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Reference Guide
TGLayout.cxx
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1// @(#)root/gui:$Id$
2// Author: Fons Rademakers 02/01/98
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
13 This source is based on Xclass95, a Win95-looking GUI toolkit.
14 Copyright (C) 1996, 1997 David Barth, Ricky Ralston, Hector Peraza.
15
16 Xclass95 is free software; you can redistribute it and/or
17 modify it under the terms of the GNU Library General Public
18 License as published by the Free Software Foundation; either
19 version 2 of the License, or (at your option) any later version.
20
21**************************************************************************/
22
23//////////////////////////////////////////////////////////////////////////
24// //
25// A number of different layout classes (TGLayoutManager, //
26// TGVerticalLayout, TGHorizontalLayout, TGLayoutHints, etc.). //
27// //
28// //
29// Concerning the TGMatrixLayout class: //
30// //
31// It arranges frames in a matrix-like way. //
32// This manager provides : //
33// - a column number (0 means unlimited) //
34// - a row number (0 means unlimited) //
35// - horizontal & vertical separators //
36// //
37// Notes : If both column and row are fixed values, any remaining //
38// frames outside the count won't be managed. //
39// Unlimited rows means the frame can expand downward //
40// (the default behaviour in most UI). //
41// Both unlimited rows and columns is undefined (read: will //
42// crash the algorithm ;-). //
43// With fixed dimensions, frames are always arranged in rows. //
44// That is: 1st frame is at position (0,0), next one is at //
45// row(0), column(1) and so on... //
46// When specifying one dimension as unlimited (i.e. row=0 or //
47// column=0) the frames are arranged according to the direction //
48// of the fixed dimension. This layout manager does not make //
49// use of TGLayoutHints. //
50// //
51//////////////////////////////////////////////////////////////////////////
52
53#include "TGLayout.h"
54#include "TGFrame.h"
55#include "TList.h"
56#include "Riostream.h"
57
58
69
70
71////////////////////////////////////////////////////////////////////////////////
72/// Constructor.
73
75{
76 fLayout = 0;
77 fFrame = f;
78 if (f) f->SetFrameElement(this);
79
80 if (l) {
81 l->AddReference();
82 fLayout = l;
83 l->fPrev = l->fFE;
84 l->fFE = this;
85 }
86 fState = 1;
87}
88
89////////////////////////////////////////////////////////////////////////////////
90/// Destructor. Decrease ref. count of fLayout.
91
93{
94}
95
96////////////////////////////////////////////////////////////////////////////////
97/// Print this frame element.
98
100{
101 TObject::Print(option);
102
103 std::cout << "\t";
104 if (fFrame) {
105 std::cout << fFrame->ClassName() << "::" << fFrame->GetName();
106 }
107 if (fLayout) {
108 fLayout->Print(option);
109 }
110 std::cout << std::endl;
111}
112
113////////////////////////////////////////////////////////////////////////////////
114/// Constructor.
115
117{
121 SetRefCount(0);
122 fFE = lh.fFE; fPrev = lh.fPrev;
123}
124
125////////////////////////////////////////////////////////////////////////////////
126/// Destructor.
127
129{
130}
131
132////////////////////////////////////////////////////////////////////////////////
133/// Update layout hints of frame elements.
134
136{
137 if (fFE) fFE->fLayout = l;
138 else return;
139
141
142 while (p && p->fLayout) {
143 p->fLayout = l;
144 p = p->fLayout->fPrev;
145 }
146}
147
148////////////////////////////////////////////////////////////////////////////////
149/// Printing.
150
152{
153 Bool_t bor = kFALSE;
154
156 std::cout << "kLHintsLeft";
157 bor = kTRUE;
158 }
160 if (bor) std::cout << " | ";
161 std::cout << "kLHintsCenterX";
162 bor = kTRUE;
163 }
165 if (bor) std::cout << " | ";
166 std::cout << "kLHintsRight";
167 bor = kTRUE;
168 }
169 if (fLayoutHints & kLHintsTop) {
170 if (bor) std::cout << " | ";
171 std::cout << "kLHintsTop";
172 bor = kTRUE;
173 }
175 if (bor) std::cout << " | ";
176 std::cout << "kLHintsCenterY";
177 bor = kTRUE;
178 }
180 if (bor) std::cout << " | ";
181 std::cout << "kLHintsBottom";
182 bor = kTRUE;
183 }
185 if (bor) std::cout << " | ";
186 std::cout << "kLHintsExpandX";
187 bor = kTRUE;
188 }
190 if (bor) std::cout << " | ";
191 std::cout << "kLHintsExpandY";
192 bor = kTRUE;
193 }
195 if (bor) std::cout << " | ";
196 std::cout << "kLHintsNoHints";
197 }
198 std::cout << ", fPadtop=" << fPadtop;
199 std::cout << ", fPadbottom=" << fPadbottom;
200 std::cout << ", fPadleft=" << fPadleft;
201 std::cout << ", fPadright=" << fPadright;
202 std::cout << std::endl;
203}
204
205////////////////////////////////////////////////////////////////////////////////
206/// Create vertical layout manager.
207
209{
210 fMain = main;
211 fList = fMain->GetList();
212}
213
214////////////////////////////////////////////////////////////////////////////////
215/// Make a vertical layout of all frames in the list.
