source: trunk/FACT++/gui/RawEventsViewer/RawEventsViewer.cc@ 20115

Last change on this file since 20115 was 20073, checked in by tbretz, 4 years ago
compiler warning on misleading indentation:
File size: 75.9 KB
Line 
1/*
2 * QtGl.cpp
3 *
4 * Created on: Jul 19, 2011
5 * Author: lyard
6 *
7 ******
8 */
9#include <math.h>
10#include <fstream>
11
12#include <boost/date_time/local_time/local_time.hpp>
13
14#include "RawEventsViewer.h"
15
16#include <QFileDialog>
17#include <QMouseEvent>
18#include <QButtonGroup> // Required in Qt5/Mint
19
20#include <qwt_symbol.h>
21#include <qwt_plot_grid.h>
22#pragma GCC diagnostic push
23#pragma GCC diagnostic ignored "-Woverloaded-virtual"
24#include <qwt_plot_zoomer.h>
25#pragma GCC diagnostic pop
26
27#include "src/Configuration.h"
28#include "externals/factfits.h"
29
30
31using namespace std;
32
33#undef ACTUAL_NUM_PIXELS
34#define ACTUAL_NUM_PIXELS 1440
35
36#if QWT_VERSION>=0x060100
37#define setMajPen setMajorPen
38#endif
39
40//bounding box for diplaying the impulse curve
41float bboxMin[2] = {-0.8,-0.9};
42float bboxMax[2] = {0.8,-0.3};
43/************************************************************
44 * CALC BLUR COLOR if in blur display mode, calculate the interpolated
45 * colour for a given vertex
46 ************************************************************/
47void RawDataViewer::calcBlurColor(int pixel, int vertex)
48{
49 GLfloat color[3];
50 int first, second;
51 first = vertex-1;
52 second = vertex;
53 if (first < 0)
54 first = 5;
55
56 first = neighbors[pixel][first];
57 second = neighbors[pixel][second];
58// cout << pixel << " " << vertex << " " << "first: " << first << " second: " << second << endl;
59 for (int i=0;i<3;i++)
60 color[i] = pixelsColor[pixel][i];
61 float divide = 1;
62 if (first != -1)
63 {
64 divide++;
65 for (int i=0;i<3;i++)
66 color[i] += pixelsColor[first][i];
67 }
68 if (second != -1)
69 {
70 divide++;
71 for (int i=0;i<3;i++)
72 color[i] += pixelsColor[second][i];
73 }
74 for (int i=0;i<3;i++)
75 color[i] /= divide;
76
77// cout << color[0] << " " << color[1] << " " << color[2] << endl;
78
79 glColor3fv(color);
80}
81void RawDataViewer::calcMidBlurColor(int pixel, int vertex)
82{
83 GLfloat color[3];
84 int first;
85 first = vertex-1;
86 if (first < 0)
87 first = 5;
88 first = neighbors[pixel][first];
89 for (int i=0;i<3;i++)
90 color[i] = pixelsColor[pixel][i];
91 float divide = 1;
92 if (first != -1)
93 {
94 divide++;
95 for (int i=0;i<3;i++)
96 color[i] += pixelsColor[first][i];
97 }
98 for (int i=0;i<3;i++)
99 color[i] /= divide;
100 glColor3fv(color);
101}
102/************************************************************
103 * DRAW BLURRY HEXAGON. draws a solid hexagon, with interpolated colours
104 ************************************************************/
105void RawDataViewer::drawBlurryHexagon(int index)
106{
107
108//per-pixel mesh
109 GLfloat color[3];
110 for (int i=0;i<3;i++)
111 color[i] = pixelsColor[index][i];
112 glBegin(GL_TRIANGLES);
113 calcBlurColor(index, 0);
114 glVertex2fv(verticesList[verticesIndices[index][0]]);
115 glColor3fv(color);
116 glVertex2fv(pixelsCoords[index]);
117
118 calcBlurColor(index, 1);
119 glVertex2fv(verticesList[verticesIndices[index][1]]);
120
121 glVertex2fv(verticesList[verticesIndices[index][1]]);
122 glColor3fv(color);
123 glVertex2fv(pixelsCoords[index]);
124
125 calcBlurColor(index, 2);
126 glVertex2fv(verticesList[verticesIndices[index][2]]);
127
128 glVertex2fv(verticesList[verticesIndices[index][2]]);
129 glColor3fv(color);
130 glVertex2fv(pixelsCoords[index]);
131
132 calcBlurColor(index, 3);
133 glVertex2fv(verticesList[verticesIndices[index][3]]);
134
135 glVertex2fv(verticesList[verticesIndices[index][3]]);
136 glColor3fv(color);
137 glVertex2fv(pixelsCoords[index]);
138
139 calcBlurColor(index, 4);
140 glVertex2fv(verticesList[verticesIndices[index][4]]);
141
142 glVertex2fv(verticesList[verticesIndices[index][4]]);
143 glColor3fv(color);
144 glVertex2fv(pixelsCoords[index]);
145
146 calcBlurColor(index, 5);
147 glVertex2fv(verticesList[verticesIndices[index][5]]);
148
149 glVertex2fv(verticesList[verticesIndices[index][5]]);
150 glColor3fv(color);
151 glVertex2fv(pixelsCoords[index]);
152
153 calcBlurColor(index, 0);
154 glVertex2fv(verticesList[verticesIndices[index][0]]);
155 glEnd();
156
157 return;
158}
159
160/************************************************************
161 * DRAW CAMERA draws all the camera pixels
162 ************************************************************/
163void RawDataViewer::drawCamera(bool alsoWire)
164{
165 glLoadIdentity();
166 if (!drawImpulse)
167 {
168 glTranslatef(0,-0.44,0);
169 glRotatef(cameraRotation, 0,0,-1);
170 if (cameraRotation == 90)
171 {
172 glTranslatef(-0.45,-0.45,0);
173 }
174 if (cameraRotation == -90)
175 {
176 glTranslatef(0.45,-0.45,0);
177 }
178 glScalef(1.5,1.5,1);
179 }
180 else
181 {
182 glRotatef(cameraRotation, 0,0,-1);
183 if (cameraRotation == 90)
184 {
185 glTranslatef(-0.45/1.5,-0.45/1.5,0);
186 }
187 if (cameraRotation == -90)
188 {
189 glTranslatef(0.45/1.5,-0.45/1.5,0);
190 }
191 }
192 glColor3f(0.5,0.5,0.5);
193 glLineWidth(1.0);
194 float color;
195
196 for (int i=0;i<ACTUAL_NUM_PIXELS;i++)
197 {
198 if (!nRoi)
199 color = (float)(i)/(float)(ACTUAL_NUM_PIXELS);
200 else
201
202// if (_softwareOrdering)
203// color = float(eventData[nRoi*i + whichSlice] + (VALUES_SPAN/2))/(float)(VALUES_SPAN-1);
204// else
205 color = i<nPixels ? float(eventData[nRoi*hardwareMapping[i] + whichSlice]+(VALUES_SPAN/2))/(float)(VALUES_SPAN-1) : 0;
206 if (logScale)
207 {
208 color *= 9;
209 color += 1;
210 color = log10(color);
211 }
212
213 if (color < ss[0])
214 {
215 pixelsColor[i][0] = tooLowValueCoulour[0];
216 pixelsColor[i][1] = tooLowValueCoulour[1];
217 pixelsColor[i][2] = tooLowValueCoulour[2];
218 continue;
219 }
220 if (color > ss[4])
221 {
222 pixelsColor[i][0] = tooHighValueCoulour[0];
223 pixelsColor[i][1] = tooHighValueCoulour[1];
224 pixelsColor[i][2] = tooHighValueCoulour[2];
225 continue;
226 }
227 int index = 0;
228 while (ss[index] < color && index < 4)
229 index++;
230 index--;
231 if (index < 0) index = 0;
232 float weight0 = (color-ss[index]) / (ss[index+1]-ss[index]);
233 if (weight0 > 1.0f) weight0 = 1.0f;
234 if (weight0 < 0.0f) weight0 = 0.0f;
235 float weight1 = 1.0f-weight0;
236 pixelsColor[i][0] = weight1*rr[index] + weight0*rr[index+1];
237 pixelsColor[i][1] = weight1*gg[index] + weight0*gg[index+1];
238 pixelsColor[i][2] = weight1*bb[index] + weight0*bb[index+1];
239 }
240
241 for (int i=0;i<ACTUAL_NUM_PIXELS;i++)
242 {
243
244 glColor3fv(pixelsColor[i]);
245 glLoadName(i);
246if (drawBlur)
247 drawBlurryHexagon(i);
248else
249 drawHexagon(i,true);
250
251 }
252 if (!alsoWire)
253 return;
254 glTranslatef(0,0,0.1f);
255 glColor3f(0.0f,0.0f,0.0f);
256 for (int i=0;i<ACTUAL_NUM_PIXELS;i++)
257 {
258
259 drawHexagon(i, false);
260 }
261
262}
263
264/************************************************************
265 * DRAW PIXEL CURVE. draws the raw impulse curve of the currently selected pixel
266 ************************************************************/
267void RawDataViewer::drawPixelCurve()
268{
269 float xRange = bboxMax[0] - bboxMin[0];
270 float yRange = bboxMax[1] - bboxMin[1];
271
272 glBegin(GL_LINES);
273 glLineWidth(1.0f);
274 glColor3f(0.0,0.0,0.0);
275 glVertex2f(bboxMin[0], bboxMin[1]);
276 glVertex2f(bboxMax[0], bboxMin[1]);
277 glVertex2f(bboxMin[0], bboxMin[1]);
278 glVertex2f(bboxMin[0], bboxMax[1]);
279 glVertex2f(bboxMin[0], (bboxMin[1]+bboxMax[1])/2.0f);
280 glVertex2f(bboxMax[0], (bboxMin[1]+bboxMax[1])/2.0f);
281 glVertex2f(bboxMin[0] + xRange*nRoi/(float)(nRoi+nRoiTM),
282 bboxMin[1]);
283 glVertex2f(bboxMin[0] + xRange*nRoi/(float)(nRoi+nRoiTM),
284 bboxMax[1]);
285 glEnd();
286 glTranslatef(0,0,0.1f);
287 if (!nRoi)
288 return;
289 glBegin(GL_LINES);
290 glColor3f(1.0f,1.0f,0.0f);
291 float divideMe = (float)(VALUES_SPAN-1);
292 float plusMe = (float)(VALUES_SPAN)/2;
293 if (divideMe <= 0)
294 divideMe = 1;
295
296 /*
297 if (drawCalibrationLoaded)
298 plusMe += 0;//VALUES_SPAN/2;
299 if (drawCalibrationLoaded && calibrationLoaded)
300 {
301 divideMe /=2;
302 plusMe = 0 ;///=2;
303 }*/
304
305// int mapping = _softwareOrdering ? selectedPixel : hardwareMapping[selectedPixel];
306 int mapping = hardwareMapping[selectedPixel];
307 const int hw = mapping;
308 const PixelMapEntry& mapEntry = fPixelMap.index(selectedPixel);
309 const int pixelIdInPatch = mapEntry.pixel();
310 const int patchId = mapEntry.patch();
311 const int boardId = mapEntry.board();
312 const int crateId = mapEntry.crate();
313
314 if (selectedPixel != -1)
315 {
316 for (int i=0;i<nRoi-1;i++)
317 {
318 float d1 = eventData[nRoi*hw + i]+plusMe;
319 float d2 = eventData[nRoi*hw + i+1]+plusMe;
320 if (!finite(d1)) d1 = 20000;
321 if (!finite(d2)) d2 = 20000;
322 glVertex2f(bboxMin[0] + xRange*i/(float)(nRoi+nRoiTM),
323 bboxMin[1] + yRange*(d1) /divideMe);
324 glVertex2f(bboxMin[0] + xRange*(i+1)/(float)(nRoi+nRoiTM),
325 bboxMin[1] + yRange*(d2) /divideMe);
326 }
327 glEnd();
328
329 glColor3f(0.0f, 1.0f, 1.0f);
330 glBegin(GL_LINES);
331 if (pixelIdInPatch == 8)//this channel has a time marker
332 {
333
334 for (int i=0;i<nRoiTM-1;i++)
335 {
336 float d1 = eventData[nRoi*1440 + nRoiTM*(40*crateId + 4*boardId + patchId) + i] + plusMe;
337 float d2 = eventData[nRoi*1440 + nRoiTM*(40*crateId + 4*boardId + patchId) + i+1] + plusMe;
338 if (!finite(d1)) d1 = 20000;
339 if (!finite(d2)) d2 = 20000;
340 glVertex2f(bboxMin[0] + xRange*(i+nRoi)/(float)(nRoi+nRoiTM),
341 bboxMin[1] + yRange*(d1)/divideMe);
342 glVertex2f(bboxMin[0] + xRange*(i+1+nRoi)/(float)(nRoi+nRoiTM),
343 bboxMin[1] + yRange*(d2) / divideMe);
344 }
345 }
346
347 }
348 glEnd();
349 glTranslatef(0,0,0.1f);
350 glBegin(GL_LINES);
351 glColor3f(1.0,0.0,0.0);
352 glVertex2f(bboxMin[0] + xRange*whichSlice/(float)(nRoi+nRoiTM),
353 bboxMin[1]);
354 glVertex2f(bboxMin[0] + xRange*whichSlice/(float)(nRoi+nRoiTM),
355 bboxMax[1]);
356
357 glEnd();
358
359}
360/************************************************************
361 * CONSTRUCTOR.
