Logo ROOT  
Reference Guide
TCandle.cxx
Go to the documentation of this file.
1// @(#)root/graf:$Id$
2// Author: Georg Troska 19/05/16
3
4/*************************************************************************
5 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12#include <stdlib.h>
13#include <iostream>
14#include "TROOT.h"
15#include "TCandle.h"
16#include "TClass.h"
17#include "TPad.h"
18#include "TRandom2.h"
19
24
26
27/** \class TCandle
28\ingroup BasicGraphics
29
30The candle plot painter class.
31
32Instances of this class are generated by the histograms painting
33classes (THistPainter and THStack) when an candle plot (box plot) is drawn.
34TCandle is the "painter class" of the box plots. Therefore it is never used
35directly to draw a candle.
36*/
37
38////////////////////////////////////////////////////////////////////////////////
39/// TCandle default constructor.
40
42{
43 fIsCalculated = 0;
44 fIsRaw = 0;
45 fPosCandleAxis = 0.;
46 fCandleWidth = 1.0;
47 fHistoWidth = 1.0;
48 fMean = 0.;
49 fMedian = 0.;
50 fMedianErr = 0;
51 fBoxUp = 0.;
52 fBoxDown = 0.;
53 fWhiskerUp = 0.;
54 fWhiskerDown = 0.;
55 fNDatapoints = 0;
56 fDismiss = 0;
57 fLogX = 0;
58 fLogY = 0;
59 fLogZ = 0;
60 fNDrawPoints = 0;
61 fNHistoPoints = 0;
62 fAxisMin = 0.;
63 fAxisMax = 0.;
65 fProj = NULL;
66 fDatapoints = 0;
67
68}
69
70////////////////////////////////////////////////////////////////////////////////
71/// TCandle constructor passing a draw-option.
72
73TCandle::TCandle(const char *opt)
74{
75 fIsCalculated = 0;
76 fIsRaw = 0;
77 fPosCandleAxis = 0.;
78 fCandleWidth = 1.0;
79 fHistoWidth = 1.0;
80 fMean = 0.;
81 fMedian = 0.;
82 fMedianErr = 0;
83 fBoxUp = 0.;
84 fBoxDown = 0.;
85 fWhiskerUp = 0.;
86 fWhiskerDown = 0.;
87 fNDatapoints = 0;
88 fDismiss = 0;
89 fLogX = 0;
90 fLogY = 0;
91 fLogZ = 0;
92 fNDrawPoints = 0;
93 fNHistoPoints = 0;
94 fAxisMin = 0.;
95 fAxisMax = 0.;
97 fProj = NULL;
98 fDatapoints = 0;
99
100
101 // Conversion necessary in order to cast from const char* to char*
102 char myopt[128];
103 strlcpy(myopt,opt,128);
104
105
106 ParseOption(myopt);
107}
108
109
110////////////////////////////////////////////////////////////////////////////////
111/// TCandle constructor for raw-data candles.
112
113TCandle::TCandle(const Double_t candlePos, const Double_t candleWidth, Long64_t n, Double_t * points)
115{
116 //Preliminary values only, need to be calculated before paint
117 fMean = 0;
118 fMedian = 0;
119 fMedianErr = 0;
120 fBoxUp = 0;
121 fBoxDown = 0;
122 fWhiskerUp = 0;
123 fWhiskerDown = 0;
124 fNDatapoints = n;
125 fIsCalculated = 0;
126 fIsRaw = true;
127 fPosCandleAxis = candlePos;
128 fCandleWidth = candleWidth;
129 fHistoWidth = candleWidth;
131 fProj = NULL;
132 fDismiss = 0;
134 fLogX = 0;
135 fLogY = 0;
136 fLogZ = 0;
137 fNDrawPoints = 0;
138 fNHistoPoints = 0;
139 fAxisMin = 0.;
140 fAxisMax = 0.;
141 sprintf(fOptionStr," ");
142}
143
144////////////////////////////////////////////////////////////////////////////////
145/// TCandle TH1 data constructor.
146
147TCandle::TCandle(const Double_t candlePos, const Double_t candleWidth, TH1D *proj)
149{
150 //Preliminary values only, need to be calculated before paint
151 fMean = 0;
152 fMedian = 0;
153 fMedianErr = 0;
154 fBoxUp = 0;
155 fBoxDown = 0;
156 fWhiskerUp = 0;
157 fWhiskerDown = 0;
158 fNDatapoints = 0;
159 fIsCalculated = 0;
160 fIsRaw = 0;
161 fPosCandleAxis = candlePos;
162 fCandleWidth = candleWidth;
163 fHistoWidth = candleWidth;
164 fDatapoints = 0;
165 fProj = proj;
166 fDismiss = 0;
168 fLogX = 0;
169 fLogY = 0;
170 fLogZ = 0;
171 fNDrawPoints = 0;
172 fNHistoPoints = 0;
173 fAxisMin = 0.;
174 fAxisMax = 0.;
175 sprintf(fOptionStr," ");
176}
177
178////////////////////////////////////////////////////////////////////////////////
179/// TCandle default destructor.
180
182 if (fIsRaw && fProj) delete fProj;
183}
184
186{
187 return fScaledCandle;
188}
189
191{
192 return fScaledViolin;
193}
194
195////////////////////////////////////////////////////////////////////////////////
196/// Static function to set fWhiskerRange, by setting whisker-range, one can force
197/// the whiskers to cover the fraction of the distribution.
198/// Set wRange between 0 and 1. Default is 1
199/// TCandle::SetWhiskerRange(0.95) will set all candle-charts to cover 95% of
200/// the distribution with the whiskers.
201/// Can only be used with the standard-whisker definition
202
204 if (wRange < 0) fWhiskerRange = 0;
205 else if (wRange > 1) fWhiskerRange = 1;
206 else fWhiskerRange = wRange;
207
208}
209
210////////////////////////////////////////////////////////////////////////////////
211/// Static function to set fBoxRange, by setting whisker-range, one can force the
212/// box of the candle-chart to cover that given fraction of the distribution.
