mirror of
https://github.com/ruby-opencv/ruby-opencv
synced 2023-03-27 23:22:12 -04:00
184 lines
6 KiB
C++
184 lines
6 KiB
C++
/************************************************************
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cvchain.cpp -
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$Author: lsxi $
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Copyright (C) 2007 Masakazu Yonekura
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************************************************************/
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#include "cvchain.h"
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/*
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* Document-class: OpenCV::CvChain
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*
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* Freeman chain code.
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* CvMat#find_contours(:method => :code)
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*/
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__NAMESPACE_BEGIN_OPENCV
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__NAMESPACE_BEGIN_CVCHAIN
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#define APPROX_CHAIN_OPTION(op) NIL_P(op) ? rb_const_get(rb_class(), rb_intern("APPROX_CHAIN_OPTION")) : rb_funcall(rb_const_get(rb_class(), rb_intern("APPROX_CHAIN_OPTION")), rb_intern("merge"), 1, op)
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#define APPROX_CHAIN_METHOD(op) CVMETHOD("APPROX_CHAIN_METHOD", rb_hash_aref(op, ID2SYM(rb_intern("method"))), CV_CHAIN_APPROX_SIMPLE)
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#define APPROX_CHAIN_PARAMETER(op) NUM2INT(rb_hash_aref(op, ID2SYM(rb_intern("parameter"))))
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#define APPROX_CHAIN_MINIMAL_PARAMETER(op) NUM2INT(rb_hash_aref(op, ID2SYM(rb_intern("minimal_parameter"))))
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#define APPROX_CHAIN_RECURSIVE(op) ({VALUE _recursive = rb_hash_aref(op, ID2SYM(rb_intern("recursive"))); NIL_P(_recursive) ? 0 : _recursive == Qfalse ? 0 : 1;})
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VALUE rb_klass;
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VALUE
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rb_class()
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{
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return rb_klass;
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}
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void
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define_ruby_class()
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{
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if (rb_klass)
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return;
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/*
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* opencv = rb_define_module("OpenCV");
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* cvseq = rb_define_class_under(opencv, "CvSeq");
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* curve = rb_define_module_under(opencv, "Curve");
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* note: this comment is used by rdoc.
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*/
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VALUE opencv = rb_module_opencv();
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VALUE cvseq = cCvSeq::rb_class();
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VALUE curve = mCurve::rb_module();
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rb_klass = rb_define_class_under(opencv, "CvChain", cvseq);
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rb_include_module(rb_klass, curve);
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VALUE approx_chain_option = rb_hash_new();
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rb_define_const(rb_klass, "APPROX_CHAIN_OPTION", approx_chain_option);
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rb_hash_aset(approx_chain_option, ID2SYM(rb_intern("method")), ID2SYM(rb_intern("approx_simple")));
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rb_hash_aset(approx_chain_option, ID2SYM(rb_intern("parameter")), rb_float_new(0));
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rb_hash_aset(approx_chain_option, ID2SYM(rb_intern("minimal_parameter")), INT2FIX(0));
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rb_hash_aset(approx_chain_option, ID2SYM(rb_intern("recursive")), Qfalse);
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rb_define_method(rb_klass, "origin", RUBY_METHOD_FUNC(rb_origin), 0);
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rb_define_method(rb_klass, "origin=", RUBY_METHOD_FUNC(rb_set_origin), 0);
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rb_define_method(rb_klass, "codes", RUBY_METHOD_FUNC(rb_codes), 0);
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rb_define_method(rb_klass, "points", RUBY_METHOD_FUNC(rb_points), 0);
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rb_define_method(rb_klass, "approx_chain", RUBY_METHOD_FUNC(rb_approx_chain), -1);
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rb_define_alias(rb_klass, "approx", "approx_chain");
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}
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/*
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* call-seq:
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* origin -> cvpoint
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*
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* Return Freeman chain code origin.
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*/
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VALUE
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rb_origin(VALUE self)
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{
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return cCvPoint::new_object(CVCHAIN(self)->origin);
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}
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/*
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* call-seq:
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* origin = point -> self
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*
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* Set Freeman chain code origin.
