Chris@189
|
1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
|
Chris@189
|
2
|
Chris@189
|
3 /*
|
Chris@189
|
4 Sonic Visualiser
|
Chris@189
|
5 An audio file viewer and annotation editor.
|
Chris@189
|
6 Centre for Digital Music, Queen Mary, University of London.
|
Chris@202
|
7 This file copyright 2006 QMUL.
|
Chris@189
|
8
|
Chris@189
|
9 This program is free software; you can redistribute it and/or
|
Chris@189
|
10 modify it under the terms of the GNU General Public License as
|
Chris@189
|
11 published by the Free Software Foundation; either version 2 of the
|
Chris@189
|
12 License, or (at your option) any later version. See the file
|
Chris@189
|
13 COPYING included with this distribution for more information.
|
Chris@189
|
14 */
|
Chris@189
|
15
|
Chris@189
|
16 #ifndef _RANGE_MAPPER_H_
|
Chris@189
|
17 #define _RANGE_MAPPER_H_
|
Chris@189
|
18
|
Chris@189
|
19 #include <QString>
|
Chris@189
|
20
|
Chris@686
|
21 #include "Debug.h"
|
Chris@880
|
22 #include <map>
|
Chris@189
|
23
|
Chris@189
|
24 class RangeMapper
|
Chris@189
|
25 {
|
Chris@189
|
26 public:
|
Chris@189
|
27 virtual ~RangeMapper() { }
|
Chris@885
|
28
|
Chris@885
|
29 /**
|
Chris@885
|
30 * Return the position that maps to the given value, rounding to
|
Chris@885
|
31 * the nearest position and clamping to the minimum and maximum
|
Chris@885
|
32 * extents of the mapper's positional range.
|
Chris@885
|
33 */
|
Chris@1038
|
34 virtual int getPositionForValue(double value) const = 0;
|
Chris@885
|
35
|
Chris@885
|
36 /**
|
Chris@885
|
37 * Return the position that maps to the given value, rounding to
|
Chris@885
|
38 * the nearest position, without clamping. That is, whatever
|
Chris@885
|
39 * mapping function is in use will be projected even outside the
|
Chris@885
|
40 * minimum and maximum extents of the mapper's positional
|
Chris@885
|
41 * range. (The mapping outside that range is not guaranteed to be
|
Chris@885
|
42 * exact, except if the mapper is a linear one.)
|
Chris@885
|
43 */
|
Chris@1038
|
44 virtual int getPositionForValueUnclamped(double value) const = 0;
|
Chris@885
|
45
|
Chris@885
|
46 /**
|
Chris@885
|
47 * Return the value mapped from the given position, clamping to
|
Chris@885
|
48 * the minimum and maximum extents of the mapper's value range.
|
Chris@885
|
49 */
|
Chris@1038
|
50 virtual double getValueForPosition(int position) const = 0;
|
Chris@885
|
51
|
Chris@885
|
52 /**
|
Chris@1203
|
53 * Return the value mapped from the given position, without
|
Chris@885
|
54 * clamping. That is, whatever mapping function is in use will be
|
Chris@885
|
55 * projected even outside the minimum and maximum extents of the
|
Chris@885
|
56 * mapper's value range. (The mapping outside that range is not
|
Chris@885
|
57 * guaranteed to be exact, except if the mapper is a linear one.)
|
Chris@885
|
58 */
|
Chris@1038
|
59 virtual double getValueForPositionUnclamped(int position) const = 0;
|
Chris@885
|
60
|
Chris@885
|
61 /**
|
Chris@885
|
62 * Get the unit of the mapper's value range.