213/// Set bRange between 0 and 1. Default is 0.5
214/// TCandle::SetBoxRange(0.68) will set all candle-charts to cover 68% of the
215/// distribution by the box
216
217void TCandle::SetBoxRange(const Double_t bRange) {
218 if (bRange < 0) fBoxRange = 0;
219 else if (bRange > 1) fBoxRange = 1;
220 else fBoxRange = bRange;
221}
222
223////////////////////////////////////////////////////////////////////////////////
224/// Static function to set scaling between candles-withs. A candle containing
225/// 100 entries with be two times wider than a candle containing 50 entries
226
228 fScaledCandle = cScale;
229}
230
231////////////////////////////////////////////////////////////////////////////////
232/// Static function to set scaling between violin-withs. A violin or histo chart
233/// with a maximum bin content to 100 will be two times as high as a violin with
234/// a maximum bin content of 50
235
237 fScaledViolin = vScale;
238}
239
240////////////////////////////////////////////////////////////////////////////////
241/// Parsing of the option-string.
242/// The option-string will be empty at the end (by-reference).
243
244int TCandle::ParseOption(char * opt) {
246 char *l;
247
248 l = strstr(opt,"CANDLE");
249 if (l) {
250 const CandleOption fallbackCandle = (CandleOption)(kBox + kMedianLine + kMeanCircle + kWhiskerAll + kAnchor);
251
252 char direction = ' ';
253 char preset = ' ';
254
255
256
257 if (l[6] >= 'A' && l[6] <= 'Z') direction = l[6];
258 if (l[6] >= '1' && l[6] <= '9') preset = l[6];
259 if (l[7] >= 'A' && l[7] <= 'Z' && preset != ' ') direction = l[7];
260 if (l[7] >= '1' && l[7] <= '9' && direction != ' ') preset = l[7];
261
262 if (direction == 'X' || direction == 'V') { /* nothing */ }
263 if (direction == 'Y' || direction == 'H') { fOption = (CandleOption)(fOption + kHorizontal); }
264 if (preset == '1') //Standard candle using old candle-definition
265 fOption = (CandleOption)(fOption + fallbackCandle);
266 else if (preset == '2') //New standard candle with better whisker definition + outlier
268 else if (preset == '3') //Like candle2 but with a fMean as a circle
270 else if (preset == '4') //Like candle3 but showing the uncertainty of the fMedian as well
272 else if (preset == '5') //Like candle2 but showing all datapoints
274 else if (preset == '6') //Like candle2 but showing all datapoints scattered
276 else if (preset != ' ') //For all other presets not implemented yet used fallback candle
277 fOption = (CandleOption)(fOption + fallbackCandle);
278
279 if (preset != ' ' && direction != ' ')
280 memcpy(l," ",8);
281 else if (preset != ' ' || direction != ' ')
282 memcpy(l," ",7);
283 else
284 memcpy(l," ",6);
285
286 Bool_t useIndivOption = false;
287
288 if (direction == ' ') direction = 'X';
289 if (preset == ' ') { // Check if the user wants to set the properties individually
290 char *brOpen = strstr(opt,"(");
291 char *brClose = strstr(opt,")");
292 char indivOption[32];
293 if (brOpen && brClose) {
294 useIndivOption = true;
295 bool isHorizontal = IsHorizontal();
296 strlcpy(indivOption, brOpen, brClose-brOpen+2); //Now the string "(....)" including brackets is in this array
297 sscanf(indivOption,"(%d)", (int*) &fOption);
298 if (isHorizontal) {fOption = (CandleOption)(fOption + kHorizontal);}
299 memcpy(brOpen," ",brClose-brOpen+1); //Cleanup
300
301 sprintf(fOptionStr,"CANDLE%c(%ld)",direction,(long)fOption);
302 } else {
303 preset = 1;
304 fOption = (CandleOption)(fOption + fallbackCandle);
305 }
306 } else {
307 sprintf(fOptionStr,"CANDLE%c%c",direction,preset);
308 }
309 //Handle option "CANDLE" ,"CANDLEX" or "CANDLEY" to behave like "CANDLEX1" or "CANDLEY1"
310 if (!useIndivOption && !fOption ) {
311 fOption = fallbackCandle;
312 sprintf(fOptionStr,"CANDLE%c2",direction);
313 }
314 }
315
316 l = strstr(opt,"VIOLIN");
317 if (l) {
319
320 char direction = ' ';
321 char preset = ' ';
322
323 if (l[6] >= 'A' && l[6] <= 'Z') direction = l[6];
324 if (l[6] >= '1' && l[6] <= '9') preset = l[6];
325 if (l[7] >= 'A' && l[7] <= 'Z' && preset != ' ') direction = l[7];
326 if (l[7] >= '1' && l[7] <= '9' && direction != ' ') preset = l[7];
327
328 if (direction == 'X' || direction == 'V') { /* nothing */ }
329 if (direction == 'Y' || direction == 'H') { fOption = (CandleOption)(fOption + kHorizontal); }
330 if (preset == '1') //Standard candle using old candle-definition
331 fOption = (CandleOption)(fOption + fallbackCandle);
332 else if (preset == '2') //New standard candle with better whisker definition + outlier
334 else if (preset != ' ') //For all other presets not implemented yet used fallback candle
335 fOption = (CandleOption)(fOption + fallbackCandle);
336
337 if (preset != ' ' && direction != ' ')
338 memcpy(l," ",8);
339 else if (preset != ' ' || direction != ' ')
340 memcpy(l," ",7);
341 else
342 memcpy(l," ",6);
343
344 Bool_t useIndivOption = false;
345
346 if (direction == ' ') direction = 'X';
347 if (preset == ' ') { // Check if the user wants to set the properties individually
348 char *brOpen = strstr(opt,"(");
349 char *brClose = strstr(opt,")");
350 char indivOption[32];
351 if (brOpen && brClose) {
352 useIndivOption = true;
353 bool isHorizontal = IsHorizontal();
354 strlcpy(indivOption, brOpen, brClose-brOpen +2); //Now the string "(....)" including brackets is in this array
355 sscanf(indivOption,"(%d)", (int*) &fOption);
356 if (isHorizontal) {fOption = (CandleOption)(fOption + kHorizontal);}
357 memcpy(brOpen," ",brClose-brOpen+1); //Cleanup
358
359 sprintf(fOptionStr,"VIOLIN%c(%ld)",direction,(long)fOption);
360
361 } else {
362 preset = 1;
363 fOption = (CandleOption)(fOption + fallbackCandle);
364 }
365 } else {
366 sprintf(fOptionStr,"VIOLIN%c%c",direction,preset);
367 }
368 //Handle option "VIOLIN" ,"VIOLINX" or "VIOLINY" to behave like "VIOLINX1" or "VIOLINY1"
369 if (!useIndivOption && !fOption ) {
370 fOption = fallbackCandle;
371 sprintf(fOptionStr,"VIOLIN%c1",direction);
372 }
373 }
374
375 fIsCalculated = false;
376
377 return fOption;
378
379}
380
381////////////////////////////////////////////////////////////////////////////////
382/// Calculates all values needed by the candle definition depending on the
383/// candle options.