362 ************************************************************/
363RawDataViewer::RawDataViewer(QWidget *cParent) : BasicGlCamera(cParent), RMSvalues(1440), Meanvalues(1440), Maxvalues(1440), PosOfMaxvalues(1440), VALUES_SPAN(4096)
364
365{
366
367 whichSlice = 0;
368
369 nRoi = 0;
370 nRoiTM = 0;
371 offSetRoi = 0;
372 eventNum = 0;
373 rowNum = -1;
374 eventStep = 1;
375 selectedPixel = 393;
376 inputFile = NULL;
377 drawPatch = false;
378 drawImpulse = true;
379 drawBlur = false;
380 loopCurrentEvent = false;
381 fIsDrsCalibration = false;
382 SetAutoRefresh(true);
383 runType = "unkown";
384
385
386}
387
388void RawDataViewer::assignPixelMapFile(const string& map)
389{
390 PixelMap mypMap;
391 if (map.empty())
392 {
393 if (!mypMap.Read("FACTmap111030.txt"))
394 {
395 if (!mypMap.Read("/swdev_nfs/FACT++/FACTmap111030.txt"))
396 {
397 if (!mypMap.Read("./FACTmap111030.txt"))
398 {
399 cerr << "ERROR - Problems reading FACTmap111030.txt" << endl;
400 exit(-1);
401 }
402 }
403 }
404 }
405 else
406 {
407 if (!mypMap.Read(map))
408 {
409 cerr << "ERROR - Problems reading mapping file '" << map << "'" << endl;
410 exit(-1);
411 }
412 }
413
414 assignPixelMap(mypMap);
415
416 for (int i=0;i<160;i++)
417 {
418 const float color[3] = { 0.5, 0.5, 0.3 };
419
420 for (int j=0;j<3;j++)
421 patchesColor[i][j] = color[j];
422 }
423 //fZeroArray = NULL;
424
425 _softwareOrdering = false;
426}
427/************************************************************
428 * DESTRUCTOR
429 ************************************************************/
430RawDataViewer::~RawDataViewer()
431{
432 if (inputFile != NULL)
433 {
434 inputFile->close();
435 delete inputFile;
436 }
437 //if (fZeroArray != NULL)
438 // delete[] fZeroArray;
439}
440/*
441void RawDataViewer::allocateZeroArray()
442{
443 if (fZeroArray == NULL)
444 {
445 fZeroArray = new char[8192];
446 }
447}
448*/
449/************************************************************
450 * PAINT GL. main drawing function.
451 ************************************************************/
452void RawDataViewer::paintGL()
453{
454 //Should not be required, but apparently it helps when piping it through X forwarding
455 glFinish();
456 glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
457 glLoadIdentity();
458
459 glTranslatef(0,0,-0.5);
460
461 if (drawBlur)
462 {
463 glShadeModel(GL_SMOOTH);
464 drawCamera(false);
465 }
466 else
467 {
468 glShadeModel(GL_FLAT);
469 drawCamera(true);
470 }
471 glTranslatef(0,0,0.1f);
472 if (drawPatch)
473 drawPatches();
474 glTranslatef(0,0,0.1f);
475 if (!drawBlur && (selectedPixel != -1))
476 {
477 glLineWidth(1.0f);
478 glColor3f(1.0,1.0,1.0);
479 drawHexagon(selectedPixel, false);
480 }
481 glTranslatef(0,0,0.1f);
482 if (drawImpulse)
483 {
484 // glRotatef(cameraRotation, 0,0,1);
485 glLoadIdentity();
486 glLineWidth(2.0);
487 drawPixelCurve();
488 }
489 glTranslatef(0,0,0.1f);
490 DrawScale();
491}
492
493/************************************************************
494 * MOUSE PRESS EVENT. mouse click handler.
495 ************************************************************/
496void RawDataViewer::mousePressEvent(QMouseEvent *cEvent)
497{
498 if (cEvent->pos().x() > width()-(width()/50.f))
499 {
500 toggleInterfaceDisplay();
501 return;
502 }
503 lastPos = cEvent->pos();
504 if (setCorrectSlice(cEvent))
505 return;
506 int face = PixelAtPosition(cEvent->pos());
507
508 selectedPixel = face;
509 emit signalCurrentPixel(face);
510
511 updateGL();
512}
513
514/************************************************************
515 * SET CORRECT SLICE. if displayed, figures out if the graph was
516 * clicked, and if so, which slice should be displayed
517 ************************************************************/
518bool RawDataViewer::setCorrectSlice(QMouseEvent* cEvent)
519{
520 if (!drawImpulse)
521 return false;
522 float cx = (float)cEvent->x() * pixelSize - shownSizex/2;
523 float cy = ((float)height()-(float)cEvent->y())*pixelSize - shownSizey/2;
524 if (cx < bboxMin[0] ||
525 cx > bboxMax[0] ||
526 cy < bboxMin[1] ||
527 cy > bboxMax[1])
528 return false;
529 whichSlice = (cx - bboxMin[0])*(nRoi+nRoiTM)/(bboxMax[0] - bboxMin[0]);
530 if (whichSlice >= nRoi)
531 whichSlice = nRoi-1;
532 emit signalCurrentSlice(whichSlice);
533 return true;
534}
535
536/************************************************************
537 * MOUSE MOVE EVENT. used to track the dragging of slices display
538 ************************************************************/
539void RawDataViewer::mouseMoveEvent(QMouseEvent *cEvent)
540{
541 if (cEvent->buttons() & Qt::LeftButton) {
542 setCorrectSlice(cEvent);
543 updateGL();
544 } else if (cEvent->buttons() & Qt::RightButton) {
545 updateGL();
546 }
547 lastPos = cEvent->pos();
548}
549
550/************************************************************
551 * MOUSE DOUBLE CLICK EVENT. used to select pixels
552 ************************************************************/
553void RawDataViewer::mouseDoubleClickEvent(QMouseEvent *cEvent)
554{
555 int face = PixelAtPosition(cEvent->pos());
556 if (face != -1) {
557 selectedPixel = face;
558 emit signalCurrentPixel(face);
559 updateGL();
560 }
561}
562
563/************************************************************
564 * OPEN FILE. opens a new fits file
565 ************************************************************/
566void RawDataViewer::openFile(string file, bool reopen)
567{
568 if (inputFile)
569 {
570 inputFile->close();
571 delete inputFile;
572 }
573 try {
574 inputFile = reopen && fIsDrsCalibration ? new zfits(file, "Events") : new factfits(file, "Events");
575 }
576 catch (const std::runtime_error &e)
577 {
578 cout << "Something went wrong while loading fits. Aborting: " << e.what() << endl;
579 return;
580 }
581 if (!*inputFile)
582 {
583 delete inputFile;
584 inputFile = NULL;
585 return;
586 }
587 vector<string> entriesToCheck;
588 if (inputFile->IsCompressedFITS())
589 entriesToCheck.push_back("ZNAXIS2");
590 else
591 entriesToCheck.push_back("NAXIS2");
592 entriesToCheck.push_back("NROI");
593 entriesToCheck.push_back("REVISION");
594 entriesToCheck.push_back("RUNID");
595 entriesToCheck.push_back("NBOARD");
596 entriesToCheck.push_back("NPIX");
597 entriesToCheck.push_back("NROITM");
598 entriesToCheck.push_back("TIMESYS");
599 entriesToCheck.push_back("DATE");
600 entriesToCheck.push_back("NIGHT");
601 entriesToCheck.push_back("CAMERA");
602 entriesToCheck.push_back("DAQ");
603 entriesToCheck.push_back("TSTART");
604 entriesToCheck.push_back("TSTOP");
605
606
607 for (vector<string>::const_iterator it=entriesToCheck.begin(); it != entriesToCheck.end(); it++)
608 {
609 try {
610 if (!inputFile->HasKey(*it)){
611 cout << "Warning: header keyword " << *it << " missing." << endl;
612 }
613 }
614 catch (const std::runtime_error &e)
615 {
616 cout << e.what() << endl;
617 return;
618 }
619 }
620
621 nRows = 0;
622 if (inputFile->IsCompressedFITS())
623 nRows = inputFile->HasKey("ZNAXIS2") ? inputFile->GetInt("ZNAXIS2") : 0;
624 else
625 nRows = inputFile->HasKey("NAXIS2") ? inputFile->GetInt("NAXIS2") : 0;
626 nRoi = inputFile->HasKey("NROI") ? inputFile->GetInt("NROI") : 0;
627 runNumber = inputFile->HasKey("RUNID") ? inputFile->GetInt("RUNID") : -1;
628 nTM = inputFile->HasKey("NTMARK") ? inputFile->GetInt("NTMARK") : 0;
629
630 runType = "unknown";
631 if (inputFile->HasKey("RUNTYPE"))
632 {
633 runType = inputFile->GetStr("RUNTYPE");
634 if (runType == "")
635 runType = "unknown";
636 }
637 firstDataTime = inputFile->HasKey("TSTART") ? inputFile->GetInt("TSTART") : -1;
638 lastDataTime = inputFile->HasKey("TSTOP") ? inputFile->GetInt("TSTOP"): -1;
639 nRoiTM = inputFile->HasKey("NROITM") ? inputFile->GetInt("NROITM") : 0;
640 revision = inputFile->HasKey("REVISION") ? inputFile->GetInt("REVISION") : -1;
641 builderVersion = inputFile->HasKey("BLDVER") ? inputFile->GetInt("BLDVER") : -1;
642 nBoards = inputFile->HasKey("NBOARD") ? inputFile->GetInt("NBOARD") : 0;
643 nPixels = inputFile->HasKey("NPIX") ? inputFile->GetInt("NPIX") : 0;
644 timeSystem = inputFile->HasKey("TIMESYS") ? inputFile->GetStr("TIMESYS") : "";
645 creationDate = inputFile->HasKey("DATE") ? inputFile->GetStr("DATE") : "";
646 nightInt = inputFile->HasKey("NIGHT") ? inputFile->GetInt("NIGHT") : 0;
647 camera = inputFile->HasKey("CAMERA") ? inputFile->GetStr("CAMERA") : "";