|
Chris@885
|
63 */
|
Chris@189
|
64 virtual QString getUnit() const { return ""; }
|
Chris@1203
|
65
|
Chris@1203
|
66 /**
|
Chris@1203
|
67 * The mapper may optionally provide special labels for one or
|
Chris@1203
|
68 * more individual positions (such as the minimum position, the
|
Chris@1203
|
69 * default, or indeed all positions). These should be used in any
|
Chris@1203
|
70 * display context in preference to just showing the numerical
|
Chris@1203
|
71 * value for the position. If a position has such a label, return
|
Chris@1203
|
72 * it here.
|
Chris@1203
|
73 */
|
Chris@1204
|
74 virtual QString getLabel(int /* position */) const { return ""; }
|
Chris@189
|
75 };
|
Chris@189
|
76
|
Chris@189
|
77
|
Chris@189
|
78 class LinearRangeMapper : public RangeMapper
|
Chris@189
|
79 {
|
Chris@189
|
80 public:
|
Chris@879
|
81 /**
|
Chris@879
|
82 * Map values in range minval->maxval linearly into integer range
|
Chris@879
|
83 * minpos->maxpos. minval and minpos must be less than maxval and
|
Chris@879
|
84 * maxpos respectively. If inverted is true, the range will be
|
Chris@879
|
85 * mapped "backwards" (minval to maxpos and maxval to minpos).
|
Chris@879
|
86 */
|
Chris@189
|
87 LinearRangeMapper(int minpos, int maxpos,
|
Chris@1038
|
88 double minval, double maxval,
|
Chris@1203
|
89 QString unit = "", bool inverted = false,
|
Chris@1203
|
90 std::map<int, QString> labels = {});
|
Chris@189
|
91
|
Chris@1038
|
92 virtual int getPositionForValue(double value) const;
|
Chris@1038
|
93 virtual int getPositionForValueUnclamped(double value) const;
|
Chris@885
|
94
|
Chris@1038
|
95 virtual double getValueForPosition(int position) const;
|
Chris@1038
|
96 virtual double getValueForPositionUnclamped(int position) const;
|
Chris@189
|
97
|
Chris@189
|
98 virtual QString getUnit() const { return m_unit; }
|
Chris@1203
|
99 virtual QString getLabel(int position) const;
|
Chris@189
|
100
|
Chris@189
|
101 protected:
|
Chris@189
|
102 int m_minpos;
|
Chris@189
|
103 int m_maxpos;
|
Chris@1038
|
104 double m_minval;
|
Chris@1038
|
105 double m_maxval;
|
Chris@189
|
106 QString m_unit;
|
Chris@464
|
107 bool m_inverted;
|
Chris@1203
|
108 std::map<int, QString> m_labels;
|
Chris@189
|
109 };
|
Chris@189
|
110
|
Chris@189
|
111 class LogRangeMapper : public RangeMapper
|
Chris@189
|
112 {
|
Chris@189
|
113 public:
|
Chris@880
|
114 /**
|
Chris@880
|
115 * Map values in range minval->maxval into integer range
|
Chris@880
|
116 * minpos->maxpos such that logs of the values are mapped
|
Chris@885
|
117 * linearly. minval must be greater than zero, and minval and
|
Chris@885
|
118 * minpos must be less than maxval and maxpos respectively. If
|
Chris@885
|
119 * inverted is true, the range will be mapped "backwards" (minval
|
Chris@885
|
120 * to maxpos and maxval to minpos).
