source: ntrip/trunk/BNC/qwt/qwt_scale_draw.cpp@ 8474

Last change on this file since 8474 was 8127, checked in by stoecker, 8 years ago

update qwt and qwtpolar, many QT5 fixes (unfinished)

File size: 22.1 KB
RevLine 
[4271]1/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
2 * Qwt Widget Library
3 * Copyright (C) 1997 Josef Wilgen
4 * Copyright (C) 2002 Uwe Rathmann
5 *
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the Qwt License, Version 1.0
8 *****************************************************************************/
9
10#include "qwt_scale_draw.h"
11#include "qwt_scale_div.h"
12#include "qwt_scale_map.h"
13#include "qwt_math.h"
14#include "qwt_painter.h"
15#include <qpen.h>
16#include <qpainter.h>
17#include <qmath.h>
18
[8127]19#if QT_VERSION < 0x040601
20#define qFastSin(x) qSin(x)
21#define qFastCos(x) qCos(x)
22#endif
23
[4271]24class QwtScaleDraw::PrivateData
25{
26public:
27 PrivateData():
28 len( 0 ),
29 alignment( QwtScaleDraw::BottomScale ),
30 labelAlignment( 0 ),
31 labelRotation( 0.0 )
32 {
33 }
34
35 QPointF pos;
36 double len;
37
38 Alignment alignment;
39
40 Qt::Alignment labelAlignment;
41 double labelRotation;
42};
43
44/*!
45 \brief Constructor
46
47 The range of the scale is initialized to [0, 100],
48 The position is at (0, 0) with a length of 100.
49 The orientation is QwtAbstractScaleDraw::Bottom.
50*/
51QwtScaleDraw::QwtScaleDraw()
52{
53 d_data = new QwtScaleDraw::PrivateData;
54 setLength( 100 );
55}
56
57//! Destructor
58QwtScaleDraw::~QwtScaleDraw()
59{
60 delete d_data;
61}
62
63/*!
64 Return alignment of the scale
65 \sa setAlignment()
[8127]66 \return Alignment of the scale
[4271]67*/
68QwtScaleDraw::Alignment QwtScaleDraw::alignment() const
69{
70 return d_data->alignment;
71}
72
73/*!
74 Set the alignment of the scale
75
[8127]76 \param align Alignment of the scale
77
[4271]78 The default alignment is QwtScaleDraw::BottomScale
79 \sa alignment()
80*/
81void QwtScaleDraw::setAlignment( Alignment align )
82{
83 d_data->alignment = align;
84}
85
86/*!
87 Return the orientation
88
89 TopScale, BottomScale are horizontal (Qt::Horizontal) scales,
90 LeftScale, RightScale are vertical (Qt::Vertical) scales.
91
[8127]92 \return Orientation of the scale
93
[4271]94 \sa alignment()
95*/
96Qt::Orientation QwtScaleDraw::orientation() const
97{
98 switch ( d_data->alignment )
99 {
100 case TopScale:
101 case BottomScale:
102 return Qt::Horizontal;
103 case LeftScale:
104 case RightScale:
105 default:
106 return Qt::Vertical;
107 }
108}
109
110/*!
111 \brief Determine the minimum border distance
112
113 This member function returns the minimum space
114 needed to draw the mark labels at the scale's endpoints.
115
116 \param font Font
117 \param start Start border distance
118 \param end End border distance
119*/
[8127]120void QwtScaleDraw::getBorderDistHint(
121 const QFont &font, int &start, int &end ) const
[4271]122{
123 start = 0;
[8127]124 end = 1.0;
[4271]125
126 if ( !hasComponent( QwtAbstractScaleDraw::Labels ) )
127 return;
128
129 const QList<double> &ticks = scaleDiv().ticks( QwtScaleDiv::MajorTick );
130 if ( ticks.count() == 0 )
131 return;
132
133 // Find the ticks, that are mapped to the borders.
