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1 /*M///////////////////////////////////////////////////////////////////////////////////////
2 //
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9 //
10 //                        Intel License Agreement
11 //                For Open Source Computer Vision Library
12 //
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41 #include "_cvaux.h"
42 
43 #define _CV_NORM_L2(a) (float)(icvSqrt32f(a[0]*a[0] + a[1]*a[1] + a[2]*a[2]))
44 #define _CV_NORM_L22(a) (float)(a[0]*a[0] + a[1]*a[1] + a[2]*a[2])
45 
46 /****************************************************************************************\
47 
48    find region where hand is   (for gesture recognition)
49    flag = 0 (use left bucket)  flag = 1 (use right bucket)
50 
51 \****************************************************************************************/
52 
53 static CvStatus CV_STDCALL
icvFindHandRegion(CvPoint3D32f * points,int count,CvSeq * indexs,float * line,CvSize2D32f size,int flag,CvPoint3D32f * center,CvMemStorage * storage,CvSeq ** numbers)54 icvFindHandRegion( CvPoint3D32f * points, int count,
55                    CvSeq * indexs,
56                    float *line, CvSize2D32f size, int flag,
57                    CvPoint3D32f * center,
58                    CvMemStorage * storage, CvSeq ** numbers )
59 {
60 
61 /*    IppmVect32f sub, cros;   */
62     float *sub, *cros;
63     CvSeqWriter writer;
64     CvSeqReader reader;
65 
66     CvStatus status;
67     int nbins = 20, i, l, i_point, left, right;
68     int *bin_counts = 0;        //  pointer to the point's counter in the bickets
69     int low_count;              //  low threshold
70 
71     CvPoint *tmp_number = 0, *pt;
72     float value, vmin, vmax, vl, bsize, vc;
73     float hand_length, hand_length2, hand_left, hand_right;
74     float threshold, threshold2;
75     float *vv = 0;
76     float a[3];
77 
78     status = CV_OK;
79 
80     hand_length = size.width;
81     hand_length2 = hand_length / 2;
82 
83     threshold = (float) (size.height * 3 / 5.);
84     threshold2 = threshold * threshold;
85 
86 /*    low_count = count/nbins;     */
87     low_count = (int) (count / 60.);
88 
89     assert( points != NULL && line != NULL );
90     if( points == NULL || line == NULL )
91         return CV_NULLPTR_ERR;
92 
93     assert( count > 5 );
94     if( count < 5 )
95         return CV_BADFLAG_ERR;
96 
97     assert( flag == 0 || flag == 1 );
98     if( flag != 0 && flag != 1 )
99         return CV_BADFLAG_ERR;
100 
101 /*  create vectors         */
102     sub = icvCreateVector_32f( 3 );
103     cros = icvCreateVector_32f( 3 );
104     if( sub == NULL || cros == NULL )
105         return CV_OUTOFMEM_ERR;
106 
107 /*  alloc memory for the point's projections on the line    */
108     vv = (float *) cvAlloc( count * sizeof( float ));
109 
110     if( vv == NULL )
111         return CV_OUTOFMEM_ERR;
112 
113 /*  alloc memory for the point's counter in the bickets     */
114     bin_counts = (int *) cvAlloc( nbins * sizeof( int ));
115 
116     if( bin_counts == NULL )
117     {
118         status = CV_OUTOFMEM_ERR;
119         goto M_END;
120     }
121     memset( bin_counts, 0, nbins * sizeof( int ));
122 
123     cvStartReadSeq( indexs, &reader, 0 );
124 
125 /*  alloc memory for the temporale point's numbers      */
126     tmp_number = (CvPoint *) cvAlloc( count * sizeof( CvPoint ));
127     if( tmp_number == NULL )
128     {
129         status = CV_OUTOFMEM_ERR;
130         goto M_END;
131     }
132 
133 /*  find min and max point's projection on the line     */
134     vmin = 1000;
135     vmax = -1000;
136     i_point = 0;
137     for( i = 0; i < count; i++ )
138     {
139 /*
140         icvSubVector_32f ((IppmVect32f )&points[i], (IppmVect32f )&line[3], sub, 3);
141 
142         icvCrossProduct2L_32f ((IppmVect32f )&line[0], sub, cros);
143 */
144 
145         sub[0] = points[i].x - line[3];
146         sub[1] = points[i].y - line[4];
147         sub[2] = points[i].z - line[5];
148         a[0] = sub[0] * line[1] - sub[1] * line[0];
