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Implement "fill logic signal high areas" feature
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1/*
2 * This file is part of the PulseView project.
3 *
4 * Copyright (C) 2012 Joel Holdsworth <joel@airwebreathe.org.uk>
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, see <http://www.gnu.org/licenses/>.
18 */
19
20#include <extdef.h>
21
22#include <cassert>
23#include <cmath>
24#include <cstdlib>
25#include <limits>
26#include <vector>
27
28#include <QApplication>
29#include <QCheckBox>
30#include <QComboBox>
31#include <QDebug>
32#include <QFormLayout>
33#include <QGridLayout>
34#include <QLabel>
35#include <QString>
36
37#include "analogsignal.hpp"
38#include "logicsignal.hpp"
39#include "view.hpp"
40
41#include "pv/util.hpp"
42#include "pv/data/analog.hpp"
43#include "pv/data/analogsegment.hpp"
44#include "pv/data/logic.hpp"
45#include "pv/data/logicsegment.hpp"
46#include "pv/data/signalbase.hpp"
47#include "pv/globalsettings.hpp"
48
49#include <libsigrokcxx/libsigrokcxx.hpp>
50
51using std::deque;
52using std::div;
53using std::div_t;
54// Note that "using std::isnan;" is _not_ put here since that would break
55// compilation on some platforms. Use "std::isnan()" instead in checks below.
56using std::max;
57using std::make_pair;
58using std::min;
59using std::numeric_limits;
60using std::out_of_range;
61using std::pair;
62using std::shared_ptr;
63using std::vector;
64
65using pv::data::LogicSegment;
66using pv::data::SignalBase;
67using pv::util::SIPrefix;
68
69namespace pv {
70namespace views {
71namespace trace {
72
73const QColor AnalogSignal::SignalColors[4] = {
74 QColor(0xC4, 0xA0, 0x00), // Yellow
75 QColor(0x87, 0x20, 0x7A), // Magenta
76 QColor(0x20, 0x4A, 0x87), // Blue
77 QColor(0x4E, 0x9A, 0x06) // Green
78};
79
80const QPen AnalogSignal::AxisPen(QColor(0, 0, 0, 30 * 256 / 100), 2);
81const QColor AnalogSignal::GridMajorColor = QColor(0, 0, 0, 40 * 256 / 100);
82const QColor AnalogSignal::GridMinorColor = QColor(0, 0, 0, 20 * 256 / 100);
83
84const QColor AnalogSignal::SamplingPointColor(0x77, 0x77, 0x77);
85const QColor AnalogSignal::SamplingPointColorLo = QColor(200, 0, 0, 80 * 256 / 100);
86const QColor AnalogSignal::SamplingPointColorNe = QColor(0, 0, 0, 80 * 256 / 100);
87const QColor AnalogSignal::SamplingPointColorHi = QColor(0, 200, 0, 80 * 256 / 100);
88
89const QColor AnalogSignal::ThresholdColor = QColor(0, 0, 0, 30 * 256 / 100);
90const QColor AnalogSignal::ThresholdColorLo = QColor(255, 0, 0, 8 * 256 / 100);
91const QColor AnalogSignal::ThresholdColorNe = QColor(0, 0, 0, 10 * 256 / 100);
92const QColor AnalogSignal::ThresholdColorHi = QColor(0, 255, 0, 8 * 256 / 100);
93
94const int64_t AnalogSignal::TracePaintBlockSize = 1024 * 1024; // 4 MiB (due to float)
95const float AnalogSignal::EnvelopeThreshold = 64.0f;
96
97const int AnalogSignal::MaximumVDivs = 10;
98const int AnalogSignal::MinScaleIndex = -6;
99const int AnalogSignal::MaxScaleIndex = 7;
100
101const int AnalogSignal::InfoTextMarginRight = 20;
102const int AnalogSignal::InfoTextMarginBottom = 5;
103
104AnalogSignal::AnalogSignal(
105 pv::Session &session,
106 shared_ptr<data::SignalBase> base) :
107 Signal(session, base),
108 scale_index_(4), // 20 per div
109 pos_vdivs_(1),
110 neg_vdivs_(1),
111 resolution_(0),
112 display_type_(DisplayBoth),
113 autoranging_(true),
114 value_at_hover_pos_(std::numeric_limits<float>::quiet_NaN())
115{
116 axis_pen_ = AxisPen;
117
118 pv::data::Analog* analog_data =
119 dynamic_cast<pv::data::Analog*>(data().get());
120
121 connect(analog_data, SIGNAL(min_max_changed(float, float)),
122 this, SLOT(on_min_max_changed(float, float)));
123
124 GlobalSettings gs;
125 conversion_threshold_disp_mode_ =
126 gs.value(GlobalSettings::Key_View_ConversionThresholdDispMode).toInt();
127
128 div_height_ = gs.value(GlobalSettings::Key_View_DefaultDivHeight).toInt();
129
130 base_->set_color(SignalColors[base_->index() % countof(SignalColors)]);
131 update_scale();
132}
133
134shared_ptr<pv::data::SignalData> AnalogSignal::data() const
135{
136 return base_->analog_data();
137}
138
139void AnalogSignal::save_settings(QSettings &settings) const
140{
141 settings.setValue("pos_vdivs", pos_vdivs_);
142 settings.setValue("neg_vdivs", neg_vdivs_);
143 settings.setValue("scale_index", scale_index_);
144 settings.setValue("display_type", display_type_);
145 settings.setValue("autoranging", autoranging_);
146 settings.setValue("div_height", div_height_);
147}
148
149void AnalogSignal::restore_settings(QSettings &settings)
150{
151 if (settings.contains("pos_vdivs"))
152 pos_vdivs_ = settings.value("pos_vdivs").toInt();
153
154 if (settings.contains("neg_vdivs"))
155 neg_vdivs_ = settings.value("neg_vdivs").toInt();
156
157 if (settings.contains("scale_index")) {
158 scale_index_ = settings.value("scale_index").toInt();
159 update_scale();
160 }
161
162 if (settings.contains("display_type"))
163 display_type_ = (DisplayType)(settings.value("display_type").toInt());
164
165 if (settings.contains("autoranging"))
166 autoranging_ = settings.value("autoranging").toBool();
167
168 if (settings.contains("div_height")) {
169 const int old_height = div_height_;
170 div_height_ = settings.value("div_height").toInt();
171
172 if ((div_height_ != old_height) && owner_) {
173 // Call order is important, otherwise the lazy event handler won't work
174 owner_->extents_changed(false, true);
175 owner_->row_item_appearance_changed(false, true);
176 }
177 }
178}
179
180pair<int, int> AnalogSignal::v_extents() const
181{
182 const int ph = pos_vdivs_ * div_height_;
183 const int nh = neg_vdivs_ * div_height_;
