/************************************************************************ * file name : main_window.cpp * ----------------- : * creation time : 2016/06/26 * author : Victor Zarubkin * email : v.s.zarubkin@gmail.com * ----------------- : * description : The file contains implementation of MainWindow for easy_profiler GUI. * ----------------- : * change log : * 2016/06/26 Victor Zarubkin: Initial commit. * : * : * 2016/06/27 Victor Zarubkin: Passing blocks number to BlocksTreeWidget::setTree(). * : * : * 2016/06/29 Victor Zarubkin: Added menu with tests. * : * : * 2016/06/30 Sergey Yagovtsev: Open file by command line argument * : * : * * ----------------- : * license : Lightweight profiler library for c++ * : Copyright(C) 2016-2018 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "main_window.h" #include "arbitrary_value_inspector.h" #include "blocks_tree_widget.h" #include "blocks_graphics_view.h" #include "descriptors_tree_widget.h" #include "fps_widget.h" #include "globals.h" #include "dialog.h" #include #include #include #ifdef max #undef max #endif #ifdef min #undef min #endif ////////////////////////////////////////////////////////////////////////// #define EASY_DEFAULT_WINDOW_TITLE "EasyProfiler" const int LOADER_TIMER_INTERVAL = 40; const auto NETWORK_CACHE_FILE = "easy_profiler_stream.cache"; ////////////////////////////////////////////////////////////////////////// inline const QStringList& UI_themes() { static const QStringList themes { "default" }; return themes; } ////////////////////////////////////////////////////////////////////////// inline void clear_stream(std::stringstream& _stream) { #if defined(__GNUC__) && __GNUC__ < 5 // gcc 4 has a known bug which has been solved in gcc 5: // std::stringstream has no swap() method :( _stream.str(std::string()); #else std::stringstream().swap(_stream); #endif } inline void loadTheme(const QString& _theme) { QFile file(QStringLiteral(":/themes/") + _theme); if (file.open(QFile::ReadOnly | QFile::Text)) { QTextStream in(&file); QString style = in.readAll(); if (!style.isEmpty()) { // Find font family const auto fontMatch = QRegularExpression("font-family:\\s*\\\"(.*)\\\"\\s*;").match(style); const auto fontFamily = fontMatch.hasMatch() ? fontMatch.captured(fontMatch.lastCapturedIndex()) : QString("DejaVu Sans"); //QMessageBox::information(nullptr, "Found font family", fontFamily); // Calculate point size using current font const auto pointSizeF = QFontMetricsF(QFont(fontFamily, 100)).height() * 1e-2; //QMessageBox::information(nullptr, "Point size", QString("100pt = %1\n1pt = %2").arg(pointSizeF * 1e2).arg(pointSizeF)); // Find and convert all sizes from points to pixels QRegularExpression re("(\\d+\\.?\\d*)ex"); auto it = re.globalMatch(style); std::vector matches; { QSet uniqueMatches; while (it.hasNext()) { const auto match = it.next(); if (!uniqueMatches.contains(match.captured())) { uniqueMatches.insert(match.captured()); matches.emplace_back(match.capturedTexts()); } } } for (const auto& capturedTexts : matches) { const auto pt = capturedTexts.back().toDouble(); const int pixels = static_cast(pointSizeF * pt + 0.5); //QMessageBox::information(nullptr, "Style-sheet modification", QString("Replacing '%1'\nwith\n'%2px'\n\npt count: %3").arg(capturedTexts.front()).arg(pixels).arg(pt)); style.replace(capturedTexts.front(), QString("%1px").arg(pixels)); } qApp->setStyleSheet(style); } } } ////////////////////////////////////////////////////////////////////////// DockWidget::DockWidget(const QString& title, QWidget* parent) : QDockWidget(title, parent) , m_floatingButton(new QPushButton()) { m_floatingButton->setObjectName("EasyDockWidgetFloatButton"); m_floatingButton->setProperty("floating", isFloating()); connect(m_floatingButton, &QPushButton::clicked, this, &DockWidget::toggleState); connect(this, &QDockWidget::topLevelChanged, this, &DockWidget::onTopLevelChanged); auto closeButton = new QPushButton(); closeButton->setObjectName("EasyDockWidgetCloseButton"); connect(closeButton, &QPushButton::clicked, this, &DockWidget::close); auto caption = new QWidget(this); caption->setObjectName("EasyDockWidgetTitle"); auto lay = new QHBoxLayout(caption); lay->setContentsMargins(0, 0, 0, 0); lay->setSpacing(2); lay->addWidget(new QLabel(title)); lay->addStretch(100); lay->addWidget(m_floatingButton); lay->addWidget(closeButton); setTitleBarWidget(caption); } DockWidget::~DockWidget() { } void DockWidget::toggleState() { setFloating(!isFloating()); } void DockWidget::onTopLevelChanged() { m_floatingButton->setProperty("floating", isFloating()); m_floatingButton->style()->unpolish(m_floatingButton); m_floatingButton->style()->polish(m_floatingButton); m_floatingButton->update(); } void MainWindow::configureSizes() { QWidget w(this); w.show(); // All sizes (font() size for example) become valid only after show() EASY_GLOBALS.font.default_font = w.font(); const QFontMetricsF fm(w.font()); #ifdef WIN32 EASY_CONSTEXPR qreal DefaultHeight = 16; #else EASY_CONSTEXPR qreal DefaultHeight = 17; #endif auto& size = EASY_GLOBALS.size; size.font_height = static_cast(fm.height() + 0.5); size.pixelRatio = std::max(fm.height() / DefaultHeight, 1.0); size.font_line_spacing = static_cast(fm.lineSpacing() + 0.5); size.graphics_row_height = size.font_height + px(4); size.graphics_row_spacing = 0; size.graphics_row_full = size.graphics_row_height; size.threads_row_spacing = size.graphics_row_full >> 1; size.timeline_height = size.font_height + px(10); size.icon_size = size.font_height + px(11); const auto fontFamily = w.font().family(); const auto pixelSize = w.font().pixelSize(); const auto pointSize = w.font().pointSize(); const auto updateFont = [&] (QFont& font) { font.setFamily(fontFamily); if (pixelSize >= 0) font.setPixelSize(pixelSize); if (pointSize >= 0) font.setPointSize(pointSize); }; auto& fonts = EASY_GLOBALS.font; updateFont(fonts.background); updateFont(fonts.item); updateFont(fonts.selected_item); fonts.ruler.setFamily(fontFamily); /* printf("Viewport info:\n"); printf("- device pixel ratio = %f\n", size.pixelRatio); printf("- font height = %dpx\n", size.font_height); printf("- font line spacing = %dpx\n", size.font_line_spacing); printf("- diagram row = %dpx\n", size.graphics_row_height); printf("- diagram spacing = %dpx\n", size.threads_row_spacing); printf("- icon size = %dx%d px\n", size.icon_size, size.icon_size); */ w.hide(); } MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhost"), m_lastPort(profiler::DEFAULT_PORT) { { QIcon icon(":/images/logo"); if (!icon.isNull()) QApplication::setWindowIcon(icon); } setObjectName("ProfilerGUI_MainWindow"); setWindowTitle(EASY_DEFAULT_WINDOW_TITLE); setDockNestingEnabled(true); setAcceptDrops(true); setStatusBar(nullptr); loadSettings(); loadTheme(m_theme); configureSizes(); resize(px(800), px(600)); m_graphicsView = new DockWidget("Diagram", this); m_graphicsView->setObjectName("ProfilerGUI_Diagram"); m_graphicsView->setMinimumHeight(px(50)); m_graphicsView->setAllowedAreas(Qt::AllDockWidgetAreas); auto graphicsView = new DiagramWidget(this); graphicsView->setObjectName("ProfilerGUI_Diagram_GraphicsView"); m_graphicsView->setWidget(graphicsView); m_treeWidget = new DockWidget("Hierarchy", this); m_treeWidget->setObjectName("ProfilerGUI_Hierarchy"); m_treeWidget->setMinimumHeight(px(50)); m_treeWidget->setAllowedAreas(Qt::AllDockWidgetAreas); auto treeWidget = new HierarchyWidget(this); m_treeWidget->setWidget(treeWidget); m_fpsViewer = new DockWidget("FPS Monitor", this); m_fpsViewer->setObjectName("ProfilerGUI_FPS"); m_fpsViewer->setWidget(new FpsWidget(this)); m_fpsViewer->setAllowedAreas(Qt::TopDockWidgetArea | Qt::BottomDockWidgetArea); addDockWidget(Qt::TopDockWidgetArea, m_graphicsView); addDockWidget(Qt::BottomDockWidgetArea, m_treeWidget); addDockWidget(Qt::TopDockWidgetArea, m_fpsViewer); #if EASY_GUI_USE_DESCRIPTORS_DOCK_WINDOW != 0 auto descTree = new BlockDescriptorsWidget(); m_descTreeWidget = new DockWidget("Blocks"); m_descTreeWidget->setObjectName("ProfilerGUI_Blocks"); m_descTreeWidget->setMinimumHeight(px(50)); m_descTreeWidget->setAllowedAreas(Qt::AllDockWidgetAreas); m_descTreeWidget->setWidget(descTree); addDockWidget(Qt::BottomDockWidgetArea, m_descTreeWidget); #endif auto toolbar = addToolBar("FileToolbar"); toolbar->setIconSize(applicationIconsSize()); toolbar->setObjectName("ProfilerGUI_FileToolbar"); toolbar->setContentsMargins(1, 0, 1, 0); m_loadActionMenu = new QMenu(this); auto action = m_loadActionMenu->menuAction(); action->setText("Open file"); action->setIcon(QIcon(imagePath("open"))); connect(action, &QAction::triggered, this, &This::onOpenFileClicked); toolbar->addAction(action); for (const auto& f : m_lastFiles) { action = new QAction(f, this); connect(action, &QAction::triggered, this, &This::onOpenFileClicked); m_loadActionMenu->addAction(action); } m_saveAction = toolbar->addAction(QIcon(imagePath("save")), tr("Save"), this, SLOT(onSaveFileClicked(bool))); m_deleteAction = toolbar->addAction(QIcon(imagePath("delete")), tr("Clear all"), this, SLOT(onDeleteClicked(bool))); m_saveAction->setEnabled(false); m_deleteAction->setEnabled(false); toolbar = addToolBar("ProfileToolbar"); toolbar->setIconSize(applicationIconsSize()); toolbar->setObjectName("ProfilerGUI_ProfileToolbar"); toolbar->setContentsMargins(1, 0, 1, 0); toolbar->addAction(QIcon(imagePath("list")), tr("Blocks"), this, SLOT(onEditBlocksClicked(bool))); m_captureAction = toolbar->addAction(QIcon(imagePath("start")), tr("Capture"), this, SLOT(onCaptureClicked(bool))); m_captureAction->setEnabled(false); toolbar->addSeparator(); m_connectAction = toolbar->addAction(QIcon(imagePath("connect")), tr("Connect"), this, SLOT(onConnectClicked(bool))); auto lbl = new QLabel("Address:", toolbar); lbl->setContentsMargins(5, 0, 2, 0); toolbar->addWidget(lbl); m_addressEdit = new QLineEdit(); m_addressEdit->setToolTip("Enter IP-address or host name"); //QRegExp rx("^0*(2(5[0-5]|[0-4]\\d)|1?