source: ntrip/trunk/BNC/qwt/qwt_series_data.h@ 10573

Last change on this file since 10573 was 9383, checked in by stoecker, 4 years ago

update to qwt verion 6.1.1 to fix build with newer Qt5

File size: 9.2 KB
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[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#ifndef QWT_SERIES_DATA_H
11#define QWT_SERIES_DATA_H 1
12
13#include "qwt_global.h"
[8127]14#include "qwt_samples.h"
[4271]15#include "qwt_point_3d.h"
16#include "qwt_point_polar.h"
17#include <qvector.h>
18#include <qrect.h>
19
20/*!
21 \brief Abstract interface for iterating over samples
22
23 Qwt offers several implementations of the QwtSeriesData API,
24 but in situations, where data of an application specific format
25 needs to be displayed, without having to copy it, it is recommended
26 to implement an individual data access.
[8127]27
[9383]28 A subclass of QwtSeriesData<QPointF> must implement:
[8127]29
[9383]30 - size()\n
[8127]31 Should return number of data points.
32
33 - sample()\n
34 Should return values x and y values of the sample at specific position
35 as QPointF object.
36
[9383]37 - boundingRect()\n
[8127]38 Should return the bounding rectangle of the data series.
39 It is used for autoscaling and might help certain algorithms for displaying
40 the data. You can use qwtBoundingRect() for an implementation
[9383]41 but often it is possible to implement a more efficient algorithm
[8127]42 depending on the characteristics of the series.
43 The member d_boundingRect is intended for caching the calculated rectangle.
[9383]44
[4271]45*/
46template <typename T>
47class QwtSeriesData
48{
49public:
[8127]50 //! Constructor
[4271]51 QwtSeriesData();
[8127]52
53 //! Destructor
[4271]54 virtual ~QwtSeriesData();
55
[9383]56#ifndef QWT_PYTHON_WRAPPER
57
[4271]58 //! \return Number of samples
59 virtual size_t size() const = 0;
60
61 /*!
62 Return a sample
63 \param i Index
64 \return Sample at position i
65 */
66 virtual T sample( size_t i ) const = 0;
67
68 /*!
69 Calculate the bounding rect of all samples
70
71 The bounding rect is necessary for autoscaling and can be used
72 for a couple of painting optimizations.
73
74 qwtBoundingRect(...) offers slow implementations iterating
75 over the samples. For large sets it is recommended to implement
[8127]76 something faster f.e. by caching the bounding rectangle.
77
78 \return Bounding rectangle
[4271]79 */
80 virtual QRectF boundingRect() const = 0;
81
[9383]82#else
83 // Needed for generating the python bindings, but not for using them !
84 virtual size_t size() const { return 0; }
85 virtual T sample( size_t i ) const { return T(); }
86 virtual QRectF boundingRect() const { return d_boundingRect; }
87#endif
88
[8127]89 /*!
90 Set a the "rect of interest"
[4271]91
[8127]92 QwtPlotSeriesItem defines the current area of the plot canvas
93 as "rectangle of interest" ( QwtPlotSeriesItem::updateScaleDiv() ).
94 It can be used to implement different levels of details.
95
96 The default implementation does nothing.
[9383]97
[8127]98 \param rect Rectangle of interest
99 */
100 virtual void setRectOfInterest( const QRectF &rect );
101
[4271]102protected:
103 //! Can be used to cache a calculated bounding rectangle
104 mutable QRectF d_boundingRect;
105
106private:
107 QwtSeriesData<T> &operator=( const QwtSeriesData<T> & );
108};
109
110template <typename T>
111QwtSeriesData<T>::QwtSeriesData():
112 d_boundingRect( 0.0, 0.0, -1.0, -1.0 )
113{
114}
115
116template <typename T>
117QwtSeriesData<T>::~QwtSeriesData()
118{
119}
120
121template <typename T>
122void QwtSeriesData<T>::setRectOfInterest( const QRectF & )
123{
124}
125
126/*!
127 \brief Template class for data, that is organized as QVector
128
129 QVector uses implicit data sharing and can be
130 passed around as argument efficiently.
131*/
132template <typename T>
133class QwtArraySeriesData: public QwtSeriesData<T>
134{
135public:
[8127]136 //! Constructor
[4271]137 QwtArraySeriesData();
138
[8127]139 /*!
140 Constructor
141 \param samples Array of samples
142 */
143 QwtArraySeriesData( const QVector<T> &samples );
144
145 /*!
146 Assign an array of samples
147 \param samples Array of samples
148 */
149 void setSamples( const QVector<T> &samples );
150
151 //! \return Array of samples
[4271]152 const QVector<T> samples() const;
153
[8127]154 //! \return Number of samples
[4271]155 virtual size_t size() const;
156
[8127]157 /*!
158 \return Sample at a specific position
159
160 \param index Index
161 \return Sample at position index
162 */
163 virtual T sample( size_t index ) const;
164
[4271]165protected:
166 //! Vector of samples
167 QVector<T> d_samples;
168};
169
170template <typename T>
171QwtArraySeriesData<T>::QwtArraySeriesData()
172{
173}
174
175template <typename T>
176QwtArraySeriesData<T>::QwtArraySeriesData( const QVector<T> &samples ):
177 d_samples( samples )
178{
179}
180
181template <typename T>
182void QwtArraySeriesData<T>::setSamples( const QVector<T> &samples )
183{