216
218{
219 TGFrameElement *ptr;
220 TGLayoutHints *layout;
221 Int_t nb_expand = 0;
222 Int_t top, bottom;
223 ULong_t hints;
224 UInt_t extra_space = 0;
225 Int_t exp = 0;
226 Int_t exp_max = 0;
227 Int_t remain;
228 Int_t x = 0, y = 0;
229 Int_t bw = fMain->GetBorderWidth();
230 TGDimension size(0,0), csize(0,0);
231 TGDimension msize = fMain->GetSize();
232 UInt_t pad_left, pad_top, pad_right, pad_bottom;
233 Int_t size_expand=0, esize_expand=0, rem_expand=0, tmp_expand = 0;
234
235 if (!fList) return;
236
238
239 bottom = msize.fHeight - (top = bw);
240 remain = msize.fHeight - (bw << 1);
241
242 TIter next(fList);
243 while ((ptr = (TGFrameElement *) next())) {
244 if (ptr->fState & kIsVisible) {
245 layout = ptr->fLayout;
246 size = ptr->fFrame->GetDefaultSize();
247 size.fHeight += layout->GetPadTop() + layout->GetPadBottom();
248 hints = layout->GetLayoutHints();
249 if ((hints & kLHintsExpandY) || (hints & kLHintsCenterY)) {
250 nb_expand++;
251 exp += size.fHeight;
252 if (hints & kLHintsExpandY) exp_max = 0;
253 else exp_max = TMath::Max(exp_max, (Int_t)size.fHeight);
254 } else {
255 remain -= size.fHeight;
256 if (remain < 0)
257 remain = 0;
258 }
259 }
260 }
261
262 if (nb_expand) {
263 size_expand = remain/nb_expand;
264
265 if (size_expand < exp_max)
266 esize_expand = (remain - exp)/nb_expand;
267 rem_expand = remain % nb_expand;
268 }
269
270 next.Reset();
271 while ((ptr = (TGFrameElement *) next())) {
272 if (ptr->fState & kIsVisible) {
273 hints = (layout = ptr->fLayout)->GetLayoutHints();
274 csize = ptr->fFrame->GetDefaultSize();
275 pad_left = layout->GetPadLeft();
276 pad_top = layout->GetPadTop();
277 pad_right = layout->GetPadRight();
278 pad_bottom = layout->GetPadBottom();
279
280 if (hints & kLHintsRight) {
281 x = msize.fWidth - bw - csize.fWidth - pad_right;
282 } else if (hints & kLHintsCenterX) {
283 x = (msize.fWidth - (bw << 1) - csize.fWidth) >> 1;
284 } else { // defaults to kLHintsLeft
285 x = pad_left + bw;
286 }
287
288 if (hints & kLHintsExpandX) {
289 size.fWidth = msize.fWidth - (bw << 1) - pad_left - pad_right;
290 x = pad_left + bw;
291 } else {
292 size.fWidth = csize.fWidth;
293 }
294
295 if (hints & kLHintsExpandY) {
296 if (size_expand >= exp_max)
297 size.fHeight = size_expand - pad_top - pad_bottom;
298 else
299 size.fHeight = csize.fHeight + esize_expand;
300
301 tmp_expand += rem_expand;
302 if (tmp_expand >= nb_expand) {
303 size.fHeight++;
304 tmp_expand -= nb_expand;
305 }
306 } else {
307 size.fHeight = csize.fHeight;
308 if (hints & kLHintsCenterY) {
309 if (size_expand >= exp_max) {
310 extra_space = (size_expand - pad_top - pad_bottom - size.fHeight) >> 1;
311 } else {
312 extra_space = esize_expand >> 1;
313 }
314 y += extra_space;
315 top += extra_space;
316 }
317 }
318
319 if (hints & kLHintsBottom) {
320 y = bottom - size.fHeight - pad_bottom;
321 bottom -= size.fHeight + pad_top + pad_bottom;
322 } else { // kLHintsTop by default
323 y = top + pad_top;
324 top += size.fHeight + pad_top + pad_bottom;
325 }
326
327 if (hints & kLHintsCenterY)
328 top += extra_space;
329
330 if (x > 32768) x = bw + 1;
331 //if (y > 32768) y = bw + 1;
332 if (size.fWidth > 32768)
333 size.fWidth = 1;
334 if (size.fHeight > 32768)
335 size.fHeight = 1;
336 ptr->fFrame->MoveResize(x, y, size.fWidth, size.fHeight);
337
338 fModified = fModified || (ptr->fFrame->GetX() != x) ||
339 (ptr->fFrame->GetY() != y) ||
340 (ptr->fFrame->GetWidth() != size.fWidth) ||
341 (ptr->fFrame->GetHeight() != size.fHeight);
342 }
343 }
344}
345
346////////////////////////////////////////////////////////////////////////////////
347/// Return default dimension of the vertical layout.
348
350{
351 TGFrameElement *ptr;
352 TGDimension size(0,0), msize = fMain->GetSize(), csize;
353 UInt_t options = fMain->GetOptions();
354
355 if ((options & kFixedWidth) && (options & kFixedHeight))
356 return msize;
357
358 TIter next(fList);
359 while ((ptr = (TGFrameElement *) next())) {
360 if (ptr->fState & kIsVisible) {
361 csize = ptr->fFrame->GetDefaultSize();
362 size.fWidth = TMath::Max(size.fWidth, csize.fWidth + ptr->fLayout->GetPadLeft() +
363 ptr->fLayout->GetPadRight());
364 size.fHeight += csize.fHeight + ptr->fLayout->GetPadTop() +
365 ptr->fLayout->GetPadBottom();
366 }
367 }
368
369 size.fWidth += fMain->GetBorderWidth() << 1;
370 size.fHeight += fMain->GetBorderWidth() << 1;
371
372 if (options & kFixedWidth) size.fWidth = msize.fWidth;
373 if (options & kFixedHeight) size.fHeight = msize.fHeight;
374
375 return size;
376}
377
378////////////////////////////////////////////////////////////////////////////////
379/// Make a horizontal layout of all frames in the list.