\\d{1,2})(\\.0*(2(5[0-5]|[0-4]\\d)|1?\\d{1,2})){3}$"); //m_addressEdit->setValidator(new QRegExpValidator(rx, m_addressEdit)); m_addressEdit->setText(m_lastAddress); m_addressEdit->setFixedWidth((m_addressEdit->fontMetrics().width(QString("255.255.255.255")) * 3) / 2); toolbar->addWidget(m_addressEdit); lbl = new QLabel("Port:", toolbar); lbl->setContentsMargins(5, 0, 2, 0); toolbar->addWidget(lbl); m_portEdit = new QLineEdit(); m_portEdit->setValidator(new QIntValidator(1, 65535, m_portEdit)); m_portEdit->setText(QString::number(m_lastPort)); m_portEdit->setFixedWidth(m_portEdit->fontMetrics().width(QString("000000")) + 10); toolbar->addWidget(m_portEdit); connect(m_addressEdit, &QLineEdit::returnPressed, [this] { onConnectClicked(true); }); connect(m_portEdit, &QLineEdit::returnPressed, [this] { onConnectClicked(true); }); toolbar = addToolBar("SetupToolbar"); toolbar->setIconSize(applicationIconsSize()); toolbar->setObjectName("ProfilerGUI_SetupToolbar"); toolbar->setContentsMargins(1, 0, 1, 0); toolbar->addAction(QIcon(imagePath("expand")), "Expand all", this, SLOT(onExpandAllClicked(bool))); toolbar->addAction(QIcon(imagePath("collapse")), "Collapse all", this, SLOT(onCollapseAllClicked(bool))); action = toolbar->addAction(QIcon(imagePath("binoculars")), "See blocks hierarchy"); action->setToolTip("Build blocks hierarchy\nfor current visible area\nor zoom to current selected area."); connect(action, &QAction::triggered, [this] (bool) { static_cast(m_graphicsView->widget())->view()->inspectCurrentView(true); }); action = toolbar->addAction(QIcon(imagePath("crop")), "Snapshot"); action->setToolTip("Take a snapshot.\nSave selected area to\nseparate .prof file."); action->setEnabled(false); connect(action, &QAction::triggered, this, &This::onSnapshotClicked); connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::rulerVisible, action, &QAction::setEnabled); toolbar->addSeparator(); auto menu = new QMenu("Settings", this); menu->setToolTipsVisible(true); auto toolButton = new QToolButton(toolbar); toolButton->setIcon(QIcon(imagePath("settings"))); toolButton->setMenu(menu); toolButton->setPopupMode(QToolButton::InstantPopup); toolbar->addWidget(toolButton); action = menu->addAction("Statistics enabled"); action->setCheckable(true); action->setChecked(EASY_GLOBALS.enable_statistics); connect(action, &QAction::triggered, this, &This::onEnableDisableStatistics); if (EASY_GLOBALS.enable_statistics) { auto f = action->font(); f.setBold(true); action->setFont(f); action->setIcon(QIcon(imagePath("stats"))); } else { action->setText("Statistics disabled"); action->setIcon(QIcon(imagePath("stats-off"))); } action = menu->addAction("Only frames on histogram"); action->setToolTip("Display only top-level blocks on histogram."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.display_only_frames_on_histogram); connect(action, &QAction::triggered, [this](bool _checked) { EASY_GLOBALS.display_only_frames_on_histogram = _checked; emit EASY_GLOBALS.events.displayOnlyFramesOnHistogramChanged(); }); menu->addSeparator(); auto submenu = menu->addMenu("View"); submenu->setToolTipsVisible(true); action = submenu->addAction("Draw borders"); action->setToolTip("Draw borders for blocks on diagram.\nThis slightly reduces performance."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.draw_graphics_items_borders); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.draw_graphics_items_borders = _checked; refreshDiagram(); }); action = submenu->addAction("Overlap narrow children"); action->setToolTip("Children blocks will be overlaped by narrow\nparent blocks. See also \'Blocks narrow size\'.\nThis improves performance."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.hide_narrow_children); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.hide_narrow_children = _checked; refreshDiagram(); }); action = submenu->addAction("Hide min-size blocks"); action->setToolTip("Hides blocks which screen size\nis less than \'Min blocks size\'."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.hide_minsize_blocks); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.hide_minsize_blocks = _checked; refreshDiagram(); }); action = submenu->addAction("Build hierarchy only for current thread"); action->setToolTip("Hierarchy tree will be built\nfor blocks from current thread only.\nThis improves performance\nand saves a lot of memory."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.only_current_thread_hierarchy); connect(action, &QAction::triggered, this, &This::onHierarchyFlagChange); action = submenu->addAction("Add zero blocks to hierarchy"); action->setToolTip("Zero duration blocks will be added into hierarchy tree.\nThis reduces performance and increases memory consumption."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.add_zero_blocks_to_hierarchy); connect(action, &QAction::triggered, [this](bool _checked) { EASY_GLOBALS.add_zero_blocks_to_hierarchy = _checked; emit EASY_GLOBALS.events.hierarchyFlagChanged(_checked); }); action = submenu->addAction("Enable zero duration blocks on diagram"); action->setToolTip("If checked then allows diagram to paint zero duration blocks\nwith 1px width on each scale. Otherwise, such blocks will be resized\nto 250ns duration."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.enable_zero_length); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.enable_zero_length = _checked; refreshDiagram(); }); action = submenu->addAction("Highlight similar blocks"); action->setToolTip("Highlight all visible blocks which are similar\nto the current selected block.\nThis reduces performance."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.highlight_blocks_with_same_id); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.highlight_blocks_with_same_id = _checked; refreshDiagram(); }); action = submenu->addAction("Collapse blocks on tree reset"); action->setToolTip("This collapses all blocks on diagram\nafter hierarchy tree reset."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.collapse_items_on_tree_close); connect(action, &QAction::triggered, this, &This::onCollapseItemsAfterCloseChanged); action = submenu->addAction("Expand all on file open"); action->setToolTip("If checked then all blocks on diagram\nwill be initially expanded."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.all_items_expanded_by_default); connect(action, &QAction::triggered, this, &This::onAllItemsExpandedByDefaultChange); action = submenu->addAction("Bind diagram and tree expand"); action->setToolTip("Expanding/collapsing blocks at diagram expands/collapses\nblocks at hierarchy tree and wise versa."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.bind_scene_and_tree_expand_status); connect(action, &QAction::triggered, this, &This::onBindExpandStatusChange); action = submenu->addAction("Selecting block changes current thread"); action->setToolTip("Automatically select thread while selecting a block.\nIf not checked then you will have to select current thread\nmanually double clicking on thread name on a diagram."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.selecting_block_changes_thread); connect(action, &QAction::triggered, [this](bool _checked){ EASY_GLOBALS.selecting_block_changes_thread = _checked; }); action = submenu->addAction("Draw event markers"); action->setToolTip("Display event markers under the blocks\n(even if event-blocks are not visible).\nThis slightly reduces performance."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.enable_event_markers); connect(action, &QAction::triggered, [this](bool _checked) { EASY_GLOBALS.enable_event_markers = _checked; refreshDiagram(); }); action = submenu->addAction("Automatically adjust histogram height"); action->setToolTip("You do not need to adjust boundaries manually,\nbut this restricts you from adjusting boundaries at all (zoom mode).\nYou can still adjust boundaries in overview mode though."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.auto_adjust_histogram_height); connect(action, &QAction::triggered, [](bool _checked) { EASY_GLOBALS.auto_adjust_histogram_height = _checked; emit EASY_GLOBALS.events.autoAdjustHistogramChanged(); }); action = submenu->addAction("Automatically adjust chart height"); action->setToolTip("Same as similar option for histogram\nbut used for arbitrary values charts."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.auto_adjust_chart_height); connect(action, &QAction::triggered, [](bool _checked) { EASY_GLOBALS.auto_adjust_chart_height = _checked; emit EASY_GLOBALS.events.autoAdjustChartChanged(); }); action = submenu->addAction("Use decorated thread names"); action->setToolTip("Add \'Thread\' word into thread name if there is no one already.\nExamples: \'Render\' will change to \'Render Thread\'\n\'WorkerThread\' will not change."