Session: Use a monotonic clock to measure acquisition time.

[pulseview.git] / pv / views / trace / ruler.cpp

/*
 * This file is part of the PulseView project.
 *
 * Copyright (C) 2012 Joel Holdsworth <joel@airwebreathe.org.uk>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, see <http://www.gnu.org/licenses/>.
 */

#include <extdef.h>

#include <QApplication>
#include <QFontMetrics>
#include <QMenu>
#include <QMouseEvent>

#include <pv/globalsettings.hpp>

#include "ruler.hpp"
#include "view.hpp"

using namespace Qt;

using std::function;
using std::max;
using std::min;
using std::shared_ptr;
using std::vector;

namespace pv {
namespace views {
namespace trace {

const float Ruler::RulerHeight = 2.5f; // x Text Height

const float Ruler::HoverArrowSize = 0.5f; // x Text Height

Ruler::Ruler(View &parent) :
        MarginWidget(parent)
{
        setMouseTracking(true);

        connect(&view_, SIGNAL(hover_point_changed(const QWidget*, QPoint)),
                this, SLOT(on_hover_point_changed(const QWidget*, QPoint)));
        connect(&view_, SIGNAL(offset_changed()),
                this, SLOT(invalidate_tick_position_cache()));
        connect(&view_, SIGNAL(scale_changed()),
                this, SLOT(invalidate_tick_position_cache()));
        connect(&view_, SIGNAL(tick_prefix_changed()),
                this, SLOT(invalidate_tick_position_cache()));
        connect(&view_, SIGNAL(tick_precision_changed()),
                this, SLOT(invalidate_tick_position_cache()));
        connect(&view_, SIGNAL(tick_period_changed()),
                this, SLOT(invalidate_tick_position_cache()));
        connect(&view_, SIGNAL(time_unit_changed()),
                this, SLOT(invalidate_tick_position_cache()));
}

QSize Ruler::sizeHint() const
{
        const int text_height = calculate_text_height();
        return QSize(0, RulerHeight * text_height);
}

QSize Ruler::extended_size_hint() const
{
        QRectF max_rect;
        vector< shared_ptr<TimeItem> > items(view_.time_items());
        for (auto &i : items)
                max_rect = max_rect.united(i->label_rect(QRect()));
        return QSize(0, sizeHint().height() - max_rect.top() / 2 +
                ViewItem::HighlightRadius);
}

QString Ruler::format_time_with_distance(
        const pv::util::Timestamp& distance,
        const pv::util::Timestamp& t,
        pv::util::SIPrefix prefix,
        pv::util::TimeUnit unit,
        unsigned precision,
        bool sign)
{
        const unsigned limit = 60;

        if (t.is_zero())
                return "0";

        // If we have to use samples then we have no alternative formats
        if (unit == pv::util::TimeUnit::Samples)
                return pv::util::format_time_si_adjusted(t, prefix, precision, "sa", sign);

        // View zoomed way out -> low precision (0), big distance (>=60s)
        // -> DD:HH:MM
        if ((precision == 0) && (distance >= limit))
                return pv::util::format_time_minutes(t, 0, sign);

        // View in "normal" range -> medium precision, medium step size
        // -> HH:MM:SS.mmm... or xxxx (si unit) if less than limit seconds
        // View zoomed way in -> high precision (>3), low step size (<1s)
        // -> HH:MM:SS.mmm... or xxxx (si unit) if less than limit seconds
        if (abs(t) < limit)
                return pv::util::format_time_si_adjusted(t, prefix, precision, "s", sign);
        else
                return pv::util::format_time_minutes(t, precision, sign);
}

pv::util::Timestamp Ruler::get_absolute_time_from_x_pos(uint32_t x) const
{
        return view_.offset() + ((double)x + 0.5) * view_.scale();
}

pv::util::Timestamp Ruler::get_ruler_time_from_x_pos(uint32_t x) const
{
        return view_.ruler_offset() + ((double)x + 0.5) * view_.scale();
}

void Ruler::contextMenuEvent(QContextMenuEvent *event)
{
        MarginWidget::contextMenuEvent(event);

        // Don't show a context menu if the MarginWidget found a widget that shows one
        if (event->isAccepted())
                return;

        context_menu_x_pos_ = event->pos().x();

        QMenu *const menu = new QMenu(this);

        QAction *const create_marker = new QAction(tr("Create marker here"), this);
        connect(create_marker, SIGNAL(triggered()), this, SLOT(on_createMarker()));
        menu->addAction(create_marker);

        QAction *const set_zero_position = new QAction(tr("Set as zero point"), this);
        connect(set_zero_position, SIGNAL(triggered()), this, SLOT(on_setZeroPosition()));
        menu->addAction(set_zero_position);

        QAction *const toggle_hover_marker = new QAction(this);
        connect(toggle_hover_marker, SIGNAL(triggered()), this, SLOT(on_toggleHoverMarker()));
        menu->addAction(toggle_hover_marker);