149         a[1] = sub[1] * line[2] - sub[2] * line[1];
150         a[2] = sub[2] * line[0] - sub[0] * line[2];
151 
152 /*      if(IPPI_NORM_L22 ( cros ) < threshold2)    */
153         if( _CV_NORM_L22( a ) < threshold2 )
154         {
155             value = (float)icvDotProduct_32f( sub, &line[0], 3 );
156             if( value > vmax )
157                 vmax = value;
158             if( value < vmin )
159                 vmin = value;
160 
161             vv[i_point] = value;
162 
163             pt = (CvPoint*)cvGetSeqElem( indexs, i );
164             tmp_number[i_point] = *pt;
165             i_point++;
166         }
167     }
168 
169 /*  compute the length of one bucket             */
170     vl = vmax - vmin;
171     bsize = vl / nbins;
172 
173 /*  compute the number of points in each bucket   */
174     for( i = 0; i < i_point; i++ )
175     {
176         l = cvRound( (vv[i] - vmin) / bsize );
177         bin_counts[l]++;
178     }
179 
180     *numbers = cvCreateSeq( CV_SEQ_POINT_SET, sizeof( CvSeq ), sizeof( CvPoint ), storage );
181     assert( numbers != 0 );
182     if( numbers == NULL )
183     {
184         status = CV_OUTOFMEM_ERR;
185         goto M_END;
186     }
187 
188     cvStartAppendToSeq( *numbers, &writer );
189 
190     if( flag == 0 )
191     {
192 /*  find the leftmost bucket           */
193         for( l = 0; l < nbins; l++ )
194         {
195             if( bin_counts[l] > low_count )
196                 break;
197         }
198         left = l;
199 
200 /*  compute center point of the left hand     */
201         hand_left = vmin + left * bsize;
202         vc = hand_left + hand_length2;
203         hand_right = hand_left + hand_length;
204     }
205     else
206     {
207 /*  find the rightmost bucket                */
208         for( l = nbins - 1; l >= 0; l-- )
209         {
210             if( bin_counts[l] > low_count )
211                 break;
212         }
213         right = l;
214 
215 /*  compute center point of the right hand    */
216         hand_right = vmax - (nbins - right - 1) * bsize;
217         vc = hand_right - hand_length2;
218         hand_left = hand_right - hand_length;
219     }
220 
221     icvScaleVector_32f( &line[0], sub, 3, vc );
222     icvAddVector_32f( &line[3], sub, (float *) center, 3 );
223 
224 /*  select hand's points and calculate mean value     */
225 
226     //ss.x = ss.y = ss.z = 0;
227     for( l = 0; l < i_point; l++ )
228     {
229         if( vv[l] >= hand_left && vv[l] <= hand_right )
230         {
231             CV_WRITE_SEQ_ELEM( tmp_number[l], writer );
232 
233         }
234     }
235 
236     cvEndWriteSeq( &writer );
237 
238   M_END:
239     if( tmp_number != NULL )
240         cvFree( &tmp_number );
241     if( bin_counts != NULL )
242         cvFree( &bin_counts );
243     if( vv != NULL )
244         cvFree( &vv );
245     if( sub != NULL ) icvDeleteVector (sub);
246     if( cros != NULL ) icvDeleteVector (cros);
247 
248     return status;
249 
250 }
251 
252 
253 //////////////////////////////////////////////////////////////////////////////////////////
254 //////////////////////////////////////////////////////////////////////////////////////////
255 //////////////////////////////////////////////////////////////////////////////////////////
256 
257 
258 #define _CV_NORM_L31(a) (float)(icvSqrt32f(a[0]*a[0] + a[1]*a[1] + a[2]*a[2]))
259 #define _CV_NORM_L32(a) (float)(a[0]*a[0] + a[1]*a[1] + a[2]*a[2])
260 
261 /****************************************************************************************\
262 
263    find region where hand is   (for gesture recognition)
264    flag = 0 (use left bucket)  flag = 1 (use right bucket)
265 
266 \****************************************************************************************/
267 
268 static CvStatus CV_STDCALL
icvFindHandRegionA(CvPoint3D32f * points,int count,CvSeq * indexs,float * line,CvSize2D32f size,int jc,CvPoint3D32f * center,CvMemStorage * storage,CvSeq ** numbers)269 icvFindHandRegionA( CvPoint3D32f * points, int count,
270                     CvSeq * indexs,