|
Chris@880
|
121 */
|
Chris@189
|
122 LogRangeMapper(int minpos, int maxpos,
|
Chris@1038
|
123 double minval, double maxval,
|
Chris@464
|
124 QString m_unit = "", bool inverted = false);
|
Chris@189
|
125
|
Chris@1038
|
126 static void convertRatioMinLog(double ratio, double minlog,
|
Chris@356
|
127 int minpos, int maxpos,
|
Chris@1038
|
128 double &minval, double &maxval);
|
Chris@356
|
129
|
Chris@356
|
130 static void convertMinMax(int minpos, int maxpos,
|
Chris@1038
|
131 double minval, double maxval,
|
Chris@1425
|
132 double &minlog, double &ratio);
|
Chris@356
|
133
|
Chris@1038
|
134 virtual int getPositionForValue(double value) const;
|
Chris@1038
|
135 virtual int getPositionForValueUnclamped(double value) const;
|
Chris@885
|
136
|
Chris@1038
|
137 virtual double getValueForPosition(int position) const;
|
Chris@1038
|
138 virtual double getValueForPositionUnclamped(int position) const;
|
Chris@189
|
139
|
Chris@189
|
140 virtual QString getUnit() const { return m_unit; }
|
Chris@189
|
141
|
Chris@189
|
142 protected:
|
Chris@189
|
143 int m_minpos;
|
Chris@189
|
144 int m_maxpos;
|
Chris@1038
|
145 double m_ratio;
|
Chris@1038
|
146 double m_minlog;
|
Chris@1038
|
147 double m_maxlog;
|
Chris@189
|
148 QString m_unit;
|
Chris@464
|
149 bool m_inverted;
|
Chris@189
|
150 };
|
Chris@189
|
151
|
Chris@880
|
152 class InterpolatingRangeMapper : public RangeMapper
|
Chris@880
|
153 {
|
Chris@880
|
154 public:
|
Chris@1038
|
155 typedef std::map<double, int> CoordMap;
|
Chris@880
|
156
|
Chris@880
|
157 /**
|
Chris@880
|
158 * Given a series of (value, position) coordinate mappings,
|
Chris@880
|
159 * construct a range mapper that maps arbitrary values, in the
|
Chris@880
|
160 * range between minimum and maximum of the provided values, onto
|
Chris@880
|
161 * coordinates using linear interpolation between the supplied
|
Chris@880
|
162 * points.
|
Chris@880
|
163 *
|
Chris@880
|
164 *!!! todo: Cubic -- more generally useful than linear interpolation
|
Chris@880
|
165 *!!! todo: inverted flag
|
Chris@880
|
166 *
|
Chris@880
|
167 * The set of provided mappings must contain at least two
|
Chris@880
|
168 * coordinates.
|
Chris@880
|
169 *
|
Chris@880
|
170 * It is expected that the values and positions in the coordinate
|
Chris@880
|
171 * mappings will both be monotonically increasing (i.e. no
|
Chris@880
|
172 * inflections in the mapping curve). Behaviour is undefined if
|
Chris@880
|
173 * this is not the case.
|
Chris@880
|
174 */
|
Chris@880
|
175 InterpolatingRangeMapper(CoordMap pointMappings,
|
Chris@880
|
176 QString unit);
|
Chris@880
|
177
|
Chris@1038
|
178 virtual int getPositionForValue(double value) const;
|
Chris@1038
|
179 virtual int getPositionForValueUnclamped(double value) const;
|
Chris@885
|
180
|
Chris@1038
|
181 virtual double getValueForPosition(int position) const;
|
Chris@1038
|
182 virtual double getValueForPositionUnclamped(int position) const;
|
Chris@880
|
183
|
Chris@880
|
184 virtual QString getUnit() const { return m_unit; }
|
Chris@880
|
185
|
Chris@880
|
186 protected:
|
Chris@880
|
187 CoordMap m_mappings;
|
Chris@1038
|
188 std::map<int, double> m_reverse;
|
Chris@880
|
189 QString m_unit;
|
Chris@885
|
190
|
Chris@885
|
191 template <typename T>
|
Chris@1038
|
192 double interpolate(T *mapping, double v) const;
|
Chris@880
|
193 };
|
Chris@880
|
194
|
Chris@880
|
195 class AutoRangeMapper : public RangeMapper
|
Chris@880
|
196 {
|
Chris@880
|
197 public:
|
Chris@880
|
198 enum MappingType {
|
Chris@880
|
199 Interpolating,
|
Chris@880
|
200 StraightLine,
|
Chris@880
|
201 Logarithmic,
|
Chris@880
|
202 };
|
Chris@880
|
203
|
Chris@1038
|
204 typedef std::map<double, int> CoordMap;
|
Chris@880
|
205
|
Chris@880
|
206 /**
|
Chris@880
|
207 * Given a series of (value, position) coordinate mappings,
|
Chris@880
|
208 * construct a range mapper that maps arbitrary values, in the
|
Chris@880
|
209 * range between minimum and maximum of the provided values, onto
|
Chris@880
|
210 * coordinates.