380
382{
383 TGFrameElement *ptr;
384 TGLayoutHints *layout;
385 Int_t nb_expand = 0;
386 Int_t left, right;
387 ULong_t hints;
388 UInt_t extra_space = 0;
389 Int_t exp = 0;
390 Int_t exp_max = 0;
391 Int_t remain;
392 Int_t x = 0, y = 0;
393 Int_t bw = fMain->GetBorderWidth();
394 TGDimension size, csize;
395 TGDimension msize = fMain->GetSize();
396 UInt_t pad_left, pad_top, pad_right, pad_bottom;
397 Int_t size_expand=0, esize_expand=0, rem_expand=0, tmp_expand = 0;
398
399 if (!fList) return;
400
402 right = msize.fWidth - (left = bw);
403 remain = msize.fWidth - (bw << 1);
404
405 TIter next(fList);
406 while ((ptr = (TGFrameElement *) next())) {
407 if (ptr->fState & kIsVisible) {
408 layout = ptr->fLayout;
409 size = ptr->fFrame->GetDefaultSize();
410 size.fWidth += layout->GetPadLeft() + layout->GetPadRight();
411 hints = layout->GetLayoutHints();
412 if ((hints & kLHintsExpandX) || (hints & kLHintsCenterX)) {
413 nb_expand++;
414 exp += size.fWidth;
415 if (hints & kLHintsExpandX) exp_max = 0;
416 else exp_max = TMath::Max(exp_max, (Int_t)size.fWidth);
417 } else {
418 remain -= size.fWidth;
419 if (remain < 0)
420 remain = 0;
421 }
422 }
423 }
424 if (nb_expand) {
425 size_expand = remain/nb_expand;
426
427 if (size_expand < exp_max) {
428 esize_expand = (remain - exp)/nb_expand;
429 }
430 rem_expand = remain % nb_expand;
431 }
432
433 next.Reset();
434 while ((ptr = (TGFrameElement *) next())) {
435 if (ptr->fState & kIsVisible) {
436 hints = (layout = ptr->fLayout)->GetLayoutHints();
437 csize = ptr->fFrame->GetDefaultSize();
438 pad_left = layout->GetPadLeft();
439 pad_top = layout->GetPadTop();
440 pad_right = layout->GetPadRight();
441 pad_bottom = layout->GetPadBottom();
442
443 if (hints & kLHintsBottom) {
444 y = msize.fHeight - bw - csize.fHeight - pad_bottom;
445 } else if (hints & kLHintsCenterY) {
446 y = (msize.fHeight - (bw << 1) - csize.fHeight) >> 1;
447 } else { // kLHintsTop by default
448 y = pad_top + bw;
449 }
450
451 if (hints & kLHintsExpandY) {
452 size.fHeight = msize.fHeight - (bw << 1) - pad_top - pad_bottom;
453 y = pad_top + bw;
454 } else {
455 size.fHeight = csize.fHeight;
456 }
457
458 if (hints & kLHintsExpandX) {
459 if (size_expand >= exp_max)
460 size.fWidth = size_expand - pad_left - pad_right;
461 else
462 size.fWidth = csize.fWidth + esize_expand;
463
464 tmp_expand += rem_expand;
465
466 if (tmp_expand >= nb_expand) {
467 size.fWidth++;
468 tmp_expand -= nb_expand;
469 }
470 } else {
471 size.fWidth = csize.fWidth;
472 if (hints & kLHintsCenterX) {
473 if (size_expand >= exp_max) {
474 extra_space = (size_expand - pad_left - pad_right - size.fWidth)>> 1;
475 } else {
476 extra_space = esize_expand >> 1;
477 }
478 x += extra_space;
479 left += extra_space;
480 }
481 }
482
483 if (hints & kLHintsRight) {
484 x = right - size.fWidth - pad_right;
485 right -= size.fWidth + pad_left + pad_right;
486 } else { // defaults to kLHintsLeft
487 x = left + pad_left;
488 left += size.fWidth + pad_left + pad_right;
489 }
490
491 if (hints & kLHintsCenterX)
492 left += extra_space;
493
494 ptr->fFrame->MoveResize(x, y, size.fWidth, size.fHeight);
495
496 fModified = fModified || (ptr->fFrame->GetX() != x) ||
497 (ptr->fFrame->GetY() != y) ||
498 (ptr->fFrame->GetWidth() != size.fWidth) ||
499 (ptr->fFrame->GetHeight() != size.fHeight);
500 }
501 }
502}
503
504////////////////////////////////////////////////////////////////////////////////
505/// Return default dimension of the horizontal layout.
506
508{
509 TGFrameElement *ptr;
510 TGDimension size(0,0), msize = fMain->GetSize(), csize;
511 UInt_t options = fMain->GetOptions();
512
513 if ((options & kFixedWidth) && (options & kFixedHeight))
514 return msize;
515
516 TIter next(fList);
517 while ((ptr = (TGFrameElement *) next())) {
518 if (ptr->fState & kIsVisible) {
519 csize = ptr->fFrame->GetDefaultSize();
520 size.fWidth += csize.fWidth + ptr->fLayout->GetPadLeft() +
521 ptr->fLayout->GetPadRight();
522
523 size.fHeight = TMath::Max(size.fHeight, csize.fHeight + ptr->fLayout->GetPadTop() +
524 ptr->fLayout->GetPadBottom());
525 }
526 }
527 size.fWidth += fMain->GetBorderWidth() << 1;
528 size.fHeight += fMain->GetBorderWidth() << 1;
529
530 if (options & kFixedWidth) size.fWidth = msize.fWidth;
531 if (options & kFixedHeight) size.fHeight = msize.fHeight;
532
533 return size;
534}
535
536////////////////////////////////////////////////////////////////////////////////
537/// Make a row layout of all frames in the list.
538
540{
541 TGFrameElement *ptr;
542 TGDimension size;
543 Int_t bw = fMain->GetBorderWidth();
544 Int_t x = bw, y = bw;
546
547 TIter next(fList);
548 while ((ptr = (TGFrameElement *) next())) {
549 if (ptr->fState & kIsVisible) {
550 size = ptr->fFrame->GetDefaultSize();
551 ptr->fFrame->Move(x, y);
552
553 fModified = fModified || (ptr->fFrame->GetX() != x) ||
554 (ptr->fFrame->GetY() != y);
555
556 ptr->fFrame->Layout();
557 x += size.fWidth + fSep;
558 }
559 }
560}
561
562////////////////////////////////////////////////////////////////////////////////
563/// Return default dimension of the row layout.
