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Some work about adaptive color scheme for Web UI (PR #19901) http://[316:c51a:62a3:8b9::4]/d4708/qBittorrent/src/branch/adaptive-webui
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qBittorrent/src/gui/properties/speedplotview.cpp

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/*
* Bittorrent Client using Qt and libtorrent.
* Copyright (C) 2015 Anton Lashkov <lenton_91@mail.ru>
*
* 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* In addition, as a special exception, the copyright holders give permission to
* link this program with the OpenSSL project's "OpenSSL" library (or with
* modified versions of it that use the same license as the "OpenSSL" library),
* and distribute the linked executables. You must obey the GNU General Public
* License in all respects for all of the code used other than "OpenSSL". If you
* modify file(s), you may extend this exception to your version of the file(s),
* but you are not obligated to do so. If you do not wish to do so, delete this
* exception statement from your version.
*/
#include "speedplotview.h"
#include <QLocale>
#include <QPainter>
#include <QPen>
#include "base/global.h"
#include "base/unicodestrings.h"
#include "base/utils/misc.h"
namespace
{
enum PeriodInSeconds
{
MIN1_SEC = 60,
MIN5_SEC = 5 * 60,
MIN30_SEC = 30 * 60,
HOUR6_SEC = 6 * 60 * 60,
HOUR12_SEC = 12 * 60 * 60,
HOUR24_SEC = 24 * 60 * 60
};
const int MIN5_BUF_SIZE = 5 * 60;
const int MIN30_BUF_SIZE = 5 * 60;
const int HOUR6_BUF_SIZE = 5 * 60;
const int HOUR12_BUF_SIZE = 10 * 60;
const int HOUR24_BUF_SIZE = 10 * 60;
const int DIVIDER_30MIN = MIN30_SEC / MIN30_BUF_SIZE;
const int DIVIDER_6HOUR = HOUR6_SEC / HOUR6_BUF_SIZE;
const int DIVIDER_12HOUR = HOUR12_SEC / HOUR12_BUF_SIZE;
const int DIVIDER_24HOUR = HOUR24_SEC / HOUR24_BUF_SIZE;
// table of supposed nice steps for grid marks to get nice looking quarters of scale
const double roundingTable[] = {1.2, 1.6, 2, 2.4, 2.8, 3.2, 4, 6, 8};
struct SplittedValue
{
double arg;
Utils::Misc::SizeUnit unit;
qint64 sizeInBytes() const
{
return Utils::Misc::sizeInBytes(arg, unit);
}
};
SplittedValue getRoundedYScale(double value)
{
using Utils::Misc::SizeUnit;
if (value == 0.0) return {0, SizeUnit::Byte};
if (value <= 12.0) return {12, SizeUnit::Byte};
SizeUnit calculatedUnit = SizeUnit::Byte;
while (value > 1024) {
value /= 1024;
calculatedUnit = static_cast<SizeUnit>(static_cast<int>(calculatedUnit) + 1);
}
if (value > 100.0) {
int roundedValue = static_cast<int>(value / 40) * 40;
while (roundedValue < value)
roundedValue += 40;
return {static_cast<double>(roundedValue), calculatedUnit};
}
if (value > 10.0) {
int roundedValue = static_cast<int>(value / 4) * 4;
while (roundedValue < value)
roundedValue += 4;
return {static_cast<double>(roundedValue), calculatedUnit};
}
for (const auto &roundedValue : roundingTable) {
if (value <= roundedValue)
return {roundedValue, calculatedUnit};
}
return {10.0, calculatedUnit};
}
QString formatLabel(const double argValue, const Utils::Misc::SizeUnit unit)
{
// check is there need for digits after decimal separator
const int precision = (argValue < 10) ? friendlyUnitPrecision(unit) : 0;
return QLocale::system().toString(argValue, 'f', precision)
+ QString::fromUtf8(C_NON_BREAKING_SPACE)
+ unitString(unit, true);
}
}
SpeedPlotView::Averager::Averager(int divider, boost::circular_buffer<PointData> &sink)
: m_divider(divider)
, m_sink(sink)
, m_counter(0)
, m_accumulator {}
{
}
void SpeedPlotView::Averager::push(const PointData &pointData)
{
// Accumulator overflow will be hit in worst case on longest used averaging span,
// defined by divider value. Maximum divider is DIVIDER_24HOUR = 144
// Using int32 for accumulator we get overflow when transfer speed reaches 2^31/144 ~~ 14.2 MBytes/s.