134 // minTick is the tick, that is mapped to the top/left-most position
135 // in widget coordinates.
136
137 double minTick = ticks[0];
138 double minPos = scaleMap().transform( minTick );
139 double maxTick = minTick;
140 double maxPos = minPos;
141
142 for ( int i = 1; i < ticks.count(); i++ )
143 {
144 const double tickPos = scaleMap().transform( ticks[i] );
145 if ( tickPos < minPos )
146 {
147 minTick = ticks[i];
148 minPos = tickPos;
149 }
150 if ( tickPos > scaleMap().transform( maxTick ) )
151 {
152 maxTick = ticks[i];
153 maxPos = tickPos;
154 }
155 }
156
157 double e = 0.0;
158 double s = 0.0;
159 if ( orientation() == Qt::Vertical )
160 {
161 s = -labelRect( font, minTick ).top();
162 s -= qAbs( minPos - qRound( scaleMap().p2() ) );
163
164 e = labelRect( font, maxTick ).bottom();
165 e -= qAbs( maxPos - scaleMap().p1() );
166 }
167 else
168 {
169 s = -labelRect( font, minTick ).left();
170 s -= qAbs( minPos - scaleMap().p1() );
171
172 e = labelRect( font, maxTick ).right();
173 e -= qAbs( maxPos - scaleMap().p2() );
174 }
175
176 if ( s < 0.0 )
177 s = 0.0;
178 if ( e < 0.0 )
179 e = 0.0;
180
181 start = qCeil( s );
182 end = qCeil( e );
183}
184
185/*!
186 Determine the minimum distance between two labels, that is necessary
187 that the texts don't overlap.
188
189 \param font Font
190 \return The maximum width of a label
191
192 \sa getBorderDistHint()
193*/
194
195int QwtScaleDraw::minLabelDist( const QFont &font ) const
196{
197 if ( !hasComponent( QwtAbstractScaleDraw::Labels ) )
198 return 0;
199
200 const QList<double> &ticks = scaleDiv().ticks( QwtScaleDiv::MajorTick );
[8127]201 if ( ticks.isEmpty() )
[4271]202 return 0;
203
204 const QFontMetrics fm( font );
205
206 const bool vertical = ( orientation() == Qt::Vertical );
207
208 QRectF bRect1;
209 QRectF bRect2 = labelRect( font, ticks[0] );
210 if ( vertical )
211 {
[8127]212 bRect2.setRect( -bRect2.bottom(), 0.0, bRect2.height(), bRect2.width() );
[4271]213 }
214
[8127]215 double maxDist = 0.0;
216
[4271]217 for ( int i = 1; i < ticks.count(); i++ )
218 {
219 bRect1 = bRect2;
220 bRect2 = labelRect( font, ticks[i] );
221 if ( vertical )
222 {
[8127]223 bRect2.setRect( -bRect2.bottom(), 0.0,
[4271]224 bRect2.height(), bRect2.width() );
225 }
226
[8127]227 double dist = fm.leading(); // space between the labels
[4271]228 if ( bRect1.right() > 0 )
229 dist += bRect1.right();
230 if ( bRect2.left() < 0 )
231 dist += -bRect2.left();
232
233 if ( dist > maxDist )
234 maxDist = dist;
235 }
236
[8127]237 double angle = qwtRadians( labelRotation() );
[4271]238 if ( vertical )
239 angle += M_PI / 2;
240
[8127]241 const double sinA = qFastSin( angle ); // qreal -> double
242 if ( qFuzzyCompare( sinA + 1.0, 1.0 ) )
243 return qCeil( maxDist );
[4271]244
245 const int fmHeight = fm.ascent() - 2;
246
247 // The distance we need until there is
248 // the height of the label font. This height is needed
[8127]249 // for the neighbored label.