184 return make_pair(-ph, nh);
185}
186
187void AnalogSignal::on_setting_changed(const QString &key, const QVariant &value)
188{
189 Signal::on_setting_changed(key, value);
190
191 if (key == GlobalSettings::Key_View_ConversionThresholdDispMode)
192 on_settingViewConversionThresholdDispMode_changed(value);
193}
194
195void AnalogSignal::paint_back(QPainter &p, ViewItemPaintParams &pp)
196{
197 if (!base_->enabled())
198 return;
199
200 bool paint_thr_bg =
201 conversion_threshold_disp_mode_ == GlobalSettings::ConvThrDispMode_Background;
202
203 const vector<double> thresholds = base_->get_conversion_thresholds();
204
205 // Only display thresholds if we have some and we show analog samples
206 if ((thresholds.size() > 0) && paint_thr_bg &&
207 ((display_type_ == DisplayAnalog) || (display_type_ == DisplayBoth))) {
208
209 const int visual_y = get_visual_y();
210 const pair<int, int> extents = v_extents();
211 const int top = visual_y + extents.first;
212 const int btm = visual_y + extents.second;
213
214 // Draw high/neutral/low areas
215 if (thresholds.size() == 2) {
216 int thr_lo = visual_y - thresholds[0] * scale_;
217 int thr_hi = visual_y - thresholds[1] * scale_;
218 thr_lo = min(max(thr_lo, top), btm);
219 thr_hi = min(max(thr_hi, top), btm);
220
221 p.fillRect(QRectF(pp.left(), top, pp.width(), thr_hi - top),
222 QBrush(ThresholdColorHi));
223 p.fillRect(QRectF(pp.left(), thr_hi, pp.width(), thr_lo - thr_hi),
224 QBrush(ThresholdColorNe));
225 p.fillRect(QRectF(pp.left(), thr_lo, pp.width(), btm - thr_lo),
226 QBrush(ThresholdColorLo));
227 } else {
228 int thr = visual_y - thresholds[0] * scale_;
229 thr = min(max(thr, top), btm);
230
231 p.fillRect(QRectF(pp.left(), top, pp.width(), thr - top),
232 QBrush(ThresholdColorHi));
233 p.fillRect(QRectF(pp.left(), thr, pp.width(), btm - thr),
234 QBrush(ThresholdColorLo));
235 }
236
237 paint_axis(p, pp, get_visual_y());
238 } else {
239 Trace::paint_back(p, pp);
240 paint_axis(p, pp, get_visual_y());
241 }
242}
243
244void AnalogSignal::paint_mid(QPainter &p, ViewItemPaintParams &pp)
245{
246 assert(base_->analog_data());
247 assert(owner_);
248
249 const int y = get_visual_y();
250
251 if (!base_->enabled())
252 return;
253
254 if ((display_type_ == DisplayAnalog) || (display_type_ == DisplayBoth)) {
255 paint_grid(p, y, pp.left(), pp.right());
256
257 shared_ptr<pv::data::AnalogSegment> segment = get_analog_segment_to_paint();
258 if (!segment || (segment->get_sample_count() == 0))
259 return;
260
261 const double pixels_offset = pp.pixels_offset();
262 const double samplerate = max(1.0, segment->samplerate());
263 const pv::util::Timestamp& start_time = segment->start_time();
264 const int64_t last_sample = (int64_t)segment->get_sample_count() - 1;
265 const double samples_per_pixel = samplerate * pp.scale();
266 const pv::util::Timestamp start = samplerate * (pp.offset() - start_time);
267 const pv::util::Timestamp end = start + samples_per_pixel * pp.width();
268
269 const int64_t start_sample = min(max(floor(start).convert_to<int64_t>(),
270 (int64_t)0), last_sample);
271 const int64_t end_sample = min(max((ceil(end) + 1).convert_to<int64_t>(),
272 (int64_t)0), last_sample);
273
274 if (samples_per_pixel < EnvelopeThreshold)
275 paint_trace(p, segment, y, pp.left(), start_sample, end_sample,
276 pixels_offset, samples_per_pixel);
277 else
278 paint_envelope(p, segment, y, pp.left(), start_sample, end_sample,
279 pixels_offset, samples_per_pixel);
280 }
281
282 if ((display_type_ == DisplayConverted) || (display_type_ == DisplayBoth))
283 paint_logic_mid(p, pp);
284}
285
286void AnalogSignal::paint_fore(QPainter &p, ViewItemPaintParams &pp)
287{
288 if (!enabled())
289 return;
290
291 if ((display_type_ == DisplayAnalog) || (display_type_ == DisplayBoth)) {
292 const int y = get_visual_y();
293
294 QString infotext;
295
296 // Show the info section on the right side of the trace, including
297 // the value at the hover point when the hover marker is enabled
298 // and we have corresponding data available
299 if (show_hover_marker_ && !std::isnan(value_at_hover_pos_)) {
300 infotext = QString("[%1] %2 V/div")
301 .arg(format_value_si(value_at_hover_pos_, SIPrefix::unspecified, 0, "V", false))
302 .arg(resolution_);
303 } else
304 infotext = QString("%1 V/div").arg(resolution_);
305
306 p.setPen(base_->color());
307 p.setFont(QApplication::font());
308
309 const QRectF bounding_rect = QRectF(pp.left(),
310 y + v_extents().first,
311 pp.width() - InfoTextMarginRight,
312 v_extents().second - v_extents().first - InfoTextMarginBottom);
313
314 p.drawText(bounding_rect, Qt::AlignRight | Qt::AlignBottom, infotext);
315 }
316
317 if (show_hover_marker_)
318 paint_hover_marker(p);
319}
320
321void AnalogSignal::paint_grid(QPainter &p, int y, int left, int right)
322{
323 p.setRenderHint(QPainter::Antialiasing, false);
324
325 GlobalSettings settings;
326 const bool show_analog_minor_grid =
327 settings.value(GlobalSettings::Key_View_ShowAnalogMinorGrid).toBool();
328
329 if (pos_vdivs_ > 0) {
330 p.setPen(QPen(GridMajorColor, 1, Qt::DashLine));
331 for (int i = 1; i <= pos_vdivs_; i++) {
332 const float dy = i * div_height_;
333 p.drawLine(QLineF(left, y - dy, right, y - dy));
334 }
335 }
336
337 if ((pos_vdivs_ > 0) && show_analog_minor_grid) {
338 p.setPen(QPen(GridMinorColor, 1, Qt::DashLine));
339 for (int i = 0; i < pos_vdivs_; i++) {
340 const float dy = i * div_height_;
341 const float dy25 = dy + (0.25 * div_height_);
342 const float dy50 = dy + (0.50 * div_height_);
343 const float dy75 = dy + (0.75 * div_height_);
344 p.drawLine(QLineF(left, y - dy25, right, y - dy25));