// With quint64 this speed limit is 2^64/144 ~~ 114 PBytes/s.
// This speed is inaccessible to an ordinary user.
m_accumulator.x += pointData.x;
for (int id = UP; id < NB_GRAPHS; ++id)
m_accumulator.y[id] += pointData.y[id];
m_counter = (m_counter + 1) % m_divider;
if (m_counter != 0)
return; // still accumulating
// it is time final averaging calculations
for (int id = UP; id < NB_GRAPHS; ++id)
m_accumulator.y[id] /= m_divider;
m_accumulator.x /= m_divider;
// now flush out averaged data
m_sink.push_back(m_accumulator);
m_accumulator = {};
}
bool SpeedPlotView::Averager::isReady() const
{
return m_counter == 0;
}
SpeedPlotView::SpeedPlotView(QWidget *parent)
: QGraphicsView(parent)
, m_data5Min(MIN5_BUF_SIZE)
, m_data30Min(MIN30_BUF_SIZE)
, m_data6Hour(HOUR6_BUF_SIZE)
, m_data12Hour(HOUR12_BUF_SIZE)
, m_data24Hour(HOUR24_BUF_SIZE)
, m_currentData(&m_data5Min)
, m_averager30Min(DIVIDER_30MIN, m_data30Min)
, m_averager6Hour(DIVIDER_6HOUR, m_data6Hour)
, m_averager12Hour(DIVIDER_12HOUR, m_data12Hour)
, m_averager24Hour(DIVIDER_24HOUR, m_data24Hour)
, m_period(MIN5)
, m_viewablePointsCount(MIN5_SEC)
{
QPen greenPen;
greenPen.setWidthF(1.5);
greenPen.setColor(QColor(134, 196, 63));
QPen bluePen;
bluePen.setWidthF(1.5);
bluePen.setColor(QColor(50, 153, 255));
m_properties[UP] = GraphProperties(tr("Total Upload"), bluePen);
m_properties[DOWN] = GraphProperties(tr("Total Download"), greenPen);
bluePen.setStyle(Qt::DashLine);
greenPen.setStyle(Qt::DashLine);
m_properties[PAYLOAD_UP] = GraphProperties(tr("Payload Upload"), bluePen);
m_properties[PAYLOAD_DOWN] = GraphProperties(tr("Payload Download"), greenPen);
bluePen.setStyle(Qt::DashDotLine);
greenPen.setStyle(Qt::DashDotLine);
m_properties[OVERHEAD_UP] = GraphProperties(tr("Overhead Upload"), bluePen);
m_properties[OVERHEAD_DOWN] = GraphProperties(tr("Overhead Download"), greenPen);
bluePen.setStyle(Qt::DashDotDotLine);
greenPen.setStyle(Qt::DashDotDotLine);
m_properties[DHT_UP] = GraphProperties(tr("DHT Upload"), bluePen);
m_properties[DHT_DOWN] = GraphProperties(tr("DHT Download"), greenPen);
bluePen.setStyle(Qt::DotLine);
greenPen.setStyle(Qt::DotLine);
m_properties[TRACKER_UP] = GraphProperties(tr("Tracker Upload"), bluePen);
m_properties[TRACKER_DOWN] = GraphProperties(tr("Tracker Download"), greenPen);
}
void SpeedPlotView::setGraphEnable(GraphID id, bool enable)
{
m_properties[id].enable = enable;
viewport()->update();
}
void SpeedPlotView::pushPoint(const SpeedPlotView::PointData &point)
{
m_data5Min.push_back(point);
m_averager30Min.push(point);
m_averager6Hour.push(point);
m_averager12Hour.push(point);
m_averager24Hour.push(point);
}
void SpeedPlotView::setPeriod(const TimePeriod period)
{
m_period = period;
switch (period) {
case SpeedPlotView::MIN1:
m_viewablePointsCount = MIN1_SEC;
m_currentData = &m_data5Min;
break;
case SpeedPlotView::MIN5:
m_viewablePointsCount = MIN5_SEC;
m_currentData = &m_data5Min;
break;
case SpeedPlotView::MIN30:
m_viewablePointsCount = MIN30_BUF_SIZE;
m_currentData = &m_data30Min;