564
566{
567 TGFrameElement *ptr;
568 TGDimension size(0,0), dsize, msize = fMain->GetSize();
569 UInt_t options = fMain->GetOptions();
570
571 if ((options & kFixedHeight) && (options & kFixedWidth))
572 return msize;
573
574 TIter next(fList);
575 while ((ptr = (TGFrameElement *) next())) {
576 if (ptr->fState & kIsVisible) {
577 dsize = ptr->fFrame->GetDefaultSize();
578 size.fHeight = TMath::Max(size.fHeight, dsize.fHeight);
579 size.fWidth += dsize.fWidth + fSep;
580 }
581 }
582
583 size.fHeight += fMain->GetBorderWidth() << 1;
584 size.fWidth += fMain->GetBorderWidth() << 1;
585 size.fWidth -= fSep;
586
587 if (options & kFixedHeight) size.fHeight = msize.fHeight;
588 if (options & kFixedWidth) size.fWidth = msize.fWidth;
589
590 return size;
591}
592
593////////////////////////////////////////////////////////////////////////////////
594/// Make a column layout of all frames in the list.
595
597{
598 TGFrameElement *ptr;
599 TGDimension size;
600 Int_t bw = fMain->GetBorderWidth();
601 Int_t x = bw, y = bw;
603
604 TIter next(fList);
605 while ((ptr = (TGFrameElement *) next())) {
606 if (ptr->fState & kIsVisible) {
607 size = ptr->fFrame->GetDefaultSize();
608 ptr->fFrame->Move(x, y);
609 fModified = fModified || (ptr->fFrame->GetX() != x) ||
610 (ptr->fFrame->GetY() != y);
611 ptr->fFrame->Layout();
612 y += size.fHeight + fSep;
613 }
614 }
615}
616
617////////////////////////////////////////////////////////////////////////////////
618/// Return default dimension of the column layout.
619
621{
622 TGFrameElement *ptr;
623 TGDimension size(0,0), dsize, msize = fMain->GetSize();
624 UInt_t options = fMain->GetOptions();
625
626 if (options & kFixedHeight && options & kFixedWidth)
627 return msize;
628
629 TIter next(fList);
630 while ((ptr = (TGFrameElement *) next())) {
631 if (ptr->fState & kIsVisible) {
632 dsize = ptr->fFrame->GetDefaultSize();
633 size.fHeight += dsize.fHeight + fSep;
634 size.fWidth = TMath::Max(size.fWidth, dsize.fWidth);
635 }
636 }
637
638 size.fHeight += fMain->GetBorderWidth() << 1;
639 size.fHeight -= fSep;
640 size.fWidth += fMain->GetBorderWidth() << 1;
641
642 if (options & kFixedHeight) size.fHeight = msize.fHeight;
643 if (options & kFixedWidth) size.fWidth = msize.fWidth;
644
645 return size;
646}
647
648////////////////////////////////////////////////////////////////////////////////
649/// TGMatrixLayout constructor.
650
652 Int_t s, Int_t h)
653{
654 fMain = main;
655 fList = fMain->GetList();
656 fSep = s;
657 fHints = h;
658 fRows = r;
659 fColumns = c;
660}
661
662////////////////////////////////////////////////////////////////////////////////
663/// Make a matrix layout of all frames in the list.
664
666{
667 TGFrameElement *ptr;
668 TGDimension csize, maxsize(0,0);
669 Int_t bw = fMain->GetBorderWidth();
670 Int_t x = fSep, y = fSep + bw;
671 UInt_t rowcount = fRows, colcount = fColumns;
673
674 TIter next(fList);
675 while ((ptr = (TGFrameElement *) next())) {
676 csize = ptr->fFrame->GetDefaultSize();
677 maxsize.fWidth = TMath::Max(maxsize.fWidth, csize.fWidth);
678 maxsize.fHeight = TMath::Max(maxsize.fHeight, csize.fHeight);
679 }
680
681 next.Reset();
682 while ((ptr = (TGFrameElement *) next())) {
683 ptr->fFrame->Move(x, y);
684 fModified = fModified || (ptr->fFrame->GetX() != x) ||
685 (ptr->fFrame->GetY() != y);
686
687 ptr->fFrame->Layout();
688
689 if (fColumns == 0) {
690 y += maxsize.fHeight + fSep;
691 rowcount--;
692 if (rowcount <= 0) {
693 rowcount = fRows;
694 y = fSep + bw; x += maxsize.fWidth + fSep;
695 }
696 } else if (fRows == 0) {
697 x += maxsize.fWidth + fSep;
698 colcount--;
699 if (colcount <= 0) {
700 colcount = fColumns;
701 x = fSep; y += maxsize.fHeight + fSep;
702 }
703 } else {
704 x += maxsize.fWidth + fSep;
705 colcount--;
706 if (colcount <= 0) {
707 rowcount--;
708 if (rowcount <= 0) return;
709 else {
710 colcount = fColumns;
711 x = fSep; y += maxsize.fHeight + fSep;
712 }
713 }
714 }
715 }
716}
717
718////////////////////////////////////////////////////////////////////////////////
719/// Return default dimension of the matrix layout.