345 p.drawLine(QLineF(left, y - dy50, right, y - dy50));
346 p.drawLine(QLineF(left, y - dy75, right, y - dy75));
347 }
348 }
349
350 if (neg_vdivs_ > 0) {
351 p.setPen(QPen(GridMajorColor, 1, Qt::DashLine));
352 for (int i = 1; i <= neg_vdivs_; i++) {
353 const float dy = i * div_height_;
354 p.drawLine(QLineF(left, y + dy, right, y + dy));
355 }
356 }
357
358 if ((pos_vdivs_ > 0) && show_analog_minor_grid) {
359 p.setPen(QPen(GridMinorColor, 1, Qt::DashLine));
360 for (int i = 0; i < neg_vdivs_; i++) {
361 const float dy = i * div_height_;
362 const float dy25 = dy + (0.25 * div_height_);
363 const float dy50 = dy + (0.50 * div_height_);
364 const float dy75 = dy + (0.75 * div_height_);
365 p.drawLine(QLineF(left, y + dy25, right, y + dy25));
366 p.drawLine(QLineF(left, y + dy50, right, y + dy50));
367 p.drawLine(QLineF(left, y + dy75, right, y + dy75));
368 }
369 }
370
371 p.setRenderHint(QPainter::Antialiasing, true);
372}
373
374void AnalogSignal::paint_trace(QPainter &p,
375 const shared_ptr<pv::data::AnalogSegment> &segment,
376 int y, int left, const int64_t start, const int64_t end,
377 const double pixels_offset, const double samples_per_pixel)
378{
379 if (end <= start)
380 return;
381
382 bool paint_thr_dots =
383 (base_->get_conversion_type() != data::SignalBase::NoConversion) &&
384 (conversion_threshold_disp_mode_ == GlobalSettings::ConvThrDispMode_Dots);
385
386 vector<double> thresholds;
387 if (paint_thr_dots)
388 thresholds = base_->get_conversion_thresholds();
389
390 // Calculate and paint the sampling points if enabled and useful
391 GlobalSettings settings;
392 const bool show_sampling_points =
393 (settings.value(GlobalSettings::Key_View_ShowSamplingPoints).toBool() ||
394 paint_thr_dots) && (samples_per_pixel < 0.25);
395
396 p.setPen(base_->color());
397
398 const int64_t points_count = end - start + 1;
399
400 QPointF *points = new QPointF[points_count];
401 QPointF *point = points;
402
403 vector<QRectF> sampling_points[3];
404
405 int64_t sample_count = min(points_count, TracePaintBlockSize);
406 int64_t block_sample = 0;
407 float *sample_block = new float[TracePaintBlockSize];
408 segment->get_samples(start, start + sample_count, sample_block);
409
410 if (show_hover_marker_)
411 reset_pixel_values();
412
413 const int w = 2;
414 for (int64_t sample = start; sample <= end; sample++, block_sample++) {
415
416 // Fetch next block of samples if we finished the current one
417 if (block_sample == TracePaintBlockSize) {
418 block_sample = 0;
419 sample_count = min(points_count - sample, TracePaintBlockSize);
420 segment->get_samples(sample, sample + sample_count, sample_block);
421 }
422
423 const float abs_x = sample / samples_per_pixel - pixels_offset;
424 const float x = left + abs_x;
425
426 *point++ = QPointF(x, y - sample_block[block_sample] * scale_);
427
428 // Generate the pixel<->value lookup table for the mouse hover
429 if (show_hover_marker_)
430 process_next_sample_value(abs_x, sample_block[block_sample]);
431
432 // Create the sampling points if needed
433 if (show_sampling_points) {
434 int idx = 0; // Neutral
435
436 if (paint_thr_dots) {
437 if (thresholds.size() == 1)
438 idx = (sample_block[block_sample] >= thresholds[0]) ? 2 : 1;
439 else if (thresholds.size() == 2) {
440 if (sample_block[block_sample] > thresholds[1])
441 idx = 2; // High
442 else if (sample_block[block_sample] < thresholds[0])
443 idx = 1; // Low
444 }
445 }
446
447 sampling_points[idx].emplace_back(x - (w / 2), y - sample_block[block_sample] * scale_ - (w / 2), w, w);
448 }
449 }
450 delete[] sample_block;
451
452 p.drawPolyline(points, points_count);
453
454 if (show_sampling_points) {
455 if (paint_thr_dots) {
456 p.setPen(SamplingPointColorNe);
457 p.drawRects(sampling_points[0].data(), sampling_points[0].size());
458 p.setPen(SamplingPointColorLo);
459 p.drawRects(sampling_points[1].data(), sampling_points[1].size());
460 p.setPen(SamplingPointColorHi);
461 p.drawRects(sampling_points[2].data(), sampling_points[2].size());
462 } else {
463 p.setPen(SamplingPointColor);
464 p.drawRects(sampling_points[0].data(), sampling_points[0].size());
465 }
466 }
467
468 delete[] points;
469}
470
471void AnalogSignal::paint_envelope(QPainter &p,
472 const shared_ptr<pv::data::AnalogSegment> &segment,
473 int y, int left, const int64_t start, const int64_t end,
474 const double pixels_offset, const double samples_per_pixel)
475{
476 using pv::data::AnalogSegment;
477
478 // Note: Envelope painting currently doesn't generate a pixel<->value lookup table
479 if (show_hover_marker_)
480 reset_pixel_values();
481
482 AnalogSegment::EnvelopeSection e;
483 segment->get_envelope_section(e, start, end, samples_per_pixel);
484
485 if (e.length < 2)
486 return;
487
488 p.setPen(QPen(Qt::NoPen));
489 p.setBrush(base_->color());
490
491 QRectF *const rects = new QRectF[e.length];
492 QRectF *rect = rects;
493
494 for (uint64_t sample = 0; sample < e.length - 1; sample++) {
495 const float x = ((e.scale * sample + e.start) /
496 samples_per_pixel - pixels_offset) + left;
497
498 const AnalogSegment::EnvelopeSample *const s = e.samples + sample;
499
500 // We overlap this sample with the next so that vertical
501 // gaps do not appear during steep rising or falling edges
502 const float b = y - max(s->max, (s + 1)->min) * scale_;
503 const float t = y - min(s->min, (s + 1)->max) * scale_;
504
505 float h = b - t;
506 if (h >= 0.0f && h <= 1.0f)
507 h = 1.0f;
508 if (h <= 0.0f && h >= -1.0f)
509 h = -1.0f;
510
511 *rect++ = QRectF(x, t, 1.0f, h);
512 }
513
514 p.drawRects(rects, e.length);
515
516 delete[] rects;
517 delete[] e.samples;
518}
519
520void AnalogSignal::paint_logic_mid(QPainter &p, ViewItemPaintParams &pp)
