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easy_profiler/profiler_gui/blocks_graphics_view.cpp
Victor Zarubkin 0dc5a71aad [ui] rearrange settings; some renames
2019-10-27 14:27:53 +03:00

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/************************************************************************
* file name : blocks_graphics_view.cpp
* ----------------- :
* creation time : 2016/06/26
* author : Victor Zarubkin
* email : v.s.zarubkin@gmail.com
* ----------------- :
* description : The file contains implementation of GraphicsScene and GraphicsView and
* : it's auxiliary classes for displyaing easy_profiler blocks tree.
* ----------------- :
* change log : * 2016/06/26 Victor Zarubkin: Moved sources from graphics_view.h
* : and renamed classes from My* to Prof*.
* :
* : * 2016/06/27 Victor Zarubkin: Added text shifting relatively to it's parent item.
* : Disabled border lines painting because of vertical lines painting bug.
* : Changed height of blocks. Variable thread-block height.
* :
* : * 2016/06/29 Victor Zarubkin: Highly optimized painting performance and memory consumption.
* :
* : * 2016/06/30 Victor Zarubkin: Replaced doubles with floats (in ProfBlockItem) for less memory consumption.
* :
* : * 2016/09/15 Victor Zarubkin: Moved sources of GraphicsBlockItem and GraphicsRulerItem to separate files.
* :
* : *
* ----------------- :
* license : Lightweight profiler library for c++
* : Copyright(C) 2016-2019 Sergey Yagovtsev, Victor Zarubkin
* :
* : Licensed under either of
* : * MIT license (LICENSE.MIT or http://opensource.org/licenses/MIT)
* : * Apache License, Version 2.0, (LICENSE.APACHE or http://www.apache.org/licenses/LICENSE-2.0)
* : at your option.
* :
* : The MIT License
* :
* : Permission is hereby granted, free of charge, to any person obtaining a copy
* : of this software and associated documentation files (the "Software"), to deal
* : in the Software without restriction, including without limitation the rights
* : to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* : of the Software, and to permit persons to whom the Software is furnished
* : to do so, subject to the following conditions:
* :
* : The above copyright notice and this permission notice shall be included in all
* : copies or substantial portions of the Software.
* :
* : THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
* : INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
* : PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* : LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* : TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
* : USE OR OTHER DEALINGS IN THE SOFTWARE.
* :
* : The Apache License, Version 2.0 (the "License")
* :
* : You may not use this file except in compliance with the License.
* : You may obtain a copy of the License at
* :
* : http://www.apache.org/licenses/LICENSE-2.0
* :
* : Unless required by applicable law or agreed to in writing, software
* : distributed under the License is distributed on an "AS IS" BASIS,
* : WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* : See the License for the specific language governing permissions and
* : limitations under the License.
************************************************************************/
#include <math.h>
#include <QApplication>
#include <QDebug>
#include <QGraphicsDropShadowEffect>
#include <QGraphicsScene>
#include <QGridLayout>
#include <QHBoxLayout>
#include <QKeyEvent>
#include <QMouseEvent>
#include <QScrollBar>
#include <QSettings>
#include <QSignalBlocker>
#include <QSplitter>
#include <QWheelEvent>
#include "arbitrary_value_tooltip.h"
#include "blocks_graphics_view.h"
#include "bookmarks_editor.h"
#include "graphics_block_item.h"
#include "graphics_ruler_item.h"
#include "graphics_scrollbar.h"
#include "globals.h"
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
const qreal MIN_SCALE = pow(profiler_gui::SCALING_COEFFICIENT_INV, 70); // Up to 1000 sec scale
const qreal MAX_SCALE = pow(profiler_gui::SCALING_COEFFICIENT, 45); // ~23000 --- Up to 10 ns scale
const qreal BASE_SCALE = pow(profiler_gui::SCALING_COEFFICIENT_INV, 25); // ~0.003
EASY_CONSTEXPR QRgb BACKGROUND_1 = 0xffe4e4ec;
EASY_CONSTEXPR QRgb BACKGROUND_2 = profiler::colors::White;
EASY_CONSTEXPR QRgb TIMELINE_BACKGROUND = 0x20000000 | (profiler::colors::Grey800 & 0x00ffffff);// 0x20303030;
EASY_CONSTEXPR QRgb TIMELINE_BORDER = 0xffa8a0a0;
EASY_CONSTEXPR int IDLE_TIMER_INTERVAL = 200; // 5Hz
EASY_CONSTEXPR uint64_t IDLE_TIME = 400;
EASY_CONSTEXPR int FLICKER_INTERVAL = 10; // 100Hz
EASY_CONSTEXPR qreal FLICKER_FACTOR = 16.0 / FLICKER_INTERVAL;
EASY_CONSTEXPR int BOOKMARK_WIDTH = 8;
EASY_CONSTEXPR int BOOKMARK_HEIGHT = 11;
#ifdef max
#undef max
#endif
#ifdef min
#undef min
#endif
using estd::clamp;
//////////////////////////////////////////////////////////////////////////
BoldLabel::BoldLabel(const QString& _text, QWidget* _parent) : QLabel(_text, _parent)
{
auto f = font();
f.setBold(true);
setFont(f);
}
BoldLabel::~BoldLabel()
{
}
//////////////////////////////////////////////////////////////////////////
BackgroundItem::BackgroundItem() : AuxItem()
, m_tooltip(nullptr)
, m_bookmark(profiler_gui::numeric_max<decltype(m_bookmark)>())
, m_bButtonPressed(false)
{
m_bookmarkSign.lineTo(px(BOOKMARK_WIDTH), 0);
m_bookmarkSign.lineTo(px(BOOKMARK_WIDTH), px(BOOKMARK_HEIGHT) + 1);
m_bookmarkSign.lineTo(px(BOOKMARK_WIDTH >> 1), px((BOOKMARK_HEIGHT >> 1) + 1) + 1);
m_bookmarkSign.lineTo(0, px(BOOKMARK_HEIGHT) + 1);
m_bookmarkSign.lineTo(0, 0);
m_idleTimer.setInterval(IDLE_TIMER_INTERVAL);
m_idleTimer.setSingleShot(true);
connect(&m_idleTimer, &QTimer::timeout, this, &BackgroundItem::onIdleTimeout);
}
BackgroundItem::~BackgroundItem()
{
delete m_tooltip;
}
void BackgroundItem::paint(QPainter* _painter, const QStyleOptionGraphicsItem*, QWidget*)
{
auto const sceneView = static_cast<BlocksGraphicsView*>(scene()->parent());
const auto visibleSceneRect = sceneView->visibleSceneRect();
const auto currentScale = sceneView->scale();
const auto offset = sceneView->offset();
const auto left = offset * currentScale;
const auto h = visibleSceneRect.height();
const auto visibleBottom = h - 1;
const auto borderColor = QColor::fromRgb(TIMELINE_BORDER);
const auto textShiftY = h + EASY_GLOBALS.size.timeline_height - 5;
QRectF rect;
_painter->save();
_painter->setTransform(QTransform::fromTranslate(-x(), -y()));
const auto& items = sceneView->getItems();
if (!items.empty())
{
const auto overlap = EASY_GLOBALS.size.threads_row_spacing >> 1;
static const QBrush brushes[2] = {QColor::fromRgb(BACKGROUND_1), QColor::fromRgb(BACKGROUND_2)};
int i = -1;
// Draw background
_painter->setPen(profiler_gui::SYSTEM_BORDER_COLOR);
for (auto item : items)
{
++i;
auto br = item->boundingRect();
auto top = item->y() + br.top() - visibleSceneRect.top();
auto bottom = top + br.height();
if (top > h || bottom < 0)
continue;
if (item->threadId() == EASY_GLOBALS.selected_thread)
_painter->setBrush(QBrush(QColor::fromRgb(profiler_gui::SELECTED_THREAD_BACKGROUND)));
else
_painter->setBrush(brushes[i & 1]);
rect.setRect(0, top - overlap, visibleSceneRect.width(), br.height() + EASY_GLOBALS.size.threads_row_spacing);
const auto dh = rect.bottom() - visibleBottom;
if (dh > 0)
rect.setHeight(rect.height() - dh);
if (rect.top() < 0)
rect.setTop(0);
_painter->drawRect(rect);
}
}
// Draw timeline scale marks ----------------
_painter->setBrush(QColor::fromRgba(TIMELINE_BACKGROUND));
const auto sceneStep = sceneView->timelineStep();
const auto factor = profiler_gui::timeFactor(sceneStep);
const auto step = sceneStep * currentScale;
auto first = static_cast<quint64>(offset / sceneStep);
const int odd = first & 1;
const auto nsteps = (1 + odd) * 2 + static_cast<int>(visibleSceneRect.width() / step);
first -= odd;
QPen pen(borderColor);
pen.setWidth(px(2));
_painter->setPen(pen);
_painter->drawLine(QPointF(0, h), QPointF(visibleSceneRect.width(), h));
_painter->setPen(borderColor);
QLineF marks[20];
qreal first_x = first * sceneStep;
const auto textWidth = QFontMetricsF(_painter->font(), sceneView).
width(QString::number(static_cast<quint64>(0.5 + first_x * factor))) * profiler_gui::FONT_METRICS_FACTOR + px(10);
const int n = 1 + static_cast<int>(textWidth / step);
int next = first % n;
if (next != 0)
next = n - next;
const int smallStroke = px(4);
const int bigStroke = px(8);
first_x *= currentScale;
for (int i = 0; i < nsteps; ++i, --next)
{
auto current = first_x - left + step * i;
if ((i & 1) == 0)
{
rect.setRect(current, 0, step, h);
_painter->drawRect(rect);
for (int j = 0; j < 20; ++j)
{
auto xmark = current + j * step * 0.1;
marks[j].setLine(xmark, h, xmark, h + ((j % 5) ? smallStroke : bigStroke));
}
_painter->drawLines(marks, 20);
}
if (next <= 0)
{
next = n;
_painter->setPen(profiler_gui::TEXT_COLOR);
_painter->drawText(QPointF(current + 1, textShiftY),
QString::number(static_cast<quint64>(0.5 + (current + left) * factor / currentScale)));
_painter->setPen(borderColor);
}
// TEST
// this is for testing (order of lines will be painted):
//_painter->setPen(Qt::black);
//_painter->drawText(QPointF(current + step * 0.4, h - 20), QString::number(i));
//_painter->setPen(Qt::gray);
// TEST
}
// END Draw timeline scale marks ~~~~~~~~~~~~
// Draw bookmarks
const auto& bookmarks = EASY_GLOBALS.bookmarks;
const auto beginTime = PROF_FROM_MICROSECONDS(offset) + EASY_GLOBALS.begin_time;
const auto endTime = PROF_FROM_MICROSECONDS(0.5 + offset + visibleSceneRect.width() / currentScale) + EASY_GLOBALS.begin_time;
auto first_it = std::lower_bound(bookmarks.cbegin(), bookmarks.cend(), beginTime,
[](const profiler::Bookmark& bookmark, profiler::timestamp_t value)
{
return bookmark.pos < value;
});
for (; first_it != bookmarks.cend(); ++first_it)
{
const auto& bookmark = *first_it;
if (bookmark.pos >= beginTime)
break;
}
if (first_it != bookmarks.cend())
{
pen.setColor(Qt::black);
pen.setWidth(px(1));
_painter->setPen(borderColor);
_painter->setBrush(Qt::transparent);
_painter->setRenderHint(QPainter::Antialiasing);
const int half = px(BOOKMARK_WIDTH) >> 1;
auto color = QColor(Qt::transparent).rgb();
qreal prevPos = -1e300;
for (auto it = first_it; it != bookmarks.cend() && it->pos <= endTime; ++it)
{
const qreal pos =
(PROF_MICROSECONDS(it->pos - EASY_GLOBALS.begin_time) - offset) * currentScale - half;
const bool isSelectedBookmark = m_bookmark == static_cast<size_t>(std::distance(bookmarks.cbegin(), it));
const auto delta = fabs(pos - prevPos);
if (delta < half && !isSelectedBookmark)
continue;
if (color != it->color)
_painter->setBrush(QColor::fromRgb(it->color));
const auto path = m_bookmarkSign.translated(pos, h);
_painter->drawPath(path);
if (isSelectedBookmark)
_painter->strokePath(path, pen);
prevPos = pos;
}
}
_painter->restore();
}
//////////////////////////////////////////////////////////////////////////