[4271]250
[8127]251 double labelDist = fmHeight / qFastSin( angle ) * qFastCos( angle );
[4271]252 if ( labelDist < 0 )
253 labelDist = -labelDist;
254
255 // For text orientations close to the scale orientation
256
257 if ( labelDist > maxDist )
258 labelDist = maxDist;
259
260 // For text orientations close to the opposite of the
261 // scale orientation
262
263 if ( labelDist < fmHeight )
264 labelDist = fmHeight;
265
[8127]266 return qCeil( labelDist );
[4271]267}
268
269/*!
270 Calculate the width/height that is needed for a
271 vertical/horizontal scale.
272
273 The extent is calculated from the pen width of the backbone,
274 the major tick length, the spacing and the maximum width/height
275 of the labels.
276
277 \param font Font used for painting the labels
[8127]278 \return Extent
[4271]279
280 \sa minLength()
281*/
282double QwtScaleDraw::extent( const QFont &font ) const
283{
284 double d = 0;
285
286 if ( hasComponent( QwtAbstractScaleDraw::Labels ) )
287 {
288 if ( orientation() == Qt::Vertical )
289 d = maxLabelWidth( font );
290 else
291 d = maxLabelHeight( font );
292
293 if ( d > 0 )
294 d += spacing();
295 }
296
297 if ( hasComponent( QwtAbstractScaleDraw::Ticks ) )
298 {
299 d += maxTickLength();
300 }
301
302 if ( hasComponent( QwtAbstractScaleDraw::Backbone ) )
303 {
[8127]304 const double pw = qMax( 1, penWidth() ); // pen width can be zero
[4271]305 d += pw;
306 }
307
308 d = qMax( d, minimumExtent() );
309 return d;
310}
311
312/*!
313 Calculate the minimum length that is needed to draw the scale
314
315 \param font Font used for painting the labels
[8127]316 \return Minimum length that is needed to draw the scale
[4271]317
318 \sa extent()
319*/
320int QwtScaleDraw::minLength( const QFont &font ) const
321{
322 int startDist, endDist;
323 getBorderDistHint( font, startDist, endDist );
324
325 const QwtScaleDiv &sd = scaleDiv();
326
327 const uint minorCount =
328 sd.ticks( QwtScaleDiv::MinorTick ).count() +
329 sd.ticks( QwtScaleDiv::MediumTick ).count();
330 const uint majorCount =
331 sd.ticks( QwtScaleDiv::MajorTick ).count();
332
333 int lengthForLabels = 0;
334 if ( hasComponent( QwtAbstractScaleDraw::Labels ) )
335 lengthForLabels = minLabelDist( font ) * majorCount;
336
337 int lengthForTicks = 0;
338 if ( hasComponent( QwtAbstractScaleDraw::Ticks ) )
339 {
340 const double pw = qMax( 1, penWidth() ); // penwidth can be zero
341 lengthForTicks = qCeil( ( majorCount + minorCount ) * ( pw + 1.0 ) );
342 }
343
344 return startDist + endDist + qMax( lengthForLabels, lengthForTicks );
345}
346
347/*!
348 Find the position, where to paint a label
349
[8127]350 The position has a distance that depends on the length of the ticks
351 in direction of the alignment().
[4271]352
353 \param value Value
[8127]354 \return Position, where to paint a label
[4271]355*/
356QPointF QwtScaleDraw::labelPosition( double value ) const
357{
358 const double tval = scaleMap().transform( value );
359 double dist = spacing();
360 if ( hasComponent( QwtAbstractScaleDraw::Backbone ) )
361 dist += qMax( 1, penWidth() );
362
363 if ( hasComponent( QwtAbstractScaleDraw::Ticks ) )
364 dist += tickLength( QwtScaleDiv::MajorTick );
365
366 double px = 0;
367 double py = 0;
368
369 switch ( alignment() )
370 {
371 case RightScale:
372 {
373 px = d_data->pos.x() + dist;
374 py = tval;
375 break;
376 }
377 case LeftScale:
378 {
379 px = d_data->pos.x() - dist;
380 py = tval;
381 break;
382 }
383 case BottomScale:
384 {
385 px = tval;
386 py = d_data->pos.y() + dist;
387 break;
388 }
389 case TopScale:
390 {
391 px = tval;
392 py = d_data->pos.y() - dist;
393 break;
394 }
395 }
396
397 return QPointF( px, py );
398}
399
400/*!