521{
522 QLineF *line;
523
524 vector< pair<int64_t, bool> > edges;
525
526 assert(base_);
527
528 const int y = get_visual_y();
529
530 if (!base_->enabled() || !base_->logic_data())
531 return;
532
533 const int signal_margin =
534 QFontMetrics(QApplication::font()).height() / 2;
535
536 const int ph = min(pos_vdivs_, 1) * div_height_;
537 const int nh = min(neg_vdivs_, 1) * div_height_;
538 const float high_offset = y - ph + signal_margin + 0.5f;
539 const float low_offset = y + nh - signal_margin - 0.5f;
540 const float signal_height = low_offset - high_offset;
541
542 shared_ptr<pv::data::LogicSegment> segment = get_logic_segment_to_paint();
543 if (!segment || (segment->get_sample_count() == 0))
544 return;
545
546 double samplerate = segment->samplerate();
547
548 // Show sample rate as 1Hz when it is unknown
549 if (samplerate == 0.0)
550 samplerate = 1.0;
551
552 const double pixels_offset = pp.pixels_offset();
553 const pv::util::Timestamp& start_time = segment->start_time();
554 const int64_t last_sample = (int64_t)segment->get_sample_count() - 1;
555 const double samples_per_pixel = samplerate * pp.scale();
556 const double pixels_per_sample = 1 / samples_per_pixel;
557 const pv::util::Timestamp start = samplerate * (pp.offset() - start_time);
558 const pv::util::Timestamp end = start + samples_per_pixel * pp.width();
559
560 const int64_t start_sample = min(max(floor(start).convert_to<int64_t>(),
561 (int64_t)0), last_sample);
562 const uint64_t end_sample = min(max(ceil(end).convert_to<int64_t>(),
563 (int64_t)0), last_sample);
564
565 segment->get_subsampled_edges(edges, start_sample, end_sample,
566 samples_per_pixel / LogicSignal::Oversampling, 0);
567 assert(edges.size() >= 2);
568
569 const float first_sample_x =
570 pp.left() + (edges.front().first / samples_per_pixel - pixels_offset);
571 const float last_sample_x =
572 pp.left() + (edges.back().first / samples_per_pixel - pixels_offset);
573
574 // Check whether we need to paint the sampling points
575 GlobalSettings settings;
576 const bool show_sampling_points =
577 settings.value(GlobalSettings::Key_View_ShowSamplingPoints).toBool() &&
578 (samples_per_pixel < 0.25);
579
580 vector<QRectF> sampling_points;
581 float sampling_point_x = first_sample_x;
582 int64_t sampling_point_sample = start_sample;
583 const int w = 2;
584
585 if (show_sampling_points)
586 sampling_points.reserve(end_sample - start_sample + 1);
587
588 // Check whether we need to fill the high areas
589 const bool fill_high_areas =
590 settings.value(GlobalSettings::Key_View_FillSignalHighAreas).toBool();
591 float high_start_x;
592 vector<QRectF> high_rects;
593
594 // Paint the edges
595 const unsigned int edge_count = edges.size() - 2;
596 QLineF *const edge_lines = new QLineF[edge_count];
597 line = edge_lines;
598
599 for (auto i = edges.cbegin() + 1; i != edges.cend() - 1; i++) {
600 const float x = ((*i).first / samples_per_pixel -
601 pixels_offset) + pp.left();
602 *line++ = QLineF(x, high_offset, x, low_offset);
603
604 if (fill_high_areas) {
605 if ((*i).second)
606 high_start_x = x;
607 else
608 high_rects.emplace_back(high_start_x, high_offset,
609 x - high_start_x, signal_height);
610 }
611
612 if (show_sampling_points)
613 while (sampling_point_sample < (*i).first) {
614 const float y = (*i).second ? low_offset : high_offset;
615 sampling_points.emplace_back(
616 QRectF(sampling_point_x - (w / 2), y - (w / 2), w, w));
617 sampling_point_sample++;
618 sampling_point_x += pixels_per_sample;
619 };
620 }
621
622 // Calculate the sample points from the last edge to the end of the trace
623 if (show_sampling_points)
624 while ((uint64_t)sampling_point_sample <= end_sample) {
625 // Signal changed after the last edge, so the level is inverted
626 const float y = (edges.cend() - 1)->second ? high_offset : low_offset;
627 sampling_points.emplace_back(
628 QRectF(sampling_point_x - (w / 2), y - (w / 2), w, w));
629 sampling_point_sample++;
630 sampling_point_x += pixels_per_sample;
631 };
632
633 if (fill_high_areas) {
634 // Add last high rectangle if the signal is still high at the end of the view
635 if ((edges.cend() - 1)->second)
636 high_rects.emplace_back(high_start_x, high_offset,
637 last_sample_x - high_start_x, signal_height);
638
639 const QColor fill_color = QColor::fromRgba(settings.value(
640 GlobalSettings::Key_View_FillSignalHighAreaColor).value<uint32_t>());
641 p.setPen(fill_color);
642 p.setBrush(fill_color);
643 p.drawRects((const QRectF*)(high_rects.data()), high_rects.size());
644 }
645
646 p.setPen(LogicSignal::EdgeColor);
647 p.drawLines(edge_lines, edge_count);
648 delete[] edge_lines;
649
650 // Paint the caps
651 const unsigned int max_cap_line_count = edges.size();
652 QLineF *const cap_lines = new QLineF[max_cap_line_count];
653
654 p.setPen(LogicSignal::HighColor);
655 paint_logic_caps(p, cap_lines, edges, true, samples_per_pixel,
656 pixels_offset, pp.left(), high_offset);
657 p.setPen(LogicSignal::LowColor);
658 paint_logic_caps(p, cap_lines, edges, false, samples_per_pixel,
659 pixels_offset, pp.left(), low_offset);
660
661 delete[] cap_lines;
662
663 // Paint the sampling points
664 if (show_sampling_points) {
665 p.setPen(SamplingPointColor);
666 p.drawRects(sampling_points.data(), sampling_points.size());
667 }
668}
669
670void AnalogSignal::paint_logic_caps(QPainter &p, QLineF *const lines,
671 vector< pair<int64_t, bool> > &edges, bool level,
672 double samples_per_pixel, double pixels_offset, float x_offset,
673 float y_offset)
674{
675 QLineF *line = lines;
676
677 for (auto i = edges.begin(); i != (edges.end() - 1); i++)