bool BackgroundItem::mouseMove(const QPointF& scenePos)
{
const auto prev = m_bookmark;
delete m_tooltip;
m_tooltip = nullptr;
auto& bookmarks = EASY_GLOBALS.bookmarks;
if (bookmarks.empty())
{
if (m_idleTimer.isActive())
m_idleTimer.stop();
profiler_gui::set_max(m_bookmark);
if (prev != m_bookmark)
{
qApp->restoreOverrideCursor();
emit bookmarkChanged(m_bookmark);
update();
}
return false;
}
const auto scene = static_cast<BlocksGraphicsView*>(this->scene()->parent());
const auto y = scenePos.y() - this->y() - scene->visibleSceneRect().y();
if (y < scene->visibleSceneRect().height())
{
if (!m_bButtonPressed || m_bookmark >= EASY_GLOBALS.bookmarks.size())
{
if (m_idleTimer.isActive())
m_idleTimer.stop();
profiler_gui::set_max(m_bookmark);
if (prev != m_bookmark)
{
qApp->restoreOverrideCursor();
emit bookmarkChanged(m_bookmark);
update();
}
return false;
}
}
const auto scale = scene->scale();
const auto timestamp = PROF_FROM_MICROSECONDS(scenePos.x()) + EASY_GLOBALS.begin_time;
if (!m_bButtonPressed)
{
profiler_gui::set_max(m_bookmark);
auto first_it = std::lower_bound(bookmarks.cbegin(), bookmarks.cend(), timestamp,
[](const profiler::Bookmark& bookmark, profiler::timestamp_t value)
{
return bookmark.pos < value;
});
if (first_it != bookmarks.cbegin())
--first_it;
const auto width = px(8);
for (auto it = first_it; it != bookmarks.cend(); ++it)
{
const qreal pos = PROF_MICROSECONDS(it->pos - EASY_GLOBALS.begin_time);
const auto dx = fabs(scenePos.x() - pos) * scale;
if (dx < width)
{
m_bookmark = static_cast<size_t>(std::distance(bookmarks.cbegin(), it));
break;
}
}
if (prev != m_bookmark)
{
if (!profiler_gui::is_max(m_bookmark))
{
if (qApp->overrideCursor() == nullptr || qApp->overrideCursor()->shape() != Qt::PointingHandCursor)
qApp->setOverrideCursor(QCursor(Qt::PointingHandCursor));
}
else
{
qApp->restoreOverrideCursor();
}
emit bookmarkChanged(m_bookmark);
update();
}
if (!profiler_gui::is_max(m_bookmark))
{
if (!m_idleTimer.isActive())
m_idleTimer.start();
}
else
{
if (m_idleTimer.isActive())
m_idleTimer.stop();
}
}
else if (m_bookmark < bookmarks.size())
{
if (m_idleTimer.isActive())
m_idleTimer.stop();
auto& bookmark = bookmarks[m_bookmark];
if (bookmark.pos != timestamp)
{
EASY_GLOBALS.has_local_changes = true;
bookmark.pos = timestamp;
update();
emit moved();
}
return true;
}
return false;
}
bool BackgroundItem::mousePress(const QPointF& scenePos)
{
m_bButtonPressed = !profiler_gui::is_max(m_bookmark) && contains(scenePos);
delete m_tooltip;
m_tooltip = nullptr;
return false;
}
bool BackgroundItem::mouseRelease(const QPointF& scenePos)
{
if (!m_bButtonPressed)
return false;
m_bButtonPressed = false;
if (!profiler_gui::is_max(m_bookmark))
{
auto& bookmarks = EASY_GLOBALS.bookmarks;
std::sort(bookmarks.begin(), bookmarks.end(),
[] (const profiler::Bookmark& lhs, const profiler::Bookmark& rhs)
{
return lhs.pos < rhs.pos;
});
mouseMove(scenePos);
emit bookmarkChanged(m_bookmark);
}
return false;
}
bool BackgroundItem::mouseDoubleClick(const QPointF& scenePos)
{
auto const sceneView = static_cast<BlocksGraphicsView*>(scene()->parent());
if (!contains(scenePos))
return false;
if (!profiler_gui::is_max(m_bookmark))
{
qApp->restoreOverrideCursor();
auto editor = new BookmarkEditor(m_bookmark, false, sceneView->parentWidget());
#ifndef _WIN32
// Ugly workaround for Linux: without show-hide-show you can not drag the window
editor->show();
editor->hide();
#endif
editor->exec();
}
else
{
auto& bookmarks = EASY_GLOBALS.bookmarks;
profiler::Bookmark mark;
mark.pos = PROF_FROM_MICROSECONDS(scenePos.x()) + EASY_GLOBALS.begin_time;
mark.color = EASY_GLOBALS.bookmark_default_color == 0 ? profiler_gui::randomColor() : EASY_GLOBALS.bookmark_default_color;
bookmarks.push_back(mark);
std::sort(bookmarks.begin(), bookmarks.end(),
[] (const profiler::Bookmark& lhs, const profiler::Bookmark& rhs)
{
return lhs.pos < rhs.pos;
});
mouseMove(scenePos);
if (!profiler_gui::is_max(m_bookmark))
{
qApp->restoreOverrideCursor();
auto editor = new BookmarkEditor(m_bookmark, true, sceneView->parentWidget());
#ifndef _WIN32
// Ugly workaround for Linux: without show-hide-show you can not drag the window
editor->show();
editor->hide();
#endif
editor->exec();
}
}
return true;
}
void BackgroundItem::mouseLeave()
{
delete m_tooltip;
m_tooltip = nullptr;
if (m_idleTimer.isActive())
m_idleTimer.stop();
if (!profiler_gui::is_max(m_bookmark))
{
profiler_gui::set_max(m_bookmark);
qApp->restoreOverrideCursor();
emit bookmarkChanged(m_bookmark);
update();
}
}
bool BackgroundItem::contains(const QPointF& scenePos) const
{
auto const sceneView = static_cast<BlocksGraphicsView*>(scene()->parent());
const auto visibleSceneRect = sceneView->visibleSceneRect();
const auto y = scenePos.y() - this->y() - visibleSceneRect.y();
return y >= visibleSceneRect.height();
}
void BackgroundItem::onWindowActivationChanged(bool isActiveWindow)
{
if (!isActiveWindow && qApp->activeWindow() != m_tooltip)
{
delete m_tooltip;
m_tooltip = nullptr;
}
}
void BackgroundItem::onIdleTimeout()
{
auto parent = static_cast<QWidget*>(scene()->parent());
delete m_tooltip;
m_tooltip = nullptr;
if (m_bookmark < EASY_GLOBALS.bookmarks.size() && parent->window()->isActiveWindow())
{
const auto& text = EASY_GLOBALS.bookmarks[m_bookmark].text;
if (text.empty())
return;
m_tooltip = new QLabel(QString::fromStdString(text),
parent, Qt::ToolTip | Qt::WindowTransparentForInput);
if (m_tooltip == nullptr)
return;
const auto delta = px(10);
m_tooltip->setObjectName(QStringLiteral("BookmarkPopup"));
m_tooltip->setAttribute(Qt::WA_ShowWithoutActivating, true);
m_tooltip->setFocusPolicy(Qt::NoFocus);
m_tooltip->setWordWrap(true);
m_tooltip->move(QCursor::pos() + QPoint(delta >> 1, delta));
m_tooltip->show();
const int bottom = m_tooltip->mapToParent(m_tooltip->pos()).y() + m_tooltip->height();
const int parentBottom = parent->y() + parent->height();
if (bottom > parentBottom)
m_tooltip->move(m_tooltip->pos() - QPoint(delta >> 1, m_tooltip->height() + delta));
}
}
//////////////////////////////////////////////////////////////////////////
ForegroundItem::ForegroundItem() : AuxItem()
, m_bookmark(profiler_gui::numeric_max<decltype(m_bookmark)>())
{
}
void ForegroundItem::paint(QPainter* _painter, const QStyleOptionGraphicsItem*, QWidget*)
{
const auto sceneView = static_cast<const BlocksGraphicsView*>(scene()->parent());
const auto visibleSceneRect = sceneView->visibleSceneRect();
const auto step = sceneView->timelineStep() * sceneView->scale();
const QString text = profiler_gui::autoTimeStringInt(units2microseconds(sceneView->timelineStep())); // Displayed text
const auto px6 = px(6);
const auto px10 = px(10);
const auto px14 = px(14);
// Draw scale indicator
_painter->save();
_painter->setTransform(QTransform::fromTranslate(-x(), -y()));
//_painter->setCompositionMode(QPainter::CompositionMode_Difference);
_painter->setBrush(Qt::NoBrush);
QPen pen(Qt::black);
pen.setWidth(px(3));
_painter->setPen(pen);
_painter->drawLine(QLineF(visibleSceneRect.width() - px(9) - step, visibleSceneRect.height() - px10, visibleSceneRect.width() - px(11), visibleSceneRect.height() - px10));
_painter->setPen(Qt::black);
_painter->drawLine(QLineF(visibleSceneRect.width() - px10 - step, visibleSceneRect.height() - px6, visibleSceneRect.width() - px10 - step, visibleSceneRect.height() - px14));
_painter->drawLine(QLineF(visibleSceneRect.width() - px10, visibleSceneRect.height() - px6, visibleSceneRect.width() - px10, visibleSceneRect.height() - px14));
_painter->setFont(EASY_GLOBALS.font.background);
_painter->drawText(QRectF(visibleSceneRect.width() - px10 - step, visibleSceneRect.height() - px(63), step, px(50)),
Qt::AlignRight | Qt::AlignBottom | Qt::TextDontClip, text);
if (m_bookmark < EASY_GLOBALS.bookmarks.size())
{
const auto& bookmark = EASY_GLOBALS.bookmarks[m_bookmark];
const qreal pos =
(PROF_MICROSECONDS(bookmark.pos - EASY_GLOBALS.begin_time) - sceneView->offset()) * sceneView->scale();
pen.setWidth(px(1));
_painter->setPen(pen);
_painter->drawLine(QPointF(pos, 0), QPointF(pos, visibleSceneRect.height()));
}
_painter->restore();
}
void ForegroundItem::onBookmarkChanged(size_t index)
{
m_bookmark = index;
update();
}
void ForegroundItem::onMoved()
{
update();
}
//////////////////////////////////////////////////////////////////////////
BlocksGraphicsView::BlocksGraphicsView(QWidget* _parent)
: Parent(_parent)
, m_beginTime(profiler_gui::numeric_max<decltype(m_beginTime)>())
, m_sceneWidth(0)
, m_scale(1)
, m_offset(0)
, m_visibleRegionWidth(0)
, m_timelineStep(0)
, m_idleTime(0)
, m_mouseButtons(Qt::NoButton)
, m_pScrollbar(nullptr)
, m_selectionItem(nullptr)
, m_rulerItem(nullptr)
, m_backgroundItem(nullptr)
, m_popupWidget(nullptr)
, m_flickerSpeedX(0)
, m_flickerSpeedY(0)
, m_flickerCounterX(0)
, m_flickerCounterY(0)
, m_bDoubleClick(false)
, m_bUpdatingRect(false)
, m_bEmpty(true)
, m_isArbitraryValueTooltip(false)
, m_bHovered(false)
{
initMode();
setScene(new QGraphicsScene(this));
updateVisibleSceneRect();
}
BlocksGraphicsView::~BlocksGraphicsView()
{
removePopup();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onWindowActivationChanged()
{
const bool isActive = window()->isActiveWindow();
if (!isActive && qApp->activeWindow() != m_popupWidget)
{
removePopup();
}
if (m_backgroundItem != nullptr)
{
m_backgroundItem->onWindowActivationChanged(isActive);
}
}
void BlocksGraphicsView::repaintHistogramImage()
{
if (m_pScrollbar != nullptr)
{
m_pScrollbar->repaintHistogramImage();
}
}
void BlocksGraphicsView::removePopup()
{
delete m_popupWidget;
m_popupWidget = nullptr;
m_isArbitraryValueTooltip = false;
}
bool BlocksGraphicsView::needToIgnoreMouseEvent() const
{
if (!m_isArbitraryValueTooltip)
return false;
const int size = std::min(m_popupWidget->width(), m_popupWidget->height()) >> 2;
const auto rect = m_popupWidget->rect().adjusted(-size, -size, size, size);
return rect.contains(m_popupWidget->mapFromGlobal(QCursor::pos()));
}
//////////////////////////////////////////////////////////////////////////
qreal BlocksGraphicsView::sceneWidth() const
{
return m_sceneWidth;
}
qreal BlocksGraphicsView::chronoTime() const
{
return m_selectionItem->width();
}
qreal BlocksGraphicsView::chronoTimeAux() const
{
return m_rulerItem->width();
}
//////////////////////////////////////////////////////////////////////////
GraphicsRulerItem* BlocksGraphicsView::createRuler(bool _main)
{
auto ruler = new GraphicsRulerItem(_main);
ruler->setColor(_main ? profiler_gui::RULER_COLOR : profiler_gui::RULER_COLOR2);
ruler->setBoundingRect(sceneRect());
ruler->hide();
scene()->addItem(ruler);
return ruler;
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::clear()
{
const QSignalBlocker blocker(this), sceneBlocker(scene()); // block all scene signals (otherwise clear() would be extremely slow!)