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.use_decorated_thread_name); connect(action, &QAction::triggered, [this](bool _checked) { EASY_GLOBALS.use_decorated_thread_name = _checked; emit EASY_GLOBALS.events.threadNameDecorationChanged(); }); action = submenu->addAction("Display hex thread id"); action->setToolTip("Display hex thread id instead of decimal."); action->setCheckable(true); action->setChecked(EASY_GLOBALS.hex_thread_id); connect(action, &QAction::triggered, [this](bool _checked) { EASY_GLOBALS.hex_thread_id = _checked; emit EASY_GLOBALS.events.hexThreadIdChanged(); }); submenu->addSeparator(); auto actionGroup = new QActionGroup(this); actionGroup->setExclusive(true); action = new QAction("Ruler text at top", actionGroup); action->setToolTip("Draw duration of selected interval\nat the top of the diagram."); action->setCheckable(true); action->setData(static_cast(profiler_gui::RulerTextPosition_Top)); if (EASY_GLOBALS.chrono_text_position == profiler_gui::RulerTextPosition_Top) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onRulerTextPosChanged); action = new QAction("Ruler text at center", actionGroup); action->setToolTip("Draw duration of selected interval\nat the center of the diagram."); action->setCheckable(true); action->setData(static_cast(profiler_gui::RulerTextPosition_Center)); if (EASY_GLOBALS.chrono_text_position == profiler_gui::RulerTextPosition_Center) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onRulerTextPosChanged); action = new QAction("Ruler text at bottom", actionGroup); action->setToolTip("Draw duration of selected interval\nat the bottom of the diagram."); action->setCheckable(true); action->setData(static_cast(profiler_gui::RulerTextPosition_Bottom)); if (EASY_GLOBALS.chrono_text_position == profiler_gui::RulerTextPosition_Bottom) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onRulerTextPosChanged); submenu->addSeparator(); auto w = new QWidget(submenu); auto l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Min blocks spacing, px", w), 0, Qt::AlignLeft); auto spinbox = new QSpinBox(w); spinbox->setRange(0, 400); spinbox->setValue(EASY_GLOBALS.blocks_spacing); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onSpacingChange); l->addWidget(spinbox); w->setLayout(l); auto waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); w = new QWidget(submenu); l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Min blocks size, px", w), 0, Qt::AlignLeft); spinbox = new QSpinBox(w); spinbox->setRange(1, 400); spinbox->setValue(EASY_GLOBALS.blocks_size_min); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onMinSizeChange); l->addWidget(spinbox); w->setLayout(l); waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); w = new QWidget(submenu); l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Blocks narrow size, px", w), 0, Qt::AlignLeft); spinbox = new QSpinBox(w); spinbox->setRange(1, 400); spinbox->setValue(EASY_GLOBALS.blocks_narrow_size); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onNarrowSizeChange); l->addWidget(spinbox); w->setLayout(l); waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); submenu = menu->addMenu("FPS Monitor"); w = new QWidget(submenu); l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Request interval, ms", w), 0, Qt::AlignLeft); spinbox = new QSpinBox(w); spinbox->setRange(1, 600000); spinbox->setValue(EASY_GLOBALS.fps_timer_interval); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onFpsIntervalChange); l->addWidget(spinbox); w->setLayout(l); waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); w = new QWidget(submenu); l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Max history size", w), 0, Qt::AlignLeft); spinbox = new QSpinBox(w); spinbox->setRange(2, 200); spinbox->setValue(EASY_GLOBALS.max_fps_history); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onFpsHistoryChange); l->addWidget(spinbox); w->setLayout(l); waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); w = new QWidget(submenu); l = new QHBoxLayout(w); l->setContentsMargins(26, 1, 16, 1); l->addWidget(new QLabel("Line width, px", w), 0, Qt::AlignLeft); spinbox = new QSpinBox(w); spinbox->setRange(1, 6); spinbox->setValue(EASY_GLOBALS.fps_widget_line_width); spinbox->setFixedWidth(px(70)); connect(spinbox, Overload::of(&QSpinBox::valueChanged), this, &This::onFpsMonitorLineWidthChange); l->addWidget(spinbox); w->setLayout(l); waction = new QWidgetAction(submenu); waction->setDefaultWidget(w); submenu->addAction(waction); submenu = menu->addMenu("Units"); actionGroup = new QActionGroup(this); actionGroup->setExclusive(true); action = new QAction("Auto", actionGroup); action->setCheckable(true); action->setData(static_cast(profiler_gui::TimeUnits_auto)); if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_auto) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onUnitsChanged); action = new QAction("Milliseconds", actionGroup); action->setCheckable(true); action->setData(static_cast(profiler_gui::TimeUnits_ms)); if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_ms) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onUnitsChanged); action = new QAction("Microseconds", actionGroup); action->setCheckable(true); action->setData(static_cast(profiler_gui::TimeUnits_us)); if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_us) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onUnitsChanged); action = new QAction("Nanoseconds", actionGroup); action->setCheckable(true); action->setData(static_cast(profiler_gui::TimeUnits_ns)); if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_ns) action->setChecked(true); submenu->addAction(action); connect(action, &QAction::triggered, this, &This::onUnitsChanged); submenu = menu->addMenu("Remote"); m_eventTracingEnableAction = submenu->addAction("Event tracing enabled"); m_eventTracingEnableAction->setCheckable(true); m_eventTracingEnableAction->setEnabled(false); connect(m_eventTracingEnableAction, &QAction::triggered, this, &This::onEventTracingEnableChange); m_eventTracingPriorityAction = submenu->addAction("Low priority event tracing"); m_eventTracingPriorityAction->setCheckable(true); m_eventTracingPriorityAction->setChecked(EASY_OPTION_LOW_PRIORITY_EVENT_TRACING); m_eventTracingPriorityAction->setEnabled(false); connect(m_eventTracingPriorityAction, &QAction::triggered, this, &This::onEventTracingPriorityChange); submenu = menu->addMenu("Encoding"); actionGroup = new QActionGroup(this); actionGroup->setExclusive(true); auto default_codec_mib = QTextCodec::codecForLocale()->mibEnum(); { QList actions; for (int mib : QTextCodec::availableMibs()) { auto codec = QTextCodec::codecForMib(mib)->name(); action = new QAction(codec, actionGroup); action->setData(mib); action->setCheckable(true); if (mib == default_codec_mib) action->setChecked(true); actions.push_back(action); connect(action, &QAction::triggered, this, &This::onEncodingChanged); } qSort(actions.begin(), actions.end(), [](QAction* lhs, QAction* rhs) { return lhs->text().compare(rhs->text(), Qt::CaseInsensitive) < 0; }); submenu->addActions(actions); } submenu = menu->addMenu("Appearance"); actionGroup = new QActionGroup(this); actionGroup->setExclusive(true); action = submenu->addAction("Custom window headers"); action->setCheckable(true); action->setChecked(EASY_GLOBALS.use_custom_window_header); connect(action, &QAction::triggered, [=] (bool checked) { actionGroup->setEnabled(checked); onCustomWindowHeaderTriggered(checked); }); action = new QAction("Position: right", actionGroup); action->setCheckable(true); action->setChecked(EASY_GLOBALS.is_right_window_header_controls); connect(action, &QAction::triggered, this, &This::onRightWindowHeaderPosition); submenu->addAction(action); action = new QAction("Position: left", actionGroup); action->setCheckable(true); action->setChecked(!EASY_GLOBALS.is_right_window_header_controls); connect(action, &QAction::triggered, this, &This::onLeftWindowHeaderPosition); submenu->addAction(action); actionGroup->setEnabled(EASY_GLOBALS.use_custom_window_header); submenu->addSeparator(); action = submenu->addAction("See viewport info"); connect(action, &QAction::triggered, this, &This::onViewportInfoClicked); auto submenu2 = submenu->addMenu("Theme"); actionGroup = new QActionGroup(this); actionGroup->setExclusive(true); for (const auto& theme : UI_themes()) { action = new QAction(theme, actionGroup); action->setCheckable(true); action->setChecked(action->text() == EASY_GLOBALS.theme); connect(action, &QAction::triggered, this, &MainWindow::onThemeChange); submenu2->addAction(action); } auto tb_height = toolbar->height() + 4; toolbar = addToolBar("FrameToolbar"); toolbar->setIconSize(applicationIconsSize()); toolbar->setObjectName("ProfilerGUI_FrameToolbar"); toolbar->setContentsMargins(1, 0, 1, 0); toolbar->setMinimumHeight(tb_height); lbl = new QLabel("Expected frame time:", toolbar); lbl->setContentsMargins(5, 2, 2, 2); toolbar->addWidget(lbl); m_frameTimeEdit = new QLineEdit(); m_frameTimeEdit->setFixedWidth(px(70)); auto val = new QDoubleValidator(m_frameTimeEdit); val->setLocale(QLocale::c()); val->setBottom(0); m_frameTimeEdit->setValidator(val); m_frameTimeEdit->setText(QString::number(EASY_GLOBALS.frame_time * 1e-3)); connect(m_frameTimeEdit, &QLineEdit::editingFinished, this, &This::onFrameTimeEditFinish); connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged, this, &This::onFrameTimeChanged); toolbar->addWidget(m_frameTimeEdit); lbl = new QLabel("ms", toolbar); lbl->setContentsMargins(5, 2, 1, 1); toolbar->addWidget(lbl); m_readerTimer.setInterval(LOADER_TIMER_INTERVAL); connect(graphicsView->view(), &BlocksGraphicsView::intervalChanged, treeWidget->tree(), &BlocksTreeWidget::setTreeBlocks); connect(&m_readerTimer, &QTimer::timeout, this, &This::onFileReaderTimeout); connect(&m_listenerTimer, &QTimer::timeout, this, &This::onListenerTimerTimeout); connect(&m_fpsRequestTimer, &QTimer::timeout, this, &This::onFrameTimeRequestTimeout); loadGeometry(); if(QCoreApplication::arguments().size() > 1) { auto opened_filename = QCoreApplication::arguments().at(1); loadFile(opened_filename); } using profiler_gui::GlobalSignals; connect(&EASY_GLOBALS.events, &GlobalSignals::blockStatusChanged, this, &This::onBlockStatusChange); connect(&EASY_GLOBALS.events, &GlobalSignals::blocksRefreshRequired, this, &This::onGetBlockDescriptionsClicked); connect(&EASY_GLOBALS.events, &GlobalSignals::selectValue, this, &This::onSelectValue); } MainWindow::~MainWindow() { } void MainWindow::validateLastDir() { if (m_lastFiles.empty()) EASY_GLOBALS.lastFileDir = QString(); else EASY_GLOBALS.lastFileDir = QFileInfo(m_lastFiles.front()).absoluteDir().canonicalPath(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::dragEnterEvent(QDragEnterEvent* drag_event) { if (drag_event->mimeData()->hasUrls()) drag_event->acceptProposedAction(); } void MainWindow::dragMoveEvent(QDragMoveEvent* drag_event) { if (drag_event->mimeData()->hasUrls()) drag_event->acceptProposedAction(); } void MainWindow::dragLeaveEvent(QDragLeaveEvent* drag_event) { drag_event->accept(); } void MainWindow::dropEvent(QDropEvent* drop_event) { const auto& urls = drop_event->mimeData()->urls(); if (!urls.empty()) { if (m_bNetworkFileRegime) { // Warn user about unsaved network information and suggest to save auto result = Dialog::question(this, "Unsaved session" , "You have unsaved data!