271                     float *line, CvSize2D32f size, int jc,
272                     CvPoint3D32f * center,
273                     CvMemStorage * storage, CvSeq ** numbers )
274 {
275 
276 /*    IppmVect32f sub, cros;   */
277     float *sub, *cros;
278     float eps = (float) 0.01;
279     CvSeqWriter writer;
280     CvSeqReader reader;
281 
282     CvStatus status;
283     float gor[3] = { 1, 0, 0 };
284     float ver[3] = { 0, 1, 0 };
285 
286     int nbins = 20, i, l, i_point, left, right, jmin, jmax, jl;
287     int j_left, j_right;
288     int *bin_counts = 0;        //  pointer to the point's counter in the bickets
289 
290 //    int *bin_countsj = 0;   //  pointer to the index's counter in the bickets
291     int low_count;              //  low threshold
292 
293     CvPoint *tmp_number = 0, *pt;
294     float value, vmin, vmax, vl, bsize, bsizej, vc, vcl, vcr;
295     double v_ver, v_gor;
296     float hand_length, hand_length2, hand_left, hand_right;
297     float threshold, threshold2;
298     float *vv = 0;
299     float a[3];
300     char log;
301 
302     status = CV_OK;
303 
304     hand_length = size.width;
305     hand_length2 = hand_length / 2;
306 
307     threshold = (float) (size.height * 3 / 5.);
308     threshold2 = threshold * threshold;
309 
310 /*    low_count = count/nbins;     */
311     low_count = (int) (count / 60.);
312 
313     assert( points != NULL && line != NULL );
314     if( points == NULL || line == NULL )
315         return CV_NULLPTR_ERR;
316 
317     assert( count > 5 );
318     if( count < 5 )
319         return CV_BADFLAG_ERR;
320 
321 /*  create vectors         */
322     sub = icvCreateVector_32f( 3 );
323     cros = icvCreateVector_32f( 3 );
324     if( sub == NULL || cros == NULL )
325         return CV_OUTOFMEM_ERR;
326 
327 /*  alloc memory for the point's projections on the line    */
328     vv = (float *) cvAlloc( count * sizeof( float ));
329 
330     if( vv == NULL )
331         return CV_OUTOFMEM_ERR;
332 
333 /*  alloc memory for the point's counter in the bickets     */
334     bin_counts = (int *) cvAlloc( nbins * sizeof( int ));
335 
336     if( bin_counts == NULL )
337     {
338         status = CV_OUTOFMEM_ERR;
339         goto M_END;
340     }
341     memset( bin_counts, 0, nbins * sizeof( int ));
342 
343 /*  alloc memory for the point's counter in the bickets     */
344 //    bin_countsj = (int*) icvAlloc(nbins*sizeof(int));
345 //    if(bin_countsj == NULL) {status = CV_OUTOFMEM_ERR; goto M_END;}
346 //    memset(bin_countsj,0,nbins*sizeof(int));
347 
348     cvStartReadSeq( indexs, &reader, 0 );
349 
350 /*  alloc memory for the temporale point's numbers      */
351     tmp_number = (CvPoint *) cvAlloc( count * sizeof( CvPoint ));
352     if( tmp_number == NULL )
353     {
354         status = CV_OUTOFMEM_ERR;
355         goto M_END;
356     }
357 
358 /*  find min and max point's projection on the line     */
359     vmin = 1000;
360     vmax = -1000;
361     jmin = 1000;
362     jmax = -1000;
363     i_point = 0;
364     for( i = 0; i < count; i++ )
365     {
366 /*
367         icvSubVector_32f ((IppmVect32f )&points[i], (IppmVect32f )&line[3], sub, 3);
368 
369         icvCrossProduct2L_32f ((IppmVect32f )&line[0], sub, cros);
370 */
371 
372         sub[0] = points[i].x - line[3];
373         sub[1] = points[i].y - line[4];
374         sub[2] = points[i].z - line[5];
375 
376 //      if(fabs(sub[0])<eps||fabs(sub[1])<eps||fabs(sub[2])<eps) continue;
377 
378         a[0] = sub[0] * line[1] - sub[1] * line[0];
379         a[1] = sub[1] * line[2] - sub[2] * line[1];
380         a[2] = sub[2] * line[0] - sub[0] * line[2];
381 
382         v_gor = icvDotProduct_32f( gor, &line[0], 3 );
383         v_ver = icvDotProduct_32f( ver, &line[0], 3 );
384 
385         if( v_ver > v_gor )
386             log = true;
387         else
388             log = false;
389 
390 
391 /*      if(IPPI_NORM_L22 ( cros ) < threshold2)    */
392 /*
393         if(fabs(a[0])<eps && fabs(a[1])<eps && fabs(a[2])<eps)
394         {
395             icvDotProduct_32f( sub, &line[0], 3, &value);