// Stop flicking
m_flickerTimer.stop();
m_flickerSpeedX = 0;
m_flickerSpeedY = 0;
m_flickerCounterX = 0;
m_flickerCounterY = 0;
// Clear all items
removePopup();
scene()->clear();
m_items.clear();
m_selectedBlocks.clear();
m_backgroundItem = nullptr;
profiler_gui::set_max(m_beginTime); // reset begin time
m_scale = 1; // scale back to initial 100% scale
m_timelineStep = 1;
m_offset = 0; // scroll back to the beginning of the scene
if (m_idleTimer.isActive())
m_idleTimer.stop();
m_idleTime = 0;
// Reset necessary flags
m_bEmpty = true;
m_sceneWidth = 10;
m_visibleRegionWidth = 10;
setSceneRect(0, 0, 10, 10);
auto& sceneData = EASY_GLOBALS.scene;
sceneData.left = 0;
sceneData.right = m_sceneWidth;
sceneData.window = m_visibleRegionWidth;
sceneData.offset = m_offset;
sceneData.empty = true;
// notify ProfTreeWidget that selection was reset
emit intervalChanged(m_selectedBlocks, m_beginTime, 0, 0, false);
EASY_GLOBALS.selected_thread = 0;
emit EASY_GLOBALS.events.selectedThreadChanged(0);
emit EASY_GLOBALS.events.rulerVisible(false);
}
void BlocksGraphicsView::notifySceneSizeChange()
{
EASY_GLOBALS.scene.left = 0;
EASY_GLOBALS.scene.right = m_sceneWidth;
emit EASY_GLOBALS.events.sceneSizeChanged(0, m_sceneWidth);
}
void BlocksGraphicsView::notifyVisibleRegionSizeChange()
{
auto vbar = verticalScrollBar();
const int vbar_width = (vbar != nullptr && vbar->isVisible() ? vbar->width() + 2 : 0);
notifyVisibleRegionSizeChange((m_visibleSceneRect.width() + vbar_width) / m_scale);
}
void BlocksGraphicsView::notifyVisibleRegionSizeChange(qreal _size)
{
m_visibleRegionWidth = _size;
EASY_GLOBALS.scene.window = _size;
emit EASY_GLOBALS.events.sceneVisibleRegionSizeChanged(_size);
}
void BlocksGraphicsView::notifyVisibleRegionPosChange()
{
EASY_GLOBALS.scene.offset = m_offset;
emit EASY_GLOBALS.events.sceneVisibleRegionPosChanged(m_offset);
}
void BlocksGraphicsView::notifyVisibleRegionPosChange(qreal _pos)
{
if (m_sceneWidth <= m_visibleRegionWidth)
m_offset = 0;
else
m_offset = estd::clamp(0., _pos, m_sceneWidth - m_visibleRegionWidth);
notifyVisibleRegionPosChange();
}
void BlocksGraphicsView::setTree(const profiler::thread_blocks_tree_t& _blocksTree)
{
// clear scene
clear();
emit EASY_GLOBALS.events.sceneCleared();
if (_blocksTree.empty())
return;
m_backgroundItem = new BackgroundItem();
scene()->addItem(m_backgroundItem);
// set new blocks tree
// calculate scene size and fill it with items
// Calculating start and end time
profiler::timestamp_t finish = 0, busyTime = 0;
profiler::thread_id_t longestTree = 0, mainTree = 0;
for (const auto& threadTree : _blocksTree)
{
const auto& t = threadTree.second;
auto timestart = m_beginTime;
auto timefinish = finish;
if (!t.children.empty())
timestart = easyBlocksTree(t.children.front()).node->begin();
if (!t.sync.empty())
timestart = std::min(timestart, easyBlocksTree(t.sync.front()).node->begin());
if (!t.children.empty())
timefinish = easyBlocksTree(t.children.back()).node->end();
if (!t.sync.empty())
timefinish = std::max(timefinish, easyBlocksTree(t.sync.back()).node->end());
if (m_beginTime > timestart)
m_beginTime = timestart;
if (finish < timefinish)
finish = timefinish;
if (t.profiled_time > busyTime) {
busyTime = t.profiled_time;
longestTree = threadTree.first;
}
if (mainTree == 0 && strcmp(t.name(), "Main") == 0)
mainTree = threadTree.first;
}
const decltype(m_beginTime) additional_offset = (finish - m_beginTime) / 20; // Additional 5% before first block and after last block
finish += additional_offset;
m_beginTime -= std::min(m_beginTime, additional_offset);
EASY_GLOBALS.begin_time = m_beginTime;
// Sort threads by name
std::vector<std::reference_wrapper<const profiler::BlocksTreeRoot> > sorted_roots;
sorted_roots.reserve(_blocksTree.size());
for (const auto& threadTree : _blocksTree)
sorted_roots.emplace_back(threadTree.second);
std::sort(sorted_roots.begin(), sorted_roots.end(), [](const profiler::BlocksTreeRoot& _a, const profiler::BlocksTreeRoot& _b) {
return _a.thread_name < _b.thread_name;
});
const auto row_height = EASY_GLOBALS.size.graphics_row_height;
const auto threads_spacing = EASY_GLOBALS.size.threads_row_spacing;
// Filling scene with items
m_items.reserve(_blocksTree.size());
qreal y = EASY_GLOBALS.size.timeline_height;
const GraphicsBlockItem *longestItem = nullptr, *mainThreadItem = nullptr;
for (const profiler::BlocksTreeRoot& t : sorted_roots)
{
if (m_items.size() == 0xff)
{
qWarning() << "Warning: Maximum threads number (255 threads) exceeded! See BlocksGraphicsView::setTree() : " << __LINE__ << " in file " << __FILE__;
break;
}
// fill scene with new items
qreal h = 0, x = 0;
if (!t.children.empty())
x = time2position(easyBlocksTree(t.children.front()).node->begin());
else if (!t.sync.empty())
x = time2position(easyBlocksTree(t.sync.front()).node->begin());
auto item = new GraphicsBlockItem(static_cast<uint8_t>(m_items.size()), t);
if (t.depth)
item->setLevels(t.depth);
item->setPos(0, y);
qreal children_duration = 0;
if (!t.children.empty())
{
uint32_t dummy = 0;
children_duration = setTree(item, t.children, h, dummy, y, 0);
}
else
{
if (!t.sync.empty())
children_duration = time2position(easyBlocksTree(t.sync.back()).node->end()) - x;
h = EASY_GLOBALS.size.graphics_row_height;
}
item->setBoundingRect(0, 0, children_duration + x, h);
m_items.push_back(item);
scene()->addItem(item);
y += h + EASY_GLOBALS.size.threads_row_spacing;
if (longestTree == t.thread_id)
longestItem = item;
if (mainTree == t.thread_id)
mainThreadItem = item;
}
// Calculating scene rect
m_sceneWidth = time2position(finish);
setSceneRect(0, 0, m_sceneWidth, y + EASY_GLOBALS.size.timeline_height);
EASY_GLOBALS.scene.empty = false;
// Center view on the beginning of the scene
const int vbar_width = updateVisibleSceneRect();
const auto windowWidth = (m_visibleSceneRect.width() + vbar_width) / m_scale;
notifySceneSizeChange();
notifyVisibleRegionSizeChange(windowWidth);
// Create new chronometer item (previous item was destroyed by scene on scene()->clear()).
// It will be shown on mouse right button click.
m_rulerItem = createRuler(false);
m_selectionItem = createRuler(true);
m_backgroundItem->setBoundingRect(0, 0, m_sceneWidth, y + EASY_GLOBALS.size.timeline_height);
auto indicator = new ForegroundItem();
indicator->setBoundingRect(0, 0, m_sceneWidth, y);
connect(m_backgroundItem, &BackgroundItem::bookmarkChanged, indicator, &ForegroundItem::onBookmarkChanged);
connect(m_backgroundItem, &BackgroundItem::moved, indicator, &ForegroundItem::onMoved);
scene()->addItem(indicator);
// Setting flags
m_bEmpty = false;
scaleTo(BASE_SCALE);
emit treeChanged();
if (mainThreadItem != nullptr)
longestItem = mainThreadItem;
if (longestItem != nullptr)
{
EASY_GLOBALS.selected_thread = longestItem->threadId();
emit EASY_GLOBALS.events.selectedThreadChanged(longestItem->threadId());
scrollTo(longestItem);
m_pScrollbar->setHistogramSource(longestItem->threadId(), longestItem->items(0));
if (!longestItem->items(0).empty())
{
notifyVisibleRegionPosChange(longestItem->items(0).front().left() - m_visibleRegionWidth * 0.25);
// Scale to fit all items
const auto right = longestItem->items(0).back().right() - m_offset;
const auto currentScale = m_scale + std::numeric_limits<decltype(m_scale)>::epsilon();
auto scale = m_scale;
while (scale < MAX_SCALE && right < (m_visibleSceneRect.width() + vbar_width) / scale)
{
m_scale = scale;
scale *= profiler_gui::SCALING_COEFFICIENT;
}
if (currentScale < m_scale)
scaleTo(m_scale);
}
}
if (m_bHovered && !m_idleTimer.isActive())
m_idleTimer.start();
// Workaround for valid scene painting after setting a new tree
QTimer::singleShot(0, this, &This::revalidateOffset);
}
void BlocksGraphicsView::revalidateOffset()
{
notifyVisibleRegionPosChange(m_offset);
repaintScene();
}
const BlocksGraphicsView::Items &BlocksGraphicsView::getItems() const
{
return m_items;
}
bool BlocksGraphicsView::getSelectionRegionForSaving(profiler::timestamp_t& _beginTime, profiler::timestamp_t& _endTime) const
{
if (m_bEmpty)
return false;
if (!m_selectionItem->isVisible() && !m_rulerItem->isVisible())
return false;
decltype(m_selectionItem) ruler = m_selectionItem->isVisible() ? m_selectionItem : m_rulerItem;
_beginTime = m_beginTime + position2time(ruler->left());
_endTime = m_beginTime + position2time(ruler->right());
return true;
}
qreal BlocksGraphicsView::setTree(GraphicsBlockItem* _item, const profiler::BlocksTree::children_t& _children, qreal& _height, uint32_t& _maxDepthChild, qreal _y, short _level)
{
if (_children.empty())
{
return 0;
}
const auto level = static_cast<uint8_t>(_level);
const auto n = static_cast<unsigned int>(_children.size());
_item->reserve(level, n);
_maxDepthChild = 0;
uint8_t maxDepth = 0;
const short next_level = _level + 1;
bool warned = false;
qreal total_duration = 0, prev_end = 0, maxh = 0;
qreal start_time = -1;
uint32_t j = 0;
for (auto child_index : _children)
{
auto& gui_block = easyBlock(child_index);
const auto& child = gui_block.tree;
if (child.depth > maxDepth)
{
maxDepth = child.depth;
_maxDepthChild = j;
}
auto xbegin = time2position(child.node->begin());
if (start_time < 0)
{
start_time = xbegin;
}
auto duration = time2position(child.node->end()) - xbegin;
//const auto dt = xbegin - prev_end;
//if (dt < 0)
//{
// duration += dt;
// xbegin -= dt;
//}
//static const qreal MIN_DURATION = 0.25;
//if (duration < MIN_DURATION)
// duration = MIN_DURATION;
const auto i = _item->addItem(level);
auto& b = _item->getItem(level, i);
gui_block.graphics_item = _item->index();
gui_block.graphics_item_level = level;
gui_block.graphics_item_index = i;
if (next_level < 256 && next_level < _item->levels() && !child.children.empty())
{
b.children_begin = static_cast<unsigned int>(_item->items(static_cast<uint8_t>(next_level)).size());
}
else
{
profiler_gui::set_max(b.children_begin);
}
qreal h = 0;
qreal children_duration = 0;
uint32_t maxDepthChild = 0;
if (next_level < 256)
{
children_duration = setTree(_item, child.children, h, maxDepthChild,
_y + EASY_GLOBALS.size.graphics_row_full, next_level);
}
else if (!child.children.empty() && !warned)
{
warned = true;
qWarning() << "Warning: Maximum blocks depth (255) exceeded! See BlocksGraphicsView::setTree() : " << __LINE__ << " in file " << __FILE__;
}
if (duration < children_duration)
{
duration = children_duration;
}
if (h > maxh)
{
maxh = h;
}
b.block = child_index;// &child;
#ifndef EASY_GRAPHICS_ITEM_RECURSIVE_PAINT
b.neighbours = n;
b.state = j > 0 || level == 0 ? 0 : -1;
#else
b.max_depth_child = maxDepthChild;
#endif
b.setPos(xbegin, duration);
//b.totalHeight = profiler_gui::GRAPHICS_ROW_SIZE + h;
prev_end = xbegin + duration;
total_duration = prev_end - start_time;
++j;
}
_height += EASY_GLOBALS.size.graphics_row_full + maxh;
return total_duration;
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::setScrollbar(GraphicsScrollbar* _scrollbar)
{
disconnect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::chartSliderChanged, this, &This::onGraphicsScrollbarValueChange);
disconnect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::chartWheeled, this, &This::onGraphicsScrollbarWheel);
m_pScrollbar = _scrollbar;
m_pScrollbar->clear();
m_pScrollbar->setRange(0, m_sceneWidth);
auto vbar = verticalScrollBar();
const int vbar_width = (vbar != nullptr && vbar->isVisible() ? vbar->width() + 2 : 0);
m_pScrollbar->setSliderWidth(m_visibleSceneRect.width() + vbar_width);
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::chartSliderChanged, this, &This::onGraphicsScrollbarValueChange);
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::chartWheeled, this, &This::onGraphicsScrollbarWheel);
EASY_GLOBALS.selected_thread = 0;
emit EASY_GLOBALS.events.selectedThreadChanged(0);
}
//////////////////////////////////////////////////////////////////////////
int BlocksGraphicsView::updateVisibleSceneRect()
{
m_visibleSceneRect = mapToScene(rect()).boundingRect();
auto vbar = verticalScrollBar();
int vbar_width = 0;
if (vbar != nullptr && vbar->isVisible())
vbar_width = vbar->width() + 2;
m_visibleSceneRect.setWidth(m_visibleSceneRect.width() - vbar_width);
m_visibleSceneRect.setHeight(m_visibleSceneRect.height() - EASY_GLOBALS.size.timeline_height);
return vbar_width;
}
void BlocksGraphicsView::updateTimelineStep(qreal _windowWidth)
{
const auto time = units2microseconds(_windowWidth);
if (time < 100)
m_timelineStep = 1e-2;
else if (time < 10e3)
m_timelineStep = 1;
else if (time < 10e6)
m_timelineStep = 1e3;
else
m_timelineStep = 1e6;
const auto optimal_steps = static_cast<int>(40 * m_visibleSceneRect.width() / 1500);
auto steps = time / m_timelineStep;
while (steps > optimal_steps) {
m_timelineStep *= 10;
steps *= 0.1;
}
m_timelineStep = microseconds2units(m_timelineStep);
}
void BlocksGraphicsView::repaintScene()
{
scene()->update(m_visibleSceneRect);
emit sceneUpdated();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::scaleTo(qreal _scale)
{
if (m_bEmpty)
{
return;
}
// have to limit scale because of Qt's QPainter feature: it doesn't draw text
// with very big coordinates (but it draw rectangles with the same coordinates good).