\nSave before opening new file?" , QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel); if (result == QMessageBox::Yes) { onSaveFileClicked(true); } else if (result != QMessageBox::No) { // User cancelled opening new file return; } } loadFile(urls.front().toLocalFile()); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::onThemeChange(bool) { auto action = qobject_cast(sender()); if (action == nullptr) return; auto newTheme = action->text(); if (m_theme != newTheme) { m_theme = std::move(newTheme); Dialog::information(this, "UI theme changed" , "You may need to restart the application\nto apply the theme correctly."); loadTheme(m_theme); validateLineEdits(); configureSizes(); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::onOpenFileClicked(bool) { auto action = qobject_cast(sender()); if (action == nullptr) return; QString filename; if (action == m_loadActionMenu->menuAction()) filename = QFileDialog::getOpenFileName(this, "Open EasyProfiler File", m_lastFiles.empty() ? QString() : m_lastFiles.front(), "EasyProfiler File (*.prof);;All Files (*.*)"); else filename = action->text(); if (!filename.isEmpty()) { if (m_bNetworkFileRegime) { // Warn user about unsaved network information and suggest to save auto result = Dialog::question(this, "Unsaved session" , "You have unsaved data!\nSave before opening new file?" , QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel); if (result == QMessageBox::Yes) { onSaveFileClicked(true); } else if (result != QMessageBox::No) { // User cancelled opening new file return; } } loadFile(filename); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::addFileToList(const QString& filename, bool changeWindowTitle) { auto index = m_lastFiles.indexOf(filename, 0); if (index >= 0) { if (index != 0) { // This file has been already loaded. Move it to the front. m_lastFiles.move(index, 0); auto fileActions = m_loadActionMenu->actions(); auto action = fileActions.at(index); m_loadActionMenu->removeAction(action); m_loadActionMenu->insertAction(fileActions.front(), action); validateLastDir(); } m_bOpenedCacheFile = filename.contains(NETWORK_CACHE_FILE); if (changeWindowTitle) { if (m_bOpenedCacheFile) setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1] - UNSAVED network cache file").arg(filename)); else setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1]").arg(filename)); } return; } m_lastFiles.push_front(filename); validateLastDir(); auto action = new QAction(filename, this); connect(action, &QAction::triggered, this, &This::onOpenFileClicked); auto fileActions = m_loadActionMenu->actions(); if (fileActions.empty()) m_loadActionMenu->addAction(action); else m_loadActionMenu->insertAction(fileActions.front(), action); if (m_lastFiles.size() > 10) { // Keep 10 files at the list m_lastFiles.pop_back(); m_loadActionMenu->removeAction(fileActions.back()); delete fileActions.back(); } m_bOpenedCacheFile = filename.contains(NETWORK_CACHE_FILE); if (changeWindowTitle) { if (m_bOpenedCacheFile) setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1] - UNSAVED network cache file").arg(m_lastFiles.front())); else setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1]").arg(m_lastFiles.front())); } } void MainWindow::loadFile(const QString& filename) { const auto i = filename.lastIndexOf(QChar('/')); const auto j = filename.lastIndexOf(QChar('\\')); createProgressDialog(QString("Loading %1...").arg(filename.mid(std::max(i, j) + 1))); m_readerTimer.start(); m_reader.load(filename); } void MainWindow::readStream(std::stringstream& _data) { createProgressDialog(tr("Reading from stream...")); m_readerTimer.start(); m_reader.load(_data); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onSaveFileClicked(bool) { if (m_serializedBlocks.empty()) return; QString lastFile = m_lastFiles.empty() ? QString() : m_lastFiles.front(); const auto i = lastFile.lastIndexOf(QChar('/')); const auto j = lastFile.lastIndexOf(QChar('\\')); auto k = std::max(i, j); QString dir; if (k > 0) dir = lastFile.mid(0, ++k); if (m_bNetworkFileRegime) { // Current file is network cache file, use current system time as output file name if (!dir.isEmpty()) dir += QDateTime::currentDateTime().toString("/yyyy-MM-dd_HH-mm-ss.prof"); else dir = QDateTime::currentDateTime().toString("yyyy-MM-dd_HH-mm-ss.prof"); } else if (m_bOpenedCacheFile) { // Opened old network cache file, use it's last modification time as output file name QFileInfo fileInfo(lastFile); if (!fileInfo.exists()) { // Can not open the file! Dialog::warning(this, "Warning" , "Cannot open source file.\nSaving incomplete.", QMessageBox::Close); m_lastFiles.pop_front(); auto action = m_loadActionMenu->actions().front(); m_loadActionMenu->removeAction(action); delete action; validateLastDir(); return; } if (!dir.isEmpty()) dir += fileInfo.lastModified().toString("/yyyy-MM-dd_HH-mm-ss.prof"); else dir = fileInfo.lastModified().toString("yyyy-MM-dd_HH-mm-ss.prof"); } else { dir = lastFile; } auto filename = QFileDialog::getSaveFileName(this, "Save EasyProfiler File", dir, "EasyProfiler File (*.prof);;All Files (*.*)"); if (filename.isEmpty()) return; if (EASY_GLOBALS.has_local_changes) { createProgressDialog(tr("Saving file...")); m_readerTimer.start(); m_reader.save(filename, m_beginEndTime.beginTime, m_beginEndTime.endTime, m_serializedDescriptors, EASY_GLOBALS.descriptors, m_descriptorsNumberInFile, EASY_GLOBALS.profiler_blocks, EASY_GLOBALS.bookmarks, easyBlocksTree, EASY_GLOBALS.pid, false); return; } // Check if the same file has been selected { QFileInfo fileInfo1(m_bNetworkFileRegime ? QString(NETWORK_CACHE_FILE) : lastFile), fileInfo2(filename); if (fileInfo1.exists() && fileInfo2.exists() && fileInfo1 == fileInfo2) { // Selected the same file - do nothing return; } } bool inOk = false, outOk = false; int8_t retry1 = -1; while (++retry1 < 4) { std::ifstream inFile(m_bNetworkFileRegime ? NETWORK_CACHE_FILE : lastFile.toStdString().c_str(), std::fstream::binary); if (!inFile.is_open()) { std::this_thread::sleep_for(std::chrono::milliseconds(500)); continue; } inOk = true; int8_t retry2 = -1; while (++retry2 < 4) { std::ofstream outFile(filename.toStdString(), std::fstream::binary); if (!outFile.is_open()) { std::this_thread::sleep_for(std::chrono::milliseconds(500)); continue; } outFile << inFile.rdbuf(); outOk = true; break; } break; } if (outOk) { if (m_bNetworkFileRegime) { // Remove temporary network cahche file QFile::remove(QString(NETWORK_CACHE_FILE)); } else if (m_bOpenedCacheFile) { // Remove old temporary network cahche file QFile::remove(lastFile.toStdString().c_str()); m_lastFiles.pop_front(); auto action = m_loadActionMenu->actions().front(); m_loadActionMenu->removeAction(action); delete action; validateLastDir(); } addFileToList(filename); m_bNetworkFileRegime = false; } else if (inOk) { Dialog::warning(this, "Warning" , "Cannot open destination file.\nSaving incomplete.", QMessageBox::Close); } else { if (m_bNetworkFileRegime) Dialog::warning(this, "Warning" , "Cannot open network cache file.\nSaving incomplete.", QMessageBox::Close); else Dialog::warning(this, "Warning" , "Cannot open source file.\nSaving incomplete.", QMessageBox::Close); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::clear() { emit EASY_GLOBALS.events.allDataGoingToBeDeleted(); EASY_GLOBALS.selected_thread = 0; profiler_gui::set_max(EASY_GLOBALS.selected_block); profiler_gui::set_max(EASY_GLOBALS.selected_block_id); EASY_GLOBALS.profiler_blocks.clear(); EASY_GLOBALS.descriptors.clear(); EASY_GLOBALS.gui_blocks.clear(); m_serializedBlocks.clear(); m_serializedDescriptors.clear(); m_saveAction->setEnabled(false); m_deleteAction->setEnabled(false); if (m_bNetworkFileRegime) QFile::remove(QString(NETWORK_CACHE_FILE)); m_bNetworkFileRegime = false; m_bOpenedCacheFile = false; setWindowTitle(EASY_DEFAULT_WINDOW_TITLE); } ////////////////////////////////////////////////////////////////////////// void MainWindow::refreshDiagram() { static_cast(m_graphicsView->widget())->view()->scene()->update(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onDeleteClicked(bool) { int button = QMessageBox::Yes; if (m_bNetworkFileRegime) button = Dialog::question(this, "Clear all profiled data" , "All profiled data and network cache file\nare going to be deleted!