648 daq = inputFile->HasKey("DAQ") ? inputFile->GetStr("DAQ") : "";
649 adcCount = inputFile->HasKey("ADCRANGE") ? inputFile->GetFloat("ADCRANGE") : 2000;
650 if (nPixels == 0)
651 {
652 cout << "could not read num pixels from fits header. Assuming 1440 (FACT)." << endl;
653 nPixels = 1440;
654 }
655 if (nPixels > 1440)
656 cout << "More than 1440 pixels not supported." << endl;
657 if (nPixels==1440 && nRoi!=0)
658 cout << "Time marker not suppoerted with number of pixel not euqal 1440." << endl;
659
660 if (nRoi == 0 && !inputFile->HasKey("NROI"))
661 {//let's try to figure out the roi from the column's format
662 const fits::Table::Columns& cols = inputFile->GetColumns();
663 if (cols.find("Data") == cols.end())
664 {
665 cout << "ERROR: Column \"Data\" could not be found. abortin load." << endl;
666 return;
667 }
668 const fits::Table::Columns::const_iterator col = cols.find("Data");
669 if (col->second.type != 'I')
670 {
671 cout << "ERROR: Data Column has type " << col->second.type << " while viewer expects I" << endl;
672 return;
673 }
674 if (col->second.num % nPixels != 0)
675 {
676 cout << "ERROR: Num pixels (" << nPixels << ") does not match Data length (" << col->second.num << "). Aborting" << endl;
677 return;
678 }
679 nRoi = col->second.num/nPixels;
680 cout << "Estimate num samples per pixels to be " << nRoi;
681 _softwareOrdering = true;
682 }
683 else
684 _softwareOrdering = inputFile->Get<string>("ISMC", "F")=="T";
685
686 if (inputFile->HasKey("OFFSET"))
687 offSetRoi = inputFile->GetInt("OFFSET");
688
689 nbOk = 0;//inputFile->GetInt("NBEVTOK");
690 nbRej = 0;//inputFile->GetInt("NBEVTREJ");
691 nbBad = 0;//inputFile->GetInt("NBEVTBAD");
692
693 eventNum = 1;
694
695 eventData.resize(1440*nRoi + 160*nRoiTM);
696 rawEventData.resize(1440*nRoi + 160*nRoiTM);
697 waveLetArray.resize(1024*1440);
698 try
699 {
700 inputFile->SetPtrAddress("Data", rawEventData.data());
701 if (inputFile->HasColumn("EventNum"))
702 inputFile->SetPtrAddress("EventNum", &eventNum);
703 else
704 cout << "Warning: could not find column \"EventNum\"" << endl;
705 if (inputFile->HasColumn("TriggerType"))
706 inputFile->SetPtrAddress("TriggerType", &triggerType);
707 else
708 cout << "Warning: could not find column \"TriggerType\"" << endl;
709 if (inputFile->HasColumn("SoftTrig"))
710 inputFile->SetPtrAddress("SoftTrig", &softTrig);
711 else
712 cout << "Warning: could not find column \"SoftTrig\"" << endl;
713 if (inputFile->HasColumn("BoardTime"))
714 inputFile->SetPtrAddress("BoardTime", boardTime);
715 else
716 cout << "Warning: could not find column \"BoardTime\"" << endl;
717 if (inputFile->HasColumn("StartCellData"))
718 inputFile->SetPtrAddress("StartCellData", startPix);
719 else
720 cout << "Warning: could not find column \"StartCellData\"" << endl;
721 if (inputFile->HasColumn("StartCellTimeMarker"))
722 inputFile->SetPtrAddress("StartCellTimeMarker", startTM);
723 else
724 cout << "Warning: could not find column \"StartCellTimeMarker\"" << endl;
725 if (inputFile->HasColumn("TimeMarker"))
726 inputFile->SetPtrAddress("TimeMarker", rawEventData.data()+1440*nRoi);
727 else
728 cout << "Warning: could not find column \"TimeMarker\"" << endl;
729 }
730 catch (const runtime_error &e)
731 {
732 cout << e.what() << endl;
733 cout << "Loading aborted." << endl;
734
735 nRoi = nRows = 0;
736
737 return;
738 }
739
740 try
741 {
742 pcTime[0] = pcTime[1] = 0;
743 if (inputFile->HasColumn("UnixTimeUTC"))
744 inputFile->SetPtrAddress("UnixTimeUTC", pcTime);
745 }
746 catch (const runtime_error&)
747 {
748 try
749 {
750 if (inputFile->HasColumn("PCTime"))
751 inputFile->SetPtrAddress("PCTime", pcTime);
752 else
753 cout << "Warning: could not find column \"UnixTimeUTC\" nor \"PCTime\"" << endl;
754
755 }
756 catch (const runtime_error&)
757 {
758
759 }
760 }
761
762
763 if (!reopen)
764 {
765 int backupStep = eventStep;
766 rowNum = -1;
767 eventStep = 1;
768 plusEvent();
769 eventStep = backupStep;
770 }
771 else
772 readEvent();
773
774 emit newFileLoaded();
775 emit signalCurrentPixel(selectedPixel);
776}
777
778void RawDataViewer::openCalibFile(string& file)
779{
780 //calibrationLoaded = false;
781 string msg;
782 try
783 {
784 msg = fDrsCalib.ReadFitsImp(file);
785 if (msg.empty())
786 {
787 emit newFileLoaded();
788 updateGL();
789 return;
790 }
791 }
792 catch (const runtime_error &e)
793 {
794 msg = string("Something went wrong while loading Drs Calib: ") + e.what() + string(".. Aborting file loading");
795 }
796 cerr << msg << endl;
797 fDrsCalib.Clear();
798}
799
800template <typename T>
801void RawDataViewer::getCalibrationDataForDisplay(const CalibDataTypes/* calibTypes*/,
802 const vector<T>& inputData,
803 const int roi,
804 const int roiTM)
805{
806 eventData.assign(inputData.begin(), inputData.end());
807 nRoi=roi;
808 nRoiTM=roiTM;
809
810 long long min, max, mean;
811 min = max = inputData[0];
812 mean=0;
813 for (int i=0;i<1440*roi + 160*roiTM;i++) {
814 mean += inputData[i];
815 if (inputData[i] > max)
816 max = inputData[i];
817 if (inputData[i] < min)
818 min = inputData[i];
819 }
820 mean /= 1440*roi + 160*roiTM;
821 for (int i=0;i<1440*roi + 160*roiTM;i++)
822 eventData[i] -= (float)mean;
823 VALUES_SPAN = max - min;
824// cout << VALUES_SPAN << " " << min << " " << max << " " << mean << endl;
825// cout << 1440*roi + 160*roiTM << " " << roi << " " << roiTM << " " << inputData.size() << endl;
826}
827/************************************************************
828 * PLUS EVENT
829 ************************************************************/
830void RawDataViewer::plusEvent()
831{
832 eventStepping(true);
833}
834/************************************************************
835 * MINUS EVENT
836 ************************************************************/
837void RawDataViewer::minusEvent()
838{
839 eventStepping(false);
840}
841/************************************************************
842 * SET EVENT STEP
843 ************************************************************/
844void RawDataViewer::setEventStep(int step)
845{
846 eventStep = step;
847}
848/************************************************************
849 * EVENT STEPPING
850 ************************************************************/
851
852void RawDataViewer::ApplyCalibration()
853{
854 eventData.assign(rawEventData.begin(), rawEventData.end());
855
856 if (fIsDrsCalibration)
857 {
858 fDrsCalib.Apply(eventData.data(), rawEventData.data(), startPix, nRoi);
859 DrsCalibrate::RemoveSpikes3(eventData.data(), nRoi*1440);
860 //TODO apply calibration to the Time markers
861 }
862
863 vector<float> pixelStatsData(1440*4);
864 DrsCalibrate::GetPixelStats(pixelStatsData.data(), eventData.data(), nRoi, 15, nRoiTM>0?5:60);
865
866 for (vector<PixelMapEntry>::const_iterator it=fPixelMap.begin(); it!=fPixelMap.end(); it++)
867 {
868 //if (it->index>=nPixels)
869 // continue;
870
871 Meanvalues[it->index] = pixelStatsData[0*1440+it->hw()];
872 RMSvalues[it->index] = pixelStatsData[1*1440+it->hw()];
873 Maxvalues[it->index] = pixelStatsData[2*1440+it->hw()];
874 PosOfMaxvalues[it->index] = pixelStatsData[3*1440+it->hw()];
875 }
876
877 if (isVisible())
878 updateGL();
879}
880
881void RawDataViewer::eventStepping(bool plus)
882{
883 if (plus)
884 rowNum += eventStep;
885 else
886 rowNum -= eventStep;
887 if (rowNum >= nRows)
888 rowNum -= nRows;
889 if (rowNum < 0)
890 rowNum += nRows;
891
892 readEvent();
893}
894
895void RawDataViewer::readEvent()
896{
897 if (inputFile == NULL)
898 return;
899 inputFile->GetRow(rowNum);
900 if (_softwareOrdering)
901 {//remap pixels data according to hardware id
902 if (nRoiTM != 0)
903 cout << "Warning: did not expect Time Markers data from Monte-Carlo simulations. These will not be mapped properly." << endl;
904
905 //first copy the data
906 const vector<int16_t> tempData(rawEventData);//.begin(), rawEventData.begin()+1440*nRoi);
907 rawEventData.assign(rawEventData.size(), 0);
908 //copy back the data and re-map it on the fly
909 for (int i=0;i<1440;i++)
910 if (softwareMapping[i]<nPixels)
911 for (int j=0;j<nRoi;j++)
912 rawEventData[i*nRoi + j] = tempData[softwareMapping[i]*nRoi + j];
913 }
914// cout << "Getting row " << rowNum << endl;
915
916 ApplyCalibration();
917
918 emit signalCurrentEvent(eventNum);
919 emit signalCurrentPixel(selectedPixel);
920}
921
922/************************************************************
923 * NEXT SLICE. deprec ?