m_scale = clamp(MIN_SCALE, _scale, MAX_SCALE);
const int vbar_width = updateVisibleSceneRect();
// Update slider width for scrollbar
const auto windowWidth = (m_visibleSceneRect.width() + vbar_width) / m_scale;
notifyVisibleRegionSizeChange(windowWidth);
updateTimelineStep(windowWidth);
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::enterEvent(QEvent* _event)
{
Parent::enterEvent(_event);
m_bHovered = true;
if (!m_bEmpty && !m_idleTimer.isActive())
m_idleTimer.start();
m_idleTime = 0;
}
void BlocksGraphicsView::leaveEvent(QEvent* _event)
{
Parent::leaveEvent(_event);
m_bHovered = false;
if (m_idleTimer.isActive())
m_idleTimer.stop();
m_idleTime = 0;
if (!needToIgnoreMouseEvent())
removePopup();
if (m_backgroundItem != nullptr)
m_backgroundItem->mouseLeave();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::wheelEvent(QWheelEvent* _event)
{
if (needToIgnoreMouseEvent())
return;
m_idleTime = 0;
if (!m_bEmpty)
onWheel(mapToDiagram(mapToScene(_event->pos()).x()), _event->delta());
_event->accept();
}
void BlocksGraphicsView::onGraphicsScrollbarWheel(qreal _scenePos, int _wheelDelta)
{
m_idleTime = 0;
for (auto item : m_items)
{
if (item->threadId() == EASY_GLOBALS.selected_thread)
{
scrollTo(item);
break;
}
}
onWheel(_scenePos, _wheelDelta);
}
void BlocksGraphicsView::scrollTo(const GraphicsBlockItem* _item)
{
m_bUpdatingRect = true;
auto vbar = verticalScrollBar();
vbar->setValue(static_cast<int>(_item->y() + (_item->boundingRect().height() - vbar->pageStep()) * 0.5));
m_bUpdatingRect = false;
}
qreal BlocksGraphicsView::mapToDiagram(qreal x) const
{
return m_offset + x / m_scale;
}
void BlocksGraphicsView::onWheel(qreal _scenePos, int _wheelDelta)
{
const decltype(m_scale) scaleCoeff = _wheelDelta > 0 ? profiler_gui::SCALING_COEFFICIENT : profiler_gui::SCALING_COEFFICIENT_INV;
// Remember current mouse position
_scenePos = clamp(0., _scenePos, m_sceneWidth);
const auto initialPosition = _scenePos;
// have to limit scale because of Qt's QPainter feature: it doesn't draw text
// with very big coordinates (but it draw rectangles with the same coordinates good).
_scenePos -= m_offset;
_scenePos *= m_scale;
m_scale = clamp(MIN_SCALE, m_scale * scaleCoeff, MAX_SCALE);
//updateVisibleSceneRect(); // Update scene rect
// Update slider width for scrollbar
notifyVisibleRegionSizeChange();
// Calculate new offset to simulate QGraphicsView::AnchorUnderMouse scaling behavior
if (m_sceneWidth <= m_visibleRegionWidth)
m_offset = 0;
else
m_offset = clamp(0., initialPosition - _scenePos / m_scale, m_sceneWidth - m_visibleRegionWidth);
// Update slider position
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true); // To be sure that updateVisibleSceneRect will not be called by scrollbar change
notifyVisibleRegionPosChange();
guard.restore();
updateVisibleSceneRect(); // Update scene rect
updateTimelineStep(m_visibleRegionWidth);
repaintScene(); // repaint scene
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::mousePressEvent(QMouseEvent* _event)
{
if (needToIgnoreMouseEvent())
return;
m_idleTime = 0;
if (m_bEmpty)
{
_event->accept();
return;
}
auto scenePos = mapToScene(_event->pos());
scenePos.setX(m_offset + scenePos.x() / m_scale);
if (m_backgroundItem->mousePress(scenePos))
{
_event->accept();
return;
}
m_mouseButtons = _event->buttons();
m_mousePressPos = _event->pos();
if (m_mouseButtons & Qt::LeftButton)
{
if (m_rulerItem->isVisible() && (m_rulerItem->hoverLeft() || m_rulerItem->hoverRight()))
{
m_rulerItem->setReverse(m_rulerItem->hoverLeft());
m_bDoubleClick = true;
}
else if (m_selectionItem->isVisible() && (m_selectionItem->hoverLeft() || m_selectionItem->hoverRight()))
{
m_selectionItem->setReverse(m_selectionItem->hoverLeft());
m_mouseButtons = Qt::RightButton;
return;
}
}
if (m_mouseButtons & Qt::RightButton)
{
if (m_selectionItem->isVisible() && (m_selectionItem->hoverLeft() || m_selectionItem->hoverRight()))
{
m_selectionItem->setReverse(m_selectionItem->hoverLeft());
}
else
{
const auto mouseX = scenePos.x();
m_selectionItem->setLeftRight(mouseX, mouseX);
m_selectionItem->hide();
m_pScrollbar->hideSelectionIndicator();
emit EASY_GLOBALS.events.rulerVisible(m_rulerItem->isVisible());
}
}
_event->accept();
}
void BlocksGraphicsView::mouseDoubleClickEvent(QMouseEvent* _event)
{
if (needToIgnoreMouseEvent())
return;
m_idleTime = 0;
if (m_bEmpty)
{
_event->accept();
return;
}
auto scenePos = mapToScene(_event->pos());
scenePos.setX(m_offset + scenePos.x() / m_scale);
if (m_backgroundItem->mouseDoubleClick(scenePos))
{
_event->accept();
return;
}
m_mouseButtons = _event->buttons();
m_mousePressPos = _event->pos();
m_bDoubleClick = true;
if (m_mouseButtons & Qt::LeftButton)
{
const auto mouseX = scenePos.x();
m_rulerItem->setLeftRight(mouseX, mouseX);
m_rulerItem->hide();
emit sceneUpdated();
emit EASY_GLOBALS.events.rulerVisible(m_selectionItem->isVisible());
}
_event->accept();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::mouseReleaseEvent(QMouseEvent* _event)
{
if (needToIgnoreMouseEvent())
return;
if (m_bEmpty)
{
_event->accept();
return;
}
auto scenePos = mapToScene(_event->pos());
scenePos.setX(m_offset + scenePos.x() / m_scale);
if (m_backgroundItem->mouseRelease(scenePos))
{
_event->accept();
return;
}
bool chronoHidden = false;
bool changedSelection = false, changedSelectedItem = false;
if (m_mouseButtons & Qt::RightButton)
{
if (m_selectionItem->isVisible() && m_selectionItem->width() < 1e-6)
{
m_selectionItem->hide();
m_pScrollbar->hideSelectionIndicator();
emit EASY_GLOBALS.events.rulerVisible(m_rulerItem->isVisible());
}
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectedBlocks.clear();
}
if (m_selectionItem->isVisible())
{
//printf("INTERVAL: {%lf, %lf} ms\n", m_selectionItem->left(), m_selectionItem->right());
for (auto item : m_items)
{
if (!EASY_GLOBALS.only_current_thread_hierarchy || item->threadId() == EASY_GLOBALS.selected_thread)
item->getBlocks(m_selectionItem->left(), m_selectionItem->right(), m_selectedBlocks);
}
if (!m_selectedBlocks.empty())
{
changedSelection = true;
}
}
}
const profiler_gui::EasyBlock* selectedBlock = nullptr;
profiler::thread_id_t selectedBlockThread = 0;
bool jumpToZone = false;
bool changedSelectionBySelectingItem = false;
const bool leftClickSelect = (m_mouseButtons & Qt::LeftButton) != 0;
if (leftClickSelect)
{
if (m_rulerItem->isVisible() && m_rulerItem->width() < 1e-6)
{
chronoHidden = true;
m_rulerItem->hide();
emit EASY_GLOBALS.events.rulerVisible(m_selectionItem->isVisible());
}
else if (m_selectionItem->isVisible() && m_selectionItem->hoverIndicator())
{
// Jump to selected zone
jumpToZone = true;
m_flickerSpeedX = m_flickerSpeedY = 0;
notifyVisibleRegionPosChange(m_selectionItem->left() + (m_selectionItem->width() - m_visibleRegionWidth) * 0.5);
}
}
const bool rightClickSelect = ((m_mouseButtons & Qt::RightButton) != 0 && !changedSelection);
if ((leftClickSelect || rightClickSelect) && !jumpToZone && m_mouseMovePath.manhattanLength() < 5 && !m_backgroundItem->contains(scenePos))
{
// Handle Click
//clicked = true;
auto mouseClickPos = mapToScene(m_mousePressPos);
if (mouseClickPos.x() >= 0)
{
mouseClickPos.setX(m_offset + mouseClickPos.x() / m_scale);
// Try to select one of item blocks
for (auto item : m_items)
{
profiler::block_index_t i = ~0U;
auto block = item->intersect(mouseClickPos, i);
if (block != nullptr)
{
changedSelectedItem = true;
selectedBlock = block;
selectedBlockThread = item->threadId();
EASY_GLOBALS.selected_block = i;
EASY_GLOBALS.selected_block_id = block->tree.node->id();
break;
}
}
if (!changedSelectedItem && !profiler_gui::is_max(EASY_GLOBALS.selected_block))
{
changedSelectedItem = true;
profiler_gui::set_max(EASY_GLOBALS.selected_block);
profiler_gui::set_max(EASY_GLOBALS.selected_block_id);
}
}
if (selectedBlock != nullptr && rightClickSelect)
{
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectedBlocks.clear();
}
const auto thread_item = m_items[selectedBlock->graphics_item];
const auto& selectedItem = thread_item->items(selectedBlock->graphics_item_level)[selectedBlock->graphics_item_index];
const auto left = selectedItem.left();
const auto right = selectedItem.right();
for (auto item : m_items)
{
if (!EASY_GLOBALS.only_current_thread_hierarchy || (EASY_GLOBALS.selecting_block_changes_thread && selectedBlockThread == item->threadId()))
{
item->getBlocks(left, right, m_selectedBlocks);
}
}
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectionItem->setLeftRight(left, right);
m_selectionItem->setReverse(true);
m_selectionItem->setStrict(true);
m_selectionItem->show();
m_pScrollbar->setSelectionPos(left, right);
m_pScrollbar->showSelectionIndicator();
emit EASY_GLOBALS.events.rulerVisible(true);
}
changedSelectionBySelectingItem = changedSelection;
}
}
const bool isDoubleClick = m_bDoubleClick;
m_bDoubleClick = false;
m_mouseButtons = _event->buttons();
m_mouseMovePath = QPoint();
_event->accept();
if (changedSelection)
{
profiler::timestamp_t left=0, right=0;
if (changedSelectionBySelectingItem)
{
left = selectedBlock->tree.node->begin() - m_beginTime;
right = selectedBlock->tree.node->end() - m_beginTime;
}
else
{
left = position2time(m_selectionItem->left());
right = position2time(m_selectionItem->right());
}
emit intervalChanged(m_selectedBlocks, m_beginTime, left, right, m_selectionItem->strict());
}
if (changedSelectedItem)
{
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true);
if (EASY_GLOBALS.selecting_block_changes_thread && selectedBlock != nullptr && EASY_GLOBALS.selected_thread != selectedBlockThread)
{
EASY_GLOBALS.selected_thread = selectedBlockThread;
emit EASY_GLOBALS.events.lockCharts();