678 if ((*i).second == level) {
679 *line++ = QLineF(
680 ((*i).first / samples_per_pixel -
681 pixels_offset) + x_offset, y_offset,
682 ((*(i+1)).first / samples_per_pixel -
683 pixels_offset) + x_offset, y_offset);
684 }
685
686 p.drawLines(lines, line - lines);
687}
688
689shared_ptr<pv::data::AnalogSegment> AnalogSignal::get_analog_segment_to_paint() const
690{
691 shared_ptr<pv::data::AnalogSegment> segment;
692
693 const deque< shared_ptr<pv::data::AnalogSegment> > &segments =
694 base_->analog_data()->analog_segments();
695
696 if (!segments.empty()) {
697 if (segment_display_mode_ == ShowLastSegmentOnly)
698 segment = segments.back();
699
700 if ((segment_display_mode_ == ShowSingleSegmentOnly) ||
701 (segment_display_mode_ == ShowLastCompleteSegmentOnly)) {
702 try {
703 segment = segments.at(current_segment_);
704 } catch (out_of_range&) {
705 qDebug() << "Current analog segment out of range for signal" << base_->name() << ":" << current_segment_;
706 }
707 }
708 }
709
710 return segment;
711}
712
713shared_ptr<pv::data::LogicSegment> AnalogSignal::get_logic_segment_to_paint() const
714{
715 shared_ptr<pv::data::LogicSegment> segment;
716
717 const deque< shared_ptr<pv::data::LogicSegment> > &segments =
718 base_->logic_data()->logic_segments();
719
720 if (!segments.empty()) {
721 if (segment_display_mode_ == ShowLastSegmentOnly)
722 segment = segments.back();
723
724 if ((segment_display_mode_ == ShowSingleSegmentOnly) ||
725 (segment_display_mode_ == ShowLastCompleteSegmentOnly)) {
726 try {
727 segment = segments.at(current_segment_);
728 } catch (out_of_range&) {
729 qDebug() << "Current logic segment out of range for signal" << base_->name() << ":" << current_segment_;
730 }
731 }
732 }
733
734 return segment;
735}
736
737float AnalogSignal::get_resolution(int scale_index)
738{
739 const float seq[] = {1.0f, 2.0f, 5.0f};
740
741 const int offset = numeric_limits<int>::max() / (2 * countof(seq));
742 const div_t d = div((int)(scale_index + countof(seq) * offset),
743 countof(seq));
744
745 return powf(10.0f, d.quot - offset) * seq[d.rem];
746}
747
748void AnalogSignal::update_scale()
749{
750 resolution_ = get_resolution(scale_index_);
751 scale_ = div_height_ / resolution_;
752}
753
754void AnalogSignal::update_conversion_widgets()
755{
756 SignalBase::ConversionType conv_type = base_->get_conversion_type();
757
758 // Enable or disable widgets depending on conversion state
759 conv_threshold_cb_->setEnabled(conv_type != SignalBase::NoConversion);
760 display_type_cb_->setEnabled(conv_type != SignalBase::NoConversion);
761
762 conv_threshold_cb_->clear();
763
764 vector < pair<QString, int> > presets = base_->get_conversion_presets();
765
766 // Prevent the combo box from firing the "edit text changed" signal
767 // as that would involuntarily select the first entry
768 conv_threshold_cb_->blockSignals(true);
769
770 // Set available options depending on chosen conversion
771 for (pair<QString, int> preset : presets)
772 conv_threshold_cb_->addItem(preset.first, preset.second);
773
774 map < QString, QVariant > options = base_->get_conversion_options();
775
776 if (conv_type == SignalBase::A2LConversionByThreshold) {
777 const vector<double> thresholds = base_->get_conversion_thresholds(
778 SignalBase::A2LConversionByThreshold, true);
779 conv_threshold_cb_->addItem(
780 QString("%1V").arg(QString::number(thresholds[0], 'f', 1)), -1);
781 }
782
783 if (conv_type == SignalBase::A2LConversionBySchmittTrigger) {
784 const vector<double> thresholds = base_->get_conversion_thresholds(
785 SignalBase::A2LConversionBySchmittTrigger, true);
786 conv_threshold_cb_->addItem(QString("%1V/%2V").arg(
787 QString::number(thresholds[0], 'f', 1),
788 QString::number(thresholds[1], 'f', 1)), -1);
789 }
790
791 int preset_id = base_->get_current_conversion_preset();
792 conv_threshold_cb_->setCurrentIndex(
793 conv_threshold_cb_->findData(preset_id));
794
795 conv_threshold_cb_->blockSignals(false);
796}
797
798vector<data::LogicSegment::EdgePair> AnalogSignal::get_nearest_level_changes(uint64_t sample_pos)
799{
800 assert(base_);
801 assert(owner_);
802
803 // Return if there's no logic data or we're showing only the analog trace
804 if (!base_->logic_data() || (display_type_ == DisplayAnalog))
805 return vector<data::LogicSegment::EdgePair>();
806
807 if (sample_pos == 0)
808 return vector<LogicSegment::EdgePair>();
809
810 shared_ptr<LogicSegment> segment = get_logic_segment_to_paint();
811 if (!segment || (segment->get_sample_count() == 0))
812 return vector<LogicSegment::EdgePair>();
813
814 const View *view = owner_->view();
815 assert(view);
816 const double samples_per_pixel = base_->get_samplerate() * view->scale();
817
818 vector<LogicSegment::EdgePair> edges;
819
820 segment->get_surrounding_edges(edges, sample_pos,
821 samples_per_pixel / LogicSignal::Oversampling, 0);
822
823 if (edges.empty())
824 return vector<LogicSegment::EdgePair>();
825
826 return edges;
827}
828
829void AnalogSignal::perform_autoranging(bool keep_divs, bool force_update)
830{
831 const deque< shared_ptr<pv::data::AnalogSegment> > &segments =
832 base_->analog_data()->analog_segments();
833
834 if (segments.empty())
835 return;
836
837 static double prev_min = 0, prev_max = 0;
838 double min = 0, max = 0;
839
840 for (shared_ptr<pv::data::AnalogSegment> segment : segments) {
841 pair<double, double> mm = segment->get_min_max();
842 min = std::min(min, mm.first);
843 max = std::max(max, mm.second);
844 }
845
846 if ((min == prev_min) && (max == prev_max) && !force_update)
847 return;
848
849 prev_min = min;
850 prev_max = max;
851
852 // If we're allowed to alter the div assignment...