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*/
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VALUE
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rb_set_origin(VALUE self, VALUE origin)
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{
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CVCHAIN(self)->origin = VALUE_TO_CVPOINT(origin);
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return self;
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}
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/*
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* call-seq:
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* codes -> array(contain fixnum)
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*
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* Return Freeman chain codes.
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*/
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VALUE
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rb_codes(VALUE self)
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{
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CvChain *chain = CVCHAIN(self);
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CvChainPtReader reader;
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CvPoint p = chain->origin;
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VALUE ary = rb_ary_new2(chain->total);
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cvStartReadChainPoints(chain, &reader);
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for (int i = 0; i < chain->total; i++) {
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CV_READ_SEQ_ELEM(reader.code, (*((CvSeqReader*)&(reader))));
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rb_ary_store(ary, i, CHR2FIX(reader.code));
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}
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return ary;
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}
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/*
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* call-seq:
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* points -> array(contain cvpoint)
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*
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* Return points that represent by Freeman chain code.
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*/
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VALUE
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rb_points(VALUE self)
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{
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CvChain *chain = CVCHAIN(self);
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CvChainPtReader reader;
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CvPoint p = chain->origin;
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VALUE ary = rb_ary_new2(chain->total);
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cvStartReadChainPoints(chain, &reader);
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for (int i = 0; i < chain->total; i++) {
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CV_READ_CHAIN_POINT(p, reader);
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rb_ary_store(ary, i, cCvPoint::new_object(p));
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}
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return ary;
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}
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/*
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* call-seq:
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* approx_chain(<i>[approx_chain_option]</i>) -> cvcontour
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*
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* Approximates Freeman chain(s) with polygonal curve.
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* <i>approx_chain_option</i> should be Hash include these keys.
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* :method - Approximation method.
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* :approx_none - translate all the points from the chain code into points;
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* :approx_simple(default) - compress horizontal, vertical, and diagonal segments, that is,
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* the function leaves only their ending points.
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* :approx_tc89_l1
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* :approx_tc89_kcos - apply one of the flavors of Teh-Chin chain approximation algorithm.
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* If set the difference between the current pixel and seed pixel is considered,
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* otherwise difference between neighbor pixels is considered (the range is floating).
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* :parameter - Method parameter (not used now).
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* :minimal_perimeter (default 0)
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* Approximates only those contours whose perimeters are not less than minimal_perimeter. Other chains are removed from the resulting structure.
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* :recursive (default false)
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* If not nil or false, the function approximates all chains that access can be obtained to
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* from self by h_next or v_next links. If 0, the single chain is approximated.
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*
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*/
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VALUE
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rb_approx_chain(int argc, VALUE *argv, VALUE self)
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{
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VALUE approx_chain_option, storage;
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rb_scan_args(argc, argv, "01", &approx_chain_option);
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approx_chain_option = APPROX_CHAIN_OPTION(approx_chain_option);
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/* can't compile VC
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storage = cCvMemStorage::new_object();
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CvSeq *seq = cvApproxChains(CVSEQ(self), CVMEMSTORAGE(storage),
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APPROX_CHAIN_METHOD(approx_chain_option),
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APPROX_CHAIN_PARAMETER(approx_chain_option),
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APPROX_CHAIN_MINIMAL_PARAMETER(approx_chain_option),
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APPROX_CHAIN_RECURSIVE(approx_chain_option));
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return cCvSeq::new_sequence(cCvContour::rb_class(), seq, cCvPoint::rb_class(), storage);
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*/
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return Qnil;
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}
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VALUE
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new_object()
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{
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VALUE storage = cCvMemStorage::new_object();
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CvSeq *seq = cvCreateSeq(CV_SEQ_CHAIN_CONTOUR, sizeof(CvChain), sizeof(CvChainCode), CVMEMSTORAGE(storage));
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VALUE object = cCvSeq::new_sequence(cCvChain::rb_class(), seq, cCvChainCode::rb_class(), storage);
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return object;
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}
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__NAMESPACE_END_CVCHAIN
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__NAMESPACE_END_OPENCV
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