emit EASY_GLOBALS.events.selectedThreadChanged(EASY_GLOBALS.selected_thread);
emit EASY_GLOBALS.events.unlockCharts();
}
emit EASY_GLOBALS.events.selectedBlockChanged(EASY_GLOBALS.selected_block);
if (selectedBlock != nullptr && isDoubleClick)
{
if (!selectedBlock->tree.children.empty())
{
auto& selected = EASY_GLOBALS.gui_blocks[EASY_GLOBALS.selected_block];
selected.expanded = !selected.expanded;
emit EASY_GLOBALS.events.itemsExpandStateChanged();
}
else if (easyDescriptor(selectedBlock->tree.node->id()).type() == profiler::BlockType::Value)
{
emit EASY_GLOBALS.events.selectValue(selectedBlockThread, EASY_GLOBALS.selected_block, *selectedBlock->tree.value);
}
}
guard.restore();
if (selectedBlock != nullptr && selectedBlockThread == EASY_GLOBALS.selected_thread)
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, EASY_GLOBALS.selected_block_id);
else
{
for (auto item : m_items)
{
if (item->threadId() == EASY_GLOBALS.selected_thread)
{
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, item->items(0));
break;
}
}
}
repaintScene();
}
else if (jumpToZone)
{
repaintScene();
}
else if (chronoHidden)
{
emit sceneUpdated();
}
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::addSelectionToStatsTree()
{
if (!m_selectionItem->isVisible())
return;
//printf("INTERVAL: {%lf, %lf} ms\n", m_selectionItem->left(), m_selectionItem->right());
bool changedSelection = false;
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectedBlocks.clear();
}
for (auto item : m_items)
{
if (!EASY_GLOBALS.only_current_thread_hierarchy || item->threadId() == EASY_GLOBALS.selected_thread)
item->getBlocks(m_selectionItem->left(), m_selectionItem->right(), m_selectedBlocks);
}
if (!m_selectedBlocks.empty())
{
changedSelection = true;
}
if (changedSelection)
{
emit intervalChanged(
m_selectedBlocks,
m_beginTime,
position2time(m_selectionItem->left()),
position2time(m_selectionItem->right()),
m_selectionItem->strict()
);
}
}
void BlocksGraphicsView::onZoomSelection()
{
if (m_selectionItem->width() < 1e-6)
return;
auto deltaScale = m_visibleRegionWidth / m_selectionItem->width();
if (fabs(deltaScale - 1) < 1e-6)
{
// Restore scale value multiple to SCALING_COEFFICIENT
const int steps = static_cast<int>(log(m_scale / MIN_SCALE) / log(profiler_gui::SCALING_COEFFICIENT));
const auto desiredScale = MIN_SCALE * pow(profiler_gui::SCALING_COEFFICIENT, steps);
deltaScale = desiredScale / m_scale;
}
m_offset = m_selectionItem->left() + (m_selectionItem->width() - m_visibleRegionWidth / deltaScale) * 0.5;
m_scale = clamp(MIN_SCALE, m_scale * deltaScale, MAX_SCALE);
// Update slider width for scrollbar
notifyVisibleRegionSizeChange();
// Update slider position
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true); // To be sure that updateVisibleSceneRect will not be called by scrollbar change
notifyVisibleRegionPosChange();
guard.restore();
updateVisibleSceneRect(); // Update scene rect
updateTimelineStep(m_visibleRegionWidth);
repaintScene(); // repaint scene
}
void BlocksGraphicsView::onInspectCurrentView(bool strict)
{
if (m_bEmpty)
return;
if (!m_selectionItem->isVisible())
{
m_selectionItem->setReverse(strict);
m_selectionItem->setStrict(strict);
m_selectionItem->setLeftRight(m_offset, m_offset + m_visibleRegionWidth);
m_selectionItem->show();
m_pScrollbar->setSelectionPos(m_selectionItem->left(), m_selectionItem->right());
m_pScrollbar->showSelectionIndicator();
emit EASY_GLOBALS.events.rulerVisible(true);
addSelectionToStatsTree();
}
else
{
onZoomSelection();
}
}
//////////////////////////////////////////////////////////////////////////
bool BlocksGraphicsView::moveChrono(GraphicsRulerItem* ruler_item, qreal mouse_x)
{
if (ruler_item->reverse())
{
if (mouse_x > ruler_item->right())
{
ruler_item->setReverse(false);
ruler_item->setLeftRight(ruler_item->right(), mouse_x);
if (ruler_item->hoverLeft())
{
ruler_item->setHoverLeft(false);
ruler_item->setHoverRight(true);
}
}
else
{
ruler_item->setLeftRight(mouse_x, ruler_item->right());
}
}
else
{
if (mouse_x < ruler_item->left())
{
ruler_item->setReverse(true);
ruler_item->setLeftRight(mouse_x, ruler_item->left());
if (ruler_item->hoverRight())
{
ruler_item->setHoverLeft(true);
ruler_item->setHoverRight(false);
}
}
else
{
ruler_item->setLeftRight(ruler_item->left(), mouse_x);
}
}
if (!ruler_item->hoverAnyBorder())
{
ruler_item->setStrict(ruler_item->reverse());
}
if (!ruler_item->isVisible() && ruler_item->width() > 1e-6)
{
ruler_item->show();
emit EASY_GLOBALS.events.rulerVisible(true);
return true;
}
return false;
}
void BlocksGraphicsView::mouseMoveEvent(QMouseEvent* event)
{
if (needToIgnoreMouseEvent())
return;
m_idleTime = 0;
if (m_bEmpty)
{
event->accept();
return;
}
auto scenePos = mapToScene(event->pos());
scenePos.setX(m_offset + scenePos.x() / m_scale);
if (m_backgroundItem->mouseMove(scenePos))
{
event->accept();
return;
}
if (m_mouseButtons == 0 && !m_selectionItem->isVisible() && !m_rulerItem->isVisible())
{
event->accept();
return;
}
bool needUpdate = false;
const auto pos = event->pos();
const auto delta = pos - m_mousePressPos;
m_mousePressPos = pos;
if (m_mouseButtons != 0)
{
m_mouseMovePath.setX(m_mouseMovePath.x() + qAbs(delta.x()));
m_mouseMovePath.setY(m_mouseMovePath.y() + qAbs(delta.y()));
}
auto mouseScenePos = mapToScene(m_mousePressPos);
mouseScenePos.setX(m_offset + mouseScenePos.x() / m_scale);
const auto x = clamp(0., mouseScenePos.x(), m_sceneWidth);
if (m_mouseButtons & Qt::RightButton)
{
bool showItem = moveChrono(m_selectionItem, x);
m_pScrollbar->setSelectionPos(m_selectionItem->left(), m_selectionItem->right());
if (showItem)
{
m_pScrollbar->showSelectionIndicator();
}
needUpdate = true;
}
if (m_mouseButtons & Qt::LeftButton)
{
if (m_bDoubleClick)
{
moveChrono(m_rulerItem, x);
}
else
{
auto vbar = verticalScrollBar();
// Block scrollbars from updating scene rect to make it possible to do it only once
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true);
vbar->setValue(vbar->value() - delta.y());
notifyVisibleRegionPosChange(m_offset - delta.x() / m_scale);
guard.restore();
// Seems like an ugly stub, but QSignalBlocker is also a bad decision
// because if scrollbar does not emit valueChanged signal then viewport does not move
updateVisibleSceneRect(); // Update scene visible rect only once
// Update flicker speed
m_flickerSpeedX += delta.x() >> 1;
m_flickerSpeedY += delta.y();
if (!m_flickerTimer.isActive())
{
// If flicker timer is not started, then start it
m_flickerTimer.start(FLICKER_INTERVAL);
}
}
needUpdate = true;
}
if (m_mouseButtons == 0)
{
if (m_selectionItem->isVisible())
{
auto prevValue = m_selectionItem->hoverIndicator();
m_selectionItem->setHoverIndicator(m_selectionItem->indicatorContains(mouseScenePos));
needUpdate = needUpdate || (prevValue != m_selectionItem->hoverIndicator());
prevValue = m_selectionItem->hoverLeft();
m_selectionItem->setHoverLeft(m_selectionItem->hoverLeft(mouseScenePos.x()));
needUpdate = needUpdate || (prevValue != m_selectionItem->hoverLeft());
if (!m_selectionItem->hoverLeft())
{
prevValue = m_selectionItem->hoverRight();
m_selectionItem->setHoverRight(m_selectionItem->hoverRight(mouseScenePos.x()));
needUpdate = needUpdate || (prevValue != m_selectionItem->hoverRight());
}
}
if (m_rulerItem->isVisible())
{
auto prevValue = m_rulerItem->hoverLeft();
m_rulerItem->setHoverLeft(m_rulerItem->hoverLeft(mouseScenePos.x()));
needUpdate = needUpdate || (prevValue != m_rulerItem->hoverLeft());
if (!m_rulerItem->hoverLeft())
{
prevValue = m_rulerItem->hoverRight();
m_rulerItem->setHoverRight(m_rulerItem->hoverRight(mouseScenePos.x()));
needUpdate = needUpdate || (prevValue != m_rulerItem->hoverRight());
}
}
}
if (needUpdate)
{
repaintScene(); // repaint scene
}
event->accept();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::keyPressEvent(QKeyEvent* event)
{
static const int KeyStep = 100;
const int key = event->key();
switch (key)
{
case Qt::Key_Right:
case Qt::Key_6:
{
notifyVisibleRegionPosChange(m_offset + KeyStep / m_scale);
break;
}
case Qt::Key_Left:
case Qt::Key_4:
{
notifyVisibleRegionPosChange(m_offset - KeyStep / m_scale);
break;
}
case Qt::Key_Up:
case Qt::Key_8:
{
auto vbar = verticalScrollBar();
vbar->setValue(vbar->value() - KeyStep);
break;
}
case Qt::Key_Down:
case Qt::Key_2:
{
auto vbar = verticalScrollBar();
vbar->setValue(vbar->value() + KeyStep);
break;
}
case Qt::Key_Plus:
case Qt::Key_Equal:
{
onWheel(mapToDiagram(mapToScene(mapFromGlobal(QCursor::pos())).x()), KeyStep);
break;
}
case Qt::Key_Minus:
{
onWheel(mapToDiagram(mapToScene(mapFromGlobal(QCursor::pos())).x()), -KeyStep);
break;
}
}
m_idleTime = 0;
event->accept();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::resizeEvent(QResizeEvent* event)
{
Parent::resizeEvent(event);
const QRectF previousRect = m_visibleSceneRect;
const int vbar_width = updateVisibleSceneRect(); // Update scene visible rect only once
// Update slider width for scrollbar
const auto windowWidth = (m_visibleSceneRect.width() + vbar_width) / m_scale;
notifyVisibleRegionSizeChange(windowWidth);
// Calculate new offset to save old screen center
const auto deltaWidth = m_visibleSceneRect.width() - previousRect.width();
m_offset = clamp(0., m_offset - deltaWidth * 0.5 / m_scale, m_sceneWidth - windowWidth);
// Update slider position
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true); // To be sure that updateVisibleSceneRect will not be called by scrollbar change
notifyVisibleRegionPosChange();
guard.restore();
repaintScene(); // repaint scene
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::initMode()
{
// TODO: find mode with least number of bugs :)
// There are always some display bugs...