853 if (!keep_divs) {
854 // Use all divs for the positive range if there are no negative values
855 if ((min == 0) && (neg_vdivs_ > 0)) {
856 pos_vdivs_ += neg_vdivs_;
857 neg_vdivs_ = 0;
858 }
859
860 // Split up the divs if there are negative values but no negative divs
861 if ((min < 0) && (neg_vdivs_ == 0)) {
862 neg_vdivs_ = pos_vdivs_ / 2;
863 pos_vdivs_ -= neg_vdivs_;
864 }
865 }
866
867 // If there is still no positive div when we need it, add one
868 // (this can happen when pos_vdivs==neg_vdivs==0)
869 if ((max > 0) && (pos_vdivs_ == 0)) {
870 pos_vdivs_ = 1;
871 owner_->extents_changed(false, true);
872 }
873
874 // If there is still no negative div when we need it, add one
875 // (this can happen when pos_vdivs was 0 or 1 when trying to split)
876 if ((min < 0) && (neg_vdivs_ == 0)) {
877 neg_vdivs_ = 1;
878 owner_->extents_changed(false, true);
879 }
880
881 double min_value_per_div;
882 if ((pos_vdivs_ > 0) && (neg_vdivs_ > 0))
883 min_value_per_div = std::max(max / pos_vdivs_, -min / neg_vdivs_);
884 else if (pos_vdivs_ > 0)
885 min_value_per_div = max / pos_vdivs_;
886 else
887 min_value_per_div = -min / neg_vdivs_;
888
889 // Find first scale value that is bigger than the value we need
890 for (int i = MinScaleIndex; i < MaxScaleIndex; i++)
891 if (get_resolution(i) > min_value_per_div) {
892 scale_index_ = i;
893 break;
894 }
895
896 update_scale();
897}
898
899void AnalogSignal::reset_pixel_values()
900{
901 value_at_pixel_pos_.clear();
902 current_pixel_pos_ = -1;
903 prev_value_at_pixel_ = std::numeric_limits<float>::quiet_NaN();
904}
905
906void AnalogSignal::process_next_sample_value(float x, float value)
907{
908 // Note: NAN is used to indicate the non-existance of a value at this pixel
909
910 if (std::isnan(prev_value_at_pixel_)) {
911 if (x < 0) {
912 min_value_at_pixel_ = value;
913 max_value_at_pixel_ = value;
914 prev_value_at_pixel_ = value;
915 current_pixel_pos_ = x;
916 } else
917 prev_value_at_pixel_ = std::numeric_limits<float>::quiet_NaN();
918 }
919
920 const int pixel_pos = (int)(x + 0.5);
921
922 if (pixel_pos > current_pixel_pos_) {
923 if (pixel_pos - current_pixel_pos_ == 1) {
924 if (std::isnan(prev_value_at_pixel_)) {
925 value_at_pixel_pos_.push_back(prev_value_at_pixel_);
926 } else {
927 // Average the min/max range to create one value for the previous pixel
928 const float avg = (min_value_at_pixel_ + max_value_at_pixel_) / 2;
929 value_at_pixel_pos_.push_back(avg);
930 }
931 } else {
932 // Interpolate values to create values for the intermediate pixels
933 const float start_value = prev_value_at_pixel_;
934 const float end_value = value;
935 const int steps = fabs(pixel_pos - current_pixel_pos_);
936 const double gradient = (end_value - start_value) / steps;
937 for (int i = 0; i < steps; i++) {
938 if (current_pixel_pos_ + i < 0)
939 continue;
940 value_at_pixel_pos_.push_back(start_value + i * gradient);
941 }
942 }
943
944 min_value_at_pixel_ = value;
945 max_value_at_pixel_ = value;
946 prev_value_at_pixel_ = value;
947 current_pixel_pos_ = pixel_pos;
948 } else {
949 // Another sample for the same pixel
950 if (value < min_value_at_pixel_)
951 min_value_at_pixel_ = value;
952 if (value > max_value_at_pixel_)
953 max_value_at_pixel_ = value;
954 }
955}
956
957void AnalogSignal::populate_popup_form(QWidget *parent, QFormLayout *form)
958{
959 // Add the standard options
960 Signal::populate_popup_form(parent, form);
961
962 QFormLayout *const layout = new QFormLayout;
963
964 // Add div-related settings
965 pvdiv_sb_ = new QSpinBox(parent);
966 pvdiv_sb_->setRange(0, MaximumVDivs);
967 pvdiv_sb_->setValue(pos_vdivs_);
968 connect(pvdiv_sb_, SIGNAL(valueChanged(int)),
969 this, SLOT(on_pos_vdivs_changed(int)));
970 layout->addRow(tr("Number of pos vertical divs"), pvdiv_sb_);
971
972 nvdiv_sb_ = new QSpinBox(parent);
973 nvdiv_sb_->setRange(0, MaximumVDivs);
974 nvdiv_sb_->setValue(neg_vdivs_);
975 connect(nvdiv_sb_, SIGNAL(valueChanged(int)),
976 this, SLOT(on_neg_vdivs_changed(int)));
977 layout->addRow(tr("Number of neg vertical divs"), nvdiv_sb_);
978
979 div_height_sb_ = new QSpinBox(parent);
980 div_height_sb_->setRange(20, 1000);
981 div_height_sb_->setSingleStep(5);
982 div_height_sb_->setSuffix(tr(" pixels"));
983 div_height_sb_->setValue(div_height_);
984 connect(div_height_sb_, SIGNAL(valueChanged(int)),
985 this, SLOT(on_div_height_changed(int)));
986 layout->addRow(tr("Div height"), div_height_sb_);
987
988 // Add the vertical resolution
989 resolution_cb_ = new QComboBox(parent);
990
991 for (int i = MinScaleIndex; i < MaxScaleIndex; i++) {
992 const QString label = QString("%1").arg(get_resolution(i));
993 resolution_cb_->insertItem(0, label, QVariant(i));
994 }
995
996 int cur_idx = resolution_cb_->findData(QVariant(scale_index_));
997 resolution_cb_->setCurrentIndex(cur_idx);
998
999 connect(resolution_cb_, SIGNAL(currentIndexChanged(int)),
1000 this, SLOT(on_resolution_changed(int)));
1001
1002 QGridLayout *const vdiv_layout = new QGridLayout;
1003 QLabel *const vdiv_unit = new QLabel(tr("V/div"));
1004 vdiv_layout->addWidget(resolution_cb_, 0, 0);