break;
case SpeedPlotView::HOUR6:
m_viewablePointsCount = HOUR6_BUF_SIZE;
m_currentData = &m_data6Hour;
break;
case SpeedPlotView::HOUR12:
m_viewablePointsCount = HOUR12_BUF_SIZE;
m_currentData = &m_data12Hour;
break;
case SpeedPlotView::HOUR24:
m_viewablePointsCount = HOUR24_BUF_SIZE;
m_currentData = &m_data24Hour;
break;
}
viewport()->update();
}
void SpeedPlotView::replot()
{
if ((m_period == MIN1)
|| (m_period == MIN5)
|| ((m_period == MIN30) && m_averager30Min.isReady())
|| ((m_period == HOUR6) && m_averager6Hour.isReady())
|| ((m_period == HOUR12) && m_averager12Hour.isReady())
|| ((m_period == HOUR24) && m_averager24Hour.isReady()) )
viewport()->update();
}
boost::circular_buffer<SpeedPlotView::PointData> &SpeedPlotView::getCurrentData()
{
return *m_currentData;
}
quint64 SpeedPlotView::maxYValue()
{
boost::circular_buffer<PointData> &queue = getCurrentData();
quint64 maxYValue = 0;
for (int id = UP; id < NB_GRAPHS; ++id) {
if (!m_properties[static_cast<GraphID>(id)].enable)
continue;
for (int i = static_cast<int>(queue.size()) - 1, j = 0; (i >= 0) && (j < m_viewablePointsCount); --i, ++j)
if (queue[i].y[id] > maxYValue)
maxYValue = queue[i].y[id];
}
return maxYValue;
}
void SpeedPlotView::paintEvent(QPaintEvent *)
{
QPainter painter(viewport());
QRect fullRect = viewport()->rect();
QRect rect = viewport()->rect();
QFontMetrics fontMetrics = painter.fontMetrics();
rect.adjust(4, 4, 0, -4); // Add padding
const SplittedValue niceScale = getRoundedYScale(maxYValue());
rect.adjust(0, fontMetrics.height(), 0, 0); // Add top padding for top speed text
// draw Y axis speed labels
const QVector<QString> speedLabels = {
formatLabel(niceScale.arg, niceScale.unit),
formatLabel((0.75 * niceScale.arg), niceScale.unit),
formatLabel((0.50 * niceScale.arg), niceScale.unit),
formatLabel((0.25 * niceScale.arg), niceScale.unit),
formatLabel(0.0, niceScale.unit),
};
int yAxisWidth = 0;
for (const QString &label : speedLabels)
#if (QT_VERSION >= QT_VERSION_CHECK(5, 11, 0))
if (fontMetrics.horizontalAdvance(label) > yAxisWidth)
yAxisWidth = fontMetrics.horizontalAdvance(label);
#else
if (fontMetrics.width(label) > yAxisWidth)
yAxisWidth = fontMetrics.width(label);
#endif
int i = 0;
for (const QString &label : speedLabels) {
QRectF labelRect(rect.topLeft() + QPointF(-yAxisWidth, (i++) * 0.25 * rect.height() - fontMetrics.height()),
QSizeF(2 * yAxisWidth, fontMetrics.height()));
painter.drawText(labelRect, label, Qt::AlignRight | Qt::AlignTop);
}
// draw grid lines
rect.adjust(yAxisWidth + 4, 0, 0, 0);
QPen gridPen;
gridPen.setStyle(Qt::DashLine);
gridPen.setWidthF(1);
gridPen.setColor(QColor(128, 128, 128, 128));
painter.setPen(gridPen);
painter.drawLine(fullRect.left(), rect.top(), rect.right(), rect.top());
painter.drawLine(fullRect.left(), rect.top() + 0.25 * rect.height(), rect.right(), rect.top() + 0.25 * rect.height());
painter.drawLine(fullRect.left(), rect.top() + 0.50 * rect.height(), rect.right(), rect.top() + 0.50 * rect.height());