setCacheMode(QGraphicsView::CacheNone);
setTransformationAnchor(QGraphicsView::AnchorUnderMouse);
setViewportUpdateMode(QGraphicsView::FullViewportUpdate);
setOptimizationFlag(QGraphicsView::DontSavePainterState, true);
setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
connect(verticalScrollBar(), &QScrollBar::valueChanged, this, &This::onScrollbarValueChange);
connect(&m_flickerTimer, &QTimer::timeout, this, &This::onFlickerTimeout);
connect(&m_idleTimer, &QTimer::timeout, this, &This::onIdleTimeout);
m_idleTimer.setInterval(IDLE_TIMER_INTERVAL);
using profiler_gui::GlobalSignals;
auto globalSignals = &EASY_GLOBALS.events;
connect(globalSignals, &GlobalSignals::hierarchyFlagChanged, this, &This::onHierarchyFlagChange);
connect(globalSignals, &GlobalSignals::selectedThreadChanged, this, &This::onSelectedThreadChange);
connect(globalSignals, &GlobalSignals::selectedBlockChanged, this, &This::onSelectedBlockChange);
connect(globalSignals, &GlobalSignals::itemsExpandStateChanged, this, &This::onRefreshRequired);
connect(globalSignals, &GlobalSignals::refreshRequired, this, &This::onRefreshRequired);
connect(globalSignals, &GlobalSignals::allDataGoingToBeDeleted, this, &This::clear);
connect(globalSignals, &GlobalSignals::fileOpened, [this] {
setTree(EASY_GLOBALS.profiler_blocks);
});
connect(globalSignals, &GlobalSignals::selectedBlockIdChanged, [this](profiler::block_id_t)
{
if (profiler_gui::is_max(EASY_GLOBALS.selected_block_id))
{
if (EASY_GLOBALS.selected_thread != 0)
{
for (auto item : m_items)
{
if (item->threadId() == EASY_GLOBALS.selected_thread)
{
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, item->items(0));
break;
}
}
}
else
{
m_pScrollbar->setHistogramSource(0, nullptr);
}
}
else
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, EASY_GLOBALS.selected_block_id);
onRefreshRequired();
});
connect(globalSignals, &profiler_gui::GlobalSignals::threadNameDecorationChanged, this, &This::onThreadViewChanged);
connect(globalSignals, &profiler_gui::GlobalSignals::hexThreadIdChanged, this, &This::onThreadViewChanged);
connect(globalSignals, &profiler_gui::GlobalSignals::blocksTreeModeChanged, [this]()
{
if (!m_selectedBlocks.empty())
emit intervalChanged(
m_selectedBlocks,
m_beginTime,
position2time(m_selectionItem->left()),
position2time(m_selectionItem->right()),
m_selectionItem->strict()
);
});
connect(globalSignals, &profiler_gui::GlobalSignals::chartSliderChanged, this, &This::onGraphicsScrollbarValueChange);
connect(globalSignals, &profiler_gui::GlobalSignals::chartWheeled, this, &This::onGraphicsScrollbarWheel);
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onThreadViewChanged()
{
if (m_bEmpty)
return;
for (auto item : m_items)
item->validateName();
updateVisibleSceneRect();
emit treeChanged();
onHierarchyFlagChange(EASY_GLOBALS.only_current_thread_hierarchy);
repaintScene();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onScrollbarValueChange(int)
{
if (!m_bUpdatingRect && !m_bEmpty)
updateVisibleSceneRect();
}
void BlocksGraphicsView::onGraphicsScrollbarValueChange(qreal value)
{
if (!m_bEmpty)
{
m_offset = value;
if (!m_bUpdatingRect)
{
updateVisibleSceneRect();
repaintScene();
}
}
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onFlickerTimeout()
{
++m_flickerCounterX;
++m_flickerCounterY;
if (m_mouseButtons & Qt::LeftButton)
{
// Fast slow-down and stop if mouse button is pressed, no flicking.
m_flickerSpeedX >>= 1;
m_flickerSpeedY >>= 1;
if (m_flickerSpeedX == -1) m_flickerSpeedX = 0;
if (m_flickerSpeedY == -1) m_flickerSpeedY = 0;
}
else
{
// Flick when mouse button is not pressed
using estd::sign;
using estd::absmin;
auto vbar = verticalScrollBar();
profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true); // Block scrollbars from updating scene rect to make it possible to do it only once
notifyVisibleRegionPosChange(m_offset - m_flickerSpeedX / m_scale);
vbar->setValue(vbar->value() - m_flickerSpeedY);
guard.restore();
// Seems like an ugly stub, but QSignalBlocker is also a bad decision
// because if scrollbar does not emit valueChanged signal then viewport does not move
updateVisibleSceneRect(); // Update scene visible rect only once
repaintScene(); // repaint scene
const int dx = static_cast<int>(sign(m_flickerSpeedX) * m_flickerCounterX / FLICKER_FACTOR);
const int dy = static_cast<int>(sign(m_flickerSpeedY) * m_flickerCounterY / FLICKER_FACTOR);
if (abs(dx) > 0)
{
m_flickerSpeedX -= absmin(dx, m_flickerSpeedX);
m_flickerCounterX = 0;
}
if (abs(dy) > 0)
{
m_flickerSpeedY -= absmin(dy, m_flickerSpeedY);
m_flickerCounterY = 0;
}
}
if (m_flickerSpeedX == 0 && m_flickerSpeedY == 0)
{
// Flicker stopped, no timer needed.
m_flickerTimer.stop();
m_flickerSpeedX = 0;
m_flickerSpeedY = 0;
m_flickerCounterX = 0;
m_flickerCounterY = 0;
}
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onIdleTimeout()
{
m_idleTime += IDLE_TIMER_INTERVAL;
if (m_idleTime < IDLE_TIME)
{
removePopup();
return;
}
if (m_popupWidget != nullptr)
return;
if (window() == nullptr || !window()->isActiveWindow())
return;
auto focusWidget = qApp->focusWidget();
while (focusWidget != nullptr && !focusWidget->property("stayVisible").toBool())
focusWidget = focusWidget->parentWidget();
if (focusWidget != nullptr)
return;
m_isArbitraryValueTooltip = false;
auto scenePos = mapToScene(mapFromGlobal(QCursor::pos()));
if (scenePos.x() < m_visibleSceneRect.left() || scenePos.x() > m_visibleSceneRect.right())
return;
if (scenePos.y() < m_visibleSceneRect.top() || scenePos.y() > m_visibleSceneRect.bottom())
return;
decltype(scenePos) pos(m_offset + scenePos.x() / m_scale, scenePos.y());
// Try to select one of context switches or items
for (auto item : m_items)
{
auto cse = item->intersectEvent(pos);
if (cse != nullptr)
{
const auto& itemBlock = cse->tree;
auto widget = new QWidget(this, Qt::ToolTip | Qt::WindowTransparentForInput);
if (widget == nullptr)
return;
widget->setObjectName(QStringLiteral("DiagramPopup"));
widget->setAttribute(Qt::WA_ShowWithoutActivating, true);
widget->setFocusPolicy(Qt::NoFocus);
auto lay = new QGridLayout(widget);
if (lay == nullptr)
return;
int row = 0;
lay->addWidget(new BoldLabel("Context switch event", widget), row, 0, 1, 3, Qt::AlignHCenter);
++row;
lay->addWidget(new QLabel("Thread:", widget), row, 0, Qt::AlignRight);
const char* process_name = "";
profiler::thread_id_t tid = 0;
if (EASY_GLOBALS.version < profiler_gui::V130)
{
tid = cse->tree.node->id();
process_name = cse->tree.node->name();
}
else
{
tid = cse->tree.cs->tid();
process_name = cse->tree.cs->name();
}
auto it = EASY_GLOBALS.profiler_blocks.find(tid);
if (it != EASY_GLOBALS.profiler_blocks.end())
{
if (EASY_GLOBALS.hex_thread_id)
lay->addWidget(new QLabel(QString("0x%1 %2").arg(tid, 0, 16).arg(it->second.name()), widget), row, 1, 1, 2, Qt::AlignLeft);
else
lay->addWidget(new QLabel(QString("%1 %2").arg(tid).arg(it->second.name()), widget), row, 1, 1, 2, Qt::AlignLeft);
}
else if (EASY_GLOBALS.hex_thread_id)
lay->addWidget(new QLabel(QString("0x%1").arg(tid, 0, 16), widget), row, 1, 1, 2, Qt::AlignLeft);
else
lay->addWidget(new QLabel(QString::number(tid), widget), row, 1, 1, 2, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Process:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(process_name, widget), row, 1, 1, 2, Qt::AlignLeft);
++row;
const auto duration = itemBlock.node->duration();
lay->addWidget(new QLabel("Time:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, duration, 3), widget), row, 1, 1, 2, Qt::AlignLeft);
++row;
if (itemBlock.per_thread_stats)
{
lay->addWidget(new QLabel("Total:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, itemBlock.per_thread_stats->total_duration, 3), widget), row, 1, 1, 2, Qt::AlignLeft);
++row;
lay->addWidget(new BoldLabel("-------- Statistics --------", widget), row, 0, 1, 3, Qt::AlignHCenter);
lay->addWidget(new QLabel("per ", widget), row + 1, 0, Qt::AlignRight);
lay->addWidget(new QLabel("This %:", widget), row + 2, 0, Qt::AlignRight);
lay->addWidget(new QLabel("Total %:", widget), row + 3, 0, Qt::AlignRight);
lay->addWidget(new QLabel("N Calls:", widget), row + 4, 0, Qt::AlignRight);
lay->addWidget(new QLabel("Thread", widget), row + 1, 1, Qt::AlignHCenter);
auto percent = profiler_gui::percentReal(duration, item->root().profiled_time);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 2, 1, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(profiler_gui::percent(itemBlock.per_thread_stats->total_duration, item->root().profiled_time)), widget), row + 3, 1, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(itemBlock.per_thread_stats->calls_number), widget), row + 4, 1, Qt::AlignHCenter);
if (itemBlock.per_frame_stats && !profiler_gui::is_max(itemBlock.per_frame_stats->parent_block))
{
int col = 2;
auto frame_duration = easyBlocksTree(itemBlock.per_frame_stats->parent_block).node->duration();
lay->addWidget(new QLabel("Frame", widget), row + 1, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(duration, frame_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 2, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(itemBlock.per_frame_stats->total_duration, frame_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 3, col, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(itemBlock.per_frame_stats->calls_number), widget), row + 4, col, Qt::AlignHCenter);
}
}
m_popupWidget = widget;
break;
}
profiler::block_index_t i = ~0U;
auto block = item->intersect(pos, i);
if (block != nullptr)
{
const auto& itemBlock = block->tree;
const auto& itemDesc = easyDescriptor(itemBlock.node->id());
if (itemDesc.type() == profiler::BlockType::Value)
{
m_isArbitraryValueTooltip = true;
m_popupWidget = new ArbitraryValueToolTip(itemDesc.name(), itemBlock, this);
break;
}
auto widget = new QWidget(this, Qt::ToolTip | Qt::WindowTransparentForInput);
if (widget == nullptr)
return;
widget->setObjectName(QStringLiteral("DiagramPopup"));
widget->setAttribute(Qt::WA_ShowWithoutActivating, true);
widget->setFocusPolicy(Qt::NoFocus);
auto lay = new QGridLayout(widget);
if (lay == nullptr)
return;
lay->setSpacing(2);
int row = 0;
switch (itemDesc.type())
{
case profiler::BlockType::Block:
{
const auto name = *itemBlock.node->name() != 0 ? itemBlock.node->name() : itemDesc.name();
//lay->addWidget(new QLabel("Name:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new BoldLabel(profiler_gui::toUnicode(name), widget), row, 0, 1, 5,
Qt::AlignHCenter);
++row;
const auto duration = itemBlock.node->duration();
lay->addWidget(new QLabel("Time:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, duration, 3),
widget), row, 1, 1, 3, Qt::AlignLeft);
++row;
profiler::timestamp_t children_duration = 0;
for (auto child : itemBlock.children)
children_duration += easyBlock(child).tree.node->duration();
const auto self_duration = duration - children_duration;
const auto self_percent =
duration == 0 ? 100. : profiler_gui::percentReal(self_duration, duration);
lay->addWidget(new QLabel("Self:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString("%1 (%2%)")
.arg(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units,
self_duration, 3))
.arg(QString::number(self_percent, 'g', 3)), widget),
row, 1, 1, 3, Qt::AlignLeft);
++row;
break;
}
case profiler::BlockType::Event:
{
const auto name = *itemBlock.node->name() != 0 ? itemBlock.node->name() : itemDesc.name();
lay->addWidget(new BoldLabel("User defined event", widget), row, 0, 1, 2, Qt::AlignHCenter);
++row;
lay->addWidget(new QLabel("Name:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::toUnicode(name), widget), row, 1, Qt::AlignLeft);
++row;
break;
}
case profiler::BlockType::Value:
{
lay->addWidget(new BoldLabel("Arbitrary Value", widget), row, 0, 1, 2, Qt::AlignHCenter);
++row;