\nContinue?" , QMessageBox::Yes | QMessageBox::No); if (button == QMessageBox::Yes) clear(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onExitClicked(bool) { close(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onEncodingChanged(bool) { auto action = qobject_cast(sender()); if (action == nullptr) return; const int mib = action->data().toInt(); auto codec = QTextCodec::codecForMib(mib); if (codec != nullptr) QTextCodec::setCodecForLocale(codec); } void MainWindow::onRulerTextPosChanged(bool) { auto _sender = qobject_cast(sender()); EASY_GLOBALS.chrono_text_position = static_cast(_sender->data().toInt()); refreshDiagram(); } void MainWindow::onUnitsChanged(bool) { auto _sender = qobject_cast(sender()); EASY_GLOBALS.time_units = static_cast(_sender->data().toInt()); } void MainWindow::onEnableDisableStatistics(bool _checked) { EASY_GLOBALS.enable_statistics = _checked; auto action = qobject_cast(sender()); if (action != nullptr) { auto f = action->font(); f.setBold(_checked); action->setFont(f); if (_checked) { action->setText("Statistics enabled"); action->setIcon(QIcon(imagePath("stats"))); } else { action->setText("Statistics disabled"); action->setIcon(QIcon(imagePath("stats-off"))); } } } void MainWindow::onCollapseItemsAfterCloseChanged(bool _checked) { EASY_GLOBALS.collapse_items_on_tree_close = _checked; } void MainWindow::onAllItemsExpandedByDefaultChange(bool _checked) { EASY_GLOBALS.all_items_expanded_by_default = _checked; } void MainWindow::onBindExpandStatusChange(bool _checked) { EASY_GLOBALS.bind_scene_and_tree_expand_status = _checked; } void MainWindow::onHierarchyFlagChange(bool _checked) { EASY_GLOBALS.only_current_thread_hierarchy = _checked; emit EASY_GLOBALS.events.hierarchyFlagChanged(_checked); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onExpandAllClicked(bool) { for (auto& block : EASY_GLOBALS.gui_blocks) block.expanded = true; emit EASY_GLOBALS.events.itemsExpandStateChanged(); auto tree = static_cast(m_treeWidget->widget())->tree(); const QSignalBlocker b(tree); tree->expandAll(); } void MainWindow::onCollapseAllClicked(bool) { for (auto& block : EASY_GLOBALS.gui_blocks) block.expanded = false; emit EASY_GLOBALS.events.itemsExpandStateChanged(); auto tree = static_cast(m_treeWidget->widget())->tree(); const QSignalBlocker b(tree); tree->collapseAll(); } void MainWindow::onViewportInfoClicked(bool) { const auto& size = EASY_GLOBALS.size; auto contents = QString("Device pixel ratio = %1\nFont height = %2px\nFont line spacing = %3px\nDiagram row = %4px\nDiagram spacing = %5px\nIcon size = %6x%6 px") .arg(size.pixelRatio).arg(size.font_height).arg(size.font_line_spacing) .arg(size.graphics_row_height).arg(size.threads_row_spacing).arg(size.icon_size); Dialog::information(this, "Viewport info", contents); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onSpacingChange(int _value) { EASY_GLOBALS.blocks_spacing = _value; refreshDiagram(); } void MainWindow::onMinSizeChange(int _value) { EASY_GLOBALS.blocks_size_min = _value; refreshDiagram(); } void MainWindow::onNarrowSizeChange(int _value) { EASY_GLOBALS.blocks_narrow_size = _value; refreshDiagram(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onFpsIntervalChange(int _value) { EASY_GLOBALS.fps_timer_interval = _value; if (m_fpsRequestTimer.isActive()) m_fpsRequestTimer.stop(); if (EASY_GLOBALS.connected) m_fpsRequestTimer.start(_value); } void MainWindow::onFpsHistoryChange(int _value) { EASY_GLOBALS.max_fps_history = _value; } void MainWindow::onFpsMonitorLineWidthChange(int _value) { EASY_GLOBALS.fps_widget_line_width = _value; } ////////////////////////////////////////////////////////////////////////// void MainWindow::onEditBlocksClicked(bool) { if (m_descTreeDialog.ptr != nullptr) { m_descTreeDialog.ptr->raise(); m_descTreeDialog.ptr->setFocus(); return; } m_dialogDescTree = new BlockDescriptorsWidget(); m_descTreeDialog.create(m_dialogDescTree); connect(m_descTreeDialog.ptr, &QDialog::finished, this, &This::onDescTreeDialogClose); m_dialogDescTree->build(); m_descTreeDialog.restoreGeometry(); m_descTreeDialog.ptr->show(); m_descTreeDialog.ptr->setFocus(); } void MainWindow::onDescTreeDialogClose(int) { disconnect(m_descTreeDialog.ptr, &QDialog::finished, this, &This::onDescTreeDialogClose); m_descTreeDialog.saveGeometry(); m_dialogDescTree = nullptr; m_descTreeDialog.ptr = nullptr; } ////////////////////////////////////////////////////////////////////////// void MainWindow::validateLineEdits() { m_addressEdit->setFixedWidth((m_addressEdit->fontMetrics().width(QString("255.255.255.255")) * 3) / 2); m_portEdit->setFixedWidth(m_portEdit->fontMetrics().width(QString("000000")) + 10); m_frameTimeEdit->setFixedWidth(m_frameTimeEdit->fontMetrics().width(QString("000000"))); } ////////////////////////////////////////////////////////////////////////// void MainWindow::showEvent(QShowEvent* show_event) { Parent::showEvent(show_event); validateLineEdits(); configureSizes(); } void MainWindow::closeEvent(QCloseEvent* close_event) { if (!m_bCloseAfterSave && (m_bNetworkFileRegime || EASY_GLOBALS.has_local_changes)) { // Warn user about unsaved network information and suggest to save const auto result = Dialog::question(this, "Unsaved session" , "You have unsaved data!\nSave before exit?", QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel); if (result == QMessageBox::Yes) { onSaveFileClicked(true); if (m_reader.isSaving() && m_progress != nullptr) { // Wait until finish and close m_bCloseAfterSave = true; close_event->ignore(); return; } } else if (result == QMessageBox::Cancel) { close_event->ignore(); return; } } emit EASY_GLOBALS.events.closeEvent(); if (m_descTreeDialog.ptr != nullptr) { m_descTreeDialog.ptr->reject(); m_descTreeDialog.ptr = nullptr; m_dialogDescTree = nullptr; } saveSettingsAndGeometry(); Parent::closeEvent(close_event); } ////////////////////////////////////////////////////////////////////////// void MainWindow::loadSettings() { QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME); settings.beginGroup("main"); auto last_files = settings.value("last_files"); if (!last_files.isNull()) { m_lastFiles = last_files.toStringList(); validateLastDir(); } auto last_addr = settings.value("ip_address"); if (!last_addr.isNull()) m_lastAddress = last_addr.toString(); auto last_port = settings.value("port"); if (!last_port.isNull()) m_lastPort = (uint16_t)last_port.toUInt(); auto val = settings.value("chrono_text_position"); if (!val.isNull()) EASY_GLOBALS.chrono_text_position = static_cast(val.toInt()); val = settings.value("time_units"); if (!val.isNull()) EASY_GLOBALS.time_units = static_cast(val.toInt()); val = settings.value("frame_time"); if (!val.isNull()) EASY_GLOBALS.frame_time = val.toFloat(); val = settings.value("blocks_spacing"); if (!val.isNull()) EASY_GLOBALS.blocks_spacing = val.toInt(); val = settings.value("blocks_size_min"); if (!val.isNull()) EASY_GLOBALS.blocks_size_min = val.toInt(); val = settings.value("blocks_narrow_size"); if (!val.isNull()) EASY_GLOBALS.blocks_narrow_size = val.toInt(); auto flag = settings.value("draw_graphics_items_borders"); if (!flag.isNull()) EASY_GLOBALS.draw_graphics_items_borders = flag.toBool(); flag = settings.value("hide_narrow_children"); if (!flag.isNull()) EASY_GLOBALS.hide_narrow_children = flag.toBool(); flag = settings.value("hide_minsize_blocks"); if (!flag.isNull()) EASY_GLOBALS.hide_minsize_blocks = flag.toBool(); flag = settings.value("collapse_items_on_tree_close"); if (!flag.isNull()) EASY_GLOBALS.collapse_items_on_tree_close = flag.toBool(); flag = settings.value("all_items_expanded_by_default"); if (!flag.isNull()) EASY_GLOBALS.all_items_expanded_by_default = flag.toBool(); flag = settings.value("only_current_thread_hierarchy"); if (!flag.isNull()) EASY_GLOBALS.only_current_thread_hierarchy = flag.toBool(); flag = settings.value("enable_zero_length"); if (!flag.isNull()) EASY_GLOBALS.enable_zero_length = flag.toBool(); flag = settings.value("add_zero_blocks_to_hierarchy"); if (!flag.isNull()) EASY_GLOBALS.add_zero_blocks_to_hierarchy = flag.toBool(); flag = settings.value("highlight_blocks_with_same_id"); if (!flag.isNull()) EASY_GLOBALS.highlight_blocks_with_same_id = flag.toBool(); flag = settings.value("bind_scene_and_tree_expand_status"); if (!flag.isNull()) EASY_GLOBALS.bind_scene_and_tree_expand_status = flag.toBool(); flag = settings.value("selecting_block_changes_thread"); if (!flag.isNull()) EASY_GLOBALS.selecting_block_changes_thread = flag.toBool(); flag = settings.value("enable_event_indicators"); if (!flag.isNull()) EASY_GLOBALS.enable_event_markers = flag.toBool(); flag = settings.value("auto_adjust_histogram_height"); if (!flag.isNull()) EASY_GLOBALS.auto_adjust_histogram_height = flag.toBool(); flag = settings.value("auto_adjust_chart_height"); if (!flag.isNull()) EASY_GLOBALS.auto_adjust_chart_height = flag.toBool(); flag = settings.value("display_only_frames_on_histogram"); if (!flag.isNull()) EASY_GLOBALS.display_only_frames_on_histogram = flag.toBool(); flag = settings.value("use_decorated_thread_name"); if (!flag.isNull()) EASY_GLOBALS.use_decorated_thread_name = flag.toBool(); flag = settings.value("hex_thread_id"); if (!flag.isNull()) EASY_GLOBALS.hex_thread_id = flag.toBool(); flag = settings.value("fps_timer_interval"); if (!flag.isNull()) EASY_GLOBALS.fps_timer_interval = flag.toInt(); flag = settings.value("max_fps_history"); if (!flag.isNull()) EASY_GLOBALS.max_fps_history = flag.toInt(); flag = settings.value("fps_widget_line_width"); if (!flag.isNull()) EASY_GLOBALS.fps_widget_line_width = flag.toInt(); flag = settings.value("enable_statistics"); if (!flag.isNull()) EASY_GLOBALS.enable_statistics = flag.toBool(); QString encoding = settings.value("encoding", "UTF-8").toString(); auto default_codec_mib = QTextCodec::codecForName(encoding.toStdString().c_str())->mibEnum(); auto default_codec = QTextCodec::codecForMib(default_codec_mib); QTextCodec::setCodecForLocale(default_codec); auto theme = settings.value("theme"); if (theme.isValid()) { EASY_GLOBALS.theme = m_theme = theme.toString(); } else { m_theme = EASY_GLOBALS.theme; } flag = settings.value("use_custom_window_header"); if (!flag.isNull()) EASY_GLOBALS.use_custom_window_header = flag.toBool(); flag = settings.value("is_right_window_header_controls"); if (!flag.isNull()) EASY_GLOBALS.is_right_window_header_controls = flag.toBool(); settings.endGroup(); } void MainWindow::loadGeometry() { QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME); settings.beginGroup("main"); auto geometry = settings.value("geometry").toByteArray(); if (!geometry.isEmpty()) restoreGeometry(geometry); geometry = settings.value("fpsGeometry").toByteArray(); if (!geometry.isEmpty()) m_fpsViewer->restoreGeometry(geometry); geometry = settings.value("descTreeDialogGeometry").toByteArray(); if (!geometry.isEmpty()) m_descTreeDialog.geometry.swap(geometry); geometry = settings.value("diagramGeometry").toByteArray(); if (!geometry.isEmpty()) m_graphicsView->restoreGeometry(geometry); static_cast(m_graphicsView->widget())->restore(settings); auto state = settings.value("windowState").toByteArray(); if (!state.isEmpty()) restoreState(state); settings.endGroup(); } void MainWindow::saveSettingsAndGeometry() { QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME); settings.beginGroup("main"); settings.setValue("geometry", this->saveGeometry()); settings.setValue("fpsGeometry", m_fpsViewer->saveGeometry()); settings.setValue("descTreeDialogGeometry", m_descTreeDialog.geometry); settings.setValue("diagramGeometry", m_graphicsView->saveGeometry()); static_cast(m_graphicsView->widget())->save(settings); settings.setValue("windowState", this->saveState()); settings.setValue("last_files", m_lastFiles); settings.setValue("ip_address", m_lastAddress); settings.setValue("port", (quint32)m_lastPort); settings.setValue("chrono_text_position", static_cast(EASY_GLOBALS.chrono_text_position)); settings.setValue("time_units", static_cast(EASY_GLOBALS.time_units)); settings.setValue("frame_time", EASY_GLOBALS.frame_time); settings.setValue("blocks_spacing", EASY_GLOBALS.blocks_spacing); settings.setValue("blocks_size_min", EASY_GLOBALS.blocks_size_min); settings.setValue("blocks_narrow_size", EASY_GLOBALS.blocks_narrow_size); settings.setValue("draw_graphics_items_borders", EASY_GLOBALS.draw_graphics_items_borders); settings.setValue("hide_narrow_children", EASY_GLOBALS.hide_narrow_children); settings.setValue("hide_minsize_blocks", EASY_GLOBALS.hide_minsize_blocks); settings.setValue("collapse_items_on_tree_close", EASY_GLOBALS.collapse_items_on_tree_close); settings.setValue("all_items_expanded_by_default", EASY_GLOBALS.all_items_expanded_by_default); settings.setValue("only_current_thread_hierarchy", EASY_GLOBALS.only_current_thread_hierarchy); settings.setValue("enable_zero_length", EASY_GLOBALS.enable_zero_length); settings.setValue("add_zero_blocks_to_hierarchy", EASY_GLOBALS.add_zero_blocks_to_hierarchy); settings.setValue("highlight_blocks_with_same_id", EASY_GLOBALS.highlight_blocks_with_same_id); settings.setValue("bind_scene_and_tree_expand_status", EASY_GLOBALS.bind_scene_and_tree_expand_status); settings.setValue("selecting_block_changes_thread", EASY_GLOBALS.selecting_block_changes_thread); settings.setValue("enable_event_indicators", EASY_GLOBALS.enable_event_markers); settings.setValue("auto_adjust_histogram_height", EASY_GLOBALS.auto_adjust_histogram_height); settings.setValue("auto_adjust_chart_height", EASY_GLOBALS.auto_adjust_chart_height); settings.setValue("display_only_frames_on_histogram", EASY_GLOBALS.display_only_frames_on_histogram); settings.setValue("use_decorated_thread_name", EASY_GLOBALS.use_decorated_thread_name); settings.setValue("hex_thread_id", EASY_GLOBALS.hex_thread_id); settings.setValue("enable_statistics", EASY_GLOBALS.enable_statistics); settings.setValue("fps_timer_interval", EASY_GLOBALS.fps_timer_interval); settings.setValue("max_fps_history", EASY_GLOBALS.max_fps_history); settings.setValue("fps_widget_line_width", EASY_GLOBALS.fps_widget_line_width); settings.setValue("use_custom_window_header", EASY_GLOBALS.use_custom_window_header); settings.setValue("is_right_window_header_controls", EASY_GLOBALS.is_right_window_header_controls); settings.setValue("encoding", QTextCodec::codecForLocale()->name()); settings.setValue("theme", m_theme); settings.endGroup(); } void MainWindow::destroyProgressDialog() { if (m_progress != nullptr) { m_progress->setValue(100); m_progress->deleteLater(); m_progress = nullptr; } } void MainWindow::createProgressDialog(const QString& text) { destroyProgressDialog(); m_progress = new QProgressDialog(text, QStringLiteral("Cancel"), 0, 100, this); connect(m_progress, &QProgressDialog::canceled, this, &This::onFileReaderCancel); m_progress->setFixedWidth(px(300)); m_progress->setWindowTitle(EASY_DEFAULT_WINDOW_TITLE); m_progress->setModal(true); m_progress->setValue(0); m_progress->show(); } void MainWindow::setDisconnected(bool _showMessage) { if (m_fpsRequestTimer.isActive()) m_fpsRequestTimer.stop(); if (_showMessage) Dialog::warning(this, "Warning", "Connection was lost", QMessageBox::Close); EASY_GLOBALS.connected = false; m_captureAction->setEnabled(false); m_connectAction->setIcon(QIcon(imagePath("connect"))); m_connectAction->setText(tr("Connect")); m_eventTracingEnableAction->setEnabled(false); m_eventTracingPriorityAction->setEnabled(false); m_addressEdit->setEnabled(true); m_portEdit->setEnabled(true); emit EASY_GLOBALS.events.connectionChanged(false); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onFrameTimeRequestTimeout() { if (EASY_GLOBALS.fps_enabled && EASY_GLOBALS.connected && (m_listener.regime() == ListenerRegime::Idle || m_listener.regime() == ListenerRegime::Capture)) { if (m_listener.requestFrameTime()) { QTimer::singleShot(100, this, &This::checkFrameTimeReady); } else if (!m_listener.connected()) { m_listener.closeSocket(); setDisconnected(); } } } void MainWindow::checkFrameTimeReady() { if (EASY_GLOBALS.fps_enabled && EASY_GLOBALS.connected && (m_listener.regime() == ListenerRegime::Idle || m_listener.regime() == ListenerRegime::Capture)) { uint32_t maxTime = 0, avgTime = 0; if (m_listener.frameTime(maxTime, avgTime)) { static_cast(m_fpsViewer->widget())->addPoint(maxTime, avgTime); } else if (m_fpsRequestTimer.isActive()) { QTimer::singleShot(100, this, &This::checkFrameTimeReady); } } } ////////////////////////////////////////////////////////////////////////// void MainWindow::onListenerTimerTimeout() { if (!m_listener.connected()) { if (m_listener.regime() == ListenerRegime::Capture_Receive) m_listener.finalizeCapture(); if (m_listenerDialog) m_listenerDialog->reject(); } else if (m_listener.regime() == ListenerRegime::Capture_Receive) { if (m_listener.captured()) { if (m_listenerTimer.isActive()) m_listenerTimer.stop(); m_listener.finalizeCapture(); m_listenerDialog->accept(); m_listenerDialog = nullptr; if (m_listener.size() != 0) { readStream(m_listener.data()); m_listener.clearData(); } } } } void MainWindow::onListenerDialogClose(int _result) { if (m_listener.regime() != ListenerRegime::Capture_Receive || !m_listener.connected()) { if (m_listenerTimer.isActive()) m_listenerTimer.stop(); } disconnect(m_listenerDialog, &QDialog::finished, this, &This::onListenerDialogClose); m_listenerDialog = nullptr; switch (m_listener.regime()) { case ListenerRegime::Capture: { m_listenerDialog = new Dialog(this, QMessageBox::Information, "Receiving data...", "This process may take some time.", QMessageBox::Cancel); m_listenerDialog->setAttribute(Qt::WA_DeleteOnClose, true); m_listenerDialog->show(); m_listener.stopCapture(); if (m_listener.regime() != ListenerRegime::Capture_Receive) { m_listenerDialog->reject(); m_listenerDialog = nullptr; } else { connect(m_listenerDialog, &QDialog::finished, this, &This::onListenerDialogClose); m_listenerTimer.start(250); } break; } case ListenerRegime::Capture_Receive: { if (!m_listener.captured()) { if (_result == QDialog::Accepted) { m_listenerDialog = new Dialog(this, QMessageBox::Information, "Receiving data...", "This process may take some time.", QMessageBox::Cancel); connect(m_listenerDialog, &QDialog::finished, this, &This::onListenerDialogClose); m_listenerDialog->setAttribute(Qt::WA_DeleteOnClose, true); m_listenerDialog->show(); } else { m_listener.finalizeCapture(); m_listener.clearData(); if (m_listener.connected()) { // make reconnect to clear socket buffers const std::string address = m_listener.address(); const auto port = m_listener.port(); profiler::net::EasyProfilerStatus reply(false, false, false); if (m_listener.reconnect(address.c_str(), port, reply)) { disconnect(m_eventTracingEnableAction, &QAction::triggered, this, &This::onEventTracingEnableChange); disconnect(m_eventTracingPriorityAction, &QAction::triggered, this, &This::onEventTracingPriorityChange); m_eventTracingEnableAction->setChecked(reply.isEventTracingEnabled); m_eventTracingPriorityAction->setChecked(reply.isLowPriorityEventTracing); connect(m_eventTracingEnableAction, &QAction::triggered, this, &This::onEventTracingEnableChange); connect(m_eventTracingPriorityAction, &QAction::triggered, this, &This::onEventTracingPriorityChange); if (reply.isProfilerEnabled) { // Connected application is already profiling. // Show capture dialog immediately onCaptureClicked(true); } } } } break; } if (m_listenerTimer.isActive()) m_listenerTimer.stop(); m_listener.finalizeCapture(); if (m_listener.size() != 0) { readStream(m_listener.data()); m_listener.clearData(); } break; } case ListenerRegime::Descriptors: { break; } default: return; } if (!m_listener.connected()) { m_listener.closeSocket(); setDisconnected(); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::closeProgressDialogAndClearReader() { m_reader.interrupt(); m_readerTimer.stop(); destroyProgressDialog(); } void MainWindow::onLoadingFinish(profiler::block_index_t& _nblocks) { _nblocks = m_reader.size(); if (_nblocks != 0) { emit EASY_GLOBALS.events.allDataGoingToBeDeleted(); EASY_GLOBALS.has_local_changes = false; profiler::SerializedData serialized_blocks; profiler::SerializedData serialized_descriptors; profiler::descriptors_list_t descriptors; profiler::blocks_t blocks; profiler::thread_blocks_tree_t threads_map; profiler::bookmarks_t bookmarks; profiler::BeginEndTime beginEndTime; QString filename; uint32_t descriptorsNumberInFile = 0; uint32_t version = 0; profiler::processid_t pid = 