924 ************************************************************/
925void RawDataViewer::nextSlice()
926{
927 whichSlice++;
928 if (whichSlice >= nRoi)
929 {
930 whichSlice = 0;
931 if (!loopCurrentEvent)
932 {
933 int backupStep = eventStep;
934 eventStep = 1;
935 eventStepping(true);
936 eventStep = backupStep;
937 }
938 }
939 emit signalCurrentSlice(whichSlice);
940 updateGL();
941}
942void RawDataViewer::previousSlice()
943{
944 whichSlice--;
945 if (whichSlice < 0)
946 {
947 whichSlice = nRoi-1;
948 if (!loopCurrentEvent)
949 {
950 int backupStep = eventStep;
951 eventStep = 1;
952 eventStepping(false);
953 eventStep = backupStep;
954 }
955 }
956 emit signalCurrentSlice(whichSlice);
957 updateGL();
958}
959void RawDataViewer::setCurrentPixel(int pix)
960{
961 // if (pix == -1)
962 // return;
963 selectedPixel = pix;
964 if (isVisible())
965 updateGL();
966 emit signalCurrentPixel(pix);
967}
968/*
969void RawDataViewer::computePulsesStatistics()
970{
971 if (!inputFile)
972 {
973 cout << "A FITS file must be open in order to complete this operation" << endl;
974 return;
975 }
976
977
978// for (int i=0;i<nRows;i++)//for all events
979// {
980// inputFile->GetRow(rowNum);
981// for (int i=0;i<(1440+160)*nRoi;i++)
982// eventData[i] = (float)rawEventData[i];
983
984// for (int j=0;j<ACTUAL_NUM_PIXELS;j++)
985/// {
986 int j = selectedPixel;
987 if (j == -1)
988 return;
989 for (int i=0;i<nRoi;i++)
990 {
991 aMeas[i] = eventData[j*nRoi+i];// * adcCount;
992
993 }
994 for (int i=0;i<nRoi;i++)
995 {
996 if (i==0)
997 n1mean[i] = aMeas[i+1];
998 else
999 {
1000 if (i==1023)
1001 n1mean[i] = aMeas[i-1];
1002 else
1003 n1mean[i] = (aMeas[i-1]+aMeas[i+1])/2.f;
1004 }
1005 }
1006 //find spike
1007 for (int i=0;i<nRoi-3;i++)
1008 {
1009 const float fract = 0.8f;
1010 float xx, xp, xpp;
1011 vCorr[i] = 0;//aMeas[i];
1012 xx = aMeas[i] - n1mean[i];
1013 if (xx < -8.f)
1014 {
1015 xp = aMeas[i+1] - n1mean[i+1];
1016 xpp = aMeas[i+2] - n1mean[i+2];
1017 if ((aMeas[i+2] - (aMeas[i] + aMeas[i+3])/2.f) > 10.f)
1018 {
1019 vCorr[i+1] = (aMeas[i] + aMeas[i+3])/2.f;
1020 vCorr[i+2] = (aMeas[i] + aMeas[i+3])/2.f;
1021 i = i+2;
1022 }
1023 else
1024 {
1025 if ((xp > -2.*xx*fract) && (xpp < -10.f))
1026 {
1027 vCorr[i+1] = n1mean[i+1];
1028 n1mean[i+2] = aMeas[i+1] - aMeas[i+3]/2.f;
1029 i++;
1030 }
1031 }
1032 }
1033 }
1034 for (int i=0;i<nRoi;i++)
1035 n1mean[i] = aMeas[i]-n1mean[i];
1036 // }
1037 // }
1038}
1039*/
1040/************************************************************
1041 * UICONNECTOR CONSTRUCTOR
1042 ************************************************************/
1043UIConnector::UIConnector(QWidget *p)
1044{
1045 setupUi(this);
1046 initHistograms();
1047
1048 updateSpinnerDisplay = true;
1049 updating = false;
1050
1051 timer.setInterval(10.0);
1052 QObject::connect(&timer, SIGNAL(timeout()),
1053 this, SLOT(nextSlicePlease()));
1054
1055 QButtonGroup &scaleGroup = *new QButtonGroup(p);// = new QButtonGroup(canvas);
1056 QButtonGroup &animateGroup = *new QButtonGroup(p);// = new QButtonGroup(canvas);
1057
1058 scaleGroup.addButton(currentPixelScale);
1059 scaleGroup.addButton(entireCameraScale);
1060
1061 animateGroup.addButton(playEventsRadio);
1062 animateGroup.addButton(playSlicesRadio);
1063 animateGroup.addButton(playPixelsRadio);
1064
1065 entireCameraScale->setChecked(true);
1066
1067 RMS_window->enableText(false);
1068 Mean_window->enableText(false);
1069 PosOfMax_window->enableText(false);
1070 Max_window->enableText(false);
1071
1072 // RMS_window->ShowPatchCursor(true);
1073
1074 QObject::connect(GLWindow, SIGNAL(colorPaletteHasChanged()),
1075 this, SLOT(on_autoScaleColor_clicked()));
1076 QObject::connect(GLWindow, SIGNAL(signalCurrentSlice(int)),
1077 this, SLOT(currentSliceHasChanged(int)));
1078 QObject::connect(GLWindow, SIGNAL(signalCurrentEvent(int)),
1079 this, SLOT(currentEventHasChanged(int)));
1080 QObject::connect(GLWindow, SIGNAL(signalCurrentPixel(int)),
1081 this, SLOT(pixelChanged(int)));
1082 QObject::connect(GLWindow, SIGNAL(newFileLoaded()),
1083 this, SLOT(newFileLoaded()));
1084
1085 QObject::connect(RMS_window, SIGNAL(signalCurrentPixel(int)),
1086 GLWindow, SLOT(setCurrentPixel(int)));
1087 QObject::connect(Max_window, SIGNAL(signalCurrentPixel(int)),
1088 GLWindow, SLOT(setCurrentPixel(int)));
1089 QObject::connect(PosOfMax_window, SIGNAL(signalCurrentPixel(int)),
1090 GLWindow, SLOT(setCurrentPixel(int)));
1091 QObject::connect(Mean_window, SIGNAL(signalCurrentPixel(int)),
1092 GLWindow, SLOT(setCurrentPixel(int)));
1093
1094
1095
1096 show();
1097}
1098UIConnector::~UIConnector()
1099{
1100 grid1->detach();
1101 grid2->detach();
1102 grid3->detach();
1103 grid4->detach();
1104 grid5->detach();
1105 grid6->detach();
1106 boardsTimeHistoItem.detach();
1107 startCellHistoItem.detach();
1108 startTimeMarkHistoItem.detach();
1109 pixelValueCurveItem.detach();
1110 pixelAverageCurveItem.detach();
1111 aMeanCurveItem.detach();
1112 vCorrCurveItem.detach();
1113 meanCurveItem.detach();
1114}
1115void UIConnector::slicesPlusPlus()
1116{
1117 GLWindow->nextSlice();
1118}
1119void UIConnector::slicesMinusMinus()
1120{
1121 GLWindow->previousSlice();
1122}
1123void UIConnector::on_calibratedCheckBox_stateChanged(int state)
1124{
1125 GLWindow->fIsDrsCalibration = state;
1126
1127 if (currentCalibFile.empty())
1128 GLWindow->openFile(currentFile, true);
1129
1130 GLWindow->ApplyCalibration();
1131
1132 threeD_Window->setData(GLWindow->eventData.data());
1133
1134 if (autoScaleColor->isChecked())
1135 on_autoScaleColor_clicked();
1136 pixelChanged(GLWindow->selectedPixel);
1137
1138}
1139/************************************************************
1140 * DRAW PATCHES CHECK CHANGE. checkbox handler
1141 ************************************************************/
1142void UIConnector::on_drawPatchCheckBox_stateChanged(int state)
1143{
1144 GLWindow->drawPatch = state;
1145 GLWindow->updateGL();
1146 RMS_window->fDrawPatch = state;
1147 RMS_window->updateGL();
1148 Mean_window->fDrawPatch = state;
1149 Mean_window->updateGL();
1150 Max_window->fDrawPatch = state;
1151 Max_window->updateGL();
1152 PosOfMax_window->fDrawPatch = state;
1153 PosOfMax_window->updateGL();
1154}
1155/************************************************************
1156 * DRAW IMPULSE CHECK CHANGE. checkbox handler
1157 ************************************************************/
1158void UIConnector::on_drawImpulseCheckBox_stateChanged(int state)
1159{
1160 GLWindow->drawImpulse = state;
1161 TriggerOffset_window->drawImpulse = state;
1162 Gain_window->drawImpulse = state;
1163 Baseline_window->drawImpulse = state;
1164 GLWindow->updateGL();
1165 TriggerOffset_window->updateGL();
1166 Gain_window->updateGL();
1167 Baseline_window->updateGL();
1168}
1169/************************************************************
1170 * DRAW BLUR CHECK CHANGE. checkbox handler
1171 ************************************************************/
1172void UIConnector::on_drawBlurCheckBox_stateChanged(int state)
1173{
1174 GLWindow->drawBlur = state;
1175 GLWindow->updateGL();
1176}
1177void UIConnector::on_loopOverCurrentEventBox_stateChanged(int state)
1178{
1179 GLWindow->loopCurrentEvent = state;
1180}
1181
1182/************************************************************
1183 * NEXT SLICE PLEASE
1184 ************************************************************/
1185void UIConnector::nextSlicePlease()
1186{
1187 if (playEventsRadio->isChecked ())
1188 GLWindow->eventStepping(true);
1189 else
1190 if (playPixelsRadio->isChecked())
1191 GLWindow->setCurrentPixel((GLWindow->getCurrentPixel()+1)%1440);
1192 else
1193 GLWindow->nextSlice();
1194}
1195
1196/************************************************************
1197 * SET VIEWER.
1198 ************************************************************/
1199//void UIConnector::setViewer(RawDataViewer* v)
1200//{
1201// viewer = v;
1202//}
1203/************************************************************
1204 * SLICES PER SECOND CHANGED. timing ui handler
1205 ************************************************************/
1206void UIConnector::slicesPerSecondChanged(double value)
1207{
1208 timer.setInterval(1000.0/value);
1209}
1210
1211void UIConnector::on_colorRange0_valueChanged(double value) { GLWindow->ss[0] = (float)value; GLWindow->updateGL(); }
1212void UIConnector::on_colorRange1_valueChanged(double value) { GLWindow->ss[1] = (float)value; GLWindow->updateGL(); }
1213void UIConnector::on_colorRange2_valueChanged(double value) { GLWindow->ss[2] = (float)value; GLWindow->updateGL(); }
1214void UIConnector::on_colorRange3_valueChanged(double value) { GLWindow->ss[3] = (float)value; GLWindow->updateGL(); }
1215void UIConnector::on_colorRange4_valueChanged(double value) { GLWindow->ss[4] = (float)value; GLWindow->updateGL(); }
1216
1217void UIConnector::on_redValue0_valueChanged(double value) { GLWindow->rr[0] = (float)value; GLWindow->updateGL(); }
1218void UIConnector::on_redValue1_valueChanged(double value) { GLWindow->rr[1] = (float)value; GLWindow->updateGL(); }
1219void UIConnector::on_redValue2_valueChanged(double value) { GLWindow->rr[2] = (float)value; GLWindow->updateGL(); }
1220void UIConnector::on_redValue3_valueChanged(double value) { GLWindow->rr[3] = (float)value; GLWindow->updateGL(); }
1221void UIConnector::on_redValue4_valueChanged(double value) { GLWindow->rr[4] = (float)value; GLWindow->updateGL(); }
1222
1223void UIConnector::on_greenValue0_valueChanged(double value) { GLWindow->gg[0] = (float)value; GLWindow->updateGL(); }
1224void UIConnector::on_greenValue1_valueChanged(double value) { GLWindow->gg[1] = (float)value; GLWindow->updateGL(); }