lay->addWidget(new QLabel("Name:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::toUnicode(itemDesc.name()), widget), row, 1, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Value:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::shortValueString(*itemBlock.value), widget), row, 1, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("VIN:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString("0x%1").arg(itemBlock.value->value_id(), 0, 16), widget), row, 1, Qt::AlignLeft);
++row;
break;
}
default:
{
delete widget;
return;
}
}
if (itemBlock.per_thread_stats != nullptr)
{
if (itemDesc.type() == profiler::BlockType::Block)
{
const auto duration = itemBlock.node->duration();
lay->addWidget(new QLabel("Avg:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, itemBlock.per_thread_stats->average_duration(), 3), widget), row, 1, 1, 3, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Median:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, itemBlock.per_thread_stats->median_duration, 3), widget), row, 1, 1, 3, Qt::AlignLeft);
++row;
// Calculate idle/active time
{
const auto& threadRoot = item->root();
profiler::block_index_t ind = 0;
auto it = std::lower_bound(threadRoot.sync.begin(), threadRoot.sync.end(), itemBlock.node->begin(),
[](profiler::block_index_t _cs_index, profiler::timestamp_t _val)
{
return EASY_GLOBALS.gui_blocks[_cs_index].tree.node->begin() < _val;
});
if (it != threadRoot.sync.end())
{
ind = static_cast<profiler::block_index_t>(it - threadRoot.sync.begin());
if (ind > 0)
--ind;
}
else
{
ind = static_cast<profiler::block_index_t>(threadRoot.sync.size());
}
profiler::timestamp_t idleTime = 0;
for (auto ncs = static_cast<profiler::block_index_t>(threadRoot.sync.size()); ind < ncs; ++ind)
{
auto cs_index = threadRoot.sync[ind];
const auto cs = EASY_GLOBALS.gui_blocks[cs_index].tree.node;
if (cs->begin() > itemBlock.node->end())
break;
if (itemBlock.node->begin() <= cs->begin() && cs->end() <= itemBlock.node->end())
idleTime += cs->duration();
}
const auto active_time = duration - idleTime;
const auto active_percent = duration == 0 ? 100. : profiler_gui::percentReal(active_time, duration);
lay->addWidget(new QLabel("Active time:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString("%1 (%2%)").arg(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, active_time, 3)).arg(QString::number(active_percent, 'g', 3)), widget), row, 1, 1, 3, Qt::AlignLeft);
++row;
}
lay->addWidget(new BoldLabel("-------- Statistics --------", widget), row, 0, 1, 5, Qt::AlignHCenter);
lay->addWidget(new QLabel("per ", widget), row + 1, 0, Qt::AlignRight);
lay->addWidget(new QLabel("This %:", widget), row + 2, 0, Qt::AlignRight);
lay->addWidget(new QLabel("Total %:", widget), row + 3, 0, Qt::AlignRight);
lay->addWidget(new QLabel("Total self %:", widget), row + 4, 0, Qt::AlignRight);
lay->addWidget(new QLabel("N Calls:", widget), row + 5, 0, Qt::AlignRight);
lay->addWidget(new QLabel("Thread", widget), row + 1, 1, Qt::AlignHCenter);
auto percent = profiler_gui::percentReal(duration, item->root().profiled_time);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 2, 1, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(profiler_gui::percent(itemBlock.per_thread_stats->total_duration, item->root().profiled_time)), widget), row + 3, 1, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(profiler_gui::percent(itemBlock.per_thread_stats->total_duration - itemBlock.per_thread_stats->total_children_duration, item->root().profiled_time)), widget), row + 4, 1, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(itemBlock.per_thread_stats->calls_number), widget), row + 5, 1, Qt::AlignHCenter);
int col = 1;
if (itemBlock.per_frame_stats->parent_block != i && !profiler_gui::is_max(itemBlock.per_frame_stats->parent_block))
{
++col;
auto frame_duration = easyBlocksTree(itemBlock.per_frame_stats->parent_block).node->duration();
lay->addWidget(new QLabel("Frame", widget), row + 1, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(duration, frame_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 2, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(itemBlock.per_frame_stats->total_duration, frame_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 3, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(itemBlock.per_frame_stats->total_duration - itemBlock.per_frame_stats->total_children_duration, frame_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 4, col, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(itemBlock.per_frame_stats->calls_number), widget), row + 5, col, Qt::AlignHCenter);
}
if (!profiler_gui::is_max(itemBlock.per_parent_stats->parent_block))
{
++col;
auto parent_duration = easyBlocksTree(itemBlock.per_parent_stats->parent_block).node->duration();
lay->addWidget(new QLabel("Parent", widget), row + 1, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(duration, parent_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 2, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(itemBlock.per_parent_stats->total_duration, parent_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 3, col, Qt::AlignHCenter);
percent = profiler_gui::percentReal(itemBlock.per_parent_stats->total_duration - itemBlock.per_parent_stats->total_children_duration, parent_duration);
lay->addWidget(new QLabel(0.005 < percent && percent < 0.5001 ? QString::number(percent, 'f', 2) : QString::number(static_cast<int>(0.5 + percent)), widget), row + 4, col, Qt::AlignHCenter);
lay->addWidget(new QLabel(QString::number(itemBlock.per_parent_stats->calls_number), widget), row + 5, col, Qt::AlignHCenter);
++col;
}
}
else
{
lay->addWidget(new QLabel("N calls/Thread:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString::number(itemBlock.per_thread_stats->calls_number), widget), row, 1, Qt::AlignLeft);
}
}
m_popupWidget = widget;
break;
}
}
if (m_popupWidget != nullptr)
{
m_popupWidget->move(QCursor::pos());
m_popupWidget->show();
const auto w = std::min(m_popupWidget->width(), (int)m_visibleSceneRect.width());
const auto h = std::min(m_popupWidget->height(), (int)m_visibleSceneRect.height());
m_popupWidget->setFixedSize(w, h);
const auto prevPos = scenePos;
auto br = m_popupWidget->rect();
if (scenePos.y() + br.height() > m_visibleSceneRect.bottom())
scenePos.setY(std::max(scenePos.y() - br.height() + 1, m_visibleSceneRect.top()));
if (scenePos.x() + br.width() > m_visibleSceneRect.right())
scenePos.setX(std::max(scenePos.x() - br.width(), m_visibleSceneRect.left()));
if ((scenePos - prevPos).manhattanLength() != 0)
m_popupWidget->move(mapToGlobal(mapFromScene(scenePos)));
}
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onHierarchyFlagChange(bool)
{
bool changedSelection = false;
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectedBlocks.clear();
}
if (m_selectionItem->isVisible())
{
for (auto item : m_items)
{
if (!EASY_GLOBALS.only_current_thread_hierarchy || item->threadId() == EASY_GLOBALS.selected_thread)
item->getBlocks(m_selectionItem->left(), m_selectionItem->right(), m_selectedBlocks);
}
if (!m_selectedBlocks.empty())
{
changedSelection = true;
}
}
if (changedSelection)
{
emit intervalChanged(
m_selectedBlocks,
m_beginTime,
position2time(m_selectionItem->left()),
position2time(m_selectionItem->right()),
m_selectionItem->strict()
);
}
}
void BlocksGraphicsView::onSelectedThreadChange(profiler::thread_id_t id)
{
if (m_pScrollbar == nullptr || m_pScrollbar->histThread() == id)
{
return;
}
if (id == 0)
{
m_pScrollbar->setHistogramSource(0, nullptr);
return;
}
for (auto item : m_items)
{
if (item->threadId() == id)
{
m_pScrollbar->setHistogramSource(id, item->items(0));
bool changedSelection = false;
if (EASY_GLOBALS.only_current_thread_hierarchy)
{
if (!m_selectedBlocks.empty())
{
changedSelection = true;
m_selectedBlocks.clear();
}
if (m_selectionItem->isVisible())
{
item->getBlocks(m_selectionItem->left(), m_selectionItem->right(), m_selectedBlocks);
if (!m_selectedBlocks.empty())
changedSelection = true;
}
}
if (changedSelection)
{
emit intervalChanged(
m_selectedBlocks,
m_beginTime,
position2time(m_selectionItem->left()),
position2time(m_selectionItem->right()),
m_selectionItem->strict()
);
}
repaintScene();
return;
}
}
m_pScrollbar->setHistogramSource(0, nullptr);
repaintScene();
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onSelectedBlockChange(unsigned int _block_index)
{
if (!m_bUpdatingRect)
{
if (_block_index < EASY_GLOBALS.gui_blocks.size())
{
// Scroll to item
const auto& guiblock = EASY_GLOBALS.gui_blocks[_block_index];
const auto thread_item = m_items[guiblock.graphics_item];
const auto& item = thread_item->items(guiblock.graphics_item_level)[guiblock.graphics_item_index];
m_flickerSpeedX = m_flickerSpeedY = 0;
const profiler_gui::BoolFlagGuard guard(m_bUpdatingRect, true);
verticalScrollBar()->setValue(static_cast<int>(thread_item->levelY(guiblock.graphics_item_level) - m_visibleSceneRect.height() * 0.5));
notifyVisibleRegionPosChange(item.left() + (item.width() - m_visibleRegionWidth) * 0.5);
if (EASY_GLOBALS.selecting_block_changes_thread && EASY_GLOBALS.selected_thread != thread_item->threadId())
{
EASY_GLOBALS.selected_thread = thread_item->threadId();
emit EASY_GLOBALS.events.lockCharts();
emit EASY_GLOBALS.events.selectedThreadChanged(EASY_GLOBALS.selected_thread);
emit EASY_GLOBALS.events.unlockCharts();
}
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, guiblock.tree.node->id());
}
else if (EASY_GLOBALS.selected_thread != 0)
{
for (auto item : m_items)
{
if (item->threadId() == EASY_GLOBALS.selected_thread)
{
m_pScrollbar->setHistogramSource(EASY_GLOBALS.selected_thread, item->items(0));
break;
}
}
}
else
{
m_pScrollbar->setHistogramSource(0, nullptr);
}
updateVisibleSceneRect();
repaintScene();
}
}
//////////////////////////////////////////////////////////////////////////
void BlocksGraphicsView::onRefreshRequired()
{
if (!m_bUpdatingRect)
{
repaintScene();
}
}
//////////////////////////////////////////////////////////////////////////
DiagramWidget::DiagramWidget(QWidget* _parent)
: QWidget(_parent)
, m_splitter(new QSplitter(Qt::Vertical, this))
, m_scrollbar(new GraphicsScrollbar(px(85) + 2 + (EASY_GLOBALS.size.font_height << 1), this))
, m_view(new BlocksGraphicsView(this))
, m_threadNamesWidget(new ThreadNamesWidget(m_view, m_scrollbar->height(), this))
{
initWidget();
}
void DiagramWidget::initWidget()
{
m_splitter->setHandleWidth(1);
m_splitter->setContentsMargins(0, 0, 0, 0);
m_splitter->addWidget(m_view);
m_splitter->addWidget(m_scrollbar);
m_splitter->setStretchFactor(0, 500);
m_splitter->setStretchFactor(1, 1);
auto lay = new QHBoxLayout(this);
lay->setContentsMargins(0, 0, 0, 0);
lay->setSpacing(1);
lay->addWidget(m_threadNamesWidget);
lay->addWidget(m_splitter);
m_view->setScrollbar(m_scrollbar);
}
DiagramWidget::~DiagramWidget()
{
}
BlocksGraphicsView* DiagramWidget::view()
{
return m_view;
}
ThreadNamesWidget* DiagramWidget::threadsView()
{
return m_threadNamesWidget;
}
void DiagramWidget::clear()
{
m_scrollbar->clear();
m_threadNamesWidget->clear();
m_view->clear();
}
void DiagramWidget::save(QSettings& settings)
{
settings.setValue("diagram/vsplitter/geometry", m_splitter->saveGeometry());
settings.setValue("diagram/vsplitter/state", m_splitter->saveState());
}
void DiagramWidget::restore(QSettings& settings)
{
auto geometry = settings.value("diagram/vsplitter/geometry").toByteArray();
if (!geometry.isEmpty())
m_splitter->restoreGeometry(geometry);
auto state = settings.value("diagram/vsplitter/state").toByteArray();
if (!state.isEmpty())
m_splitter->restoreState(state);
}
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
void ThreadNameItem::paint(QPainter* _painter, const QStyleOptionGraphicsItem*, QWidget*)
{
auto const parentView = static_cast<ThreadNamesWidget*>(scene()->parent());
const auto view = parentView->view();
const auto& items = view->getItems();
if (items.empty())
return;
const auto visibleSceneRect = view->visibleSceneRect();
const auto h = visibleSceneRect.height() + EASY_GLOBALS.size.timeline_height - 2;
const auto w = parentView->width();//parentView->sceneRect().width();
