source: fact/tools/rootmacros/zerosearch.C@ 13465

Last change on this file since 13465 was 13424, checked in by Jens Buss, 13 years ago
added function findTimeOfHalfMaxLeft
File size: 15.2 KB
Line 
1#include "Region.h"
2#include <vector>
3
4// searches for zero crossings in a given vector of floats
5// for zero crossings in falling edge
6// give edge = -1
7//
8//
9// returns pointer to vetctor of ints
10
11vector<Region> *zerosearch(
12 vector<float> &input,
13 int edge, // search on rising edge=1, -1:falling
14 unsigned int step, // search in steps of step
15 int VerbosityLevel
16){
17
18vector<Region> * ZeroPositions = new vector<Region>;
19Region currentRegion = {0, 0, 0, 0.0, 0};
20 if (step < 1){
21 if (VerbosityLevel > 0)
22 cout << "zerosearch - stepsize=" << step
23 << " is smaller than 1. returning." << endl;
24 return ZeroPositions;
25 }
26 if (input.size() < step){
27 if (VerbosityLevel > 0)
28 cout << "zerosearch - input-vector.size()="<< input.size()
29 << " is smaller than stepsize=" << step
30 << "returning." << endl;
31 return ZeroPositions;
32 }
33
34 if (edge > 0) // search for zero-x-ings on the rising edge
35 {
36 for (unsigned int sl = 0 ; sl < (input.size()-step) ; sl+=step)
37 {
38 if (input[sl] > 0.0) // can't be a rising 0-x-ing
39 {
40 continue;
41 }
42 if (input[sl] * input[sl+step] <= 0.0) // 0-x-ing or both are 0
43 {
44 currentRegion.begin = sl;
45 currentRegion.end = sl+step;
46 ZeroPositions->push_back(currentRegion);
47 }
48 }
49 }
50 else if (edge < 0) // search for zero-x-ings on the falling edge
51 {
52 for (unsigned int sl = 0 ; sl < (input.size()-step) ; sl+=step)
53 {
54 if (input[sl] < 0.0) // can't be a falling 0-x-ing
55 {
56 continue;
57 }
58 if (input[sl] * input[sl+step] <= 0.0) // 0-x-ing or both are 0
59 {
60 currentRegion.begin = sl;
61 currentRegion.end = sl+step;
62 ZeroPositions->push_back(currentRegion);
63 }
64 }
65
66 }
67 else // search for zero-x-ings on both esges
68 {
69 for (unsigned int sl = 0 ; sl < (input.size()-step) ; sl+=step)
70 {
71 if (input[sl] * input[sl+step] <= 0.0) // 0-x-ing or both are 0
72 {
73 currentRegion.begin = sl;
74 currentRegion.end = sl+step;
75 ZeroPositions->push_back(currentRegion);
76 }
77 }
78 }
79
80
81 return ZeroPositions;
82}
83
84size_t ShiftRegionBy(vector<Region> &src,
85 int Shift,
86 int VerbosityLevel)
87{
88 vector<Region>::iterator it;
89 // I copy code here ... not good, but I hope nobody is giving VL > 10 ever...
90 if (VerbosityLevel > 10){
91 for (it = src.begin() ; it < src.end() ; it++){
92 cout << " it->begin="<< it->begin;
93 it->begin += Shift;
94 cout << "--> shifted="<< it->begin << endl;
95 cout << " it->end="<< it->end;
96 it->end += Shift;
97 cout << "--> shifted="<< it->end << endl;
98 cout << " it->maxPos="<< it->maxPos;
99 it->maxPos += Shift;
100 cout << "--> shifted="<< it->maxPos << endl;
101 }
102 return src.size();
103 }
104
105 for (it = src.begin() ; it < src.end() ; it++){
106 it->begin += Shift;
107 it->end += Shift;
108 it->maxPos += Shift;
109 }
110 return src.size();
111}
112
113size_t EnlargeRegion(vector<Region> &src,
114 int Left,
115 int Right,
116 int VerbosityLevel)
117{
118 vector<Region>::iterator it;
119 // I copy code here ... not good, but I hope nobody is giving VL > 10 ever...