720
722{
723 TGFrameElement *ptr;
724 TGDimension size, csize, maxsize(0,0);
725 Int_t count = 0;
726 Int_t bw = fMain->GetBorderWidth();
727
728 TIter next(fList);
729 while ((ptr = (TGFrameElement *) next())) {
730 count++;
731 csize = ptr->fFrame->GetDefaultSize();
732 maxsize.fWidth = TMath::Max(maxsize.fWidth, csize.fWidth);
733 maxsize.fHeight = TMath::Max(maxsize.fHeight, csize.fHeight);
734 }
735
736 if (fRows == 0) {
737 Int_t rows = (count % fColumns) ? (count / fColumns + 1) : (count / fColumns);
738 size.fWidth = fColumns * (maxsize.fWidth + fSep) + fSep;
739 size.fHeight = rows * (maxsize.fHeight + fSep) + fSep + bw;
740 } else if (fColumns == 0) {
741 Int_t cols = (count % fRows) ? (count / fRows + 1) : (count / fRows);
742 size.fWidth = cols * (maxsize.fWidth + fSep) + fSep;
743 size.fHeight = fRows * (maxsize.fHeight + fSep) + fSep + bw;
744 } else {
745 size.fWidth = fColumns * (maxsize.fWidth + fSep) + fSep;
746 size.fHeight = fRows * (maxsize.fHeight + fSep) + fSep + bw;
747 }
748 return size;
749}
750
751////////////////////////////////////////////////////////////////////////////////
752/// Create a tile layout manager.
753
755{
756 fMain = main;
757 fSep = sep;
758 fList = fMain->GetList();
760}
761
762////////////////////////////////////////////////////////////////////////////////
763/// Make a tile layout of all frames in the list.
764
766{
767 TGFrameElement *ptr;
768 Int_t x, y, xw, yw;
769 UInt_t max_width;
770 ULong_t hints;
771 TGDimension csize, max_osize(0,0), msize = fMain->GetSize();
773
774 TIter next(fList);
775 while ((ptr = (TGFrameElement *) next())) {
776 csize = ptr->fFrame->GetDefaultSize();
777 max_osize.fWidth = TMath::Max(max_osize.fWidth, csize.fWidth);
778 max_osize.fHeight = TMath::Max(max_osize.fHeight, csize.fHeight);
779 }
780
781 max_width = TMath::Max(msize.fWidth, max_osize.fWidth + (fSep << 1));
782 x = fSep; y = fSep << 1;
783
784 next.Reset();
785 while ((ptr = (TGFrameElement *) next())) {
786 hints = ptr->fLayout->GetLayoutHints();
787 csize = ptr->fFrame->GetDefaultSize();
788
789 if (hints & kLHintsCenterX)
790 xw = x + (Int_t)((max_osize.fWidth - csize.fWidth) >> 1);
791 else if (hints & kLHintsRight)
792 xw = x + (Int_t)max_osize.fWidth - (Int_t)csize.fWidth;
793 else // defaults to kLHintsLeft
794 xw = x;
795
796 if (hints & kLHintsCenterY)
797 yw = y + (Int_t)((max_osize.fHeight - csize.fHeight) >> 1);
798 else if (hints & kLHintsBottom)
799 yw = y + (Int_t)max_osize.fHeight - (Int_t)csize.fHeight;
800 else // defaults to kLHintsTop
801 yw = y;
802
803 fModified = fModified || (ptr->fFrame->GetX() != xw) ||
804 (ptr->fFrame->GetY() != yw);
805 ptr->fFrame->Move(xw, yw);
806 if (hints & kLHintsExpandX)
807 ptr->fFrame->Resize(max_osize.fWidth, ptr->fFrame->GetDefaultHeight());
808 x += (Int_t)max_osize.fWidth + fSep;
809
810 if (x + max_osize.fWidth > max_width) {
811 x = fSep;
812 y += (Int_t)max_osize.fHeight + fSep + (fSep >> 1);
813 }
814 }
815}
816
817////////////////////////////////////////////////////////////////////////////////
818/// Return default dimension of the tile layout.
819
821{
822 TGFrameElement *ptr;
823 Int_t x, y;
824 TGDimension max_size, max_osize(0,0), msize = fMain->GetSize();
825
826 TIter next(fList);
827 while ((ptr = (TGFrameElement *) next())) {
828 max_size = ptr->fFrame->GetDefaultSize();
829 max_osize.fWidth = TMath::Max(max_osize.fWidth, max_size.fWidth);
830 max_osize.fHeight = TMath::Max(max_osize.fHeight, max_size.fHeight);
831 }
832
833 max_size.fWidth = TMath::Max(msize.fWidth, max_osize.fWidth + (fSep << 1));
834
835 x = fSep; y = fSep << 1;
836
837 next.Reset();
838 // coverity[returned_pointer]
839 while ((ptr = (TGFrameElement *) next())) {
840 x += max_osize.fWidth + fSep;
841 if (x + max_osize.fWidth > max_size.fWidth) {
842 x = fSep;
843 y += (Int_t)max_osize.fHeight + fSep + (fSep >> 1); // 3/2
844 }
845 }
846 if (x != fSep) y += max_osize.fHeight + fSep;
847 max_size.fHeight = TMath::Max(y, (Int_t)msize.fHeight);
848
849 return max_size;
850}
851
852////////////////////////////////////////////////////////////////////////////////
853/// Make a tile layout of all frames in the list.