1005 vdiv_layout->addWidget(vdiv_unit, 0, 1);
1006
1007 layout->addRow(tr("Vertical resolution"), vdiv_layout);
1008
1009 // Add the autoranging checkbox
1010 QCheckBox* autoranging_cb = new QCheckBox();
1011 autoranging_cb->setCheckState(autoranging_ ? Qt::Checked : Qt::Unchecked);
1012
1013 connect(autoranging_cb, SIGNAL(stateChanged(int)),
1014 this, SLOT(on_autoranging_changed(int)));
1015
1016 layout->addRow(tr("Autoranging"), autoranging_cb);
1017
1018 // Add the conversion type dropdown
1019 conversion_cb_ = new QComboBox();
1020
1021 conversion_cb_->addItem(tr("none"),
1022 SignalBase::NoConversion);
1023 conversion_cb_->addItem(tr("to logic via threshold"),
1024 SignalBase::A2LConversionByThreshold);
1025 conversion_cb_->addItem(tr("to logic via schmitt-trigger"),
1026 SignalBase::A2LConversionBySchmittTrigger);
1027
1028 cur_idx = conversion_cb_->findData(QVariant(base_->get_conversion_type()));
1029 conversion_cb_->setCurrentIndex(cur_idx);
1030
1031 layout->addRow(tr("Conversion"), conversion_cb_);
1032
1033 connect(conversion_cb_, SIGNAL(currentIndexChanged(int)),
1034 this, SLOT(on_conversion_changed(int)));
1035
1036 // Add the conversion threshold settings
1037 conv_threshold_cb_ = new QComboBox();
1038 conv_threshold_cb_->setEditable(true);
1039
1040 layout->addRow(tr("Conversion threshold(s)"), conv_threshold_cb_);
1041
1042 connect(conv_threshold_cb_, SIGNAL(currentIndexChanged(int)),
1043 this, SLOT(on_conv_threshold_changed(int)));
1044 connect(conv_threshold_cb_, SIGNAL(editTextChanged(const QString&)),
1045 this, SLOT(on_conv_threshold_changed())); // index will be -1
1046
1047 // Add the display type dropdown
1048 display_type_cb_ = new QComboBox();
1049
1050 display_type_cb_->addItem(tr("analog"), DisplayAnalog);
1051 display_type_cb_->addItem(tr("converted"), DisplayConverted);
1052 display_type_cb_->addItem(tr("analog+converted"), DisplayBoth);
1053
1054 cur_idx = display_type_cb_->findData(QVariant(display_type_));
1055 display_type_cb_->setCurrentIndex(cur_idx);
1056
1057 layout->addRow(tr("Show traces for"), display_type_cb_);
1058
1059 connect(display_type_cb_, SIGNAL(currentIndexChanged(int)),
1060 this, SLOT(on_display_type_changed(int)));
1061
1062 // Update the conversion widget contents and states
1063 update_conversion_widgets();
1064
1065 form->addRow(layout);
1066}
1067
1068void AnalogSignal::hover_point_changed(const QPoint &hp)
1069{
1070 Signal::hover_point_changed(hp);
1071
1072 // Note: Even though the view area begins at 0, we exclude 0 because
1073 // that's also the value given when the cursor is over the header to the
1074 // left of the trace paint area
1075 if (hp.x() <= 0) {
1076 value_at_hover_pos_ = std::numeric_limits<float>::quiet_NaN();
1077 } else {
1078 try {
1079 value_at_hover_pos_ = value_at_pixel_pos_.at(hp.x());
1080 } catch (out_of_range&) {
1081 value_at_hover_pos_ = std::numeric_limits<float>::quiet_NaN();
1082 }
1083 }
1084}
1085
1086void AnalogSignal::on_min_max_changed(float min, float max)
1087{
1088 (void)min;
1089 (void)max;
1090
1091 if (autoranging_)
1092 perform_autoranging(false, false);
1093}
1094
1095void AnalogSignal::on_pos_vdivs_changed(int vdivs)
1096{
1097 if (vdivs == pos_vdivs_)
1098 return;
1099
1100 pos_vdivs_ = vdivs;
1101
1102 // There has to be at least one div, positive or negative
1103 if ((neg_vdivs_ == 0) && (pos_vdivs_ == 0)) {
1104 pos_vdivs_ = 1;
1105 if (pvdiv_sb_)
1106 pvdiv_sb_->setValue(pos_vdivs_);
1107 }
1108
1109 if (autoranging_) {
1110 perform_autoranging(true, true);
1111
1112 // It could be that a positive or negative div was added, so update
1113 if (pvdiv_sb_) {
1114 pvdiv_sb_->setValue(pos_vdivs_);
1115 nvdiv_sb_->setValue(neg_vdivs_);
1116 }
1117 }
1118
1119 if (owner_) {
1120 // Call order is important, otherwise the lazy event handler won't work
1121 owner_->extents_changed(false, true);
1122 owner_->row_item_appearance_changed(false, true);
1123 }
1124}
1125
1126void AnalogSignal::on_neg_vdivs_changed(int vdivs)
1127{
1128 if (vdivs == neg_vdivs_)
1129 return;
1130
1131 neg_vdivs_ = vdivs;
1132
1133 // There has to be at least one div, positive or negative
1134 if ((neg_vdivs_ == 0) && (pos_vdivs_ == 0)) {
1135 pos_vdivs_ = 1;
1136 if (pvdiv_sb_)
1137 pvdiv_sb_->setValue(pos_vdivs_);
1138 }
1139
1140 if (autoranging_) {
1141 perform_autoranging(true, true);
1142
1143 // It could be that a positive or negative div was added, so update
1144 if (pvdiv_sb_) {
1145 pvdiv_sb_->setValue(pos_vdivs_);
1146 nvdiv_sb_->setValue(neg_vdivs_);
1147 }
1148 }
1149
1150 if (owner_) {
1151 // Call order is important, otherwise the lazy event handler won't work
1152 owner_->extents_changed(false, true);
1153 owner_->row_item_appearance_changed(false, true);
1154 }
1155}
1156
1157void AnalogSignal::on_div_height_changed(int height)
1158{
1159 div_height_ = height;
1160 update_scale();
1161
1162 if (owner_) {
1163 // Call order is important, otherwise the lazy event handler won't work
1164 owner_->extents_changed(false, true);
1165 owner_->row_item_appearance_changed(false, true);
1166 }
1167}
1168