396             if(value > vmax) vmax = value;
397             if(value < vmin) vmin = value;
398 
399             vv[i_point] = value;
400 
401             pt = (CvPoint* )icvGetSeqElem ( indexs, i, 0);
402 
403             if(pt->x > jmax) jmax = pt->x;
404             if(pt->x < jmin) jmin = pt->x;
405 
406             tmp_number[i_point] = *pt;
407             i_point++;
408         }
409         else
410 */
411         {
412             if( _CV_NORM_L32( a ) < threshold2 )
413             {
414                 value = (float)icvDotProduct_32f( sub, &line[0], 3 );
415                 if( value > vmax )
416                     vmax = value;
417                 if( value < vmin )
418                     vmin = value;
419 
420                 vv[i_point] = value;
421 
422                 pt = (CvPoint*)cvGetSeqElem( indexs, i );
423 
424                 if( !log )
425                 {
426                     if( pt->x > jmax )
427                         jmax = pt->x;
428                     if( pt->x < jmin )
429                         jmin = pt->x;
430                 }
431                 else
432                 {
433                     if( pt->y > jmax )
434                         jmax = pt->y;
435                     if( pt->y < jmin )
436                         jmin = pt->y;
437                 }
438 
439 
440                 tmp_number[i_point] = *pt;
441                 i_point++;
442             }
443         }
444     }
445 
446 /*  compute the length of one bucket along the line        */
447     vl = vmax - vmin;
448 
449 /*  examining on the arm's existence  */
450     if( vl < eps )
451     {
452         *numbers = NULL;
453         status = CV_OK;
454         goto M_END;
455     }
456 
457     bsize = vl / nbins;
458 
459 /*  compute the number of points in each bucket along the line  */
460     for( i = 0; i < i_point; i++ )
461     {
462         l = cvRound( (vv[i] - vmin) / bsize );
463         bin_counts[l]++;
464     }
465 
466     /*  compute the length of one bucket along the X axe        */
467     jl = jmax - jmin;
468     if( jl <= 1 )
469     {
470         *numbers = NULL;
471         status = CV_OK;
472         goto M_END;
473     }
474 
475     bsizej = (float) (jl / (nbins + 0.));
476 
477 /*  compute the number of points in each bucket along the X axe */
478 //    for(i=0;i<i_point;i++)
479 //    {
480 //        l = cvRound((tmp_number[i].x - jmin)/bsizej);
481 //        bin_countsj[l]++;
482 //    }
483 
484 
485     left = right = -1;
486 
487 /*  find the leftmost and the rightmost buckets           */
488     for( l = 0; l < nbins; l++ )
489     {
490         if( bin_counts[l] > low_count && left == -1 )
491             left = l;
492         else if( bin_counts[l] > low_count && left >= 0 )
493             right = l;
494 
495     }
496 
497 /*  compute center point of the left hand     */
498     if( left == -1 && right == -1 )
499     {
500         *numbers = NULL;
501         status = CV_OK;
502         goto M_END;
503     }
504 
505     hand_left = vmin + left * bsize;
506     j_left = (int) (jmin + left * bsizej);
507 
508     vcl = hand_left + hand_length2;
509 
510 /*  compute center point of the right hand    */
511     hand_right = vmax - (nbins - right - 1) * bsize;
512     vcr = hand_right - hand_length2;
513 
514     j_right = (int) (jmax - (nbins - right - 1) * bsizej);
515 
516     j_left = abs( j_left - jc );
517     j_right = abs( j_right - jc );
518 
519     if( j_left <= j_right )
520     {
521         hand_right = hand_left + hand_length;
522         vc = vcl;
523     }
524     else
525     {
526         hand_left = hand_right - hand_length;
527         vc = vcr;
528     }
529 
530     icvScaleVector_32f( &line[0], sub, 3, vc );
531     icvAddVector_32f( &line[3], sub, (float *) center, 3 );
532 
533 /*  select hand's points and calculate mean value     */
534     *numbers = cvCreateSeq( CV_SEQ_POINT_SET, sizeof( CvSeq ), sizeof( CvPoint ), storage );
535     assert( *numbers != 0 );
536     if( *numbers == NULL )
537     {
538         status = CV_OUTOFMEM_ERR;