384
386 //Reset everything
387 fNDrawPoints = 0;
388 fNHistoPoints = 0;
389
390 Bool_t swapXY = IsOption(kHorizontal);
391 Bool_t doLogY = (!(swapXY) && fLogY) || (swapXY && fLogX);
392 Bool_t doLogX = (!(swapXY) && fLogX) || (swapXY && fLogY);
393 Bool_t doLogZ = fLogZ;
394
395 //Will be min and max values of raw-data
396 Double_t min = 1e15;
397 Double_t max = -1e15;
398
399 // Determining the quantiles
400 Double_t *prob = new Double_t[5];
401
402 if (fWhiskerRange >= 1) {
403 prob[0] = 1e-15;
404 prob[4] = 1-1e-15;
405 } else {
406 prob[0] = 0.5 - fWhiskerRange/2.;
407 prob[4] = 0.5 + fWhiskerRange/2.;
408 }
409
410
411 if (fBoxRange >= 1) {
412 prob[1] = 1E-14;
413 prob[3] = 1-1E-14;
414 } else {
415 prob[1] = 0.5 - fBoxRange/2.;
416 prob[3] = 0.5 + fBoxRange/2.;
417 }
418
419 prob[2]=0.5;
420 Double_t *quantiles = new Double_t[5];
421 quantiles[0]=0.; quantiles[1]=0.; quantiles[2] = 0.; quantiles[3] = 0.; quantiles[4] = 0.;
422 if (!fIsRaw && fProj) { //Need a calculation for a projected histo
423 if (((IsOption(kHistoLeft)) || (IsOption(kHistoRight)) || (IsOption(kHistoViolin))) && fProj->GetNbinsX() > 500) {
424 // When using the histooption the number of bins of the projection is
425 // limited because of the array space defined by kNMAXPOINTS.
426 // So the histo is rebinned, that it can be displayed at any time.
427 // Finer granularity is not useful anyhow
428 int divideBy = ((fProj->GetNbinsX() - 1)/((kNMAXPOINTS-10)/4))+1;
429 fProj->RebinX(divideBy);
430 }
431 fProj->GetQuantiles(5, quantiles, prob);
432 } else { //Need a calculation for a raw-data candle
434 }
435
436 // Check if the quantiles are valid, seems the under- and overflow is taken
437 // into account as well, we need to ignore this!
438 if (quantiles[0] >= quantiles[4] ||
439 quantiles[1] >= quantiles[3]) {
440 delete [] prob;
441 delete [] quantiles;
442 return;
443 }
444
445 // Definition of the candle in the standard case
446 fBoxUp = quantiles[3];
447 fBoxDown = quantiles[1];
448 fWhiskerUp = quantiles[4]; //Standard case
449 fWhiskerDown = quantiles[0]; //Standard case
450 fMedian = quantiles[2];
452 Int_t nOutliers = 0;
453
454 if (IsOption(kWhisker15)) { // Improved whisker definition, with 1.5*iqr
455 if (!fIsRaw && fProj) { //Need a calculation for a projected histo
456 int bin = fProj->FindBin(fBoxDown-1.5*iqr);
457 // extending only to the lowest data value within this range
458 while (fProj->GetBinContent(bin) == 0 && bin <= fProj->GetNbinsX()) bin++;
460
461 bin = fProj->FindBin(fBoxUp+1.5*iqr);
462 while (fProj->GetBinContent(bin) == 0 && bin >= 1) bin--;
464 } else { //Need a calculation for a raw-data candle
467
468 //Need to find highest value up to 1.5*iqr from the BoxUp-pos, and the lowest value up to -1.5*iqr from the boxLow-pos
469 for (Long64_t i = 0; i < fNDatapoints; ++i) {
470 Double_t myData = fDatapoints[i];
471 if (myData > fWhiskerUp && myData <= fBoxUp + 1.5*iqr) fWhiskerUp = myData;
472 if (myData < fWhiskerDown && myData >= fBoxDown - 1.5*iqr) fWhiskerDown = myData;
473 }
474 }
475 }
476
477 if (!fIsRaw && fProj) { //Need a calculation for a projected histo
478 fMean = fProj->GetMean();
479 fMedianErr = 1.57*iqr/sqrt(fProj->GetEntries());
482 } else { //Need a calculation for a raw-data candle
483 //Calculate the Mean
484 fMean = 0;
485 for (Long64_t i = 0; i < fNDatapoints; ++i) {
486 fMean += fDatapoints[i];
487 if (fDatapoints[i] < min) min = fDatapoints[i];
488 if (fDatapoints[i] > max) max = fDatapoints[i];
489 if (fDatapoints[i] < fWhiskerDown || fDatapoints[i] > fWhiskerUp) nOutliers++;
490 }
492 fMedianErr = 1.57*iqr/sqrt(fNDatapoints);
493 }
494
495 delete [] prob;
496 delete [] quantiles;
497
498 //Doing the outliers and other single points to show
499 if (GetCandleOption(5) > 0) { //Draw outliers
500 TRandom2 random;
501 const int maxOutliers = kNMAXPOINTS;
502 Double_t myScale = 1.;
503 if (!fIsRaw && fProj) { //Need a calculation for a projected histo
504 if (fProj->GetEntries() > maxOutliers/2) myScale = fProj->GetEntries()/(maxOutliers/2.);
505 fNDrawPoints = 0;
506 for (int bin = 0; bin < fProj->GetNbinsX(); bin++) {
507 // Either show them only outside the whiskers, or all of them
508 if (fProj->GetBinContent(bin) > 0 && (fProj->GetBinCenter(bin) < fWhiskerDown || fProj->GetBinCenter(bin) > fWhiskerUp || (GetCandleOption(5) > 1)) ) {
509 Double_t scaledBinContent = fProj->GetBinContent(bin)/myScale;