0; m_reader.get(serialized_blocks, serialized_descriptors, descriptors, blocks, threads_map, bookmarks, beginEndTime, descriptorsNumberInFile, version, pid, filename); if (threads_map.size() > 0xff) { QString message; if (m_reader.isFile()) message = QString("File %1 contains %2 threads!").arg(filename).arg(threads_map.size()); else message = QString("Input stream contains %1 threads!").arg(threads_map.size()); Dialog::warning(this, "Warning", QString("%1\nCurrently, maximum number of displayed threads is 255!" "\nSome threads will not be displayed.").arg(message), QMessageBox::Close); } m_bNetworkFileRegime = !m_reader.isFile(); if (!m_bNetworkFileRegime) { addFileToList(filename); } else { m_bOpenedCacheFile = false; setWindowTitle(EASY_DEFAULT_WINDOW_TITLE " - UNSAVED network cache"); } m_serializedBlocks = std::move(serialized_blocks); m_serializedDescriptors = std::move(serialized_descriptors); m_descriptorsNumberInFile = descriptorsNumberInFile; m_beginEndTime = beginEndTime; EASY_GLOBALS.selected_thread = 0; EASY_GLOBALS.version = version; EASY_GLOBALS.pid = pid; profiler_gui::set_max(EASY_GLOBALS.selected_block); profiler_gui::set_max(EASY_GLOBALS.selected_block_id); EASY_GLOBALS.profiler_blocks.swap(threads_map); EASY_GLOBALS.descriptors.swap(descriptors); EASY_GLOBALS.bookmarks.swap(bookmarks); EASY_GLOBALS.gui_blocks.clear(); EASY_GLOBALS.gui_blocks.resize(_nblocks); memset(EASY_GLOBALS.gui_blocks.data(), 0, sizeof(profiler_gui::EasyBlock) * _nblocks); for (std::remove_reference::type i = 0; i < _nblocks; ++i) { auto& guiblock = EASY_GLOBALS.gui_blocks[i]; guiblock.tree = std::move(blocks[i]); #ifdef EASY_TREE_WIDGET__USE_VECTOR profiler_gui::set_max(guiblock.tree_item); #endif } m_saveAction->setEnabled(true); m_deleteAction->setEnabled(true); } else { Dialog::warning(this, "Warning", QString("Cannot read profiled blocks.\n\nReason:\n%1") .arg(m_reader.getError()), QMessageBox::Close); if (m_reader.isFile()) { auto index = m_lastFiles.indexOf(m_reader.filename(), 0); if (index >= 0) { // Remove unexisting file from list m_lastFiles.removeAt(index); auto action = m_loadActionMenu->actions().at(index); m_loadActionMenu->removeAction(action); delete action; validateLastDir(); } } } } void MainWindow::onSavingFinish() { const auto errorMessage = m_reader.getError(); if (!errorMessage.isEmpty()) { Dialog::warning(this, "Warning", QString("Cannot save profiled blocks.\n\nReason:\n%1") .arg(errorMessage), QMessageBox::Close); } else { if (!m_reader.isSnapshot()) EASY_GLOBALS.has_local_changes = false; addFileToList(m_reader.filename(), !m_reader.isSnapshot()); } } void MainWindow::onFileReaderTimeout() { if (m_reader.done()) { if (m_reader.isLoading()) { profiler::block_index_t nblocks = 0; onLoadingFinish(nblocks); closeProgressDialogAndClearReader(); if (nblocks != 0) { emit EASY_GLOBALS.events.fileOpened(); if (EASY_GLOBALS.all_items_expanded_by_default) onExpandAllClicked(true); } } else if (m_reader.isSaving()) { onSavingFinish(); closeProgressDialogAndClearReader(); if (m_bCloseAfterSave) { setEnabled(false); QTimer::singleShot(1500, this, &This::close); } } else { closeProgressDialogAndClearReader(); } } else if (m_progress != nullptr) { m_progress->setValue(m_reader.progress()); } } void MainWindow::onFileReaderCancel() { m_readerTimer.stop(); m_reader.interrupt(); destroyProgressDialog(); } ////////////////////////////////////////////////////////////////////////// FileReader::FileReader() { } FileReader::~FileReader() { interrupt(); } const bool FileReader::isFile() const { return m_isFile; } const bool FileReader::isSaving() const { return m_jobType == JobType::Saving; } const bool FileReader::isLoading() const { return m_jobType == JobType::Loading; } const bool FileReader::isSnapshot() const { return m_isSnapshot; } bool FileReader::done() const { return m_bDone.load(std::memory_order_acquire); } int FileReader::progress() const { return m_progress.load(std::memory_order_acquire); } unsigned int FileReader::size() const { return m_size.load(std::memory_order_acquire); } const QString& FileReader::filename() const { return m_filename; } void FileReader::load(const QString& _filename) { interrupt(); m_jobType = JobType::Loading; m_isFile = true; m_isSnapshot = false; m_filename = _filename; m_thread = std::thread([this](bool _enableStatistics) { m_size.store(fillTreesFromFile(m_progress, m_filename.toStdString().c_str(), m_beginEndTime, m_serializedBlocks, m_serializedDescriptors, m_descriptors, m_blocks, m_blocksTree, m_bookmarks, m_descriptorsNumberInFile, m_version, m_pid, _enableStatistics, m_errorMessage), std::memory_order_release); m_progress.store(100, std::memory_order_release); m_bDone.store(true, std::memory_order_release); }, EASY_GLOBALS.enable_statistics); } void FileReader::load(std::stringstream& _stream) { interrupt(); m_jobType = JobType::Loading; m_isFile = false; m_isSnapshot = false; m_filename.clear(); #if defined(__GNUC__) && __GNUC__ < 5 && !defined(__llvm__) // gcc 4 has a known bug which has been solved in gcc 5: // std::stringstream has no swap() method :( // have to copy all contents... Use gcc 5 or higher! #pragma message "Warning: in gcc 4 and lower std::stringstream has no swap()! Memory consumption may increase! Better use gcc 5 or higher instead." m_stream.str(_stream.str()); #else m_stream.swap(_stream); #endif m_thread = std::thread([this](bool _enableStatistics) { std::ofstream cache_file(NETWORK_CACHE_FILE, std::fstream::binary); if (cache_file.is_open()) { cache_file << m_stream.str(); cache_file.close(); } m_size.store(fillTreesFromStream(m_progress, m_stream, m_beginEndTime, m_serializedBlocks, m_serializedDescriptors, m_descriptors, m_blocks, m_blocksTree, m_bookmarks, m_descriptorsNumberInFile, m_version, m_pid, _enableStatistics, m_errorMessage), std::memory_order_release); m_progress.store(100, std::memory_order_release); m_bDone.store(true, std::memory_order_release); }, EASY_GLOBALS.enable_statistics); } void FileReader::save(const QString& _filename, profiler::timestamp_t _beginTime, profiler::timestamp_t _endTime, const profiler::SerializedData& _serializedDescriptors, const profiler::descriptors_list_t& _descriptors, profiler::block_id_t descriptors_count, const profiler::thread_blocks_tree_t& _trees, const profiler::bookmarks_t& bookmarks, profiler::block_getter_fn block_getter, profiler::processid_t _pid, bool snapshotMode) { interrupt(); m_jobType = JobType::Saving; m_isFile = true; m_isSnapshot = snapshotMode; m_filename = _filename; auto serializedDescriptors = std::ref(_serializedDescriptors); auto descriptors = std::ref(_descriptors); auto trees = std::ref(_trees); auto bookmarksRef = std::ref(bookmarks); m_thread = std::thread([=] (profiler::block_getter_fn getter) { const QString tmpFile = m_filename + ".tmp"; const auto result = writeTreesToFile(m_progress, tmpFile.toStdString().c_str(), serializedDescriptors, descriptors, descriptors_count, trees, bookmarksRef, getter, _beginTime, _endTime, _pid, m_errorMessage); if (result == 0 || !m_errorMessage.str().empty()) { // Remove temporary file in case of error QFile::remove(tmpFile); } else { // Remove old file if exists { QFile out(m_filename); if (out.exists()) out.remove(); } QFile::rename(tmpFile, m_filename); } m_progress.store(100, std::memory_order_release); m_bDone.store(true, std::memory_order_release); }, std::move(block_getter)); } void FileReader::interrupt() { join(); m_bDone.store(false, std::memory_order_release); m_size.store(0, std::memory_order_release); m_serializedBlocks.clear(); m_serializedDescriptors.clear(); m_descriptors.clear(); m_blocks.clear(); m_blocksTree.clear(); m_bookmarks.clear(); m_descriptorsNumberInFile = 0; m_version = 0; m_pid = 0; m_jobType = JobType::Idle; m_isSnapshot = false; clear_stream(m_stream); clear_stream(m_errorMessage); } void FileReader::get(profiler::SerializedData& _serializedBlocks, profiler::SerializedData& _serializedDescriptors, profiler::descriptors_list_t& _descriptors, profiler::blocks_t& _blocks, profiler::thread_blocks_tree_t& _trees, profiler::bookmarks_t& bookmarks, profiler::BeginEndTime& beginEndTime, uint32_t& _descriptorsNumberInFile, uint32_t& _version, profiler::processid_t& _pid, QString& _filename) { if (done()) { m_serializedBlocks.swap(_serializedBlocks); m_serializedDescriptors.swap(_serializedDescriptors); profiler::descriptors_list_t(std::move(m_descriptors)).swap(_descriptors); m_blocks.swap(_blocks); m_blocksTree.swap(_trees); m_bookmarks.swap(bookmarks); m_filename.swap(_filename); beginEndTime = m_beginEndTime; _descriptorsNumberInFile = m_descriptorsNumberInFile; _version = m_version; _pid = m_pid; } } void FileReader::join() { m_progress.store(-100, std::memory_order_release); if (m_thread.joinable()) m_thread.join(); m_progress.store(0, std::memory_order_release); } QString FileReader::getError() { return QString(m_errorMessage.str().c_str()); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onEventTracingPriorityChange(bool _checked) { if (EASY_GLOBALS.connected) m_listener.send(profiler::net::BoolMessage(profiler::net::MessageType::Change_Event_Tracing_Priority, _checked)); } void MainWindow::onEventTracingEnableChange(bool _checked) { if (EASY_GLOBALS.connected) m_listener.send(profiler::net::BoolMessage(profiler::net::MessageType::Change_Event_Tracing_Status, _checked)); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onFrameTimeEditFinish() { auto text = m_frameTimeEdit->text(); if (text.contains(QChar(','))) { text.remove(QChar('.')).replace(QChar(','), QChar('.')); m_frameTimeEdit->setText(text); } EASY_GLOBALS.frame_time = text.toFloat() * 1e3f; disconnect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged, this, &This::onFrameTimeChanged); emit EASY_GLOBALS.events.expectedFrameTimeChanged(); connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged, this, &This::onFrameTimeChanged); } void MainWindow::onFrameTimeChanged() { m_frameTimeEdit->setText(QString::number(EASY_GLOBALS.frame_time * 1e-3)); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onSnapshotClicked(bool) { profiler::timestamp_t beginTime = 0, endTime = 0; const bool hasSelection = static_cast(m_graphicsView->widget())->view()->getSelectionRegionForSaving(beginTime, endTime); if (!hasSelection) return; QString lastFile = m_lastFiles.empty() ? QString() : m_lastFiles.front(); const auto i = lastFile.lastIndexOf(QChar('/')); const auto j = lastFile.lastIndexOf(QChar('\\')); auto k = std::max(i, j); QString dir; if (k > 0) dir = lastFile.mid(0, ++k); auto filename = QFileDialog::getSaveFileName(this, "Save cropped area to EasyProfiler File", dir, "EasyProfiler File (*.prof);;All Files (*.