X-Git-Url: https://sigrok.org/gitweb/?p=pulseview.git;a=blobdiff_plain;f=pv%2Fviews%2Ftrace%2Fanalogsignal.cpp;h=3fda4cb6251de1d95326288b19eeb1ae949e1480;hp=0994d92ed0eba4e30484abc79af17f8fec9512b0;hb=f4ab4b5c657e5613caba82feaa81a8a400e4f331;hpb=16a832bc5bb4cce24598537c99e0655edb65c1d0 diff --git a/pv/views/trace/analogsignal.cpp b/pv/views/trace/analogsignal.cpp index 0994d92e..3fda4cb6 100644 --- a/pv/views/trace/analogsignal.cpp +++ b/pv/views/trace/analogsignal.cpp @@ -62,6 +62,7 @@ using std::pair; using std::shared_ptr; using std::vector; +using pv::data::LogicSegment; using pv::data::SignalBase; using pv::util::SIPrefix; @@ -109,7 +110,8 @@ AnalogSignal::AnalogSignal( neg_vdivs_(1), resolution_(0), display_type_(DisplayBoth), - autoranging_(true) + autoranging_(true), + value_at_hover_pos_(std::numeric_limits::quiet_NaN()) { axis_pen_ = AxisPen; @@ -535,6 +537,7 @@ void AnalogSignal::paint_logic_mid(QPainter &p, ViewItemPaintParams &pp) const int nh = min(neg_vdivs_, 1) * div_height_; const float high_offset = y - ph + signal_margin + 0.5f; const float low_offset = y + nh - signal_margin - 0.5f; + const float signal_height = low_offset - high_offset; shared_ptr segment = get_logic_segment_to_paint(); if (!segment || (segment->get_sample_count() == 0)) @@ -563,6 +566,11 @@ void AnalogSignal::paint_logic_mid(QPainter &p, ViewItemPaintParams &pp) samples_per_pixel / LogicSignal::Oversampling, 0); assert(edges.size() >= 2); + const float first_sample_x = + pp.left() + (edges.front().first / samples_per_pixel - pixels_offset); + const float last_sample_x = + pp.left() + (edges.back().first / samples_per_pixel - pixels_offset); + // Check whether we need to paint the sampling points GlobalSettings settings; const bool show_sampling_points = @@ -570,25 +578,57 @@ void AnalogSignal::paint_logic_mid(QPainter &p, ViewItemPaintParams &pp) (samples_per_pixel < 0.25); vector sampling_points; - float sampling_point_x = 0.0f; + float sampling_point_x = first_sample_x; int64_t sampling_point_sample = start_sample; const int w = 2; - if (show_sampling_points) { + if (show_sampling_points) sampling_points.reserve(end_sample - start_sample + 1); - sampling_point_x = (edges.cbegin()->first / samples_per_pixel - pixels_offset) + pp.left(); - } + + // Check whether we need to fill the high areas + const bool fill_high_areas = + settings.value(GlobalSettings::Key_View_FillSignalHighAreas).toBool(); + vector high_rects; + float rising_edge_x; + bool rising_edge_seen = false; // Paint the edges const unsigned int edge_count = edges.size() - 2; QLineF *const edge_lines = new QLineF[edge_count]; line = edge_lines; + if (edges.front().second) { + // Beginning of trace is high + rising_edge_x = first_sample_x; + rising_edge_seen = true; + } + for (auto i = edges.cbegin() + 1; i != edges.cend() - 1; i++) { - const float x = ((*i).first / samples_per_pixel - - pixels_offset) + pp.left(); + // Note: multiple edges occupying a single pixel are represented by an edge + // with undefined logic level. This means that only the first falling edge + // after a rising edge corresponds to said rising edge - and vice versa. If + // more edges with the same logic level follow, they denote multiple edges. + + const float x = pp.left() + ((*i).first / samples_per_pixel - pixels_offset); *line++ = QLineF(x, high_offset, x, low_offset); + if (fill_high_areas) { + // Any edge terminates a high area + if (rising_edge_seen) { + const int width = x - rising_edge_x; + if (width > 0) + high_rects.emplace_back(rising_edge_x, high_offset, + width, signal_height); + rising_edge_seen = false; + } + + // Only rising edges start high areas + if ((*i).second) { + rising_edge_x = x; + rising_edge_seen = true; + } + } + if (show_sampling_points) while (sampling_point_sample < (*i).first) { const float y = (*i).second ? low_offset : high_offset; @@ -610,6 +650,19 @@ void AnalogSignal::paint_logic_mid(QPainter &p, ViewItemPaintParams &pp) sampling_point_x += pixels_per_sample; }; + if (fill_high_areas) { + // Add last high rectangle if the signal is still high at the end of the trace + if (rising_edge_seen && (edges.cend() - 1)->second) + high_rects.emplace_back(rising_edge_x, high_offset, + last_sample_x - rising_edge_x, signal_height); + + const QColor fill_color = QColor::fromRgba(settings.value( + GlobalSettings::Key_View_FillSignalHighAreaColor).value()); + p.setPen(fill_color); + p.setBrush(fill_color); + p.drawRects((const QRectF*)(high_rects.data()), high_rects.size()); + } + p.setPen(LogicSignal::EdgeColor); p.drawLines(edge_lines, edge_count); delete[] edge_lines; @@ -735,7 +788,7 @@ void AnalogSignal::update_conversion_widgets() conv_threshold_cb_->blockSignals(true); // Set available options depending on chosen conversion - for (pair preset : presets) + for (pair& preset : presets) conv_threshold_cb_->addItem(preset.first, preset.second); map < QString, QVariant > options = base_->get_conversion_options(); @@ -762,6 +815,37 @@ void AnalogSignal::update_conversion_widgets() conv_threshold_cb_->blockSignals(false); } +vector AnalogSignal::get_nearest_level_changes(uint64_t sample_pos) +{ + assert(base_); + assert(owner_); + + // Return if there's no logic data or we're showing only the analog trace + if (!base_->logic_data() || (display_type_ == DisplayAnalog)) + return vector(); + + if (sample_pos == 0) + return vector(); + + shared_ptr segment = get_logic_segment_to_paint(); + if (!segment || (segment->get_sample_count() == 0)) + return vector(); + + const View *view = owner_->view(); + assert(view); + const double samples_per_pixel = base_->get_samplerate() * view->scale(); + + vector edges; + + segment->get_surrounding_edges(edges, sample_pos, + samples_per_pixel / LogicSignal::Oversampling, 0); + + if (edges.empty()) + return vector(); + + return edges; +} + void AnalogSignal::perform_autoranging(bool keep_divs, bool force_update) { const deque< shared_ptr > &segments = @@ -773,7 +857,7 @@ void AnalogSignal::perform_autoranging(bool keep_divs, bool force_update) static double prev_min = 0, prev_max = 0; double min = 0, max = 0; - for (shared_ptr segment : segments) { + for (const shared_ptr& segment : segments) { pair mm = segment->get_min_max(); min = std::min(min, mm.first); max = std::max(max, mm.second);