510 if (scaledBinContent >0 && scaledBinContent < 1) scaledBinContent = 1; //Outliers have a typical bin content between 0 and 1, when scaling they would disappear
511 for (int j=0; j < (int)scaledBinContent; j++) {
512 if (fNDrawPoints > maxOutliers) break;
513 if (IsOption(kPointsAllScat)) { //Draw outliers and "all" values scattered
516 } else { //Draw them in the "candle line"
518 if ((int)scaledBinContent == 1) //If there is only one datapoint available put it in the middle of the bin
520 else //If there is more than one datapoint scatter it along the bin, otherwise all marker would be (invisibly) stacked on top of each other
522 }
523 if (swapXY) {
524 //Swap X and Y
525 Double_t keepCurrently;
526 keepCurrently = fDrawPointsX[fNDrawPoints];
528 fDrawPointsY[fNDrawPoints] = keepCurrently;
529 }
530 // Continue fMeans, that fNDrawPoints is not increased, so that value will not be shown
531 if (doLogX) {
533 }
534 if (doLogY) {
536 }
537 fNDrawPoints++;
538 }
539 }
540 if (fNDrawPoints > maxOutliers) { //Should never happen, due to myScale!!!
541 Error ("PaintCandlePlot","Not possible to draw all outliers.");
542 break;
543 }
544 }
545 } else { //Raw data candle
546 //If only outliers are shown, calculate myScale only based on nOutliers, use fNDatapoints (all) instead
547 if (IsOption(kPointsOutliers) && nOutliers > maxOutliers/2) {
548 myScale = nOutliers/(maxOutliers/2.);
549 } else {
550 if (fNDatapoints > maxOutliers/2) myScale = fNDatapoints/(maxOutliers/2.);
551 }
552 fNDrawPoints = 0;
553 for (int i = 0; i < fNDatapoints; i++ ) {
554 Double_t myData = fDatapoints[i];
555 Double_t maxScatter = (fWhiskerUp-fWhiskerDown)/100;
556 if (!(i % (int) myScale == 0 )) continue; //If the amount of data is too large take only every 2nd or 3rd to reduce the amount
557 // Either show them only outside the whiskers, or all of them
558 if (myData < fWhiskerDown || myData > fWhiskerUp || (GetCandleOption(5) > 1)) {
559 if (IsOption(kPointsAllScat)) { //Draw outliers and "all" values scattered
561 fDrawPointsY[fNDrawPoints] = myData + (random.Rndm() - 0.5)*maxScatter; //random +- 0.5 of candle-height
562 } else { //Draw them in the "candle line"
564 fDrawPointsY[fNDrawPoints] = myData + (random.Rndm() - 0.5)*maxScatter; //random +- 0.5 of candle-height
565 }
566 if (swapXY) {
567 //Swap X and Y
568 Double_t keepCurrently;
569 keepCurrently = fDrawPointsX[fNDrawPoints];
571 fDrawPointsY[fNDrawPoints] = keepCurrently;
572 }
573 // Continue fMeans, that fNDrawPoints is not increased, so that value will not be shown
574 if (doLogX) {
576 else continue;
577 }
578 if (doLogY) {
580 else continue;
581 }
582 fNDrawPoints++;
583 if (fNDrawPoints > maxOutliers) { //Should never happen, due to myScale!!!
584 Error ("PaintCandlePlotRaw","Not possible to draw all outliers.");
585 break;
586 }
587 }
588 }
589 }
590 }
592 //We are starting with kHistoRight, left will be modified from right later
593 if (fIsRaw) { //This is a raw-data candle
594 if (!fProj) {
595 fProj = new TH1D("hpa","hpa",100,min,max+0.0001*(max-min));
596 for (Long64_t i = 0; i < fNDatapoints; ++i) {
598 }
599 }
600 }
601
602 fNHistoPoints = 0;
603 Double_t maxContent = fProj->GetMaximum();
604 Double_t maxHistoHeight = fHistoWidth;
605 if (IsOption(kHistoViolin)) maxHistoHeight *= 0.5;
606
607 bool isFirst = true;
608 int lastNonZero = 0;
609 for (int bin = 1; bin <= fProj->GetNbinsX(); bin++) {
610 if (isFirst) {
611 if (fProj->GetBinContent(bin) > 0) {
614 if (doLogX) {
616 }
617 if (doLogY) {
619 }
621 isFirst = false;
622 } else {
623 continue;
624 }
625 }
626
627 Double_t myBinValue = fProj->GetBinContent(bin);
628 if (doLogZ) {
629 if (myBinValue > 0) myBinValue = TMath::Log10(myBinValue); else myBinValue = 0;
630 }
631 fHistoPointsX[fNHistoPoints] = fPosCandleAxis + myBinValue/maxContent*maxHistoHeight;
634 fHistoPointsX[fNHistoPoints] = fPosCandleAxis + myBinValue/maxContent*maxHistoHeight;
636 if (doLogX) {
639 }
640 if (doLogY) {
643 }
644
646 if (fProj->GetBinContent(bin) > 0) lastNonZero = fNHistoPoints;
647 }
648
651 fNHistoPoints = lastNonZero+1; //+1 so that the line down to 0 is added as well
652
653 if (IsOption(kHistoLeft)) {
654 for (int i = 0; i < fNHistoPoints; i++) {
656 }
657 }
658 if (IsOption(kHistoViolin)) {
659 for (int i = 0; i < fNHistoPoints; i++) {
662 }
663 fNHistoPoints *= 2;
664 }
665 }
666
667
668 fIsCalculated = true;
669}
670
671////////////////////////////////////////////////////////////////////////////////
672/// Paint one candle with its current attributes.