120 if (VerbosityLevel > 10){
121 for (it = src.begin() ; it < src.end() ; it++){
122 cout << " it->begin="<< it->begin;
123 it->begin -= Left;
124 cout << "--> enlarged="<< it->begin << endl;
125 cout << " it->end="<< it->end;
126 it->end += Right;
127 cout << "--> enlarged="<< it->end << endl;
128 }
129 return src.size();
130 }
131
132
133 for (it = src.begin() ; it < src.end() ; it++){
134 it->begin -= Left;
135 it->end += Right;
136 }
137 return src.size();
138
139}
140
141#include <limits>
142size_t findAbsMaxInRegions(
143 vector<Region> &regions,
144 vector<float> &data,
145 int VerbosityLevel)
146{
147 vector<Region>::iterator reg;
148 for (reg = regions.begin() ; reg < regions.end() ; reg++){
149 reg->maxVal=-numeric_limits<float>::max();
150 // 1st check if both ends of the region are in the data-vector
151 if (reg->begin < 0) reg->begin=0;
152 if ((unsigned int)reg->end > data.size()-1) reg->end=data.size()-1;
153
154 // TODO or TOTHINKOF:
155 // Region might overlap ... I don't care .. I just search
156 // in a later step Maxima at the same Positions can be removed...
157 // of course this means, some searches were needless ...
158 //cout << "searching from " << reg->begin << " to " << reg->end << endl;
159 for (unsigned int pos=reg->begin; pos <= (unsigned int)reg->end; pos++){
160 if (data[pos] > reg->maxVal){
161 reg->maxVal = data[pos];
162 reg->maxPos = pos;
163 }
164 }
165 if (VerbosityLevel > 3) {
166 cout << "findAbsMaxInRegions - found Max at:"
167 << reg->maxPos << " with Value:" << reg->maxVal << endl;
168 }
169 }
170 return regions.size();
171}
172
173#include <algorithm>
174bool compMaxPosOfRegions (Region a, Region b) {
175 return (a.maxPos == b.maxPos);
176}
177
178size_t removeEqualMaxima(
179 vector<Region> &regions,
180 int VerbosityLevel)
181{
182 if (VerbosityLevel > 2){
183 cout << "removeEqualMaxima:" << endl;
184 cout << "region before contains:" << endl;
185 for (unsigned int i=0; i<regions.size(); i++){
186 cout << i <<"\t";
187 cout << regions[i].begin <<"\t";
188 cout << regions[i].end <<"\t";
189 cout << regions[i].maxPos <<"\t";
190 cout << regions[i].maxVal <<"\t";
191 cout << endl;
192 }
193 }
194
195 vector<Region>::iterator it;
196 it = unique (regions.begin(), regions.end() , compMaxPosOfRegions);
197 regions.resize( it - regions.begin() );
198
199 if (VerbosityLevel > 1){
200 cout << "region now contains:" << endl;
201 for (unsigned int i=0; i<regions.size(); i++){
202 cout << i <<"\t";
203 cout << regions[i].begin <<"\t";
204 cout << regions[i].end <<"\t";
205 cout << regions[i].maxPos <<"\t";
206 cout << regions[i].maxVal <<"\t";
207 cout << endl;
208 }
209 }
210 return regions.size();
211}
212
213size_t removeRegionOnFallingEdge(
214 vector<Region> &regions,
215 unsigned int FallingEdgeWidth,
216 int VerbosityLevel)
217{
218if ( FallingEdgeWidth < 1){
219 if (VerbosityLevel > 0){
220 cout << " removeRegionOnFallingEdge: FallingEdgeWidth < 1" << endl;
221 cout << " FallingEdgeWidth =" << FallingEdgeWidth << endl;
222 cout << "returning." << endl;
223 return regions.size();
224 }
225 }
226 if (regions.size() < 1){
227 if (VerbosityLevel > 3)
228 cout << "removeRegionOnFallingEdge: source vector empty." << endl;
229 return 0;
230 }
231
232 vector<Region>::reverse_iterator it = regions.rbegin();
233 while( it != regions.rend()-1 )
234 {
235 if (VerbosityLevel >10)
236 cout << it->maxPos << "\t" << (it+1)->maxPos << "\t" << it->maxPos - (it+1)->maxPos << endl;
237
238 if ( it->maxPos - (it+1)->maxPos < (int)FallingEdgeWidth) {
239 if (VerbosityLevel > 3)
240 cout << "erasing Region @ " << it->maxPos << endl;
241 regions.erase( --it.base() ) ;
242 ++it;
243 }else
244 ++it;
245 }
246
247 return regions.size();
248}