1225void UIConnector::on_greenValue2_valueChanged(double value) { GLWindow->gg[2] = (float)value; GLWindow->updateGL(); }
1226void UIConnector::on_greenValue3_valueChanged(double value) { GLWindow->gg[3] = (float)value; GLWindow->updateGL(); }
1227void UIConnector::on_greenValue4_valueChanged(double value) { GLWindow->gg[4] = (float)value; GLWindow->updateGL(); }
1228
1229void UIConnector::on_blueValue0_valueChanged(double value) { GLWindow->bb[0] = (float)value; GLWindow->updateGL(); }
1230void UIConnector::on_blueValue1_valueChanged(double value) { GLWindow->bb[1] = (float)value; GLWindow->updateGL(); }
1231void UIConnector::on_blueValue2_valueChanged(double value) { GLWindow->bb[2] = (float)value; GLWindow->updateGL(); }
1232void UIConnector::on_blueValue3_valueChanged(double value) { GLWindow->bb[3] = (float)value; GLWindow->updateGL(); }
1233void UIConnector::on_blueValue4_valueChanged(double value) { GLWindow->bb[4] = (float)value; GLWindow->updateGL(); }
1234
1235/************************************************************
1236 * LOAD NEW FILE CLICKED. button handler
1237 ************************************************************/
1238void UIConnector::on_loadNewFileButton_clicked()
1239{
1240 QFileDialog dialog;
1241 dialog.setFileMode(QFileDialog::ExistingFile);
1242 dialog.open(this, SLOT(fileSelected(QString)));
1243 dialog.setVisible(true);
1244 dialog.exec();
1245}
1246void UIConnector::on_loadDRSCalibButton_clicked()
1247{
1248 QFileDialog dialog;
1249 dialog.setFileMode(QFileDialog::ExistingFile);
1250 dialog.open(this, SLOT(calibFileSelected(QString)));
1251 dialog.setVisible(true);
1252 dialog.exec();
1253}
1254/************************************************************
1255 * FILE SELECTED. return of the file open dialog handler
1256 ************************************************************/
1257void UIConnector::fileSelected(QString file)
1258{
1259 const bool reopen = !currentFile.empty();
1260
1261 currentFile = file.toStdString();
1262 if (!currentFile.empty())
1263 GLWindow->openFile(currentFile, reopen && currentCalibFile.empty());
1264}
1265void UIConnector::calibFileSelected(QString file)
1266{
1267 const bool reopen = currentCalibFile.empty();
1268
1269 currentCalibFile = file.toStdString();
1270 if (reopen && !currentFile.empty())
1271 GLWindow->openFile(currentFile, true);
1272 if (currentCalibFile != "")
1273 GLWindow->openCalibFile(currentCalibFile);
1274
1275
1276 if (GLWindow->fDrsCalib.fRoi != 0)
1277 {//spread the calibration data to the displayers
1278 Baseline_window->getCalibrationDataForDisplay(RawDataViewer::CALIB_BASELINE,
1279 GLWindow->fDrsCalib.fOffset,
1280 GLWindow->fDrsCalib.fRoi,
1281 GLWindow->fDrsCalib.fNumTm);
1282
1283 Gain_window->getCalibrationDataForDisplay(RawDataViewer::CALIB_GAIN,
1284 GLWindow->fDrsCalib.fGain,
1285 GLWindow->fDrsCalib.fRoi,
1286 GLWindow->fDrsCalib.fNumTm);
1287
1288 TriggerOffset_window->getCalibrationDataForDisplay(RawDataViewer::CALIB_TRIG_OFFSET,
1289 GLWindow->fDrsCalib.fTrgOff,
1290 GLWindow->fDrsCalib.fRoi,
1291 GLWindow->fDrsCalib.fNumTm);
1292
1293 }
1294}
1295/************************************************************
1296 * NEW FILE LOADED. update of the UI after a new file has been loaded
1297 ************************************************************/
1298void UIConnector::newFileLoaded()
1299{
1300 ostringstream str;
1301
1302 //extract the file name only (no path) from the full name
1303 str << "File: ";
1304 if (currentFile.size() > 2)
1305 str << currentFile.substr(currentFile.find_last_of("//")+1, currentFile.size()) << "\n";
1306 else
1307 str << "--\n";
1308 str << "Calibration: ";
1309 if (currentCalibFile.size() > 2)
1310 str << currentCalibFile.substr(currentCalibFile.find_last_of("//")+1, currentCalibFile.size()) << "\n";
1311 else
1312 str << "--\n";
1313// fileLoadedLabel->setText(QString(str.str().c_str()));
1314// str.str("");
1315 str << "Run number: " << GLWindow->runNumber << "\n";
1316// runNumberLabel->setText(QString(str.str().c_str()));
1317// str.str("");
1318 str << "Number of Events: " << GLWindow->nRows << "\n";
1319
1320 displayingEventBox->setMaximum(GLWindow->nRows-1);
1321
1322 str << "Number of Slices: " << GLWindow->nRoi << "\n";// << "/1024";
1323// numberOfSlicesLabel->setText(QString(str.str().c_str()));
1324// str.str("");
1325 str << "Number of Time Marks: " << GLWindow->nTM << "\n";
1326// numberOfTimeMarksLabel->setText(QString(str.str().c_str()));
1327
1328// str.str("");
1329 str << "Run Type: " << GLWindow->runType << "\n";
1330// runTypeLabel->setText(QString(str.str().c_str()));
1331// str.str("");
1332 str << "Time of 1st data: " << GLWindow->firstDataTime << "\n";
1333// firstTimeLabel->setText(QString(str.str().c_str()));
1334// str.str("");
1335 str << "Time of last data: " << GLWindow->lastDataTime << "\n";
1336// lastTimeLabel->setText(QString(str.str().c_str()));
1337// str.str("");
1338 str << "SVN revision: " << GLWindow->revision << '\n';
1339 str << "Number of boards: " << GLWindow->nBoards << '\n';
1340 str << "Number of pixels: " << GLWindow->nPixels << '\n';
1341 str << "Number of Slices TM: " << GLWindow->nRoiTM << '\n';
1342 str << "Time system: " << GLWindow->timeSystem << '\n';
1343 str << "Date: " << GLWindow->creationDate << '\n';
1344 str << "Night: " << GLWindow->nightInt << '\n';
1345 str << "Camera: " << GLWindow->camera << '\n';
1346 str << "DAQ: " << GLWindow->daq << '\n';
1347 str << "ADC Count: " << GLWindow->adcCount << '\n';
1348 str << "NB Evts OK:" << GLWindow->nbOk << '\n';
1349 str << "NB Evts Rejected: " << GLWindow->nbRej << '\n';
1350 str << "NB Evts Bad: " << GLWindow->nbBad << '\n';
1351 extraInfoLabel->setText(QString(str.str().c_str()));
1352
1353 /*
1354 if (GLWindow->calibrationLoaded)
1355 {
1356 drawCalibrationCheckBox->setEnabled(true);
1357 }*/
1358
1359
1360}
1361/************************************************************
1362 * PLAY PAUSE CLICKED. ui handler
1363 ************************************************************/
1364void UIConnector::on_playPauseButton_clicked()
1365{
1366 if (timer.isActive())
1367 timer.stop();
1368 else
1369 timer.start();
1370}
1371
1372void UIConnector::displaySliceValue()
1373{
1374 if (!GLWindow->nRoi)
1375 return;
1376 if (GLWindow->selectedPixel == -1)
1377 {
1378 ostringstream str;
1379 str << " Current Pixel val.: --";
1380 currentPixelValue->setText(QString(str.str().c_str()));
1381 return;
1382 }
1383// int mapping = GLWindow->_softwareOrdering ? GLWindow->selectedPixel : GLWindow->hardwareMapping[GLWindow->selectedPixel];
1384 int mapping = GLWindow->hardwareMapping[GLWindow->selectedPixel];
1385 const int idx = GLWindow->nRoi*mapping + GLWindow->whichSlice;
1386
1387 ostringstream str;
1388 str << "Current Pixel val.: " << GLWindow->eventData[idx];
1389 currentPixelValue->setText(QString(str.str().c_str()));
1390}
1391
1392/************************************************************
1393 * CURRENT SLICE HAS CHANGE. ui handler
1394 ************************************************************/
1395void UIConnector::currentSliceHasChanged(int slice)
1396{
1397 if (!GLWindow->nRoi)
1398 return;
1399
1400 if (updateSpinnerDisplay)
1401 displayingSliceBox->setValue(slice);
1402
1403 displaySliceValue();
1404}
1405
1406/*****
1407 *******************************************************
1408 * CURRENT EVENT HAS CHANGED. ui handler
1409 ************************************************************/
1410
1411double xval[50000];
1412double yval[50000];
1413void UIConnector::on_displayingEventBox_valueChanged(int cEvent)
1414{
1415// cout << "Here " << updateSpinnerDisplay << endl;
1416 if (!updateSpinnerDisplay)
1417 return;
1418 updateSpinnerDisplay = false;
1419// currentEventHasChanged(cEvent);
1420 GLWindow->rowNum = cEvent - GLWindow->eventStep;
1421 GLWindow->eventStepping(true);
1422 updateSpinnerDisplay = true;
1423
1424// GLWindow->updateGL();
1425}
1426void UIConnector::on_slicesPerSecValue_valueChanged(double value)
1427{
1428 timer.setInterval(1000.0/value);
1429}
1430void UIConnector::on_displayingSliceBox_valueChanged(int cSlice)
1431{
1432 updateSpinnerDisplay = false;
1433 currentSliceHasChanged(cSlice);
1434 updateSpinnerDisplay = true;
1435 GLWindow->whichSlice = cSlice;
1436 GLWindow->updateGL();
1437}
1438void UIConnector::currentEventHasChanged(int )
1439{
1440
1441 RMS_window->SetData(GLWindow->RMSvalues);
1442 Mean_window->SetData(GLWindow->Meanvalues);
1443 PosOfMax_window->SetData(GLWindow->PosOfMaxvalues);
1444 Max_window->SetData(GLWindow->Maxvalues);
1445 threeD_Window->setData(GLWindow->eventData.data());//rawEventData);
1446
1447 if (RMS_window->isVisible())
1448 RMS_window->updateGL();
1449 if (Mean_window->isVisible())
1450 Mean_window->updateGL();
1451 if (PosOfMax_window->isVisible())
1452 PosOfMax_window->updateGL();
1453 if (Max_window->isVisible())
1454 Max_window->updateGL();
1455 ostringstream str;
1456// str << "Displaying Event " << cEvent;
1457// QString qstr(str.str().c_str());
1458// emit updateCurrentEventDisplay(qstr);
1459 if (updateSpinnerDisplay)
1460 {
1461 updateSpinnerDisplay = false;
1462 displayingEventBox->setValue(GLWindow->rowNum);
1463 updateSpinnerDisplay = true;
1464 }
1465
1466 // GLWindow->doWaveLetOnCurrentEventPlease();
1467
1468 //retrieve the data that we want to display
1469 boost::posix_time::ptime hrTime( boost::gregorian::date(1970, boost::gregorian::Jan, 1),
1470 boost::posix_time::seconds(GLWindow->pcTime[0]) + boost::posix_time::microsec(GLWindow->pcTime[1]));
1471
1472 str.str("");
1473 str << "PC Time: " << boost::posix_time::to_iso_extended_string(hrTime);