854
856{
857 TGFrameElement *ptr;
858 Int_t x, y, xw, yw;
859 UInt_t max_height;
860 ULong_t hints;
861 TGDimension csize, max_osize(0,0), msize = fMain->GetSize();
863
864 TIter next(fList);
865 // coverity[returned_pointer]
866 while ((ptr = (TGFrameElement *) next())) {
867 csize = ptr->fFrame->GetDefaultSize();
868 max_osize.fWidth = TMath::Max(max_osize.fWidth, csize.fWidth);
869 max_osize.fHeight = TMath::Max(max_osize.fHeight, csize.fHeight);
870 }
871
872 max_height = TMath::Max(msize.fHeight, max_osize.fHeight + (fSep << 1));
873
874 x = fSep; y = fSep << 1;
875
876 next.Reset();
877 while ((ptr = (TGFrameElement *) next())) {
878
879 hints = ptr->fLayout->GetLayoutHints();
880 csize = ptr->fFrame->GetDefaultSize();
881
882 if (hints & kLHintsCenterX)
883 xw = x + (Int_t)((max_osize.fWidth - csize.fWidth) >> 1);
884 else if (hints & kLHintsRight)
885 xw = x + (Int_t)max_osize.fWidth - (Int_t)csize.fWidth;
886 else // defaults to kLHintsLeft
887 xw = x;
888
889 if (hints & kLHintsCenterY)
890 yw = y + (Int_t)((max_osize.fHeight - csize.fHeight) >> 1);
891 else if (hints & kLHintsBottom)
892 yw = y + (Int_t)max_osize.fHeight - (Int_t)csize.fHeight;
893 else // defaults to kLHintsTop
894 yw = y;
895
896 fModified = fModified || (ptr->fFrame->GetX() != xw) ||
897 (ptr->fFrame->GetY() != yw);
898 ptr->fFrame->Move(xw, yw);
899 if (hints & kLHintsExpandX)
900 ptr->fFrame->Resize(max_osize.fWidth, ptr->fFrame->GetDefaultHeight());
901 y += (Int_t)max_osize.fHeight + fSep + (fSep >> 1);
902
903 if (y + max_osize.fHeight > max_height) {
904 y = fSep << 1;
905 x += (Int_t)max_osize.fWidth + fSep;
906 }
907 }
908}
909
910////////////////////////////////////////////////////////////////////////////////
911/// Return default dimension of the list layout.
912
914{
915 TGFrameElement *ptr;
916 Int_t x, y;
917 TGDimension max_size, max_osize(0,0), msize = fMain->GetSize();
918
919 TIter next(fList);
920 while ((ptr = (TGFrameElement *) next())) {
921 max_size = ptr->fFrame->GetDefaultSize();
922 max_osize.fWidth = TMath::Max(max_osize.fWidth, max_size.fWidth);
923 max_osize.fHeight = TMath::Max(max_osize.fHeight, max_size.fHeight);
924 }
925
926 max_size.fHeight = TMath::Max(msize.fHeight, max_osize.fHeight + (fSep << 1));
927
928 x = fSep; y = fSep << 1;
929
930 next.Reset();
931 while ((ptr = (TGFrameElement *) next())) {
932 y += (Int_t)max_osize.fHeight + fSep + (fSep >> 1);
933 if (y + max_osize.fHeight > max_size.fHeight) {
934 y = fSep << 1;
935 x += (Int_t)max_osize.fWidth + fSep;
936 }
937 }
938 if (y != (fSep << 1)) x += (Int_t)max_osize.fWidth + fSep;
939 max_size.fWidth = TMath::Max(x, (Int_t)msize.fWidth);
940
941 return max_size;
942}
943
944////////////////////////////////////////////////////////////////////////////////
945/// Make a list details layout of all frames in the list.
946
948{
949 TGFrameElement *ptr;
950 TGDimension csize, msize = fMain->GetSize();
951 Int_t max_oh = 0, x = fSep, y = fSep << 1;
953
954 TIter next(fList);
955 while ((ptr = (TGFrameElement *) next())) {
956 csize = ptr->fFrame->GetDefaultSize();
957 max_oh = TMath::Max(max_oh, (Int_t)csize.fHeight);
958 }
959
960 next.Reset();
961
962 while ((ptr = (TGFrameElement *) next())) {
963 if (ptr->fState & kIsVisible) {
964 csize = ptr->fFrame->GetDefaultSize();
965
966 fModified = fModified || (ptr->fFrame->GetX() != x) ||
967 (ptr->fFrame->GetY() != y);
968
969 ptr->fFrame->MoveResize(x, y, msize.fWidth, csize.fHeight);
970 ptr->fFrame->Layout();
971 y += max_oh + fSep + (fSep >> 1);
972 }
973 }
974}
975
976////////////////////////////////////////////////////////////////////////////////
977/// Return default dimension of the list details layout.
978
980{
981 TGFrameElement *ptr;
982 TGDimension csize, max_osize(0,0);
983 Int_t y = fSep << 1;
984
985 TIter next(fList);
986 while ((ptr = (TGFrameElement *) next())) {
987 csize = ptr->fFrame->GetDefaultSize();
988 max_osize.fWidth = TMath::Max(max_osize.fWidth, csize.fWidth);
989 max_osize.fHeight = TMath::Max(max_osize.fHeight, csize.fHeight);
990 }
991
992 next.Reset();
993 while ((ptr = (TGFrameElement *) next())) {
994 if (ptr->fState & kIsVisible) {
995 y += max_osize.fHeight + fSep + (fSep >> 1);
996 }
997 }
998
999 return TGDimension( fWidth ? fWidth : max_osize.fWidth, y);
1000}
1001
1002// ________________________________________________________________________
1003void TGLayoutHints::SavePrimitive(std::ostream &out, Option_t * option/*= ""*/)
1004{
1005
1006 // Save layout hints as a C++ statement(s) on output stream out
1007
1008 TString hints;
1010
1011 if (!GetLayoutHints()) return;
1012
1013 if ((option == 0) || strcmp(option, "nocoma"))
1014 out << ", ";
1015
1016 if ((fLayoutHints == kLHintsNormal) && (pad == 0)) {
1017 out << "new TGLayoutHints(kLHintsNormal)";
1018 return;
1019 }
1020 if (fLayoutHints & kLHintsLeft) {
1021 if (hints.Length() == 0) hints = "kLHintsLeft";
1022 else hints += " | kLHintsLeft";
1023 }
1025 if (hints.Length() == 0) hints = "kLHintsCenterX";
1026 else hints += " | kLHintsCenterX";
1027 }
1028 if (fLayoutHints & kLHintsRight) {
1029 if (hints.Length() == 0) hints = "kLHintsRight";
1030 else hints += " | kLHintsRight";
1031 }
1032 if (fLayoutHints & kLHintsTop) {
1033 if (hints.Length() == 0) hints = "kLHintsTop";
1034 else hints += " | kLHintsTop";
1035 }
1037 if (hints.Length() == 0) hints = "kLHintsCenterY";
1038 else hints += " | kLHintsCenterY";
1039 }
1041 if (hints.Length() == 0) hints = "kLHintsBottom";