painter.drawLine(fullRect.left(), rect.top() + 0.75 * rect.height(), rect.right(), rect.top() + 0.75 * rect.height());
painter.drawLine(fullRect.left(), rect.bottom(), rect.right(), rect.bottom());
const int TIME_AXIS_DIVISIONS = 6;
for (int i = 0; i < TIME_AXIS_DIVISIONS; ++i) {
const int x = rect.left() + (i * rect.width()) / TIME_AXIS_DIVISIONS;
painter.drawLine(x, fullRect.top(), x, fullRect.bottom());
}
// Set antialiasing for graphs
painter.setRenderHints(QPainter::Antialiasing);
// draw graphs
rect.adjust(3, 0, 0, 0); // Need, else graphs cross left gridline
const double yMultiplier = (niceScale.arg == 0.0) ? 0.0 : (static_cast<double>(rect.height()) / niceScale.sizeInBytes());
const double xTickSize = static_cast<double>(rect.width()) / (m_viewablePointsCount - 1);
boost::circular_buffer<PointData> &queue = getCurrentData();
for (int id = UP; id < NB_GRAPHS; ++id) {
if (!m_properties[static_cast<GraphID>(id)].enable)
continue;
QVector<QPoint> points;
for (int i = static_cast<int>(queue.size()) - 1, j = 0; (i >= 0) && (j < m_viewablePointsCount); --i, ++j) {
int newX = rect.right() - j * xTickSize;
int newY = rect.bottom() - queue[i].y[id] * yMultiplier;
points.push_back(QPoint(newX, newY));
}
painter.setPen(m_properties[static_cast<GraphID>(id)].pen);
painter.drawPolyline(points.data(), points.size());
}
// draw legend
QPoint legendTopLeft(rect.left() + 4, fullRect.top() + 4);
double legendHeight = 0;
int legendWidth = 0;
for (const auto &property : asConst(m_properties)) {
if (!property.enable)
continue;
#if (QT_VERSION >= QT_VERSION_CHECK(5, 11, 0))
if (fontMetrics.horizontalAdvance(property.name) > legendWidth)
legendWidth = fontMetrics.horizontalAdvance(property.name);
#else
if (fontMetrics.width(property.name) > legendWidth)
legendWidth = fontMetrics.width(property.name);
#endif
legendHeight += 1.5 * fontMetrics.height();
}
QRectF legendBackgroundRect(QPoint(legendTopLeft.x() - 4, legendTopLeft.y() - 4), QSizeF(legendWidth + 8, legendHeight + 8));
QColor legendBackgroundColor = QWidget::palette().color(QWidget::backgroundRole());
legendBackgroundColor.setAlpha(128); // 50% transparent
painter.fillRect(legendBackgroundRect, legendBackgroundColor);
i = 0;
for (const auto &property : asConst(m_properties)) {
if (!property.enable)
continue;
#if (QT_VERSION >= QT_VERSION_CHECK(5, 11, 0))
int nameSize = fontMetrics.horizontalAdvance(property.name);
#else
int nameSize = fontMetrics.width(property.name);
#endif
double indent = 1.5 * (i++) * fontMetrics.height();
painter.setPen(property.pen);
painter.drawLine(legendTopLeft + QPointF(0, indent + fontMetrics.height()),
legendTopLeft + QPointF(nameSize, indent + fontMetrics.height()));
painter.drawText(QRectF(legendTopLeft + QPointF(0, indent), QSizeF(2 * nameSize, fontMetrics.height())),
property.name, QTextOption(Qt::AlignVCenter));
}
}
SpeedPlotView::GraphProperties::GraphProperties()
: enable(false)
{
}
SpeedPlotView::GraphProperties::GraphProperties(const QString &name, const QPen &pen, bool enable)
: name(name)
, pen(pen)
, enable(enable)
{
}