1474 PCTimeLabel->setText(QString(str.str().c_str()));
1475
1476 str.str("");
1477 str << "Software Trigger: " << GLWindow->softTrig;
1478 softwareTriggerLabel->setText(QString(str.str().c_str()));
1479
1480 str.str("");
1481 str << "Trigger Type: " << GLWindow->triggerType;
1482 triggerTypeLabel->setText(QString(str.str().c_str()));
1483
1484 displaySliceValue();
1485
1486 if (autoScaleColor->isChecked())
1487 emit GLWindow->colorPaletteHasChanged();//autoScalePressed();
1488
1489 boardsTimeList->clear();
1490 startPixelsList->clear();
1491 startTimeMarksList->clear();
1492 triggerDelayList->clear();
1493 std::map<int, int> boardsHistoMap;
1494 for (int i=0;i <NBOARDS; i++)
1495 {
1496 str.str("");
1497 str << i;
1498 if (i<10) str << " ";
1499 if (i<100) str << " ";
1500 if (i<1000) str << " ";
1501 str << ": " << GLWindow->boardTime[i];
1502 boardsTimeList->addItem(QString(str.str().c_str()));
1503 if (boardsHistoMap.find(GLWindow->boardTime[i]) != boardsHistoMap.end())
1504 boardsHistoMap[GLWindow->boardTime[i]]++;
1505 else
1506 boardsHistoMap[GLWindow->boardTime[i]] = 1;
1507 }
1508 std::map<int, int> pixelHistoMap;
1509 for (int i=0;i <NPIX; i++)
1510 {
1511 str.str("");
1512 str << i;
1513 if (i<10) str << " ";
1514 if (i<100) str << " ";
1515 if (i<1000) str << " ";
1516 str << ": " << GLWindow->startPix[i];
1517 startPixelsList->addItem(QString(str.str().c_str()));
1518 if (pixelHistoMap.find(GLWindow->startPix[i]) != pixelHistoMap.end())
1519 pixelHistoMap[GLWindow->startPix[i]]++;
1520 else
1521 pixelHistoMap[GLWindow->startPix[i]] = 1;
1522 }
1523
1524 std::map<int, int> timeMarksMap;
1525 for (int i=0;i <NTMARK; i++)
1526 {
1527 str.str("");
1528 str << i;
1529 if (i<10) str << " ";
1530 if (i<100) str << " ";
1531 if (i<1000) str << " ";
1532 str << ": " << GLWindow->startTM[i];
1533 startTimeMarksList->addItem(QString(str.str().c_str()));
1534 if (timeMarksMap.find(GLWindow->startTM[i]) != timeMarksMap.end())
1535 timeMarksMap[GLWindow->startTM[i]]++;
1536 else
1537 timeMarksMap[GLWindow->startTM[i]] = 1;
1538 }
1539 std::map<int,int> delayMap;
1540 triggerDelayList->addItem(QString("Patch | Slice:Delay Slice:Delay..."));
1541 for (int i=0;i<NTMARK; i++)
1542 {
1543 str.str("");
1544 str << i << " | ";
1545 for (int j=0;j<GLWindow->nRoiTM;j++)
1546 {
1547 int value = GLWindow->eventData[1440*GLWindow->nRoi + i*GLWindow->nRoiTM + j];
1548 if (delayMap.find(value) != delayMap.end())
1549 delayMap[value]++;
1550 else
1551 delayMap[value] = 1;
1552 str << j << ":" << value << " ";
1553 }
1554 triggerDelayList->addItem(QString(str.str().c_str()));
1555 }
1556
1557 std::map<int,int>::iterator it = boardsHistoMap.begin();
1558 int nsamples = 0;
1559 int previousValue = it->first-10;
1560 for (unsigned int i=0;i<boardsHistoMap.size();i++)
1561 {
1562 if (previousValue != it->first-1)
1563 {
1564 xval[nsamples] = previousValue+1;
1565 yval[nsamples] = 0;
1566 nsamples++;
1567 xval[nsamples] = it->first-1;
1568 yval[nsamples] = 0;
1569 nsamples++;
1570 }
1571 xval[nsamples] = it->first;
1572 yval[nsamples] = it->second;
1573 previousValue = it->first;
1574 it++;
1575 nsamples++;
1576 xval[nsamples] = previousValue;
1577 yval[nsamples] = 0;
1578 nsamples++;
1579 if (nsamples > 4090)
1580 {
1581 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1582 break;
1583 }
1584 }
1585 xval[nsamples] = it==boardsHistoMap.begin() ? 0 : (--it)->first+1;
1586 yval[nsamples] = 0;
1587 nsamples++;
1588 // if (nsamples > 5)
1589#if QWT_VERSION < 0x060000
1590 boardsTimeHistoItem.setData(xval, yval, nsamples);
1591#else
1592 boardsTimeHistoItem.setSamples(xval, yval, nsamples);
1593#endif
1594
1595 it = pixelHistoMap.begin();
1596 nsamples = 0;
1597 previousValue = it->first-10;
1598 for (unsigned int i=0;i<pixelHistoMap.size();i++)
1599 {
1600 if (previousValue != it->first-1)
1601 {
1602 xval[nsamples] = previousValue+1;
1603 yval[nsamples] = 0;
1604 nsamples++;
1605 xval[nsamples] = it->first-1;
1606 yval[nsamples] = 0;
1607 nsamples++;
1608 }
1609 xval[nsamples] = it->first;
1610 yval[nsamples] = it->second;
1611 previousValue = it->first;
1612 it++;
1613 nsamples++;
1614 xval[nsamples] = previousValue;
1615 yval[nsamples] = 0;
1616 nsamples++;
1617 if (nsamples > 4090)
1618 {
1619 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1620 break;
1621 }
1622 }
1623 xval[nsamples] = it==pixelHistoMap.begin() ? 0 : (--it)->first+1;
1624 yval[nsamples] = 0;
1625 nsamples++;
1626// if (nsamples > 5)
1627#if QWT_VERSION < 0x060000
1628 startCellHistoItem.setData(xval, yval, nsamples);
1629#else
1630 startCellHistoItem.setSamples(xval, yval, nsamples);
1631#endif
1632
1633 it = timeMarksMap.begin();
1634 nsamples = 0;
1635 previousValue = it->first-10;
1636 for (unsigned int i=0;i<timeMarksMap.size();i++)
1637 {
1638 if (previousValue != it->first-1)
1639 {
1640 xval[nsamples] = previousValue+1;
1641 yval[nsamples] = 0;
1642 nsamples++;
1643 xval[nsamples] = it->first-1;
1644 yval[nsamples] = 0;
1645 nsamples++;
1646 }
1647 xval[nsamples] = it->first;
1648 yval[nsamples] = it->second;
1649 previousValue = it->first;
1650 it++;
1651 nsamples++;
1652 xval[nsamples] = previousValue;
1653 yval[nsamples] = 0;
1654 nsamples++;
1655 if (nsamples > 4090)
1656 {
1657 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1658 break;
1659 }
1660 }
1661 xval[nsamples] = it==timeMarksMap.begin() ? 0 : (--it)->first+1;
1662 yval[nsamples] = 0;
1663 nsamples++;
1664 // if (nsamples > 5)
1665#if QWT_VERSION < 0x060000
1666 startTimeMarkHistoItem.setData(xval, yval, nsamples);
1667#else
1668 startTimeMarkHistoItem.setSamples(xval, yval, nsamples);
1669#endif
1670
1671 it = delayMap.begin();
1672 nsamples = 0;
1673 previousValue = it->first-10;
1674 for (unsigned int i=0;i<delayMap.size();i++)
1675 {
1676 if (previousValue != it->first-1)
1677 {
1678 xval[nsamples] = previousValue+1;
1679 yval[nsamples] = 0;
1680 nsamples++;
1681 xval[nsamples] = it->first-1;
1682 yval[nsamples] = 0;
1683 nsamples++;
1684 }
1685 xval[nsamples] = it->first;
1686 yval[nsamples] = it->second;
1687 previousValue = it->first;
1688 it++;
1689 nsamples++;
1690 xval[nsamples] = previousValue;
1691 yval[nsamples] = 0;
1692 nsamples++;
1693 if (nsamples > 4090)
1694 {
1695 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1696 break;
1697 }
1698 }
1699 xval[nsamples] = it==delayMap.begin() ? 0 : (--it)->first+1;
1700 yval[nsamples] = 0;
1701 nsamples++;
1702 // if (nsamples > 5)
1703#if QWT_VERSION < 0x060000
1704 triggerDelayHistoItem.setData(xval, yval, nsamples);
1705#else
1706 triggerDelayHistoItem.setSamples(xval, yval, nsamples);
1707#endif
1708 //WAVELETS HACK
1709/* std::map<int, int> valuesHistoMap;
1710 std::map<int, int> waveletHistoMap;
1711 for (int i=0;i<1024*1440;i++)
1712 {
1713 if (valuesHistoMap.find(GLWindow->rawEventData[i]) != valuesHistoMap.end())
1714 valuesHistoMap[GLWindow->rawEventData[i]]++;
1715 else
1716 valuesHistoMap[GLWindow->rawEventData[i]] = 1;
1717 if (waveletHistoMap.find(GLWindow->waveLetArray[i]) != waveletHistoMap.end())
1718 waveletHistoMap[GLWindow->waveLetArray[i]]++;
1719 else
1720 waveletHistoMap[GLWindow->waveLetArray[i]] = 1;
1721 }
1722
1723 it = valuesHistoMap.begin();
1724 nsamples = 0;
1725 previousValue = it->first-10;
1726 cout << "Num values Original: " << valuesHistoMap.size() << endl;
1727 for (unsigned int i=0;i<valuesHistoMap.size();i++)
1728 {
1729 if (previousValue != it->first-1)
1730 {
1731 xval[nsamples] = previousValue+1;
1732 yval[nsamples] = 0;
1733 nsamples++;
1734 xval[nsamples] = it->first-1;
1735 yval[nsamples] = 0;
1736 nsamples++;
1737 }
1738 xval[nsamples] = it->first;
1739 yval[nsamples] = it->second;
1740 previousValue = it->first;
1741 it++;
1742 nsamples++;
1743 xval[nsamples] = previousValue;
1744 yval[nsamples] = 0;
1745 nsamples++;
1746 if (nsamples > 50000)
1747 {
1748 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1749 break;
1750 }
1751 }
1752 xval[nsamples] = it==valuesHistoMap.begin() ? 0 : (--it)->first+1;
1753 yval[nsamples] = 0;
1754 nsamples++;
1755 // if (nsamples > 5)
1756 #if QWT_VERSION < 0x060000
1757 triggerDelayHistoItem.setData(xval, yval, nsamples);
1758 #else
1759 triggerDelayHistoItem.setSamples(xval, yval, nsamples);
1760 #endif
1761
1762 it = waveletHistoMap.begin();
1763 nsamples = 0;
1764 previousValue = it->first-10;
1765 cout << "Num values WaveLets: " << waveletHistoMap.size() << endl;
1766 for (unsigned int i=0;i<waveletHistoMap.size();i++)
1767 {
1768 if (previousValue != it->first-1)
1769 {
1770 xval[nsamples] = previousValue+1;
1771 yval[nsamples] = 0;
1772 nsamples++;
1773 xval[nsamples] = it->first-1;
1774 yval[nsamples] = 0;
1775 nsamples++;
1776 }
1777 xval[nsamples] = it->first;
1778 yval[nsamples] = it->second;
1779 previousValue = it->first;
1780 it++;
1781 nsamples++;
1782 xval[nsamples] = previousValue;
1783 yval[nsamples] = 0;
1784 nsamples++;
1785 if (nsamples > 50000)
1786 {
1787 cout << "Error: Maximum number of samples reached for histograms. skipping what's remaining" << endl;
1788 break;
1789 }
1790 }
1791 xval[nsamples] = it==waveletHistoMap.begin() ? 0 : (--it)->first+1;
1792 yval[nsamples] = 0;
1793 nsamples++;
1794 // if (nsamples > 5)
1795 #if QWT_VERSION < 0x060000
1796 startTimeMarkHistoItem.setData(xval, yval, nsamples);
1797 #else
1798 startTimeMarkHistoItem.setSamples(xval, yval, nsamples);
1799 #endif
1800*/
1801//END OF WAVELETS HACK
1802 // startCellHistoZoom->setZoomBase(startCellHistoItem.boundingRect());
1803 QStack< QRectF > stack;
1804// QRectF cRectangle = boardsTimeHistoItem.boundingRect();