1042 else hints += " | kLHintsBottom";
1043 }
1045 if (hints.Length() == 0) hints = "kLHintsExpandX";
1046 else hints += " | kLHintsExpandX";
1047 }
1049 if (hints.Length() == 0) hints = "kLHintsExpandY";
1050 else hints += " | kLHintsExpandY";
1051 }
1052
1053 out << "new TGLayoutHints(" << hints;
1054
1055 if (pad) {
1056 out << "," << GetPadLeft() << "," << GetPadRight()
1057 << "," << GetPadTop() << "," << GetPadBottom();
1058 }
1059 out<< ")";
1060}
1061
1062// __________________________________________________________________________
1063void TGVerticalLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1064{
1065
1066 // Save vertical layout manager as a C++ statement(s) on output stream
1067
1068 out << "new TGVerticalLayout(" << fMain->GetName() << ")";
1069
1070}
1071
1072// __________________________________________________________________________
1073void TGHorizontalLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1074{
1075
1076 // Save horizontal layout manager as a C++ statement(s) on output stream
1077
1078 out << "new TGHorizontalLayout(" << fMain->GetName() << ")";
1079}
1080
1081// __________________________________________________________________________
1082void TGRowLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1083{
1084
1085 // Save row layout manager as a C++ statement(s) on output stream
1086
1087 out << "new TGRowLayout(" << fMain->GetName() << ","
1088 << fSep << ")";
1089}
1090
1091// __________________________________________________________________________
1092void TGColumnLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1093{
1094
1095 // Save column layout manager as a C++ statement(s) on output stream
1096
1097 out << "new TGColumnLayout(" << fMain->GetName() << ","
1098 << fSep << ")";
1099
1100}
1101
1102// __________________________________________________________________________
1103void TGMatrixLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1104{
1105
1106 // Save matrix layout manager as a C++ statement(s) on output stream
1107
1108 out << "new TGMatrixLayout(" << fMain->GetName() << ","
1109 << fRows << ","
1110 << fColumns << ","
1111 << fSep << ","
1112 << fHints <<")";
1113
1114}
1115
1116// __________________________________________________________________________
1117void TGTileLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1118{
1119
1120 // Save tile layout manager as a C++ statement(s) on output stream
1121
1122 out << "new TGTileLayout(" << fMain->GetName() << ","
1123 << fSep << ")";
1124
1125}
1126
1127// __________________________________________________________________________
1128void TGListLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1129{
1130
1131 // Save list layout manager as a C++ statement(s) on output stream
1132
1133 out << "new TGListLayout(" << fMain->GetName() << ","
1134 << fSep << ")";
1135
1136}
1137
1138// __________________________________________________________________________
1139void TGListDetailsLayout::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
1140{
1141
1142 // Save list details layout manager as a C++ statement(s) on out stream
1143
1144 out << "new TGListDetailsLayout(" << fMain->GetName() << ","
1145 << fSep << "," << fWidth << ")";
1146
1147}
ROOT::R::TRInterface & r
Definition: Object.C:4
#define f(i)
Definition: RSha256.hxx:104
#define c(i)
Definition: RSha256.hxx:101
#define h(i)
Definition: RSha256.hxx:106
int Int_t
Definition: RtypesCore.h:41
unsigned int UInt_t
Definition: RtypesCore.h:42
const Bool_t kFALSE
Definition: RtypesCore.h:88
unsigned long ULong_t
Definition: RtypesCore.h:51
bool Bool_t
Definition: RtypesCore.h:59
const Bool_t kTRUE
Definition: RtypesCore.h:87
const char Option_t
Definition: RtypesCore.h:62
#define ClassImp(name)
Definition: Rtypes.h:365
@ kIsVisible
Definition: TGFrame.h:42
@ kFixedWidth
Definition: TGFrame.h:65
@ kFixedHeight
Definition: TGFrame.h:67
@ kLHintsNoHints
Definition: TGLayout.h:30
@ kLHintsRight
Definition: TGLayout.h:33
@ kLHintsExpandY
Definition: TGLayout.h:38
@ kLHintsLeft
Definition: TGLayout.h:31
@ kLHintsCenterY
Definition: TGLayout.h:35
@ kLHintsNormal
Definition: TGLayout.h:39
@ kLHintsCenterX
Definition: TGLayout.h:32
@ kLHintsBottom
Definition: TGLayout.h:36
@ kLHintsTop
Definition: TGLayout.h:34
@ kLHintsExpandX
Definition: TGLayout.h:37
double exp(double)
virtual TGDimension GetDefaultSize() const
Return default dimension of the column layout.
Definition: TGLayout.cxx:620
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1092
virtual void Layout()
Make a column layout of all frames in the list.
Definition: TGLayout.cxx:596
virtual TList * GetList() const
Definition: TGFrame.h:369
UInt_t fHeight
Definition: TGDimension.h:30
UInt_t fWidth
Definition: TGDimension.h:29
TGLayoutHints * fLayout
Definition: TGLayout.h:121
void Print(Option_t *option="") const
Print this frame element.
Definition: TGLayout.cxx:99
~TGFrameElement()
Destructor. Decrease ref. count of fLayout.
Definition: TGLayout.cxx:92
Int_t fState
Definition: TGLayout.h:120
TGFrame * fFrame
Definition: TGLayout.h:119
virtual TGDimension GetDefaultSize() const
std::cout << fWidth << "x" << fHeight << std::endl;
Definition: TGFrame.cxx:566
Int_t GetBorderWidth() const
Definition: TGFrame.h:280
virtual UInt_t GetDefaultHeight() const
Definition: TGFrame.h:238
TGDimension GetSize() const
Definition: TGFrame.h:277
Int_t GetX() const
Definition: TGFrame.h:278
virtual UInt_t GetOptions() const
Definition: TGFrame.h:244
virtual void Move(Int_t x, Int_t y)
Move frame.