401 Draw a tick
402
403 \param painter Painter
404 \param value Value of the tick
[8127]405 \param len Length of the tick
[4271]406
407 \sa drawBackbone(), drawLabel()
408*/
409void QwtScaleDraw::drawTick( QPainter *painter, double value, double len ) const
410{
411 if ( len <= 0 )
412 return;
413
414 const bool roundingAlignment = QwtPainter::roundingAlignment( painter );
415
416 QPointF pos = d_data->pos;
417
418 double tval = scaleMap().transform( value );
419 if ( roundingAlignment )
420 tval = qRound( tval );
421
422 const int pw = penWidth();
423 int a = 0;
424 if ( pw > 1 && roundingAlignment )
425 a = 1;
426
427 switch ( alignment() )
428 {
429 case LeftScale:
430 {
431 double x1 = pos.x() + a;
432 double x2 = pos.x() + a - pw - len;
433 if ( roundingAlignment )
434 {
435 x1 = qRound( x1 );
436 x2 = qRound( x2 );
437 }
438
439 QwtPainter::drawLine( painter, x1, tval, x2, tval );
440 break;
441 }
442
443 case RightScale:
444 {
445 double x1 = pos.x();
446 double x2 = pos.x() + pw + len;
447 if ( roundingAlignment )
448 {
449 x1 = qRound( x1 );
450 x2 = qRound( x2 );
451 }
452
453 QwtPainter::drawLine( painter, x1, tval, x2, tval );
454 break;
455 }
456
457 case BottomScale:
458 {
459 double y1 = pos.y();
460 double y2 = pos.y() + pw + len;
461 if ( roundingAlignment )
462 {
463 y1 = qRound( y1 );
464 y2 = qRound( y2 );
465 }
466
467 QwtPainter::drawLine( painter, tval, y1, tval, y2 );
468 break;
469 }
470
471 case TopScale:
472 {
473 double y1 = pos.y() + a;
474 double y2 = pos.y() - pw - len + a;
475 if ( roundingAlignment )
476 {
477 y1 = qRound( y1 );
478 y2 = qRound( y2 );
479 }
480
481 QwtPainter::drawLine( painter, tval, y1, tval, y2 );
482 break;
483 }
484 }
485}
486
487/*!
488 Draws the baseline of the scale
489 \param painter Painter
490
491 \sa drawTick(), drawLabel()
492*/
493void QwtScaleDraw::drawBackbone( QPainter *painter ) const
494{
495 const bool doAlign = QwtPainter::roundingAlignment( painter );
496
497 const QPointF &pos = d_data->pos;
498 const double len = d_data->len;
499 const int pw = qMax( penWidth(), 1 );
500
501 // pos indicates a border not the center of the backbone line
502 // so we need to shift its position depending on the pen width
503 // and the alignment of the scale
504
505 double off;
506 if ( doAlign )
507 {
508 if ( alignment() == LeftScale || alignment() == TopScale )
509 off = ( pw - 1 ) / 2;
510 else
511 off = pw / 2;
512 }
513 else
514 {
515 off = 0.5 * penWidth();
516 }
517
518 switch ( alignment() )
519 {
520 case LeftScale:
521 {
522 double x = pos.x() - off;
523 if ( doAlign )
524 x = qRound( x );
525
526 QwtPainter::drawLine( painter, x, pos.y(), x, pos.y() + len );
527 break;
528 }
529 case RightScale:
530 {
531 double x = pos.x() + off;
532 if ( doAlign )
533 x = qRound( x );
534
535 QwtPainter::drawLine( painter, x, pos.y(), x, pos.y() + len );
536 break;
537 }
538 case TopScale:
539 {
540 double y = pos.y() - off;
541 if ( doAlign )
542 y = qRound( y );
543
544 QwtPainter::drawLine( painter, pos.x(), y, pos.x() + len, y );
545 break;
546 }
547 case BottomScale:
548 {
549 double y = pos.y() + off;
550 if ( doAlign )
551 y = qRound( y );
552
553 QwtPainter::drawLine( painter, pos.x(), y, pos.x() + len, y );
554 break;
555 }
556 }
557}
558
559/*!