539         goto M_END;
540     }
541 
542     cvStartAppendToSeq( *numbers, &writer );
543 
544     for( l = 0; l < i_point; l++ )
545     {
546         if( vv[l] >= hand_left && vv[l] <= hand_right )
547         {
548             CV_WRITE_SEQ_ELEM( tmp_number[l], writer );
549 
550         }
551     }
552 
553     cvEndWriteSeq( &writer );
554 
555   M_END:
556     if( tmp_number != NULL )
557         cvFree( &tmp_number );
558 //    if(bin_countsj != NULL) cvFree( &bin_countsj );
559     if( bin_counts != NULL )
560         cvFree( &bin_counts );
561 
562     if( vv != NULL )
563         cvFree( &vv );
564 
565     if( sub != NULL ) icvDeleteVector (sub);
566     if( cros != NULL ) icvDeleteVector (cros);
567 
568     return status;
569 }
570 
571 
572 /*F///////////////////////////////////////////////////////////////////////////////////////
573 //    Name:     cvFindHandRegion
574 //    Purpose:  finds hand region in range image data
575 //    Context:
576 //    Parameters:
577 //      points - pointer to the input point's set.
578 //      count  - the number of the input points.
579 //      indexs - pointer to the input sequence of the point's indexes
580 //      line   - pointer to the 3D-line
581 //      size   - size of the hand in meters
582 //      flag   - hand direction's flag (0 - left, -1 - right,
583 //               otherwise j-index of the initial image center)
584 //      center - pointer to the output hand center
585 //      storage - pointer to the memory storage
586 //      numbers - pointer to the output sequence of the point's indexes inside
587 //                hand region
588 //
589 //    Notes:
590 //F*/
591 CV_IMPL void
cvFindHandRegion(CvPoint3D32f * points,int count,CvSeq * indexs,float * line,CvSize2D32f size,int flag,CvPoint3D32f * center,CvMemStorage * storage,CvSeq ** numbers)592 cvFindHandRegion( CvPoint3D32f * points, int count,
593                   CvSeq * indexs,
594                   float *line, CvSize2D32f size, int flag,
595                   CvPoint3D32f * center, CvMemStorage * storage, CvSeq ** numbers )
596 {
597     CV_FUNCNAME( "cvFindHandRegion" );
598     __BEGIN__;
599 
600     if(flag == 0 || flag == -1)
601 	{
602 		IPPI_CALL( icvFindHandRegion( points, count, indexs, line, size, -flag,
603 			                           center, storage, numbers ));
604 	}
605 	else
606 		IPPI_CALL( icvFindHandRegionA( points, count, indexs, line, size, flag,
607 			                            center, storage, numbers ));
608 
609     __CLEANUP__;
610     __END__;
611 }
612 
613 /*F///////////////////////////////////////////////////////////////////////////////////////
614 //    Name:     cvFindHandRegionA
615 //    Purpose:  finds hand region in range image data
616 //    Context:
617 //    Parameters:
618 //      points - pointer to the input point's set.
619 //      count  - the number of the input points.
620 //      indexs - pointer to the input sequence of the point's indexes
621 //      line   - pointer to the 3D-line
622 //      size   - size of the hand in meters
623 //      jc     - j-index of the initial image center
624 //      center - pointer to the output hand center
625 //      storage - pointer to the memory storage
626 //      numbers - pointer to the output sequence of the point's indexes inside
627 //                hand region
628 //
629 //    Notes:
630 //F*/
631 CV_IMPL void
cvFindHandRegionA(CvPoint3D32f * points,int count,CvSeq * indexs,float * line,CvSize2D32f size,int jc,CvPoint3D32f * center,CvMemStorage * storage,CvSeq ** numbers)632 cvFindHandRegionA( CvPoint3D32f * points, int count,
633                    CvSeq * indexs,
634                    float *line, CvSize2D32f size, int jc,
635                    CvPoint3D32f * center, CvMemStorage * storage, CvSeq ** numbers )
636 {
637     CV_FUNCNAME( "cvFindHandRegionA" );
638     __BEGIN__;
639 
640     IPPI_CALL( icvFindHandRegionA( points, count, indexs, line, size, jc,
641                                     center, storage, numbers ));
642     __CLEANUP__;
643     __END__;
644 }
645 
646