673
675{
676 //If something was changed before, we need to recalculate some values
677 if (!fIsCalculated) Calculate();
678
679 // Save the attributes as they were set originally
680 Style_t saveLine = GetLineStyle();
681 Style_t saveMarker = GetMarkerStyle();
682 Style_t saveFillStyle = GetFillStyle();
683 Style_t saveFillColor = GetFillColor();
684 Style_t saveLineColor = GetLineColor();
685
687 Double_t dimRight = fPosCandleAxis+0.5*fCandleWidth;
688
692
693 Bool_t swapXY = IsOption(kHorizontal);
694 Bool_t doLogY = (!(swapXY) && fLogY) || (swapXY && fLogX);
695 Bool_t doLogX = (!(swapXY) && fLogX) || (swapXY && fLogY);
696
697 // From now on this is real painting only, no calculations anymore
698
700 SetLineColor(saveFillColor);
703 SetLineColor(saveLineColor);
705 }
706
707
709 if (IsOption(kHistoZeroIndicator) && (saveFillStyle != 0)) {
710 SetLineColor(saveFillColor);
712 }
713 if (!swapXY) {
716 } else {
719 }
720 if (IsOption(kHistoZeroIndicator) && (saveFillStyle != 0)) {
721 SetLineColor(saveLineColor);
723 }
724 }
725
726 if (IsOption(kBox)) { // Draw a simple box
727 if (IsOption(kMedianNotched)) { // Check if we have to draw a box with notches
728 Double_t x[] = {dimLeft, dimLeft, dimLeft+fCandleWidth/3., dimLeft, dimLeft, dimRight,
729 dimRight, dimRight-fCandleWidth/3., dimRight, dimRight, dimLeft};
732 PaintBox(11, x, y, swapXY);
733 } else { // draw a simple box
734 Double_t x[] = {dimLeft, dimLeft, dimRight, dimRight, dimLeft};
736 PaintBox(5, x, y, swapXY);
737 }
738 }
739
740 if (IsOption(kAnchor)) { // Draw the anchor line
741 PaintLine(dimLeft, fWhiskerUp, dimRight, fWhiskerUp, swapXY);
742 PaintLine(dimLeft, fWhiskerDown, dimRight, fWhiskerDown, swapXY);
743 }
744
745 if (IsOption(kWhiskerAll) && !IsOption(kHistoZeroIndicator)) { // Whiskers are dashed
746 SetLineStyle(2);
750 SetLineStyle(saveLine);
752 } else if ((IsOption(kWhiskerAll) && IsOption(kHistoZeroIndicator)) || IsOption(kWhisker15) ) { // Whiskers without dashing, better whisker definition, or forced when using zero line
755 }
756
757 if (IsOption(kMedianLine)) { // Paint fMedian as a line
758 PaintLine(dimLeft, fMedian, dimRight, fMedian, swapXY);
759 } else if (IsOption(kMedianNotched)) { // Paint fMedian as a line (using notches, fMedian line is shorter)
760 PaintLine(dimLeft+fCandleWidth/3, fMedian, dimRight-fCandleWidth/3., fMedian, swapXY);
761 } else if (IsOption(kMedianCircle)) { // Paint fMedian circle
762 Double_t myMedianX[1], myMedianY[1];
763 if (!swapXY) {
764 myMedianX[0] = fPosCandleAxis;
765 myMedianY[0] = fMedian;
766 } else {
767 myMedianX[0] = fMedian;
768 myMedianY[0] = fPosCandleAxis;
769 }
770
771 Bool_t isValid = true;
772 if (doLogX) {
773 if (myMedianX[0] > 0) myMedianX[0] = TMath::Log10(myMedianX[0]); else isValid = false;
774 }
775 if (doLogY) {
776 if (myMedianY[0] > 0) myMedianY[0] = TMath::Log10(myMedianY[0]); else isValid = false;
777 }
778
779 SetMarkerStyle(24);
781
782 if (isValid) gPad->PaintPolyMarker(1,myMedianX,myMedianY); // A circle for the fMedian
783
784 SetMarkerStyle(saveMarker);
786
787 }
788
789 if (IsOption(kMeanCircle)) { // Paint fMean as a circle
790 Double_t myMeanX[1], myMeanY[1];
791 if (!swapXY) {
792 myMeanX[0] = fPosCandleAxis;
793 myMeanY[0] = fMean;
794 } else {
795 myMeanX[0] = fMean;
796 myMeanY[0] = fPosCandleAxis;
797 }
798
799 Bool_t isValid = true;
800 if (doLogX) {
801 if (myMeanX[0] > 0) myMeanX[0] = TMath::Log10(myMeanX[0]); else isValid = false;
802 }
803 if (doLogY) {
804 if (myMeanY[0] > 0) myMeanY[0] = TMath::Log10(myMeanY[0]); else isValid = false;
805 }
806
807 SetMarkerStyle(24);
809
810 if (isValid) gPad->PaintPolyMarker(1,myMeanX,myMeanY); // A circle for the fMean
811
812 SetMarkerStyle(saveMarker);
814
815 } else if (IsOption(kMeanLine)) { // Paint fMean as a dashed line
816 SetLineStyle(2);
818
819 PaintLine(dimLeft, fMean, dimRight, fMean, swapXY);
820 SetLineStyle(saveLine);
822
823 }
824
825 if (IsOption(kAnchor)) { //Draw standard anchor
826 PaintLine(dimLeft, fWhiskerDown, dimRight, fWhiskerDown, swapXY); // the lower anchor line
827 PaintLine(dimLeft, fWhiskerUp, dimRight, fWhiskerUp, swapXY); // the upper anchor line
828 }
829
830 // This is a bit complex. All values here are handled as outliers. Usually
831 // only the datapoints outside the whiskers are shown.