560 \brief Move the position of the scale
561
562 The meaning of the parameter pos depends on the alignment:
563 <dl>
564 <dt>QwtScaleDraw::LeftScale
565 <dd>The origin is the topmost point of the
566 backbone. The backbone is a vertical line.
567 Scale marks and labels are drawn
568 at the left of the backbone.
569 <dt>QwtScaleDraw::RightScale
570 <dd>The origin is the topmost point of the
571 backbone. The backbone is a vertical line.
572 Scale marks and labels are drawn
573 at the right of the backbone.
574 <dt>QwtScaleDraw::TopScale
575 <dd>The origin is the leftmost point of the
576 backbone. The backbone is a horizontal line.
577 Scale marks and labels are drawn
578 above the backbone.
579 <dt>QwtScaleDraw::BottomScale
580 <dd>The origin is the leftmost point of the
581 backbone. The backbone is a horizontal line
582 Scale marks and labels are drawn
583 below the backbone.
584 </dl>
585
586 \param pos Origin of the scale
587
588 \sa pos(), setLength()
589*/
590void QwtScaleDraw::move( const QPointF &pos )
591{
592 d_data->pos = pos;
593 updateMap();
594}
595
596/*!
597 \return Origin of the scale
598 \sa move(), length()
599*/
600QPointF QwtScaleDraw::pos() const
601{
602 return d_data->pos;
603}
604
605/*!
606 Set the length of the backbone.
607
608 The length doesn't include the space needed for
609 overlapping labels.
610
[8127]611 \param length Length of the backbone
612
[4271]613 \sa move(), minLabelDist()
614*/
615void QwtScaleDraw::setLength( double length )
616{
[8127]617#if 1
[4271]618 if ( length >= 0 && length < 10 )
619 length = 10;
[8127]620
621 // why should we accept negative lengths ???
[4271]622 if ( length < 0 && length > -10 )
623 length = -10;
[8127]624#else
625 length = qMax( length, 10 );
626#endif
[4271]627
628 d_data->len = length;
629 updateMap();
630}
631
632/*!
633 \return the length of the backbone
634 \sa setLength(), pos()
635*/
636double QwtScaleDraw::length() const
637{
638 return d_data->len;
639}
640
641/*!
642 Draws the label for a major scale tick
643
644 \param painter Painter
645 \param value Value
646
647 \sa drawTick(), drawBackbone(), boundingLabelRect()
648*/
649void QwtScaleDraw::drawLabel( QPainter *painter, double value ) const
650{
651 QwtText lbl = tickLabel( painter->font(), value );
652 if ( lbl.isEmpty() )
653 return;
654
655 QPointF pos = labelPosition( value );
656
657 QSizeF labelSize = lbl.textSize( painter->font() );
658
659 const QTransform transform = labelTransformation( pos, labelSize );
660
661 painter->save();
662 painter->setWorldTransform( transform, true );
663
664 lbl.draw ( painter, QRect( QPoint( 0, 0 ), labelSize.toSize() ) );
665
666 painter->restore();
667}
668
669/*!
[8127]670 \brief Find the bounding rectangle for the label.
671
672 The coordinates of the rectangle are absolute ( calculated from pos() ).
[4271]673 in direction of the tick.