1805 stack.push(scaleBoundingRectangle(boardsTimeHistoItem.boundingRect(), 1.05f));//cRectangle);//boardsTimeHistoItem.boundingRect());
1806 boardsTimeHistoZoom->setZoomStack(stack);
1807 stack.pop();
1808 stack.push(scaleBoundingRectangle(startCellHistoItem.boundingRect(), 1.05f));
1809 startCellHistoZoom->setZoomStack(stack);
1810 stack.pop();
1811 stack.push(scaleBoundingRectangle(startTimeMarkHistoItem.boundingRect(), 1.05f));
1812 startTimeMarkHistoZoom->setZoomStack(stack);
1813 stack.pop();
1814 stack.push(scaleBoundingRectangle(triggerDelayHistoItem.boundingRect(), 1.05f));
1815 triggerDelayHistoZoom->setZoomStack(stack);
1816 stack.pop();
1817
1818 pixelChanged(GLWindow->selectedPixel);
1819}
1820//can't use a ref to rectangle, as the type must be converted first
1821QRectF UIConnector::scaleBoundingRectangle(QRectF rectangle, float scale)
1822{
1823 QPointF bottomRight = rectangle.bottomRight();
1824 QPointF topLeft = rectangle.topLeft();
1825 QPointF center = rectangle.center();
1826 return QRectF(topLeft + (topLeft-center)*(scale-1.0f), //top left
1827 bottomRight + (bottomRight-center)*(scale-1.0f)); //bottom right
1828}
1829void UIConnector::initHistograms()
1830{
1831// QwtPlot* boardsTimeHisto;
1832// QwtPlotHistogram boardsTimeHistoItem;
1833 grid1 = new QwtPlotGrid;
1834 grid1->enableX(false);
1835 grid1->enableY(true);
1836 grid1->enableXMin(false);
1837 grid1->enableYMin(false);
1838 grid1->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1839 grid1->attach(boardsTimeHisto);
1840
1841 grid2 = new QwtPlotGrid;
1842 grid2->enableX(false);
1843 grid2->enableY(true);
1844 grid2->enableXMin(false);
1845 grid2->enableYMin(false);
1846 grid2->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1847 grid2->attach(startCellsHisto);
1848
1849 grid3 = new QwtPlotGrid;
1850 grid3->enableX(false);
1851 grid3->enableY(true);
1852 grid3->enableXMin(false);
1853 grid3->enableYMin(false);
1854 grid3->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1855 grid3->attach(startTimeMarkHisto);
1856
1857 grid4 = new QwtPlotGrid;
1858 grid4->enableX(false);
1859 grid4->enableY(true);
1860 grid4->enableXMin(false);
1861 grid4->enableYMin(false);
1862 grid4->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1863 grid4->attach(pixelValueCurve);
1864
1865 grid6 = new QwtPlotGrid;
1866 grid6->enableX(false);
1867 grid6->enableY(true);
1868 grid6->enableXMin(false);
1869 grid6->enableYMin(false);
1870 grid6->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1871 grid6->attach(pixelAverageCurve);
1872
1873 grid5 = new QwtPlotGrid;
1874 grid5->enableX(false);
1875 grid5->enableY(true);
1876 grid5->enableXMin(false);
1877 grid5->enableYMin(false);
1878 grid5->setMajPen(QPen(Qt::black, 0, Qt::DotLine));
1879 grid5->attach(triggerDelayHisto);
1880
1881 boardsTimeHisto->setAutoReplot(true);
1882 startCellsHisto->setAutoReplot(true);
1883 startTimeMarkHisto->setAutoReplot(true);
1884 pixelValueCurve->setAutoReplot(true);
1885 pixelAverageCurve->setAutoReplot(true);
1886 triggerDelayHisto->setAutoReplot(true);
1887 boardsTimeHisto->setTitle("Boards time values");
1888 startCellsHisto->setTitle("Start Cell values");
1889 startTimeMarkHisto->setTitle("Start Time Marks values");
1890 pixelValueCurve->setTitle("Current pixel values");
1891 pixelAverageCurve->setTitle("Average pixels values");
1892 triggerDelayHisto->setTitle("Trigger Delays");
1893
1894 // boardsTimeHistoItem.setBrush(QBrush(Qt::red));
1895// startCellHistoItem.setBrush(QBrush(Qt::red));
1896// startTimeMarkHistoItem.setBrush(QBrush(Qt::red));
1897// triggerDelayHistoItem.setBrush(QBrush(Qt::red));
1898// pixelValueCurveItem.setBrush(QBrush(Qt::red));
1899
1900 boardsTimeHistoItem.setPen(QColor(Qt::darkGreen));
1901 boardsTimeHistoItem.setStyle(QwtPlotCurve::Steps);
1902 startCellHistoItem.setPen(QColor(Qt::darkGreen));
1903 startCellHistoItem.setStyle(QwtPlotCurve::Steps);
1904 startTimeMarkHistoItem.setPen(QColor(Qt::darkGreen));
1905 startTimeMarkHistoItem.setStyle(QwtPlotCurve::Steps);
1906 triggerDelayHistoItem.setPen(QColor(Qt::darkGreen));
1907 triggerDelayHistoItem.setStyle(QwtPlotCurve::Steps);
1908
1909 boardsTimeHistoItem.attach(boardsTimeHisto);
1910 startCellHistoItem.attach(startCellsHisto);
1911 startTimeMarkHistoItem.attach(startTimeMarkHisto);
1912 triggerDelayHistoItem.attach(triggerDelayHisto);
1913
1914 //curve
1915// pixelValueCurveItem.setSymbol(new QwtSymbol(QwtSymbol::Cross, Qt::NoBrush, QPen(Qt::black), QSize(5,5)));
1916 pixelValueCurveItem.setPen(QColor(Qt::black));
1917 pixelAverageCurveItem.setPen(QColor(Qt::black));
1918 aMeanCurveItem.setPen(QColor(Qt::darkGreen));
1919 vCorrCurveItem.setPen(QColor(Qt::red));
1920 meanCurveItem.setPen(QColor(Qt::blue));
1921 pixelValueCurveItem.setStyle(QwtPlotCurve::Lines);
1922 pixelAverageCurveItem.setStyle(QwtPlotCurve::Lines);
1923 aMeanCurveItem.setStyle(QwtPlotCurve::Lines);
1924 vCorrCurveItem.setStyle(QwtPlotCurve::Lines);
1925 meanCurveItem.setStyle(QwtPlotCurve::Lines);
1926
1927// pixelValueCurveItem.setCurveAttribute(QwtPlotCurve::Fitted);
1928 pixelValueCurveItem.attach(pixelValueCurve);
1929 pixelAverageCurveItem.attach(pixelAverageCurve);
1930// aMeanCurveItem.attach(pixelValueCurve);
1931 // vCorrCurveItem.attach(pixelValueCurve);
1932// meanCurveItem.attach(pixelValueCurve);
1933
1934 //FIXME delete these pointers with the destructor
1935 curveZoom = new QwtPlotZoomer(pixelValueCurve->canvas());
1936 curveZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1937 curveZoom->setTrackerPen(QPen(Qt::gray));
1938 averageCurveZoom = new QwtPlotZoomer(pixelAverageCurve->canvas());
1939 averageCurveZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1940 averageCurveZoom->setTrackerPen(QPen(Qt::gray));
1941
1942 boardsTimeHistoZoom = new QwtPlotZoomer(boardsTimeHisto->canvas());
1943 boardsTimeHistoZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1944 boardsTimeHistoZoom->setTrackerPen(QPen(Qt::gray));
1945
1946 startCellHistoZoom = new QwtPlotZoomer(startCellsHisto->canvas());
1947 startCellHistoZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1948 startCellHistoZoom->setTrackerPen(QPen(Qt::gray));
1949
1950 startTimeMarkHistoZoom = new QwtPlotZoomer(startTimeMarkHisto->canvas());
1951 startTimeMarkHistoZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1952 startTimeMarkHistoZoom->setTrackerPen(QPen(Qt::gray));
1953
1954 triggerDelayHistoZoom = new QwtPlotZoomer(triggerDelayHisto->canvas());
1955 triggerDelayHistoZoom->setRubberBandPen(QPen(Qt::gray, 2, Qt::DotLine));
1956 triggerDelayHistoZoom->setTrackerPen(QPen(Qt::gray));
1957
1958
1959}
1960
1961void UIConnector::pixelChanged(int pixel)
1962{
1963 RMS_window->fWhite = pixel;
1964 Mean_window->fWhite = pixel;
1965 Max_window->fWhite = pixel;
1966 PosOfMax_window->fWhite = pixel;
1967 if (pixel != -1)
1968 {
1969 RMS_window->fWhitePatch = RMS_window->pixelsPatch[pixel];
1970 Mean_window->fWhitePatch = Mean_window->pixelsPatch[pixel];
1971 Max_window->fWhitePatch = Max_window->pixelsPatch[pixel];
1972 PosOfMax_window->fWhitePatch = PosOfMax_window->pixelsPatch[pixel];
1973 }
1974 else
1975 {
1976 RMS_window->fWhitePatch = -1;
1977 Mean_window->fWhitePatch = -1;
1978 Max_window->fWhitePatch = -1;
1979 PosOfMax_window->fWhitePatch = -1;
1980 }
1981 if (pixel == -1)
1982 return;
1983 int softwarePix = pixel;
1984// if (!GLWindow->_softwareOrdering)
1985 pixel = GLWindow->hardwareMapping[pixel];
1986
1987 HwIDBox->setValue(pixel);
1988
1989 if (!GLWindow->nRoi)
1990 return;
1991
1992int currentPixel = pixel;
1993
1994 for (int i=0;i<GLWindow->nRoi;i++)
1995 {
1996 xval[i] = i;
1997 yval[i] = GLWindow->eventData[GLWindow->nRoi*currentPixel + i];
1998 }
1999
2000int realNumSamples = GLWindow->nRoi;
2001 if (GLWindow->nRoiTM != 0)
2002 {
2003 const PixelMapEntry& mapEntry = GLWindow->fPixelMap.index(softwarePix);
2004 const int pixelIdInPatch = mapEntry.pixel();
2005 const int patchId = mapEntry.patch();
2006 const int boardId = mapEntry.board();
2007 const int crateId = mapEntry.crate();
2008 if (pixelIdInPatch == 8)
2009 {
2010 int TMIndex = 0;
2011 int xIndex = GLWindow->nRoi;
2012 int arrayIndex = GLWindow->nRoi;
2013 if (GLWindow->offSetRoi < 0)
2014 TMIndex -= GLWindow->offSetRoi;
2015 if (GLWindow->offSetRoi > 0)
2016 xIndex += GLWindow->offSetRoi;
2017 for (int i=TMIndex;i<GLWindow->nRoiTM;i++, xIndex++, arrayIndex++)
2018 {
2019 xval[arrayIndex] = xIndex;
2020 yval[arrayIndex] = GLWindow->eventData[GLWindow->nRoi*1440 + GLWindow->nRoiTM*(40*crateId + 4*boardId + patchId) + i];
2021 }
2022 realNumSamples += GLWindow->nRoiTM - TMIndex;
2023 }
2024 // cout << pixelIdInPatch << " " ;
2025 }
2026
2027#if QWT_VERSION < 0x060000
2028 pixelValueCurveItem.setData(xval, yval, realNumSamples);
2029#else
2030 pixelValueCurveItem.setSamples(xval, yval, realNumSamples);
2031#endif
2032
2033//now compute the average value of all pixels
2034 currentPixel = 0;
2035 for (int i=0;i<GLWindow->nRoi;i++)
2036 yval[i] = 0;
2037 for (int j=0;j<1440;j++) {
2038 currentPixel = j;
2039 if (GLWindow->softwareMapping[j]>=GLWindow->nPixels)
2040 continue;
2041 for (int i=0;i<GLWindow->nRoi;i++)
2042 {
2043 xval[i] = i;
2044 yval[i] += GLWindow->eventData[GLWindow->nRoi*currentPixel + i];
2045 }
2046 }
2047 for (int i=0;i<GLWindow->nRoi;i++)
2048 yval[i] /= GLWindow->nPixels;
2049#if QWT_VERSION < 0x060000
2050 pixelAverageCurveItem.setData(xval, yval, GLWindow->nRoi);
2051#else
2052 pixelAverageCurveItem.setSamples(xval, yval, realNumSamples);
2053#endif
2054
2055 QStack< QRectF > stack;
2056 stack.push(scaleBoundingRectangle(pixelValueCurveItem.boundingRect(), 1.5f));
2057 curveZoom->setZoomBase(scaleBoundingRectangle(pixelValueCurveItem.boundingRect(), 1.5f));