Definition: TGFrame.cxx:575
virtual void Resize(UInt_t w=0, UInt_t h=0)
Resize the frame.
Definition: TGFrame.cxx:587
UInt_t GetHeight() const
Definition: TGFrame.h:272
Int_t GetY() const
Definition: TGFrame.h:279
virtual void Layout()
Definition: TGFrame.h:246
virtual void MoveResize(Int_t x, Int_t y, UInt_t w=0, UInt_t h=0)
Move and/or resize the frame.
Definition: TGFrame.cxx:611
UInt_t GetWidth() const
Definition: TGFrame.h:271
virtual TGDimension GetDefaultSize() const
Return default dimension of the horizontal layout.
Definition: TGLayout.cxx:507
virtual void Layout()
Make a horizontal layout of all frames in the list.
Definition: TGLayout.cxx:381
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1073
TGFrameElement * fPrev
Definition: TGLayout.h:64
Int_t GetPadRight() const
Definition: TGLayout.h:93
void Print(Option_t *option="") const
Printing.
Definition: TGLayout.cxx:151
Int_t fPadtop
Definition: TGLayout.h:70
Int_t GetPadBottom() const
Definition: TGLayout.h:91
virtual void SavePrimitive(std::ostream &out, Option_t *option="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1003
Int_t fPadbottom
Definition: TGLayout.h:71
TGLayoutHints(ULong_t hints=kLHintsNormal, Int_t padleft=0, Int_t padright=0, Int_t padtop=0, Int_t padbottom=0)
Definition: TGLayout.h:78
ULong_t fLayoutHints
Definition: TGLayout.h:69
ULong_t GetLayoutHints() const
Definition: TGLayout.h:89
Int_t fPadleft
Definition: TGLayout.h:72
Int_t GetPadTop() const
Definition: TGLayout.h:90
TGFrameElement * fFE
Definition: TGLayout.h:63
virtual ~TGLayoutHints()
Destructor.
Definition: TGLayout.cxx:128
Int_t GetPadLeft() const
Definition: TGLayout.h:92
Int_t fPadright
Definition: TGLayout.h:73
void UpdateFrameElements(TGLayoutHints *l)
Update layout hints of frame elements.
Definition: TGLayout.cxx:135
Bool_t fModified
Definition: TGLayout.h:144
virtual TGDimension GetDefaultSize() const
Return default dimension of the list details layout.
Definition: TGLayout.cxx:979
virtual void Layout()
Make a list details layout of all frames in the list.
Definition: TGLayout.cxx:947
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1139
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1128
virtual void Layout()
Make a tile layout of all frames in the list.
Definition: TGLayout.cxx:855
virtual TGDimension GetDefaultSize() const
Return default dimension of the list layout.
Definition: TGLayout.cxx:913
UInt_t fRows
Definition: TGLayout.h:255
Int_t fHints
Definition: TGLayout.h:254
virtual TGDimension GetDefaultSize() const
Return default dimension of the matrix layout.
Definition: TGLayout.cxx:721
TGCompositeFrame * fMain
Definition: TGLayout.h:249
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1103
UInt_t fColumns
Definition: TGLayout.h:256
virtual void Layout()
Make a matrix layout of all frames in the list.
Definition: TGLayout.cxx:665
TGMatrixLayout(const TGMatrixLayout &)
TList * fList
Definition: TGLayout.h:250
virtual void Layout()
Make a row layout of all frames in the list.
Definition: TGLayout.cxx:539
Int_t fSep
Definition: TGLayout.h:210
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1082
virtual TGDimension GetDefaultSize() const
Return default dimension of the row layout.
Definition: TGLayout.cxx:565
virtual TGDimension GetDefaultSize() const
Return default dimension of the tile layout.
Definition: TGLayout.cxx:820
TGTileLayout(const TGTileLayout &)
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1117
TList * fList
Definition: TGLayout.h:285
Int_t fSep
Definition: TGLayout.h:283
TGCompositeFrame * fMain
Definition: TGLayout.h:284
virtual void Layout()
Make a tile layout of all frames in the list.
Definition: TGLayout.cxx:765
Bool_t fModified
Definition: TGLayout.h:286
virtual TGDimension GetDefaultSize() const
Return default dimension of the vertical layout.
Definition: TGLayout.cxx:349
TGVerticalLayout(const TGVerticalLayout &gvl)
Definition: TGLayout.h:172
virtual void Layout()
Make a vertical layout of all frames in the list.
Definition: TGLayout.cxx:217
TList * fList
Definition: TGLayout.h:170
TGCompositeFrame * fMain
Definition: TGLayout.h:169
virtual void SavePrimitive(std::ostream &out, Option_t *="")
Save a primitive as a C++ statement(s) on output stream "out".
Definition: TGLayout.cxx:1063
virtual const char * GetName() const
Return unique name, used in SavePrimitive methods.
Definition: TGWindow.cxx:221
void Reset()
Definition: TCollection.h:252
Mother of all ROOT objects.
Definition: TObject.h:37
virtual const char * ClassName() const
Returns name of class to which the object belongs.
Definition: TObject.cxx:128
virtual void Print(Option_t *option="") const
This method must be overridden when a class wants to print itself.
Definition: TObject.cxx:550
Definitions for TRefCnt, base class for reference counted objects.
Definition: TRefCnt.h:27
void SetRefCount(UInt_t r)
Definition: TRefCnt.h:39
Basic string class.
Definition: TString.h:131
Ssiz_t Length() const
Definition: TString.h:405
int main(int argc, char **argv)
Double_t y[n]
Definition: legend1.C:17
Double_t x[n]
Definition: legend1.C:17
static constexpr double s
Short_t Max(Short_t a, Short_t b)
Definition: TMathBase.h:212
auto * l
Definition: textangle.C:4