674
675 \param font Font used for painting
676 \param value Value
677
[8127]678 \return Bounding rectangle
[4271]679 \sa labelRect()
680*/
681QRect QwtScaleDraw::boundingLabelRect( const QFont &font, double value ) const
682{
683 QwtText lbl = tickLabel( font, value );
684 if ( lbl.isEmpty() )
685 return QRect();
686
687 const QPointF pos = labelPosition( value );
688 QSizeF labelSize = lbl.textSize( font );
689
690 const QTransform transform = labelTransformation( pos, labelSize );
691 return transform.mapRect( QRect( QPoint( 0, 0 ), labelSize.toSize() ) );
692}
693
694/*!
695 Calculate the transformation that is needed to paint a label
696 depending on its alignment and rotation.
697
698 \param pos Position where to paint the label
699 \param size Size of the label
700
[8127]701 \return Transformation matrix
[4271]702 \sa setLabelAlignment(), setLabelRotation()
703*/
704QTransform QwtScaleDraw::labelTransformation(
705 const QPointF &pos, const QSizeF &size ) const
706{
707 QTransform transform;
708 transform.translate( pos.x(), pos.y() );
709 transform.rotate( labelRotation() );
710
711 int flags = labelAlignment();
712 if ( flags == 0 )
713 {
714 switch ( alignment() )
715 {
716 case RightScale:
717 {
718 if ( flags == 0 )
719 flags = Qt::AlignRight | Qt::AlignVCenter;
720 break;
721 }
722 case LeftScale:
723 {
724 if ( flags == 0 )
725 flags = Qt::AlignLeft | Qt::AlignVCenter;
726 break;
727 }
728 case BottomScale:
729 {
730 if ( flags == 0 )
731 flags = Qt::AlignHCenter | Qt::AlignBottom;
732 break;
733 }
734 case TopScale:
735 {
736 if ( flags == 0 )
737 flags = Qt::AlignHCenter | Qt::AlignTop;
738 break;
739 }
740 }
741 }
742
743 double x, y;
744
745 if ( flags & Qt::AlignLeft )
746 x = -size.width();
747 else if ( flags & Qt::AlignRight )
748 x = 0.0;
749 else // Qt::AlignHCenter
750 x = -( 0.5 * size.width() );
751
752 if ( flags & Qt::AlignTop )
753 y = -size.height();
754 else if ( flags & Qt::AlignBottom )
755 y = 0;
756 else // Qt::AlignVCenter
757 y = -( 0.5 * size.height() );
758
759 transform.translate( x, y );
760
761 return transform;
762}
763
764/*!
[8127]765 Find the bounding rectangle for the label. The coordinates of
766 the rectangle are relative to spacing + tick length from the backbone
[4271]767 in direction of the tick.
768
769 \param font Font used for painting
770 \param value Value
[8127]771
772 \return Bounding rectangle that is needed to draw a label
[4271]773*/
774QRectF QwtScaleDraw::labelRect( const QFont &font, double value ) const
775{
776 QwtText lbl = tickLabel( font, value );
777 if ( lbl.isEmpty() )
778 return QRectF( 0.0, 0.0, 0.0, 0.0 );
779
780 const QPointF pos = labelPosition( value );
781
782 const QSizeF labelSize = lbl.textSize( font );
783 const QTransform transform = labelTransformation( pos, labelSize );
784
785 QRectF br = transform.mapRect( QRectF( QPointF( 0, 0 ), labelSize ) );
786 br.translate( -pos.x(), -pos.y() );
787
788 return br;
789}
790
791/*!
792 Calculate the size that is needed to draw a label
793
794 \param font Label font
795 \param value Value
[8127]796
797 \return Size that is needed to draw a label
[4271]798*/
799QSizeF QwtScaleDraw::labelSize( const QFont &font, double value ) const
800{
801 return labelRect( font, value ).size();
802}
803
804/*!
805 Rotate all labels.
806
807 When changing the rotation, it might be necessary to
808 adjust the label flags too. Finding a useful combination is
809 often the result of try and error.