249
250
251size_t removeRegionWithMaxOnEdge(
252 vector<Region> &regions,
253 unsigned int EdgeWidth,
254 int VerbosityLevel)
255{
256 if (EdgeWidth < 1){
257 if (VerbosityLevel > 0){
258 cout << "removeReginWithMaximaOnEdge: EdgeWidth < 1" << endl;
259 cout << "EdgeWidth=" << EdgeWidth << endl;
260 cout << "returning." << endl;
261 return regions.size();
262 }
263 }
264
265 vector<Region>::iterator it = regions.begin();
266 while( it != regions.end() )
267 {
268// cout << it->begin << "\t";
269// cout << it->maxPos << "\t";
270// cout << it->end << "\t";
271// cout << it->maxVal << endl;
272
273 if (it->maxPos < (int)(it->begin+EdgeWidth)) {
274 if (VerbosityLevel > 3)
275 cout << "erasing Region(max@left edge) " << it->maxPos << endl;
276 it = regions.erase( it ) ;
277 //++it;
278 }else if (it->maxPos > (int)(it->end-EdgeWidth)) {
279 if (VerbosityLevel > 3)
280 cout << "erasing Region(max@right edge) " << it->maxPos << endl;
281 it = regions.erase( it ) ;
282 //++it;
283 }else
284 ++it;
285
286 }
287
288 return regions.size();
289}
290
291size_t removeMaximaBelow(
292 vector<Region> &regions,
293 float threshold,
294 int VerbosityLevel)
295{
296// if (threshold < 0){
297// if (VerbosityLevel > 0)
298// cout << "removeMaximaBelow: threshold < 0" << endl;
299// cout << "threshold=" << threshold << endl;
300// cout << "returning." << endl;
301// return regions.size();
302// }
303
304 vector<Region>::iterator it = regions.begin();
305 while( it != regions.end() )
306 {
307 if (it->maxVal < threshold ) {
308 if (VerbosityLevel > 3){
309 cout << "removing max " << it->maxVal << "\t";
310 cout << " @ " << it->maxPos << "\t";
311 cout << endl;
312 }
313 it = regions.erase( it ) ;
314 }else
315 ++it;
316 }
317
318 return regions.size();
319}
320
321size_t removeMaximaAbove(
322 vector<Region> &regions,
323 float threshold,
324 int VerbosityLevel)
325{
326 if (threshold < 0){
327 if (VerbosityLevel > 0)
328 cout << "removeMaximaAbove: threshold < 0" << endl;
329 cout << "threshold=" << threshold << endl;
330 cout << "returning." << endl;
331 return regions.size();
332 }
333
334 vector<Region>::iterator it = regions.begin();
335 while( it != regions.end() )
336 {
337 if (it->maxVal > threshold ) {
338 if (VerbosityLevel > 3){
339 cout << "removing max " << it->maxVal << "\t";
340 cout << " @ " << it->maxPos << "\t";
341 cout << endl;
342 }
343 it = regions.erase( it ) ;
344 }else
345 ++it;
346 }
347
348 return regions.size();
349}
350
351Region FindAbsMax(
352 vector<Region> &regions,
353 int VerbosityLevel)
354{
355 Region AbsMax;
356 AbsMax.begin = -1;
357 AbsMax.maxPos = -1;
358 AbsMax.end = -1;
359 AbsMax.maxVal=-numeric_limits<float>::max();
360 if (regions.size() < 1)
361 return AbsMax;
362
363 for (vector<Region>::iterator it = regions.begin(); it < regions.end(); ++it)
364 {
365 if (it->maxVal > AbsMax.maxVal ) {
366 AbsMax = *it;
367 }
368 }
369 if (VerbosityLevel > 5){
370 AbsMax.begin +=0;
371 }
372 return AbsMax;
373}
374
375////////////////
376////////////// old Version of the code
377/*
378 for (unsigned int sl = step; sl < input.size(); sl+=step){
379 if (input[sl] * input[sl-] < 0 || input[sl]==0.0 ){ // sign change --> zero crossing OR really zero
380
381 if ( (input[sl-1] - input[sl]) * edge < 0){ // this is the crossing the user wanted
382
383 // check if we go lower than a certain limit in the next few slices
384 for ( int lala=0; lala<post; lala++){
385 if (input[sl+lala] > 1.5) {
386 zeroPositions->push_back(sl);
387 sl += lala;
388 break;
389 }
390 }
391
392 } else if ( (input[sl-1] - input[sl]) * edge > 0){ // this is the zero x-ing the user did not want
393
394 // do nothing
395
396 } else { // sl and sl-1 are equal .. don't know waht do to...
