}
#include <mutex>
+#include <tuple>
#include <extdef.h>
-#include <tuple>
-
#include <boost/functional/hash.hpp>
#include <QAction>
#include <pv/widgets/decodergroupbox.hpp>
#include <pv/widgets/decodermenu.hpp>
-using std::all_of;
+using std::abs;
using std::make_pair;
using std::max;
using std::min;
// Iterate through the rows
int y = get_visual_y();
- pair<uint64_t, uint64_t> sample_range = get_sample_range(
- pp.left(), pp.right());
+ pair<uint64_t, uint64_t> sample_range = get_sample_range(pp.left(), pp.right());
+
+ // Just because the view says we see a certain sample range it
+ // doesn't mean we have this many decoded samples, too, so crop
+ // the range to what has been decoded already
+ sample_range.second = min((int64_t)sample_range.second,
+ decode_signal_->get_decoded_sample_count(current_segment_, false));
const vector<Row> rows = decode_signal_->visible_rows();
p.setPen(QApplication::palette().color(QPalette::WindowText));
p.drawText(r, f, h);
}
+
+ if (show_hover_marker_)
+ paint_hover_marker(p);
}
void DecodeTrace::populate_popup_form(QWidget *parent, QFormLayout *form)
{
using namespace pv::data::decode;
- vector<Annotation> a_block;
- int p_end = INT_MIN;
+ Annotation::Class block_class = 0;
+ bool block_class_uniform = true;
+ qreal block_start = 0;
+ int block_ann_count = 0;
+
+ const Annotation *prev_ann;
+ qreal prev_end = INT_MIN;
+
+ qreal a_end;
double samples_per_pixel, pixels_offset;
tie(pixels_offset, samples_per_pixel) =
// Gather all annotations that form a visual "block" and draw them as such
for (const Annotation &a : annotations) {
- const int a_start = a.start_sample() / samples_per_pixel - pixels_offset;
- const int a_end = a.end_sample() / samples_per_pixel - pixels_offset;
- const int a_width = a_end - a_start;
+ const qreal abs_a_start = a.start_sample() / samples_per_pixel;
+ const qreal abs_a_end = a.end_sample() / samples_per_pixel;
- const int delta = a_end - p_end;
+ const qreal a_start = abs_a_start - pixels_offset;
+ a_end = abs_a_end - pixels_offset;
+
+ const qreal a_width = a_end - a_start;
+ const qreal delta = a_end - prev_end;
bool a_is_separate = false;
// Annotation wider than the threshold for a useful label width?
if (a_width >= min_useful_label_width_) {
for (const QString &ann_text : a.annotations()) {
- const int w = p.boundingRect(QRectF(), 0, ann_text).width();
+ const qreal w = p.boundingRect(QRectF(), 0, ann_text).width();
// Annotation wide enough to fit a label? Don't put it in a block then
if (w <= a_width) {
a_is_separate = true;
// Were the previous and this annotation more than a pixel apart?
if ((abs(delta) > 1) || a_is_separate) {
// Block was broken, draw annotations that form the current block
- if (a_block.size() == 1) {
- draw_annotation(a_block.front(), p, h, pp, y, row_color,
+ if (block_ann_count == 1)
+ draw_annotation(*prev_ann, p, h, pp, y, row_color,
row_title_width);
- }
- else
- draw_annotation_block(a_block, p, h, y, row_color);
+ else if (block_ann_count > 0)
+ draw_annotation_block(block_start, prev_end, block_class,
+ block_class_uniform, p, h, y, row_color);
- a_block.clear();
+ block_ann_count = 0;
}
if (a_is_separate) {
draw_annotation(a, p, h, pp, y, row_color, row_title_width);
// Next annotation must start a new block. delta will be > 1
- // because we set p_end to INT_MIN but that's okay since
- // a_block will be empty, so nothing will be drawn
- p_end = INT_MIN;
+ // because we set prev_end to INT_MIN but that's okay since
+ // block_ann_count will be 0 and nothing will be drawn
+ prev_end = INT_MIN;
+ block_ann_count = 0;
} else {
- a_block.push_back(a);
- p_end = a_end;
+ prev_end = a_end;
+ prev_ann = &a;
+
+ if (block_ann_count == 0) {
+ block_start = a_start;
+ block_class = a.ann_class();
+ block_class_uniform = true;
+ } else
+ if (a.ann_class() != block_class)
+ block_class_uniform = false;
+
+ block_ann_count++;
}
}
- if (a_block.size() == 1)
- draw_annotation(a_block.front(), p, h, pp, y, row_color, row_title_width);
- else
- draw_annotation_block(a_block, p, h, y, row_color);
+ if (block_ann_count == 1)
+ draw_annotation(*prev_ann, p, h, pp, y, row_color, row_title_width);
+ else if (block_ann_count > 0)
+ draw_annotation_block(block_start, prev_end, block_class,
+ block_class_uniform, p, h, y, row_color);
}
void DecodeTrace::draw_annotation(const pv::data::decode::Annotation &a,
pixels_offset;