832 // One can show them in one row as crosses, or scattered randomly. If activated
833 // all datapoint are shown in the same way
834
835 if (GetCandleOption(5) > 0) { //Draw outliers
836 if (IsOption(kPointsAllScat)) { //Draw outliers and "all" values scattered
838 } else {
840 }
842 gPad->PaintPolyMarker(fNDrawPoints,fDrawPointsX, fDrawPointsY);
843 }
844}
845
846////////////////////////////////////////////////////////////////////////////////
847/// Return true is this option is activated in fOption
848
850 long myOpt = 9;
851 int pos = 0;
852 for (pos = 0; pos < 16; pos++) {
853 if (myOpt > opt) break;
854 else myOpt *=10;
855 }
856 myOpt /= 9;
857 int thisOpt = GetCandleOption(pos);
858
859 return ((thisOpt * myOpt) == opt);
860}
861
862////////////////////////////////////////////////////////////////////////////////
863/// Paint a box for candle.
864
866{
867 Bool_t doLogY = (!(swapXY) && fLogY) || (swapXY && fLogX);
868 Bool_t doLogX = (!(swapXY) && fLogX) || (swapXY && fLogY);
869 if (doLogY) {
870 for (int i=0; i<nPoints; i++) {
871 if (y[i] > 0) y[i] = TMath::Log10(y[i]);
872 else return;
873 }
874 }
875 if (doLogX) {
876 for (int i=0; i<nPoints; i++) {
877 if (x[i] > 0) x[i] = TMath::Log10(x[i]);
878 else return;
879 }
880 }
881 if (!swapXY) {
882 gPad->PaintFillArea(nPoints, x, y);
883 gPad->PaintPolyLine(nPoints, x, y);
884 } else {
885 gPad->PaintFillArea(nPoints, y, x);
886 gPad->PaintPolyLine(nPoints, y, x);
887 }
888}
889
890////////////////////////////////////////////////////////////////////////////////
891/// Paint a line for candle.
892
894{
895 Bool_t doLogY = (!(swapXY) && fLogY) || (swapXY && fLogX);
896 Bool_t doLogX = (!(swapXY) && fLogX) || (swapXY && fLogY);
897 if (doLogY) {
898 if (y1 > 0) y1 = TMath::Log10(y1); else return;
899 if (y2 > 0) y2 = TMath::Log10(y2); else return;
900 }
901 if (doLogX) {
902 if (x1 > 0) x1 = TMath::Log10(x1); else return;
903 if (x2 > 0) x2 = TMath::Log10(x2); else return;
904 }
905 if (!swapXY) {
906 gPad->PaintLine(x1, y1, x2, y2);
907 } else {
908 gPad->PaintLine(y1, x1, y2, x2);
909 }
910}
911
912////////////////////////////////////////////////////////////////////////////////
913/// Stream an object of class TCandle.
914
915void TCandle::Streamer(TBuffer &R__b)
916{
917 if (R__b.IsReading()) {
918 UInt_t R__s, R__c;
919 Version_t R__v = R__b.ReadVersion(&R__s, &R__c);
920 if (R__v > 3) {
921 R__b.ReadClassBuffer(TCandle::Class(), this, R__v, R__s, R__c);
922 return;
923 }
924 } else {
925 R__b.WriteClassBuffer(TCandle::Class(),this);
926 }
927}
928
929////////////////////////////////////////////////////////////////////////////////
930/// The coordinates in the TParallelCoordVar-class are in Pad-Coordinates, so we need to convert them
931
932void TCandle::ConvertToPadCoords(Double_t minAxis, Double_t maxAxis, Double_t axisMinCoord, Double_t axisMaxCoord)
933{
934 if (!fIsCalculated) Calculate();
935 Double_t a,b;
936 if (fLogY) {
937 a = TMath::Log10(minAxis);
938 b = TMath::Log10(maxAxis/minAxis);
939 } else {
940 a = minAxis;
941 b = maxAxis-minAxis;
942 }
943
944 fMean = axisMinCoord + ((fMean-a)/b)*(axisMaxCoord-axisMinCoord);
945 fMedian = axisMinCoord + ((fMedian-a)/b)*(axisMaxCoord-axisMinCoord);
946 fMedianErr = axisMinCoord + ((fMedianErr-a)/b)*(axisMaxCoord-axisMinCoord);
947 fBoxUp = axisMinCoord + ((fBoxUp-a)/b)*(axisMaxCoord-axisMinCoord);
948 fBoxDown = axisMinCoord + ((fBoxDown-a)/b)*(axisMaxCoord-axisMinCoord);
949 fWhiskerUp = axisMinCoord + ((fWhiskerUp-a)/b)*(axisMaxCoord-axisMinCoord);
950 fWhiskerDown = axisMinCoord + ((fWhiskerDown-a)/b)*(axisMaxCoord-axisMinCoord);
951
952 for (int i = 0; i < fNDrawPoints; i++) {
953 fDrawPointsY[i] = axisMinCoord + ((fDrawPointsY[i]-a)/b)*(axisMaxCoord-axisMinCoord);
954 }
955 for (int i = 0; i < fNHistoPoints; i++) {
956 fHistoPointsY[i] = axisMinCoord + ((fHistoPointsY[i]-a)/b)*(axisMaxCoord-axisMinCoord);
957 }
958}
void Class()
Definition: Class.C:29
#define b(i)
Definition: RSha256.hxx:100
#define e(i)
Definition: RSha256.hxx:103
static const double x2[5]
static const double x1[5]
int Int_t
Definition: RtypesCore.h:41
short Version_t
Definition: RtypesCore.h:61
unsigned int UInt_t
Definition: RtypesCore.h:42
const Bool_t kFALSE
Definition: RtypesCore.h:88
bool Bool_t
Definition: RtypesCore.h:59
double Double_t
Definition: RtypesCore.h:55
long long Long64_t
Definition: RtypesCore.h:69
short Style_t
Definition: RtypesCore.h:76
const char Option_t
Definition: RtypesCore.h:62
#define ClassImp(name)
Definition: Rtypes.h:365
const Int_t kNMAXPOINTS
Definition: TCandle.h:23
void Error(const char *location, const char *msgfmt,...)
double sqrt(double)
#define gPad
Definition: TVirtualPad.h:286
point * points
Definition: X3DBuffer.c:22
Fill Area Attributes class.