397
398 }
399
400 }
401
402 } // end of loop over slices - between pre and post
403
404*/
405
406
407size_t findTimeOfHalfMaxLeft(
408 vector<Region> &regions,
409 vector<float> &data,
410 float baseline,
411 int beginRisingEdge,
412 int endRisingEdge,
413 int VerbosityLevel)
414{
415 float pulse_size = 0; //
416 float thr = 0;
417
418 //int begin = beginRisingEdge;
419 int end = endRisingEdge;
420 int counter = 0;
421 // local vars for line fitting
422 float xmean = 0.0;
423 float ymean = 0.0;
424 float cov = 0.0; // empiric covarianve between x and y
425 float var = 0.0; // empiric variance of x
426 // result of line fitting
427 float slope = 0.0;
428 float intercept = 0.0;
429 // result of this function -- the position of the half rising edge
430 float pos_of_thr_Xing = 0.0;
431 int result = 0;
432
433 vector<Region>::iterator reg;
434 for (reg = regions.begin() ; reg < regions.end() ; reg++){
435
436 // check if linear falling edge is completely in pipeline
437 // if not --> delete
438 if ( reg->maxPos - end < 0 )
439 {
440 // delete this region from vector<Region>
441 reg = regions.erase( reg ) ;
442 --reg;
443 continue;
444 }
445
446 // The maximum was probably found using smoothed data,
447 // so I read the value at the position of the maximum from the data
448 // again. So I rely on a well defined maxPos.
449 if (VerbosityLevel > 1) cout << "## baseline: " << baseline << endl;
450 pulse_size = data[reg->maxPos] - baseline;
451 if (VerbosityLevel > 1) cout << "## pulse_size: " << pulse_size << endl;
452 thr = pulse_size / 2. + baseline;
453 if (VerbosityLevel > 1) cout << "## thr: " << thr << endl;
454
455 // I think 5 slices left of the max there begins the rising edge
456 // and I think the rising edge is about 6 slices long.
457 // but these numbers are input as parameters
458 // beginRisingEdge &
459 // endRisingEdge
460
461 // I fit a linear function to the falling edge
462 // ALARM check for out of range values...
463
464
465 for (int slice=reg->maxPos - beginRisingEdge;
466 slice > reg->maxPos - endRisingEdge; --slice)
467 {
468 xmean += slice;
469 ymean += data[slice];
470 counter++;
471 }
472// xmean /= beginRisingEdge - endRisingEdge;
473// ymean /= beginRisingEdge - endRisingEdge;
474 xmean /= counter;
475 ymean /= counter;
476 if (VerbosityLevel > 1) cout << "## xmean: " << xmean << endl;
477 if (VerbosityLevel > 1) cout << "## ymean: " << ymean << endl;
478
479 for (int slice=reg->maxPos - beginRisingEdge;
480 slice > reg->maxPos - endRisingEdge; --slice)
481 {
482 cov = (data[slice] - ymean) * (slice - xmean);
483 var = (slice - xmean) * (slice - xmean);
484 }
485 if (VerbosityLevel > 1) cout << "## cov: " << cov << endl;
486 if (VerbosityLevel > 1) cout << "## var: " << var << endl;
487
488 slope = cov / var;
489 intercept = ymean - slope * xmean;
490 // now calculate, where the fittet line crosses the threshold
491 pos_of_thr_Xing = (thr - intercept) / slope;
492 result = (int)(pos_of_thr_Xing + 0.5);
493
494
495 if (VerbosityLevel > 0)
496 {
497 cout << "findTimeOfHalfMaxLeft() is still in debugging phase:" << endl;
498 cout << "please edit the code in oder to suppress this output:" << endl;
499 cout << "threshold: " << thr << endl;
500 cout << "slope: " << slope << " [mV/timeslice]" << endl;
501 cout << "intercept: " << intercept << "[mV]" << endl;
502 cout << "position where line crosses threshold " << pos_of_thr_Xing << endl;
503 cout << "converted to slice number " << result << endl;
504
505 }
506
507 reg->halfRisingEdgePos = result;
508 reg->slopeOfRisingEdge = slope;
509 }
510 return regions.size();
511}
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