const double end = a.end_sample() / samples_per_pixel - pixels_offset;
- QColor color = get_annotation_color(row_color, a.format());
+ QColor color = get_annotation_color(row_color, a.ann_class());
p.setPen(color.darker());
p.setBrush(color);
draw_range(a, p, h, start, end, y, pp, row_title_width);
}
-void DecodeTrace::draw_annotation_block(
- vector<pv::data::decode::Annotation> annotations, QPainter &p, int h,
+void DecodeTrace::draw_annotation_block(qreal start, qreal end,
+ Annotation::Class ann_class, bool use_ann_format, QPainter &p, int h,
int y, QColor row_color) const
{
- using namespace pv::data::decode;
-
- if (annotations.empty())
- return;
-
- double samples_per_pixel, pixels_offset;
- tie(pixels_offset, samples_per_pixel) =
- get_pixels_offset_samples_per_pixel();
-
- const double start = annotations.front().start_sample() /
- samples_per_pixel - pixels_offset;
- const double end = annotations.back().end_sample() /
- samples_per_pixel - pixels_offset;
-
const double top = y + .5 - h / 2;
const double bottom = y + .5 + h / 2;
- QColor color = get_annotation_color(row_color, annotations.front().format());
-
- // Check if all annotations are of the same type (i.e. we can use one color)
- // or if we should use a neutral color (i.e. gray)
- const int format = annotations.front().format();
- const bool single_format = all_of(
- annotations.begin(), annotations.end(),
- [&](const Annotation &a) { return a.format() == format; });
-
const QRectF rect(start, top, end - start, bottom - top);
const int r = h / 4;
p.setBrush(Qt::white);
p.drawRoundedRect(rect, r, r);
- p.setPen((single_format ? color.darker() : Qt::gray));
- p.setBrush(QBrush((single_format ? color : Qt::gray), Qt::Dense4Pattern));
+ // If all annotations in this block are of the same type, we can use the
+ // one format that all of these annotations have. Otherwise, we should use
+ // a neutral color (i.e. gray)
+ if (use_ann_format) {
+ const QColor color = get_annotation_color(row_color, ann_class);
+ p.setPen(color.darker());
+ p.setBrush(QBrush(color, Qt::Dense4Pattern));
+ } else {
+ p.setPen(Qt::gray);
+ p.setBrush(QBrush(Qt::gray, Qt::Dense4Pattern));
+ }
+
p.drawRoundedRect(rect, r, r);
}
void DecodeTrace::draw_instant(const pv::data::decode::Annotation &a, QPainter &p,
- int h, double x, int y) const
+ int h, qreal x, int y) const
{
const QString text = a.annotations().empty() ?
QString() : a.annotations().back();
- const double w = min((double)p.boundingRect(QRectF(), 0, text).width(),
+ const qreal w = min((qreal)p.boundingRect(QRectF(), 0, text).width(),
0.0) + h;
const QRectF rect(x - w / 2, y - h / 2, w, h);
}
void DecodeTrace::draw_range(const pv::data::decode::Annotation &a, QPainter &p,
- int h, double start, double end, int y, const ViewItemPaintParams &pp,
+ int h, qreal start, qreal end, int y, const ViewItemPaintParams &pp,
int row_title_width) const
{
- const double top = y + .5 - h / 2;
- const double bottom = y + .5 + h / 2;
+ const qreal top = y + .5 - h / 2;
+ const qreal bottom = y + .5 + h / 2;
const vector<QString> annotations = a.annotations();
// If the two ends are within 1 pixel, draw a vertical line
return;
}
- const double cap_width = min((end - start) / 4, EndCapWidth);
+ const qreal cap_width = min((end - start) / 4, EndCapWidth);
QPointF pts[] = {
QPointF(start, y + .5f),
QRectF(pp.left(), INT_MIN / 2 + y, pp.right(), INT_MAX);
const QRectF text_rect = p.boundingRect(bounding_rect,
Qt::AlignCenter, message);
- const float r = text_rect.height() / 4;
+ const qreal r = text_rect.height() / 4;
p.drawRoundedRect(text_rect.adjusted(-r, -r, r, r), r, r,
Qt::AbsoluteSize);
if (sample_count == 0)
return;
- const int64_t samples_decoded = decode_signal_->get_decoded_sample_count(current_segment_);
+ const int64_t samples_decoded = decode_signal_->get_decoded_sample_count(current_segment_, true);
if (sample_count == samples_decoded)
return;
samples_per_pixel - pixels_offset, left - 1.0);
const double end = min(sample_count / samples_per_pixel -
pixels_offset, right + 1.0);
- const QRectF no_decode_rect(start, y - (h / 2) + 0.5, end - start, h);
+ const QRectF no_decode_rect(start, y - (h / 2) - 0.5, end - start, h);
p.setPen(QPen(Qt::NoPen));
p.setBrush(Qt::white);
void DecodeTrace::hover_point_changed(const QPoint &hp)
{
+ Trace::hover_point_changed(hp);
+
assert(owner_);
const View *const view = owner_->view();