810
811 \param rotation Angle in degrees. When changing the label rotation,
812 the label flags often needs to be adjusted too.
813
814 \sa setLabelAlignment(), labelRotation(), labelAlignment().
815
816*/
817void QwtScaleDraw::setLabelRotation( double rotation )
818{
819 d_data->labelRotation = rotation;
820}
821
822/*!
823 \return the label rotation
824 \sa setLabelRotation(), labelAlignment()
825*/
826double QwtScaleDraw::labelRotation() const
827{
828 return d_data->labelRotation;
829}
830
831/*!
832 \brief Change the label flags
833
[8127]834 Labels are aligned to the point tick length + spacing away from the backbone.
[4271]835
836 The alignment is relative to the orientation of the label text.
837 In case of an flags of 0 the label will be aligned
838 depending on the orientation of the scale:
839
840 QwtScaleDraw::TopScale: Qt::AlignHCenter | Qt::AlignTop\n
841 QwtScaleDraw::BottomScale: Qt::AlignHCenter | Qt::AlignBottom\n
842 QwtScaleDraw::LeftScale: Qt::AlignLeft | Qt::AlignVCenter\n
843 QwtScaleDraw::RightScale: Qt::AlignRight | Qt::AlignVCenter\n
844
845 Changing the alignment is often necessary for rotated labels.
846
847 \param alignment Or'd Qt::AlignmentFlags see <qnamespace.h>
848
849 \sa setLabelRotation(), labelRotation(), labelAlignment()
850 \warning The various alignments might be confusing.
851 The alignment of the label is not the alignment
852 of the scale and is not the alignment of the flags
[8127]853 ( QwtText::flags() ) returned from QwtAbstractScaleDraw::label().
[4271]854*/
855
856void QwtScaleDraw::setLabelAlignment( Qt::Alignment alignment )
857{
858 d_data->labelAlignment = alignment;
859}
860
861/*!
862 \return the label flags
863 \sa setLabelAlignment(), labelRotation()
864*/
865Qt::Alignment QwtScaleDraw::labelAlignment() const
866{
867 return d_data->labelAlignment;
868}
869
870/*!
871 \param font Font
872 \return the maximum width of a label
873*/
874int QwtScaleDraw::maxLabelWidth( const QFont &font ) const
875{
[8127]876 double maxWidth = 0.0;
[4271]877
878 const QList<double> &ticks = scaleDiv().ticks( QwtScaleDiv::MajorTick );
879 for ( int i = 0; i < ticks.count(); i++ )
880 {
881 const double v = ticks[i];
882 if ( scaleDiv().contains( v ) )
883 {
[8127]884 const double w = labelSize( font, ticks[i] ).width();
[4271]885 if ( w > maxWidth )
886 maxWidth = w;
887 }
888 }
889
[8127]890 return qCeil( maxWidth );
[4271]891}
892
893/*!
894 \param font Font
895 \return the maximum height of a label
896*/
897int QwtScaleDraw::maxLabelHeight( const QFont &font ) const
898{
[8127]899 double maxHeight = 0.0;
[4271]900
901 const QList<double> &ticks = scaleDiv().ticks( QwtScaleDiv::MajorTick );
902 for ( int i = 0; i < ticks.count(); i++ )
903 {
904 const double v = ticks[i];
905 if ( scaleDiv().contains( v ) )
906 {
[8127]907 const double h = labelSize( font, ticks[i] ).height();
[4271]908 if ( h > maxHeight )
909 maxHeight = h;
910 }
911 }
912
[8127]913 return qCeil( maxHeight );
[4271]914}
915
916void QwtScaleDraw::updateMap()
917{
918 const QPointF pos = d_data->pos;
919 double len = d_data->len;
920
921 QwtScaleMap &sm = scaleMap();
922 if ( orientation() == Qt::Vertical )
923 sm.setPaintInterval( pos.y() + len, pos.y() );
924 else
925 sm.setPaintInterval( pos.x(), pos.x() + len );
926}
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