ignore",
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"elemtype":"ignore",
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"elem_size":"int",
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"edge":"CvGraphEdge *",
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"vertex":"CvGraphVtx *",
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"contour":"CvSeq *",
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"vtx":"CvGraphVtx *",
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"reader":"CvSeqReader",
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"writer":"CvSeqWriter",
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"hist":"CvHistogram *",
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"ptr":"void *",
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"arr":"CvArr *",
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"header":"CvMat *",
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"src":"CvArr *",
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"src1":"CvArr *",
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"src2":"CvArr *",
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"src3":"CvArr *",
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"dst":"CvArr *",
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"pt1":"CvPoint",
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"pt2":"CvPoint",
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"_pt":"CvPoint",
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"index":"int",
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"idx":"int",
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"set":"CvSet *",
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"n":"int",
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"a":"int",
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"b":"int",
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"t":"int",
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"value":"double",
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"row":"int",
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"col":"int",
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"cn":"int",
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"new_cn":"int",
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"pix_size":"int",
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"depth":"int",
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"node":"CvSparseNode *",
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"storage":"CvMemStorage *",
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"new_dims": "int",
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"new_sizes": "int *",
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"A":"CvArr *",
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"B":"CvArr *",
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"C":"CvArr *",
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"real_scalar":"double",
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"graph":"CvGraph *",
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"r":"double",
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"g":"double",
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# "b":"double",
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"line_iterator":"CvLineIterator",
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"deltas":"double *",
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"step":"int",
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"haar":"void *",
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# "contour":"const void*", # handled as a special case in cvshadow
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"range":"CvSize",
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"nch":"int",
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"method":"int",
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"factor":"double"
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}
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RET_MAP = {
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"cvContourPerimeter":"double",
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"CV_RGB":"CvScalar",
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"CV_NEXT_GRAPH_EDGE":"CvGraphEdge *",
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"CV_IMIN":"int",
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"CV_IMAX":"int",
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"CV_IABS":"int",
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"CV_MAT_CN":"int",
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"CV_MAT_DEPTH":"int",
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"CV_NEXT_LINE_POINT":"void",
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}
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# special cases
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MACROS = {
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#"CV_MAKETYPE":"", # SWIG 1.3.29 doesn't like this one for some indeterminant reason
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"CV_TURN_ON_IPL_COMPATIBILITY":"",
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"CV_MAT_ELEM_PTR_FAST":"void * CV_MAT_ELEM_PTR_FAST(CvMat mat,int row,int col,int pix_size);",
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"CV_MAT_ELEM_PTR":"void * CV_MAT_ELEM_PTR(CvMat mat,int row,int col);",
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"CV_NODE_VAL":"void * CV_NODE_VAL(CvSparseMat* mat,CvSparseNode * node);",
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"CV_NODE_IDX":"int * CV_NODE_IDX(CvSparseMat* mat,CvSparseNode * node);",
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"CV_READ_CHAIN_POINT":"void CV_READ_CHAIN_POINT(CvPoint _pt, CvChainPtReader reader);",
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"CV_SUBDIV2D_NEXT_EDGE":"CvQuadEdge2D* CV_SUBDIV2D_NEXT_EDGE(CvSubdiv2DEdge edge);",
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"cvFree":"void cvFree(void ** ptr);",
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}
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print """
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/*//////////////////////////////////////////////////////////////////////////////////////////////////
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// This file is automatically generated from the extract_macros.py script found in the 'utils'
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// subdirectory of the OpenCV distribution. If the generated function prototypes are missing or
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// incorrect, it is likely that a name->type mapping will have to be added to the script
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/////////////////////////////////////////////////////////////////////////////////////////////////M*/
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"""
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print "// This file was generated from the following header files: "
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print "// %s" % "\n// ".join(sys.argv[1:])
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def determine_return_type(name, arguments):
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if RET_MAP.has_key( name ):
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return RET_MAP[name]
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if name.find("_IS_")>=0 or \
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name.find("_HAS_")>=0 or \
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name.find("_KIND")>=0 or \
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name.find("_ARE_")>=0 or \
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name.find("_SIZE")>=0 or \
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name.find("Idx")>=0 or \
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name.find("Count")>=0 or \
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(name.find("TYPE")>=0 and not name.find("TYPES")>=0):
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return "int"
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if re.match( r"CV_(?:8|16|32|64)(?:U|S|F)C", name ):
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return "int"
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if len(arguments) is 1 and arguments[0].startswith("double"):
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return "double"
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if name.find("_PTR")>=0:
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return "void *"
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if name.endswith("POINT"):
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return "CvPoint"
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return "void"
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for m in MACROS:
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print MACROS[m]
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for fn in sys.argv[1:]:
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f = open( fn, "r" )
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in_define = False
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fstr=""
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macro_name=""
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for l in f.xreadlines():
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m = re.match( r"^#define\s+((?:CV_|IPL_|cv)\w+)\s*\(([_, a-zA-Z0-9]*)\)\s*(.*)", l )
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if m and not m.group(1).endswith("FIELDS") and not MACROS.has_key(m.group(1)):
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macro_name = m.group(1)
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args = m.group(2).strip().split(",")
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# assign return type
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ret=determine_return_type( macro_name, args )
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# assign type to each argument
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no_args = len(args) is 0
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typed_args = []
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ignore = False
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for arg in args:
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arg = arg.strip()
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if len(arg) is 0:
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no_args = True
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break
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if ARG_MAP.has_key( arg ):
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if ARG_MAP[arg] is "ignore":
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ignore=True
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break
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typed_args.append( "%s %s"%( ARG_MAP[arg], arg ) )
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else:
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sys.stderr.write( "\"%s\":\"?\", in macro '%s'\n" % (arg, macro_name) )
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typed_args = []
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break
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if not ignore and (no_args or len(typed_args)>0):
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decl = "%s %s(%s);" % (ret, macro_name, ",".join( typed_args) )
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MACROS[ macro_name ] = decl
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print decl
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f.close()
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