const auto overlap = EASY_GLOBALS.size.threads_row_spacing >> 1;
static const QBrush brushes[2] = {QColor::fromRgb(BACKGROUND_1), QColor::fromRgb(BACKGROUND_2)};
int i = -1;
QRectF rect;
_painter->resetTransform();
// Draw thread names
auto default_font = _painter->font();
_painter->setFont(EASY_GLOBALS.font.background);
for (auto item : items)
{
++i;
auto br = item->boundingRect();
auto top = item->y() + br.top() - visibleSceneRect.top() - overlap;
auto hgt = br.height() + EASY_GLOBALS.size.threads_row_spacing;
auto bottom = top + hgt;
if (top > h || bottom < 0)
continue;
if (item->threadId() == EASY_GLOBALS.selected_thread)
_painter->setBrush(QBrush(QColor::fromRgb(profiler_gui::SELECTED_THREAD_BACKGROUND)));
else
_painter->setBrush(brushes[i & 1]);
if (top < 0)
{
hgt += top;
top = 0;
}
const auto dh = top + hgt - h;
if (dh > 0)
hgt -= dh;
rect.setRect(0, top, w, hgt);
_painter->setPen(profiler_gui::SYSTEM_BORDER_COLOR);
_painter->drawRect(rect);
rect.translate(-5, 0);
_painter->setPen(profiler_gui::TEXT_COLOR);
_painter->drawText(rect, Qt::AlignRight | Qt::AlignVCenter, item->threadName());
}
const auto rect_bottom = rect.bottom();
if (rect_bottom < h)
{
++i;
rect.translate(5, rect.height());
rect.setHeight(h - rect_bottom);
_painter->setBrush(brushes[i & 1]);
_painter->setPen(profiler_gui::SYSTEM_BORDER_COLOR);
_painter->drawRect(rect);
}
if (h + 2 >= parentView->height())
return;
// Draw separator between thread names area and information area
_painter->setPen(profiler_gui::SYSTEM_BORDER_COLOR);
_painter->drawLine(QLineF(0, h, w, h));
_painter->drawLine(QLineF(0, h + 2, w, h + 2));
// Draw information
_painter->setFont(EASY_GLOBALS.font.ruler);
QFontMetricsF fm(EASY_GLOBALS.font.ruler, parentView);
const qreal th = fm.height(); // Calculate displayed text height
const qreal time1 = view->chronoTime();
const qreal time2 = view->chronoTimeAux();
auto y = h + 2;
auto drawTimeText = [&rect, &w, &y, &fm, &_painter](qreal time, qreal th, QRgb color)
{
if (time > 0)
{
const QString text = profiler_gui::autoTimeStringReal(time); // Displayed text
rect.setRect(0, y, w, th);
_painter->setPen(color);
_painter->drawText(rect, Qt::AlignCenter, text);
y += th;
}
};
drawTimeText(time1, th, profiler_gui::RULER_COLOR.rgb() & 0x00ffffff);
drawTimeText(time2, th, profiler_gui::RULER_COLOR2.rgb() & 0x00ffffff);
}
//////////////////////////////////////////////////////////////////////////
ThreadNamesWidget::ThreadNamesWidget(BlocksGraphicsView* _view, int _additionalHeight, QWidget* _parent)
: Parent(_parent)
, m_idleTime(0)
, m_view(_view)
, m_popupWidget(nullptr)
, m_maxLength(100)
, m_bHovered(false)
, m_additionalHeight(_additionalHeight + 1)
{
setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Ignored);
setScene(new QGraphicsScene(this));
setMouseTracking(true);
setCacheMode(QGraphicsView::CacheNone);
setViewportUpdateMode(QGraphicsView::FullViewportUpdate);
setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setFixedWidth(m_maxLength);
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::selectedThreadChanged, [this](profiler::thread_id_t){ repaintScene(); });
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::allDataGoingToBeDeleted, this, &This::clear);
connect(m_view, &BlocksGraphicsView::treeChanged, this, &This::onTreeChange);
connect(m_view, &BlocksGraphicsView::sceneUpdated, this, &This::repaintScene);
connect(m_view->verticalScrollBar(), &QScrollBar::valueChanged, verticalScrollBar(), &QScrollBar::setValue, Qt::QueuedConnection);
connect(m_view->verticalScrollBar(), &QScrollBar::rangeChanged, this, &This::setVerticalScrollbarRange, Qt::QueuedConnection);
m_idleTimer.setInterval(IDLE_TIMER_INTERVAL);
connect(&m_idleTimer, &QTimer::timeout, this, &This::onIdleTimeout);
}
ThreadNamesWidget::~ThreadNamesWidget()
{
removePopup();
}
void ThreadNamesWidget::onWindowActivationChanged()
{
if (!window()->isActiveWindow() && qApp->activeWindow() != m_popupWidget)
{
removePopup();
}
}
void ThreadNamesWidget::removePopup()
{
delete m_popupWidget;
m_popupWidget = nullptr;
}
void ThreadNamesWidget::clear()
{
const QSignalBlocker b(this);
removePopup();
scene()->clear();
m_maxLength = 100;
setFixedWidth(m_maxLength);
m_idleTimer.stop();
m_idleTime = 0;
}
void ThreadNamesWidget::setVerticalScrollbarRange(int _minValue, int _maxValue)
{
verticalScrollBar()->setRange(_minValue, _maxValue + m_additionalHeight);
}
void ThreadNamesWidget::onTreeChange()
{
const QSignalBlocker b(this);
removePopup();
scene()->clear();
m_idleTimer.stop();
m_idleTime = 0;
QFontMetricsF fm(EASY_GLOBALS.font.background, this);
qreal maxLength = 100;
const auto& graphicsItems = m_view->getItems();
for (auto graphicsItem : graphicsItems)
maxLength = std::max(maxLength, (10 + fm.width(graphicsItem->threadName())) * profiler_gui::FONT_METRICS_FACTOR);
auto vbar = verticalScrollBar();
auto viewBar = m_view->verticalScrollBar();
auto r = m_view->sceneRect();
setSceneRect(0, r.top(), maxLength, r.height() + m_additionalHeight);
setVerticalScrollbarRange(viewBar->minimum(), viewBar->maximum());
vbar->setSingleStep(viewBar->singleStep());
vbar->setPageStep(viewBar->pageStep());
vbar->setValue(viewBar->value());
auto item = new ThreadNameItem();
item->setPos(0, 0);
item->setBoundingRect(sceneRect());
scene()->addItem(item);
m_maxLength = static_cast<int>(maxLength);
setFixedWidth(m_maxLength);
m_idleTimer.start();
}
void ThreadNamesWidget::onIdleTimeout()
{
m_idleTime += IDLE_TIMER_INTERVAL;
if (m_idleTime < IDLE_TIME)
{
removePopup();
return;
}
if (m_popupWidget != nullptr)
return;
if (window() == nullptr || !window()->isActiveWindow())
return;
auto focusWidget = qApp->focusWidget();
while (focusWidget != nullptr && !focusWidget->property("stayVisible").toBool())
focusWidget = focusWidget->parentWidget();
if (focusWidget != nullptr)
return;
const auto localPos = mapFromGlobal(QCursor::pos());
auto visibleSceneRect = mapToScene(rect()).boundingRect();
visibleSceneRect.setTop(m_view->visibleSceneRect().top());
auto scenePos = QPointF(mapToScene(localPos).x(), m_view->mapToScene(localPos).y());
if (scenePos.x() < visibleSceneRect.left() || scenePos.x() > visibleSceneRect.right())
return;
if (scenePos.y() < visibleSceneRect.top() || scenePos.y() > visibleSceneRect.bottom())
return;
const qreal y = scenePos.y() - visibleSceneRect.top();
const auto& items = m_view->getItems();
if (items.empty())
return;
const auto overlap = EASY_GLOBALS.size.threads_row_spacing >> 1;
GraphicsBlockItem* intersectingItem = nullptr;
for (auto item : items)
{
auto br = item->boundingRect();
auto top = item->y() + br.top() - visibleSceneRect.top() - overlap;
auto hgt = br.height() + EASY_GLOBALS.size.threads_row_spacing;
auto bottom = top + hgt;
if (bottom < y || y < top)
continue;
intersectingItem = item;
break;
}
if (intersectingItem != nullptr)
{
auto widget = new QWidget(this, Qt::ToolTip | Qt::WindowTransparentForInput);
if (widget == nullptr)
return;
widget->setObjectName(QStringLiteral("ThreadsPopup"));
widget->setAttribute(Qt::WA_ShowWithoutActivating, true);
widget->setFocusPolicy(Qt::NoFocus);
auto lay = new QGridLayout(widget);
if (lay == nullptr)
return;
int row = 0;
lay->setSpacing(2);
lay->addWidget(new BoldLabel(intersectingItem->threadName(), widget), row, 0, 1, 2, Qt::AlignHCenter);
++row;
profiler::timestamp_t duration = 0;
const auto& root = intersectingItem->root();
if (!root.children.empty())
duration = easyBlock(root.children.back()).tree.node->end() - easyBlock(root.children.front()).tree.node->begin();
lay->addWidget(new QLabel("Time:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, duration, 3), widget), row, 1, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Profiled:", widget), row, 0, Qt::AlignRight);
if (duration != 0)
{
lay->addWidget(new QLabel(QString("%1 (%2%)").arg(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, root.profiled_time, 3))
.arg(QString::number(100. * (double)root.profiled_time / (double)duration, 'f', 2)), widget), row, 1, Qt::AlignLeft);
}
else
{
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, root.profiled_time, 3), widget), row, 1, Qt::AlignLeft);
}
++row;
lay->addWidget(new QLabel("Wait:", widget), row, 0, Qt::AlignRight);
if (duration != 0)
{
lay->addWidget(new QLabel(QString("%1 (%2%)").arg(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, root.wait_time, 3))
.arg(QString::number(100. * (double)root.wait_time / (double)duration, 'f', 2)), widget), row, 1, Qt::AlignLeft);
}
else
{
lay->addWidget(new QLabel(profiler_gui::timeStringRealNs(EASY_GLOBALS.time_units, root.wait_time, 3), widget), row, 1, Qt::AlignLeft);
}
++row;
const auto eventsSize = root.events.size();
lay->addWidget(new QLabel("Frames:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString::number(root.frames_number), widget), row, 1, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Blocks:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString::number(root.blocks_number - eventsSize), widget), row, 1, Qt::AlignLeft);
++row;
lay->addWidget(new QLabel("Markers:", widget), row, 0, Qt::AlignRight);
lay->addWidget(new QLabel(QString::number(eventsSize), widget), row, 1, Qt::AlignLeft);
++row;
m_popupWidget = widget;
if (m_popupWidget != nullptr)
{
focusWidget = qApp->focusWidget();
m_popupWidget->move(QCursor::pos());
m_popupWidget->show();
if (focusWidget != nullptr && focusWidget->property("stayVisible").toBool())
focusWidget->raise();
}
}
}
void ThreadNamesWidget::repaintScene()
{
scene()->update();
}
void ThreadNamesWidget::enterEvent(QEvent* _event)
{
Parent::enterEvent(_event);
m_bHovered = true;
if (!m_idleTimer.isActive())
m_idleTimer.start();
m_idleTime = 0;
}
void ThreadNamesWidget::leaveEvent(QEvent* _event)
{
Parent::leaveEvent(_event);
m_bHovered = false;
m_idleTime = 0;
}
void ThreadNamesWidget::mousePressEvent(QMouseEvent* _event)
{
m_idleTime = 0;
QMouseEvent e(_event->type(), _event->pos() - QPointF(sceneRect().width(), 0), _event->button(), _event->buttons() & ~Qt::RightButton, _event->modifiers());
m_view->mousePressEvent(&e);
_event->accept();
}
void ThreadNamesWidget::mouseDoubleClickEvent(QMouseEvent* _event)
{
const auto overlap = EASY_GLOBALS.size.threads_row_spacing >> 1;
m_idleTime = 0;
auto y = m_view->mapToScene(mapFromGlobal(QCursor::pos())).y();
const auto& items = m_view->getItems();
for (auto item : items)
{
auto br = item->boundingRect();
auto top = item->y() + br.top() - overlap;
auto bottom = top + br.height() + overlap;
if (y < top || y > bottom)
continue;
const auto thread_id = item->threadId();
if (thread_id != EASY_GLOBALS.selected_thread)
{
EASY_GLOBALS.selected_thread = thread_id;
emit EASY_GLOBALS.events.selectedThreadChanged(thread_id);
}
break;
}
_event->accept();
}
void ThreadNamesWidget::mouseReleaseEvent(QMouseEvent* _event)
{
m_idleTime = 0;
QMouseEvent e(_event->type(), _event->pos() - QPointF(sceneRect().width(), 0), _event->button(), _event->buttons() & ~Qt::RightButton, _event->modifiers());
m_view->mouseReleaseEvent(&e);
_event->accept();
}
void ThreadNamesWidget::mouseMoveEvent(QMouseEvent* _event)
{
m_idleTime = 0;
QMouseEvent e(_event->type(), _event->pos() - QPointF(sceneRect().width(), 0), _event->button(), _event->buttons() & ~Qt::RightButton, _event->modifiers());
m_view->mouseMoveEvent(&e);
_event->accept();
}
void ThreadNamesWidget::keyPressEvent(QKeyEvent* _event)
{
m_idleTime = 0;
m_view->keyPressEvent(_event);
}
void ThreadNamesWidget::keyReleaseEvent(QKeyEvent* _event)
{
m_idleTime = 0;
_event->accept();
}
void ThreadNamesWidget::wheelEvent(QWheelEvent* _event)
{
m_idleTime = 0;
auto vbar = m_view->verticalScrollBar();
if (vbar != nullptr)
{
_event->accept();
const auto prev = vbar->value();
vbar->setValue(vbar->value() - _event->delta());
if (prev != vbar->value())
{
verticalScrollBar()->setValue(vbar->value());
repaintScene();
}
}
}
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
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