184 QwtSeriesData<T>::d_boundingRect = QRectF( 0.0, 0.0, -1.0, -1.0 );
185 d_samples = samples;
186}
187
188template <typename T>
189const QVector<T> QwtArraySeriesData<T>::samples() const
190{
191 return d_samples;
192}
193
194template <typename T>
195size_t QwtArraySeriesData<T>::size() const
196{
197 return d_samples.size();
198}
199
200template <typename T>
201T QwtArraySeriesData<T>::sample( size_t i ) const
202{
[8127]203 return d_samples[ static_cast<int>( i ) ];
[4271]204}
205
206//! Interface for iterating over an array of points
207class QWT_EXPORT QwtPointSeriesData: public QwtArraySeriesData<QPointF>
208{
209public:
210 QwtPointSeriesData(
211 const QVector<QPointF> & = QVector<QPointF>() );
212
213 virtual QRectF boundingRect() const;
214};
215
216//! Interface for iterating over an array of 3D points
217class QWT_EXPORT QwtPoint3DSeriesData: public QwtArraySeriesData<QwtPoint3D>
218{
219public:
220 QwtPoint3DSeriesData(
221 const QVector<QwtPoint3D> & = QVector<QwtPoint3D>() );
222 virtual QRectF boundingRect() const;
223};
224
225//! Interface for iterating over an array of intervals
226class QWT_EXPORT QwtIntervalSeriesData: public QwtArraySeriesData<QwtIntervalSample>
227{
228public:
229 QwtIntervalSeriesData(
230 const QVector<QwtIntervalSample> & = QVector<QwtIntervalSample>() );
231
232 virtual QRectF boundingRect() const;
233};
234
235//! Interface for iterating over an array of samples
236class QWT_EXPORT QwtSetSeriesData: public QwtArraySeriesData<QwtSetSample>
237{
238public:
239 QwtSetSeriesData(
240 const QVector<QwtSetSample> & = QVector<QwtSetSample>() );
241
242 virtual QRectF boundingRect() const;
243};
244
245/*!
[8127]246 Interface for iterating over an array of OHLC samples
[4271]247*/
[8127]248class QWT_EXPORT QwtTradingChartData: public QwtArraySeriesData<QwtOHLCSample>
[4271]249{
250public:
[8127]251 QwtTradingChartData(
252 const QVector<QwtOHLCSample> & = QVector<QwtOHLCSample>() );
[4271]253
254 virtual QRectF boundingRect() const;
[8127]255};
[4271]256
[8127]257QWT_EXPORT QRectF qwtBoundingRect(
258 const QwtSeriesData<QPointF> &, int from = 0, int to = -1 );
[4271]259
[8127]260QWT_EXPORT QRectF qwtBoundingRect(
261 const QwtSeriesData<QwtPoint3D> &, int from = 0, int to = -1 );
[4271]262
[8127]263QWT_EXPORT QRectF qwtBoundingRect(
264 const QwtSeriesData<QwtPointPolar> &, int from = 0, int to = -1 );
[4271]265
[8127]266QWT_EXPORT QRectF qwtBoundingRect(
267 const QwtSeriesData<QwtIntervalSample> &, int from = 0, int to = -1 );
[4271]268
[8127]269QWT_EXPORT QRectF qwtBoundingRect(
270 const QwtSeriesData<QwtSetSample> &, int from = 0, int to = -1 );
[4271]271
[8127]272QWT_EXPORT QRectF qwtBoundingRect(
273 const QwtSeriesData<QwtOHLCSample> &, int from = 0, int to = -1 );
[4271]274
275/*!
[8127]276 Binary search for a sorted series of samples
[4271]277
[8127]278 qwtUpperSampleIndex returns the index of sample that is the upper bound
279 of value. Is the the value smaller than the smallest value the return
280 value will be 0. Is the value greater or equal than the largest
281 value the return value will be -1.
[4271]282
283 \par Example
[8127]284 The following example shows finds a point of curve from an x
285 coordinate
[9383]286 \code
287 #include <qwt_series_data.h>
288 #include <qwt_plot_curve.h>
[4271]289
[9383]290 struct compareX
291 {
292 inline bool operator()( const double x, const QPointF &pos ) const
293 {
294 return ( x < pos.x() );
295 }
296 };
[4271]297
[9383]298 QLineF curveLineAt( const QwtPlotCurve *curve, double x )
299 {
300 int index = qwtUpperSampleIndex<QPointF>(
301 *curve->data(), x, compareX() );
[4271]302
[9383]303 if ( index == -1 &&
304 x == curve->sample( curve->dataSize() - 1 ).x() )
305 {
306 // the last sample is excluded from qwtUpperSampleIndex
307 index = curve->dataSize() - 1;
308 }
[4271]309
[9383]310 QLineF line; // invalid
311 if ( index > 0 )
312 {
313 line.setP1( curve->sample( index - 1 ) );
314 line.setP2( curve->sample( index ) );
315 }
[4271]316
[9383]317 return line;
318 }
[4271]319
[9383]320 \endcode
321 \endpar
[4271]322
[9383]323 \param series Series of samples
324 \param value Value
325 \param lessThan Compare operation
[4271]326
[9383]327 \note The samples must be sorted according to the order specified
328 by the lessThan object
[8127]329 */
330template <typename T, typename LessThan>
331inline int qwtUpperSampleIndex( const QwtSeriesData<T> &series,
[9383]332 double value, LessThan lessThan )
[8127]333{
334 const int indexMax = series.size() - 1;
[4271]335
[8127]336 if ( indexMax < 0 || !lessThan( value, series.sample( indexMax ) ) )
337 return -1;
[4271]338
[8127]339 int indexMin = 0;
340 int n = indexMax;
[4271]341
[8127]342 while ( n > 0 )
343 {
344 const int half = n >> 1;
345 const int indexMid = indexMin + half;
[4271]346
[8127]347 if ( lessThan( value, series.sample( indexMid ) ) )
348 {
349 n = half;
350 }
351 else
352 {
353 indexMin = indexMid + 1;
354 n -= half + 1;
355 }
356 }
357
358 return indexMin;
359}
360
361#endif
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