1169void AnalogSignal::on_resolution_changed(int index)
1170{
1171 scale_index_ = resolution_cb_->itemData(index).toInt();
1172 update_scale();
1173
1174 if (owner_)
1175 owner_->row_item_appearance_changed(false, true);
1176}
1177
1178void AnalogSignal::on_autoranging_changed(int state)
1179{
1180 autoranging_ = (state == Qt::Checked);
1181
1182 if (autoranging_)
1183 perform_autoranging(false, true);
1184
1185 if (owner_) {
1186 // Call order is important, otherwise the lazy event handler won't work
1187 owner_->extents_changed(false, true);
1188 owner_->row_item_appearance_changed(false, true);
1189 }
1190}
1191
1192void AnalogSignal::on_conversion_changed(int index)
1193{
1194 SignalBase::ConversionType old_conv_type = base_->get_conversion_type();
1195
1196 SignalBase::ConversionType conv_type =
1197 (SignalBase::ConversionType)(conversion_cb_->itemData(index).toInt());
1198
1199 if (conv_type != old_conv_type) {
1200 base_->set_conversion_type(conv_type);
1201 update_conversion_widgets();
1202
1203 if (owner_)
1204 owner_->row_item_appearance_changed(false, true);
1205 }
1206}
1207
1208void AnalogSignal::on_conv_threshold_changed(int index)
1209{
1210 SignalBase::ConversionType conv_type = base_->get_conversion_type();
1211
1212 // Note: index is set to -1 if the text in the combo box matches none of
1213 // the entries in the combo box
1214
1215 if ((index == -1) && (conv_threshold_cb_->currentText().length() == 0))
1216 return;
1217
1218 // The combo box entry with the custom value has user_data set to -1
1219 const int user_data = conv_threshold_cb_->findText(
1220 conv_threshold_cb_->currentText());
1221
1222 const bool use_custom_thr = (index == -1) || (user_data == -1);
1223
1224 if (conv_type == SignalBase::A2LConversionByThreshold && use_custom_thr) {
1225 // Not one of the preset values, try to parse the combo box text
1226 // Note: Regex loosely based on
1227 // https://txt2re.com/index-c++.php3?s=0.1V&1&-13
1228 QString re1 = "([+-]?\\d*[\\.,]?\\d*)"; // Float value
1229 QString re2 = "([a-zA-Z]*)"; // SI unit
1230 QRegExp regex(re1 + re2);
1231
1232 const QString text = conv_threshold_cb_->currentText();
1233 if (!regex.exactMatch(text))
1234 return; // String doesn't match the regex
1235
1236 QStringList tokens = regex.capturedTexts();
1237
1238 // For now, we simply assume that the unit is volt without modifiers
1239 const double thr = tokens.at(1).toDouble();
1240
1241 // Only restart the conversion if the threshold was updated.
1242 // We're starting a delayed conversion because the user may still be
1243 // typing and the UI would lag if we kept on restarting it immediately
1244 if (base_->set_conversion_option("threshold_value", thr))
1245 base_->start_conversion(true);
1246 }
1247
1248 if (conv_type == SignalBase::A2LConversionBySchmittTrigger && use_custom_thr) {
1249 // Not one of the preset values, try to parse the combo box text
1250 // Note: Regex loosely based on
1251 // https://txt2re.com/index-c++.php3?s=0.1V/0.2V&2&14&-22&3&15
1252 QString re1 = "([+-]?\\d*[\\.,]?\\d*)"; // Float value
1253 QString re2 = "([a-zA-Z]*)"; // SI unit
1254 QString re3 = "\\/"; // Forward slash, not captured
1255 QString re4 = "([+-]?\\d*[\\.,]?\\d*)"; // Float value
1256 QString re5 = "([a-zA-Z]*)"; // SI unit
1257 QRegExp regex(re1 + re2 + re3 + re4 + re5);
1258
1259 const QString text = conv_threshold_cb_->currentText();
1260 if (!regex.exactMatch(text))
1261 return; // String doesn't match the regex
1262
1263 QStringList tokens = regex.capturedTexts();
1264
1265 // For now, we simply assume that the unit is volt without modifiers
1266 const double low_thr = tokens.at(1).toDouble();
1267 const double high_thr = tokens.at(3).toDouble();
1268
1269 // Only restart the conversion if one of the options was updated.
1270 // We're starting a delayed conversion because the user may still be
1271 // typing and the UI would lag if we kept on restarting it immediately
1272 bool o1 = base_->set_conversion_option("threshold_value_low", low_thr);
1273 bool o2 = base_->set_conversion_option("threshold_value_high", high_thr);
1274 if (o1 || o2)
1275 base_->start_conversion(true); // Start delayed conversion
1276 }
1277
1278 base_->set_conversion_preset((SignalBase::ConversionPreset)index);
1279
1280 // Immediately start the conversion if we're not using custom values
1281 // (i.e. we're using one of the presets)
1282 if (!use_custom_thr)
1283 base_->start_conversion();
1284}
1285
1286void AnalogSignal::on_delayed_conversion_starter()
1287{
1288 base_->start_conversion();
1289}
1290
1291void AnalogSignal::on_display_type_changed(int index)
1292{
1293 display_type_ = (DisplayType)(display_type_cb_->itemData(index).toInt());
1294
1295 if (owner_)
1296 owner_->row_item_appearance_changed(false, true);
1297}
1298
1299void AnalogSignal::on_settingViewConversionThresholdDispMode_changed(const QVariant new_value)
1300{
1301 conversion_threshold_disp_mode_ = new_value.toInt();
1302
1303 if (owner_)
1304 owner_->row_item_appearance_changed(false, true);
1305}
1306
1307} // namespace trace
1308} // namespace views
1309} // namespace pv