Definition: TAttFill.h:19
virtual Color_t GetFillColor() const
Return the fill area color.
Definition: TAttFill.h:30
virtual Style_t GetFillStyle() const
Return the fill area style.
Definition: TAttFill.h:31
virtual void Modify()
Change current fill area attributes if necessary.
Definition: TAttFill.cxx:211
Line Attributes class.
Definition: TAttLine.h:18
virtual Color_t GetLineColor() const
Return the line color.
Definition: TAttLine.h:33
virtual void SetLineStyle(Style_t lstyle)
Set the line style.
Definition: TAttLine.h:42
virtual void SetLineColor(Color_t lcolor)
Set the line color.
Definition: TAttLine.h:40
virtual Style_t GetLineStyle() const
Return the line style.
Definition: TAttLine.h:34
virtual void Modify()
Change current line attributes if necessary.
Definition: TAttLine.cxx:242
Marker Attributes class.
Definition: TAttMarker.h:19
virtual void Modify()
Change current marker attributes if necessary.
Definition: TAttMarker.cxx:220
virtual Style_t GetMarkerStyle() const
Return the marker style.
Definition: TAttMarker.h:32
virtual void SetMarkerStyle(Style_t mstyle=1)
Set the marker style.
Definition: TAttMarker.h:40
Double_t GetXmax() const
Definition: TAxis.h:134
Double_t GetXmin() const
Definition: TAxis.h:133
Buffer base class used for serializing objects.
Definition: TBuffer.h:42
virtual Int_t ReadClassBuffer(const TClass *cl, void *pointer, const TClass *onfile_class=0)=0
virtual Version_t ReadVersion(UInt_t *start=0, UInt_t *bcnt=0, const TClass *cl=0)=0
Bool_t IsReading() const
Definition: TBuffer.h:85
virtual Int_t WriteClassBuffer(const TClass *cl, void *pointer)=0
The candle plot painter class.
Definition: TCandle.h:25
Double_t fMedian
Position of the median.
Definition: TCandle.h:62
static Double_t fBoxRange
The fraction which is covered by the box (0 < x < 1), default 0.5.
Definition: TCandle.h:90
CandleOption
Definition: TCandle.h:28
@ kHorizontal
If this bit is not set it is vertical.
Definition: TCandle.h:46
@ kAnchor
Definition: TCandle.h:38
@ kWhiskerAll
Definition: TCandle.h:36
@ kMeanCircle
Definition: TCandle.h:35
@ kHistoZeroIndicator
Definition: TCandle.h:45
@ kPointsAllScat
Definition: TCandle.h:41
@ kNoOption
Definition: TCandle.h:29
@ kHistoRight
Definition: TCandle.h:43
@ kMeanLine
Definition: TCandle.h:34
@ kBox
Definition: TCandle.h:30
@ kWhisker15
Definition: TCandle.h:37
@ kMedianLine
Definition: TCandle.h:31
@ kPointsAll
Definition: TCandle.h:40
@ kPointsOutliers
Definition: TCandle.h:39
@ kMedianNotched
Definition: TCandle.h:32
@ kHistoLeft
Definition: TCandle.h:42
@ kMedianCircle
Definition: TCandle.h:33
@ kHistoViolin
Definition: TCandle.h:44
TH1D * fProj
Definition: TCandle.h:54
static void SetScaledViolin(const Bool_t vScale=true)
Static function to set scaling between violin-withs.
Definition: TCandle.cxx:236
bool fIsRaw
0: for TH1 projection, 1: using raw data
Definition: TCandle.h:52
static Double_t fWhiskerRange
The fraction which is covered by the whiskers (0 < x < 1), default 1.
Definition: TCandle.h:89
CandleOption fOption
Setting the style of the candle.
Definition: TCandle.h:80
Double_t fAxisMax
The Maximum which is visible by the axis (used by zero indicator)
Definition: TCandle.h:87
int fLogZ
make the candle appear logz-like
Definition: TCandle.h:84
bool IsOption(CandleOption opt)
Return true is this option is activated in fOption.
Definition: TCandle.cxx:849
Double_t fPosCandleAxis
x-pos for a vertical candle
Definition: TCandle.h:57
int fNHistoPoints
Definition: TCandle.h:78
Double_t fMean
Position of the mean.
Definition: TCandle.h:61
Double_t fWhiskerDown
Position of the lower whisker end.
Definition: TCandle.h:67
Long64_t fNDrawPoints
max number of outliers or other point to be shown
Definition: TCandle.h:74
virtual void Paint(Option_t *option="")
Paint one candle with its current attributes.
Definition: TCandle.cxx:674
Double_t fAxisMin
The Minimum which is visible by the axis (used by zero indicator)
Definition: TCandle.h:86
void ConvertToPadCoords(Double_t minAxis, Double_t maxAxis, Double_t axisMinCoord, Double_t axisMaxCoord)
The coordinates in the TParallelCoordVar-class are in Pad-Coordinates, so we need to convert them.
Definition: TCandle.cxx:932
Double_t fDrawPointsY[kNMAXPOINTS]
y-coord for every outlier, ..
Definition: TCandle.h:73
Bool_t IsViolinScaled()
Definition: TCandle.cxx:190
Long64_t fNDatapoints
Number of Datapoints within this candle.