2058 curveZoom->setZoomStack(stack);
2059 stack.pop();
2060 stack.push(scaleBoundingRectangle(pixelAverageCurveItem.boundingRect(), 1.5f));
2061 averageCurveZoom->setZoomBase(scaleBoundingRectangle(pixelAverageCurveItem.boundingRect(), 1.5f));
2062 averageCurveZoom->setZoomStack(stack);
2063 stack.pop();
2064
2065 displaySliceValue();
2066 if (autoScaleColor->isChecked())
2067 on_autoScaleColor_clicked();
2068}
2069
2070void UIConnector::on_HwIDBox_valueChanged(int)
2071{
2072 updating = true;
2073
2074 const int hwID = HwIDBox->value();
2075
2076 const int crateID = hwID/360;
2077 const int boardID = (hwID%360)/36;
2078 const int patchID = (hwID%36 )/9;
2079 const int pixelID = hwID%9;
2080
2081 SwIDBox->setValue(GLWindow->softwareMapping[hwID]);
2082
2083 crateIDBox->setValue(crateID);
2084 boardIDBox->setValue(boardID);
2085 patchIDBox->setValue(patchID);
2086 pixelIDBox->setValue(pixelID);
2087
2088 updating = false;
2089
2090 GLWindow->selectedPixel = GLWindow->softwareMapping[hwID];
2091 GLWindow->updateGL();
2092
2093 pixelChanged(GLWindow->selectedPixel);
2094}
2095
2096void UIConnector::cbpxChanged()
2097{
2098 if (updating)
2099 return;
2100
2101 const int hwid = crateIDBox->value()*360 + boardIDBox->value()*36 + patchIDBox->value()*9 + pixelIDBox->value();
2102 HwIDBox->setValue(hwid);
2103}
2104
2105void UIConnector::on_SwIDBox_valueChanged(int swid)
2106{
2107 if (updating)
2108 return;
2109
2110// if (GLWindow->_softwareOrdering)
2111// HwIDBox->setValue(swid);
2112// else
2113 HwIDBox->setValue(GLWindow->hardwareMapping[swid]);
2114}
2115
2116void UIConnector::on_autoScaleColor_clicked()
2117{
2118 if (!autoScaleColor->isChecked())
2119 {
2120 GLWindow->ss[0] = 0.496;
2121 GLWindow->ss[1] = 0.507;
2122 GLWindow->ss[2] = 0.518;
2123 GLWindow->ss[3] = 0.529;
2124 GLWindow->ss[4] = 0.540;;
2125 colorRange0->setValue(GLWindow->ss[0]);
2126 colorRange1->setValue(GLWindow->ss[1]);
2127 colorRange2->setValue(GLWindow->ss[2]);
2128 colorRange3->setValue(GLWindow->ss[3]);
2129 colorRange4->setValue(GLWindow->ss[4]);
2130 return;
2131 }
2132 if (!GLWindow->nRoi)
2133 return;
2134
2135 int start = 0;
2136 int end = 1440;
2137
2138 if (!entireCameraScale->isChecked())
2139 {
2140 start = GLWindow->selectedPixel;
2141 end = GLWindow->selectedPixel+1;
2142 if (end == 0)
2143 {
2144 start = 0;
2145 end = 1440;
2146 }
2147 }
2148
2149 int min = 100000; //real min = -2048, int_16 = -32768 to 32767
2150 int max = -100000; //real max = 2047
2151
2152 long average = 0;
2153 long numSamples = 0;
2154 int errorDetected = -1;
2155
2156 for (int i=start;i<end;i++)
2157 {
2158 if (i==863)//keep crazy pixel out of the autoscale
2159 continue;
2160
2161 if (GLWindow->softwareMapping[i]>=GLWindow->nPixels)
2162 continue;
2163
2164 for (int j=10;j<GLWindow->nRoi-50;j++)
2165 {
2166 int cValue = GLWindow->eventData[i*GLWindow->nRoi+j];
2167 if (cValue > max && cValue < 32767)
2168 max = cValue;
2169 if (cValue < min && cValue > -32768)
2170 min = cValue;
2171 if (cValue < 32767 && cValue > -32768)
2172 {
2173 average+=cValue;
2174 numSamples++;
2175 }
2176 else
2177 {
2178 errorDetected = i;
2179 }
2180// numSamples++;
2181 }
2182 }
2183 average /= numSamples;
2184 if (errorDetected != -1)
2185 {
2186 cout << "Overflow detected at pixel " << errorDetected << " (at least)" << endl;
2187 }
2188// cout << "min: " << min << " max: " << max << " average: " << average << endl;
2189 float minRange = (float)(min+(GLWindow->VALUES_SPAN/2))/(float)(GLWindow->VALUES_SPAN-1);
2190 float maxRange = (float)(max+(GLWindow->VALUES_SPAN/2))/(float)(GLWindow->VALUES_SPAN-1);
2191 float midRange = (float)(average+(GLWindow->VALUES_SPAN/2))/(float)(GLWindow->VALUES_SPAN-1);
2192 if (GLWindow->logScale)
2193 {
2194 minRange *= 9;
2195 maxRange *= 9;
2196// midRange *= 9;
2197 minRange += 1;
2198 maxRange += 1;
2199// midRange += 1;
2200 minRange = log10(minRange);
2201 maxRange = log10(maxRange);
2202// midRange = (minRange + maxRange)/2.f;
2203 midRange = log10(midRange);
2204 }
2205
2206 GLWindow->ss[0] = minRange;
2207 colorRange0->setValue(GLWindow->ss[0]);
2208 GLWindow->ss[4] = maxRange;
2209 colorRange4->setValue(GLWindow->ss[4]);
2210// GLWindow->ss[2] = midRange;
2211// range2->setValue(GLWindow->ss[2]);
2212// GLWindow->ss[1] = (minRange+midRange)/2;
2213// range1->setValue(GLWindow->ss[1]);
2214// GLWindow->ss[3] = (maxRange+midRange)/2;
2215// range3->setValue(GLWindow->ss[3]);
2216
2217 GLWindow->ss[2] = (maxRange+minRange)/2;
2218 colorRange2->setValue(GLWindow->ss[2]);
2219
2220 GLWindow->ss[1] = minRange+(maxRange-minRange)/4;
2221 colorRange1->setValue(GLWindow->ss[1]);
2222
2223 GLWindow->ss[3] = minRange+3*(maxRange-minRange)/4;
2224 colorRange3->setValue(GLWindow->ss[3]);
2225}
2226
2227void PrintUsage()
2228{
2229 cout << "\n"
2230 "The FACT++ raw data viewer.\n"
2231 "\n"
2232 "Usage: viewer [OPTIONS] [datafile.fits[.gz|.fz] [calibration.drs.fits[.gz]]]\n"
2233 " or: viewer [OPTIONS]\n";
2234 cout << endl;
2235
2236}
2237
2238void PrintHelp()
2239{
2240 cout <<
2241 "\n"
2242 << endl;
2243}
2244
2245int UIConnector::SetupConfiguration(Configuration &conf)
2246{
2247 RawDataViewer *canvas = GLWindow;
2248
2249 if (conf.Has("mappingFile"))
2250 {
2251 canvas->assignPixelMapFile(conf.GetPrefixedString("mappingFile"));
2252 }
2253 else
2254 canvas->assignPixelMapFile("");
2255
2256 if (!canvas->isFACT())
2257 {
2258 HwIDBox->setMaximum(71);
2259 SwIDBox->setMaximum(71);
2260 SwIDBox->setValue(0);
2261 HwIDBox->setValue(19);
2262 crateIDBox->setMaximum(0);
2263 crateIDBox->setEnabled(false);
2264 boardIDBox->setMaximum(1);
2265 }
2266
2267 if (conf.Has("color.range"))
2268 {
2269 vector<double> value = conf.Vec<double>("color.range");
2270 if (value.size() != 5)
2271 {
2272 cout << "Error, colorRange option should have exactly 5 double values" << endl;
2273 return -1;
2274 }
2275 for (int i=0;i<5;i++)
2276 canvas->ss[i] = value[i];
2277 }
2278
2279 if (conf.Has("color.red"))
2280 {
2281 vector<double> value = conf.Vec<double>("color.red");
2282 if (value.size() != 5)
2283 {
2284 cout << "Error, colorRed option should have exactly 5 double values" << endl;
2285 return -1;
2286 }
2287 for (int i=0;i<5;i++)
2288 canvas->rr[i] = value[i];
2289 }
2290
2291 if (conf.Has("color.green"))
2292 {
2293 vector<double> value = conf.Vec<double>("color.green");
2294 if (value.size() != 5)
2295 {
2296 cout << "Error, colorGreen option should have exactly 5 double values" << endl;
2297 return -1;
2298 }
2299 for (int i=0;i<5;i++)
2300 canvas->gg[i] = value[i];
2301 }
2302
2303 if (conf.Has("color.blue"))
2304 {
2305 vector<double> value = conf.Vec<double>("color.blue");
2306 if (value.size() != 5)
2307 {
2308 cout << "Error, colorBlue option should have exactly 5 double values" << endl;
2309 return -1;
2310 }
2311 for (int i=0;i<5;i++)
2312 canvas->bb[i] = value[i];
2313 }
2314
2315 colorRange0->setValue(canvas->ss[0]);
2316 colorRange1->setValue(canvas->ss[1]);
2317 colorRange2->setValue(canvas->ss[2]);
2318 colorRange3->setValue(canvas->ss[3]);
2319 colorRange4->setValue(canvas->ss[4]);
2320 redValue0->setValue(canvas->rr[0]);
2321 redValue1->setValue(canvas->rr[1]);
2322 redValue2->setValue(canvas->rr[2]);
2323 redValue3->setValue(canvas->rr[3]);
2324 redValue4->setValue(canvas->rr[4]);
2325 greenValue0->setValue(canvas->gg[0]);
2326 greenValue1->setValue(canvas->gg[1]);
2327 greenValue2->setValue(canvas->gg[2]);
2328 greenValue3->setValue(canvas->gg[3]);
2329 greenValue4->setValue(canvas->gg[4]);
2330 blueValue0->setValue(canvas->bb[0]);
2331 blueValue1->setValue(canvas->bb[1]);
2332 blueValue2->setValue(canvas->bb[2]);
2333 blueValue3->setValue(canvas->bb[3]);
2334 blueValue4->setValue(canvas->bb[4]);
2335
2336 if (conf.Has("drs"))
2337 {
2338 const QString qstr(conf.Get<string>("drs").c_str());
2339 calibFileSelected(qstr);
2340 }
2341
2342 if (conf.Has("file"))
2343 {
2344 const QString qstr(conf.Get<string>("file").c_str());
2345 fileSelected(qstr);
2346 }
2347
2348
2349 return 0;
2350}
2351
2352void SetupConfiguration(Configuration& conf)
2353{
2354 po::options_description configs("Raw Events Viewer Options");
2355 configs.add_options()
2356 ("color.range", vars<double>(), "Range of the display colours")
2357 ("color.red", vars<double>(), "Range of red values")
2358 ("color.green", vars<double>(), "Range of green values")
2359 ("color.blue", vars<double>(), "Range of blue values")
2360 ("file,f", var<string>(), "File to be loaded")
2361 ("drs,d", var<string>(), "DRS calibration file to be loaded")
2362 ("mappingFile", var<string>(), "Which pixels mapping file to use")
2363 ;
2364 conf.AddOptions(configs);
2365
2366 po::positional_options_description p;
2367 p.add("file", 1); // The first positional options
2368 p.add("drs", 2); // The first positional options
2369 conf.SetArgumentPositions(p);
2370
2371}
2372
2373/************************************************************
2374 * MAIN PROGRAM FUNCTION.
2375 ************************************************************/
2376int main(int argc, const char *argv[])
2377{
2378 QApplication app(argc, const_cast<char**>(argv));
2379
2380 if (!QGLFormat::hasOpenGL()) {
2381 std::cerr << "This system has no OpenGL support" << std::endl;
2382 return 1;
2383 }
2384
2385 Configuration conf(argv[0]);
2386 conf.SetPrintUsage(PrintUsage);
2387 SetupConfiguration(conf);
2388 if (!conf.DoParse(argc, argv, PrintHelp))
2389 return 2;
2390
2391 UIConnector myUi;
2392 if (myUi.SetupConfiguration(conf)<0)
2393 return 3;
2394
2395 return app.exec();
2396}
2397
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