|
Chris@880
|
211 *
|
Chris@880
|
212 * The mapping used may be
|
Chris@880
|
213 *
|
Chris@880
|
214 * Interpolating -- an InterpolatingRangeMapper will be used
|
Chris@880
|
215 *
|
Chris@880
|
216 * StraightLine -- a LinearRangeMapper from the minimum to
|
Chris@880
|
217 * maximum value coordinates will be used, ignoring all other
|
Chris@880
|
218 * supplied coordinate mappings
|
Chris@880
|
219 *
|
Chris@880
|
220 * Logarithmic -- a LogRangeMapper from the minimum to
|
Chris@880
|
221 * maximum value coordinates will be used, ignoring all other
|
Chris@880
|
222 * supplied coordinate mappings
|
Chris@880
|
223 *
|
Chris@880
|
224 * The mapping will be chosen automatically by looking at the
|
Chris@880
|
225 * supplied coordinates. If the supplied coordinates fall on a
|
Chris@880
|
226 * straight line, a StraightLine mapping will be used; if they
|
Chris@880
|
227 * fall on a log curve, a Logarithmic mapping will be used;
|
Chris@880
|
228 * otherwise an Interpolating mapping will be used.
|
Chris@880
|
229 *
|
Chris@880
|
230 *!!! todo: inverted flag
|
Chris@880
|
231 *
|
Chris@880
|
232 * The set of provided mappings must contain at least two
|
Chris@880
|
233 * coordinates, or at least three if the points are not supposed
|
Chris@880
|
234 * to be in a straight line.
|
Chris@880
|
235 *
|
Chris@880
|
236 * It is expected that the values and positions in the coordinate
|
Chris@880
|
237 * mappings will both be monotonically increasing (i.e. no
|
Chris@880
|
238 * inflections in the mapping curve). Behaviour is undefined if
|
Chris@880
|
239 * this is not the case.
|
Chris@880
|
240 */
|
Chris@880
|
241 AutoRangeMapper(CoordMap pointMappings,
|
Chris@880
|
242 QString unit);
|
Chris@880
|
243
|
Chris@880
|
244 ~AutoRangeMapper();
|
Chris@880
|
245
|
Chris@880
|
246 /**
|
Chris@880
|
247 * Return the mapping type in use.
|
Chris@880
|
248 */
|
Chris@880
|
249 MappingType getType() const { return m_type; }
|
Chris@880
|
250
|
Chris@1038
|
251 virtual int getPositionForValue(double value) const;
|
Chris@1038
|
252 virtual int getPositionForValueUnclamped(double value) const;
|
Chris@885
|
253
|
Chris@1038
|
254 virtual double getValueForPosition(int position) const;
|
Chris@1038
|
255 virtual double getValueForPositionUnclamped(int position) const;
|
Chris@880
|
256
|
Chris@880
|
257 virtual QString getUnit() const { return m_unit; }
|
Chris@880
|
258
|
Chris@880
|
259 protected:
|
Chris@880
|
260 MappingType m_type;
|
Chris@880
|
261 CoordMap m_mappings;
|
Chris@880
|
262 QString m_unit;
|
Chris@880
|
263 RangeMapper *m_mapper;
|
Chris@880
|
264
|
Chris@880
|
265 MappingType chooseMappingTypeFor(const CoordMap &);
|
Chris@880
|
266 };
|
Chris@189
|
267
|
Chris@189
|
268 #endif
|