Definition: TCandle.h:70
Double_t fHistoPointsY[kNMAXPOINTS]
y-coord for the polyline of the histo
Definition: TCandle.h:77
Bool_t IsHorizontal()
Definition: TCandle.h:116
Double_t fHistoPointsX[kNMAXPOINTS]
x-coord for the polyline of the histo
Definition: TCandle.h:76
static void SetScaledCandle(const Bool_t cScale=true)
Static function to set scaling between candles-withs.
Definition: TCandle.cxx:227
Double_t * fDatapoints
position of all Datapoints within this candle
Definition: TCandle.h:69
int ParseOption(char *optin)
Parsing of the option-string.
Definition: TCandle.cxx:244
bool fDismiss
True if the candle cannot be painted.
Definition: TCandle.h:55
Double_t fWhiskerUp
Position of the upper whisker end.
Definition: TCandle.h:66
static void SetBoxRange(const Double_t bRange)
Static function to set fBoxRange, by setting whisker-range, one can force the box of the candle-chart...
Definition: TCandle.cxx:217
static Bool_t fScaledViolin
shall the violin or histos be scaled to each other by the maximum height?
Definition: TCandle.h:93
int fLogY
make the candle appear logy-like
Definition: TCandle.h:83
Double_t fMedianErr
The size of the notch.
Definition: TCandle.h:63
void PaintBox(Int_t nPoints, Double_t *x, Double_t *y, Bool_t swapXY)
Paint a box for candle.
Definition: TCandle.cxx:865
Double_t fBoxUp
Position of the upper box end.
Definition: TCandle.h:64
virtual ~TCandle()
TCandle default destructor.
Definition: TCandle.cxx:181
int fLogX
make the candle appear logx-like
Definition: TCandle.h:82
Double_t fDrawPointsX[kNMAXPOINTS]
x-coord for every outlier, ..
Definition: TCandle.h:72
TCandle()
TCandle default constructor.
Definition: TCandle.cxx:41
Double_t fBoxDown
Position of the lower box end.
Definition: TCandle.h:65
void Calculate()
Calculates all values needed by the candle definition depending on the candle options.
Definition: TCandle.cxx:385
void PaintLine(Double_t x1, Double_t y1, Double_t x2, Double_t y2, Bool_t swapXY)
Paint a line for candle.
Definition: TCandle.cxx:893
Bool_t IsCandleScaled()
Definition: TCandle.cxx:185
Double_t fHistoWidth
The histo width (the height of the max bin)
Definition: TCandle.h:59
int GetCandleOption(const int pos)
Definition: TCandle.h:97
bool fIsCalculated
Definition: TCandle.h:53
static void SetWhiskerRange(const Double_t wRange)
Static function to set fWhiskerRange, by setting whisker-range, one can force the whiskers to cover t...
Definition: TCandle.cxx:203
static Bool_t fScaledCandle
shall the box-width be scaled to each other by the integral of a box?
Definition: TCandle.h:92
char fOptionStr[128]
String to draw the candle.
Definition: TCandle.h:81
Double_t fCandleWidth
The candle width.
Definition: TCandle.h:58
1-D histogram with a double per channel (see TH1 documentation)}
Definition: TH1.h:614
virtual Double_t GetBinCenter(Int_t bin) const
Return bin center for 1D histogram.
Definition: TH1.cxx:8585
virtual Int_t GetQuantiles(Int_t nprobSum, Double_t *q, const Double_t *probSum=0)
Compute Quantiles for this histogram Quantile x_q of a probability distribution Function F is defined...
Definition: TH1.cxx:4451
virtual Double_t GetMean(Int_t axis=1) const
For axis = 1,2 or 3 returns the mean value of the histogram along X,Y or Z axis.
Definition: TH1.cxx:7074
TAxis * GetXaxis()
Get the behaviour adopted by the object about the statoverflows. See EStatOverflows for more informat...
Definition: TH1.h:316
virtual Double_t GetMaximum(Double_t maxval=FLT_MAX) const
Return maximum value smaller than maxval of bins in the range, unless the value has been overridden b...
Definition: TH1.cxx:7994
virtual Int_t GetNbinsX() const
Definition: TH1.h:292
virtual Int_t Fill(Double_t x)
Increment bin with abscissa X by 1.
Definition: TH1.cxx:3275
virtual TH1 * RebinX(Int_t ngroup=2, const char *newname="")
Definition: TH1.h:346
virtual Double_t GetBinLowEdge(Int_t bin) const
Return bin lower edge for 1D histogram.
Definition: TH1.cxx:8596
virtual Double_t GetEntries() const
Return the current number of entries.
Definition: TH1.cxx:4294
virtual Double_t GetBinContent(Int_t bin) const
Return content of bin number bin.
Definition: TH1.cxx:4899
virtual Double_t GetBinWidth(Int_t bin) const
Return bin width for 1D histogram.
Definition: TH1.cxx:8607
virtual Int_t FindBin(Double_t x, Double_t y=0, Double_t z=0)
Return Global bin number corresponding to x,y,z.
Definition: TH1.cxx:3596
Random number generator class based on the maximally quidistributed combined Tausworthe generator by ...
Definition: TRandom2.h:27
virtual Double_t Rndm()
TausWorth generator from L'Ecuyer, uses as seed 3x32bits integers Use a mask of 0xffffffffUL to make ...
Definition: TRandom2.cxx:56
Double_t y[n]
Definition: legend1.C:17
Double_t x[n]
Definition: legend1.C:17
const Int_t n
Definition: legend1.C:16
constexpr Double_t E()
Base of natural log:
Definition: TMath.h:97
void Quantiles(Int_t n, Int_t nprob, Double_t *x, Double_t *quantiles, Double_t *prob, Bool_t isSorted=kTRUE, Int_t *index=0, Int_t type=7)
Computes sample quantiles, corresponding to the given probabilities.
Definition: TMath.cxx:1190
Double_t Log10(Double_t x)
Definition: TMath.h:754
auto * l
Definition: textangle.C:4
auto * a
Definition: textangle.C:12