        GlobalSettings settings;
        const bool hover_marker_shown =
                settings.value(GlobalSettings::Key_View_ShowHoverMarker).toBool();
        toggle_hover_marker->setText(hover_marker_shown ?
                tr("Disable mouse hover marker") : tr("Enable mouse hover marker"));

        event->setAccepted(true);
        menu->popup(event->globalPos());
}

void Ruler::resizeEvent(QResizeEvent*)
{
        // the tick calculation depends on the width of this widget
        invalidate_tick_position_cache();
}

vector< shared_ptr<ViewItem> > Ruler::items()
{
        const vector< shared_ptr<TimeItem> > time_items(view_.time_items());
        return vector< shared_ptr<ViewItem> >(
                time_items.begin(), time_items.end());
}

shared_ptr<ViewItem> Ruler::get_mouse_over_item(const QPoint &pt)
{
        const vector< shared_ptr<TimeItem> > items(view_.time_items());
        for (auto i = items.rbegin(); i != items.rend(); i++)
                if ((*i)->enabled() && (*i)->label_rect(rect()).contains(pt))
                        return *i;
        return nullptr;
}

void Ruler::mouseDoubleClickEvent(QMouseEvent *event)
{
        view_.add_flag(get_ruler_time_from_x_pos(event->x()));
}

void Ruler::paintEvent(QPaintEvent*)
{
        if (!tick_position_cache_) {
                auto ffunc = [this](const pv::util::Timestamp& t) {
                        return format_time_with_distance(
                                this->view_.tick_period(),
                                t,
                                this->view_.tick_prefix(),
                                this->view_.time_unit(),
                                this->view_.tick_precision());
                };

                tick_position_cache_ = calculate_tick_positions(
                        view_.tick_period(),
                        view_.ruler_offset(),
                        view_.scale(),
                        width(),
                        view_.minor_tick_count(),
                        ffunc);
        }

        const int ValueMargin = 3;

        const int text_height = calculate_text_height();
        const int ruler_height = RulerHeight * text_height;
        const int major_tick_y1 = text_height + ValueMargin * 2;
        const int minor_tick_y1 = (major_tick_y1 + ruler_height) / 2;

        QPainter p(this);

        // Draw the tick marks
        p.setPen(palette().color(foregroundRole()));

        for (const auto& tick: tick_position_cache_->major) {
                const int leftedge = 0;
                const int rightedge = width();
                const int x_tick = tick.first;
                if ((x_tick > leftedge) && (x_tick < rightedge)) {
                        const int x_left_bound = QFontMetrics(font()).width(tick.second) / 2;
                        const int x_right_bound = rightedge - x_left_bound;
                        const int x_legend = min(max(x_tick, x_left_bound), x_right_bound);
                        p.drawText(x_legend, ValueMargin, 0, text_height,
                                AlignCenter | AlignTop | TextDontClip, tick.second);
                        p.drawLine(QPointF(x_tick, major_tick_y1),
                        QPointF(tick.first, ruler_height));
                }
        }

        for (const auto& tick: tick_position_cache_->minor) {
                p.drawLine(QPointF(tick, minor_tick_y1),
                                QPointF(tick, ruler_height));
        }

        // Draw the hover mark
        draw_hover_mark(p, text_height);

        p.setRenderHint(QPainter::Antialiasing);

        // The cursor labels are not drawn with the arrows exactly on the
        // bottom line of the widget, because then the selection shadow
        // would be clipped away.
        const QRect r = rect().adjusted(0, 0, 0, -ViewItem::HighlightRadius);

        // Draw the items
        const vector< shared_ptr<TimeItem> > items(view_.time_items());
        for (auto &i : items) {
                const bool highlight = !item_dragging_ &&
                        i->label_rect(r).contains(mouse_point_);
                i->paint_label(p, r, highlight);
        }
}

void Ruler::draw_hover_mark(QPainter &p, int text_height)
{
        const int x = view_.hover_point().x();

        if (x == -1)
                return;

        p.setPen(QPen(Qt::NoPen));
        p.setBrush(QBrush(palette().color(foregroundRole())));

        const int b = RulerHeight * text_height;
        const float hover_arrow_size = HoverArrowSize * text_height;
        const QPointF points[] = {
                QPointF(x, b),
                QPointF(x - hover_arrow_size, b - hover_arrow_size),
                QPointF(x + hover_arrow_size, b - hover_arrow_size)
        };
        p.drawPolygon(points, countof(points));
}

int Ruler::calculate_text_height() const
{
        return QFontMetrics(font()).ascent();
}

TickPositions Ruler::calculate_tick_positions(
        const pv::util::Timestamp& major_period,
        const pv::util::Timestamp& offset,
        const double scale,
        const int width,
        const unsigned int minor_tick_count,
        function<QString(const pv::util::Timestamp&)> format_function)
{
        TickPositions tp;

        const pv::util::Timestamp minor_period = major_period / minor_tick_count;
        const pv::util::Timestamp first_major_division = floor(offset / major_period);
        const pv::util::Timestamp first_minor_division = ceil(offset / minor_period);
        const pv::util::Timestamp t0 = first_major_division * major_period;

        int division = (round(first_minor_division -
                first_major_division * minor_tick_count)).convert_to<int>() - 1;

        double x;

        do {
                pv::util::Timestamp t = t0 + division * minor_period;
                x = ((t - offset) / scale).convert_to<double>();

                if (division % minor_tick_count == 0) {
                        // Recalculate 't' without using 'minor_period' which is a fraction
                        t = t0 + division / minor_tick_count * major_period;
                        tp.major.emplace_back(x, format_function(t));
                } else {
                        tp.minor.emplace_back(x);
                }

                division++;
        } while (x < width);

        return tp;
}

void Ruler::on_hover_point_changed(const QWidget* widget, const QPoint &hp)
{
        (void)widget;
        (void)hp;

        update();
}

void Ruler::invalidate_tick_position_cache()
{
        tick_position_cache_ = boost::none;
}

void Ruler::on_createMarker()
{
        view_.add_flag(get_absolute_time_from_x_pos(mouse_down_point_.x()));
}

void Ruler::on_setZeroPosition()
{
        view_.set_zero_position(get_absolute_time_from_x_pos(mouse_down_point_.x()));
}

void Ruler::on_toggleHoverMarker()
{
        GlobalSettings settings;
        const bool state = settings.value(GlobalSettings::Key_View_ShowHoverMarker).toBool();
        settings.setValue(GlobalSettings::Key_View_ShowHoverMarker, !state);
}

} // namespace trace
} // namespace views
} // namespace pv