*)"); if (filename.isEmpty()) return; createProgressDialog(tr("Saving selected region...")); m_readerTimer.start(); m_reader.save(filename, beginTime, endTime, m_serializedDescriptors, EASY_GLOBALS.descriptors, m_descriptorsNumberInFile, EASY_GLOBALS.profiler_blocks, EASY_GLOBALS.bookmarks, easyBlocksTree, EASY_GLOBALS.pid, true); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onCustomWindowHeaderTriggered(bool _checked) { EASY_GLOBALS.use_custom_window_header = _checked; emit EASY_GLOBALS.events.customWindowHeaderChanged(); } void MainWindow::onRightWindowHeaderPosition(bool _checked) { if (!_checked) return; EASY_GLOBALS.is_right_window_header_controls = true; emit EASY_GLOBALS.events.windowHeaderPositionChanged(); } void MainWindow::onLeftWindowHeaderPosition(bool _checked) { if (!_checked) return; EASY_GLOBALS.is_right_window_header_controls = false; emit EASY_GLOBALS.events.windowHeaderPositionChanged(); } ////////////////////////////////////////////////////////////////////////// void MainWindow::onConnectClicked(bool) { if (EASY_GLOBALS.connected) { // Disconnect if already connected m_listener.disconnect(); setDisconnected(false); return; } QString address = m_addressEdit->text(); const decltype(m_lastPort) port = m_portEdit->text().toUShort(); const bool isSameAddress = (EASY_GLOBALS.connected && m_listener.port() == port && address.toStdString() == m_listener.address()); profiler::net::EasyProfilerStatus reply(false, false, false); if (!m_listener.connect(address.toStdString().c_str(), port, reply)) { Dialog::warning(this, "Warning", QString("Cannot connect to %1").arg(address), QMessageBox::Close); if (EASY_GLOBALS.connected) { m_listener.closeSocket(); setDisconnected(false); } if (!isSameAddress) { m_lastAddress = std::move(address); m_lastPort = port; } return; } m_lastAddress = std::move(address); m_lastPort = port; qInfo() << "Connected successfully"; EASY_GLOBALS.connected = true; m_captureAction->setEnabled(true); m_connectAction->setIcon(QIcon(imagePath("connected"))); m_connectAction->setText(tr("Disconnect")); if (m_fpsViewer->isVisible()) static_cast(m_fpsViewer->widget())->clear(); if (!m_fpsRequestTimer.isActive()) m_fpsRequestTimer.start(EASY_GLOBALS.fps_timer_interval); disconnect(m_eventTracingEnableAction, &QAction::triggered, this, &This::onEventTracingEnableChange); disconnect(m_eventTracingPriorityAction, &QAction::triggered, this, &This::onEventTracingPriorityChange); m_eventTracingEnableAction->setEnabled(true); m_eventTracingPriorityAction->setEnabled(true); m_eventTracingEnableAction->setChecked(reply.isEventTracingEnabled); m_eventTracingPriorityAction->setChecked(reply.isLowPriorityEventTracing); connect(m_eventTracingEnableAction, &QAction::triggered, this, &This::onEventTracingEnableChange); connect(m_eventTracingPriorityAction, &QAction::triggered, this, &This::onEventTracingPriorityChange); m_addressEdit->setEnabled(false); m_portEdit->setEnabled(false); emit EASY_GLOBALS.events.connectionChanged(true); if (reply.isProfilerEnabled) { // Connected application is already profiling. // Show capture dialog immediately onCaptureClicked(true); } } void MainWindow::onCaptureClicked(bool) { if (!EASY_GLOBALS.connected) { Dialog::warning(this, "Warning", "No connection with profiling app", QMessageBox::Close); return; } if (m_listener.regime() != ListenerRegime::Idle) { if (m_listener.regime() == ListenerRegime::Capture || m_listener.regime() == ListenerRegime::Capture_Receive) { Dialog::warning(this, "Warning", "Already capturing frames.\nFinish old capturing session first.", QMessageBox::Close); } else { Dialog::warning(this, "Warning", "Capturing blocks description.\nFinish old capturing session first.", QMessageBox::Close); } return; } if (!m_listener.startCapture()) { // Connection lost. Try to restore connection. profiler::net::EasyProfilerStatus reply(false, false, false); if (!m_listener.connect(m_lastAddress.toStdString().c_str(), m_lastPort, reply)) { m_listener.closeSocket(); setDisconnected(); return; } if (!m_listener.startCapture()) { m_listener.closeSocket(); setDisconnected(); return; } } m_listenerTimer.start(250); m_listenerDialog = new Dialog(this, QMessageBox::Information, "Capturing frames..." , "Close this dialog to stop capturing.", QMessageBox::NoButton); auto button = new QToolButton(m_listenerDialog); button->setAutoRaise(true); button->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); button->setIconSize(applicationIconsSize()); button->setIcon(QIcon(imagePath("stop"))); button->setText("Stop"); m_listenerDialog->addButton(button, QMessageBox::AcceptRole); m_listenerDialog->setAttribute(Qt::WA_DeleteOnClose, true); connect(m_listenerDialog, &QDialog::finished, this, &This::onListenerDialogClose); m_listenerDialog->show(); } void MainWindow::onGetBlockDescriptionsClicked(bool) { if (!EASY_GLOBALS.connected) { Dialog::warning(this, "Warning", "No connection with profiling app", QMessageBox::Close); return; } if (m_listener.regime() != ListenerRegime::Idle) { if (m_listener.regime() == ListenerRegime::Descriptors) { Dialog::warning(this, "Warning", "Already capturing blocks description.\nFinish old capturing session first.", QMessageBox::Close); } else { Dialog::warning(this, "Warning", "Already capturing frames.\nFinish old capturing session first.", QMessageBox::Close); } return; } m_listenerDialog = new Dialog(this, QMessageBox::Information, "Waiting for blocks...", "This may take some time.", QMessageBox::NoButton); m_listenerDialog->setAttribute(Qt::WA_DeleteOnClose, true); m_listenerDialog->show(); m_listener.requestBlocksDescription(); m_listenerDialog->reject(); m_listenerDialog = nullptr; if (m_listener.size() != 0) { // Read descriptions from stream decltype(EASY_GLOBALS.descriptors) descriptors; decltype(m_serializedDescriptors) serializedDescriptors; std::stringstream errorMessage; if (readDescriptionsFromStream(m_listener.data(), serializedDescriptors, descriptors, errorMessage)) { // Merge old and new descriptions bool cancel = false; const bool doFlush = m_descriptorsNumberInFile > descriptors.size(); if (doFlush && !m_serializedBlocks.empty()) { auto button = Dialog::question(this, "Information", QString("New blocks description number = %1\nis less than the old one = %2.\nTo avoid possible conflicts\nall profiled data will be deleted.\nContinue?") .arg(descriptors.size()) .arg(m_descriptorsNumberInFile), QMessageBox::Yes | QMessageBox::No); if (button == QMessageBox::Yes) clear(); // Clear all contents because new descriptors list conflicts with old one else cancel = true; } if (!cancel) { if (!doFlush && m_descriptorsNumberInFile < EASY_GLOBALS.descriptors.size()) { // There are dynamically added descriptors, add them to the new list too auto newnumber = static_cast(descriptors.size()); auto size = static_cast(EASY_GLOBALS.descriptors.size()); auto diff = newnumber - size; decltype(newnumber) failnumber = 0; descriptors.reserve(descriptors.size() + EASY_GLOBALS.descriptors.size() - m_descriptorsNumberInFile); for (auto i = m_descriptorsNumberInFile; i < size; ++i) { auto id = EASY_GLOBALS.descriptors[i]->id(); if (id < newnumber) descriptors.push_back(descriptors[id]); else ++failnumber; } if (failnumber != 0) { // There are some errors... // revert changes descriptors.resize(newnumber); // clear all profiled data to avoid conflicts auto button = Dialog::question(this, "Information", "There are errors while merging block descriptions lists.\nTo avoid possible conflicts\nall profiled data will be deleted.\nContinue?", QMessageBox::Yes | QMessageBox::No); if (button == QMessageBox::Yes) clear(); // Clear all contents because new descriptors list conflicts with old one else cancel = true; } if (!cancel && diff != 0) { for (auto& b : EASY_GLOBALS.gui_blocks) { if (b.tree.node->id() >= m_descriptorsNumberInFile) b.tree.node->setId(b.tree.node->id() + diff); } m_descriptorsNumberInFile = newnumber; } } if (!cancel) { EASY_GLOBALS.descriptors.swap(descriptors); m_serializedDescriptors.swap(serializedDescriptors); m_descriptorsNumberInFile = static_cast(EASY_GLOBALS.descriptors.size()); if (m_descTreeDialog.ptr != nullptr) { #if EASY_GUI_USE_DESCRIPTORS_DOCK_WINDOW != 0 static_cast(m_descTreeWidget->widget())->build(); #endif m_dialogDescTree->build(); m_descTreeDialog.ptr->raise(); m_descTreeDialog.ptr->setFocus(); } else { onEditBlocksClicked(true); } } } } else { Dialog::warning(this, "Warning", QString("Cannot read blocks description from stream.\n\nReason:\n%1") .arg(errorMessage.str().c_str()), QMessageBox::Close); } m_listener.clearData(); } if (!m_listener.connected()) { m_listener.closeSocket(); setDisconnected(); } } ////////////////////////////////////////////////////////////////////////// void MainWindow::onBlockStatusChange(profiler::block_id_t _id, profiler::EasyBlockStatus _status) { if (EASY_GLOBALS.connected) m_listener.send(profiler::net::BlockStatusMessage(_id, static_cast(_status))); } void MainWindow::onSelectValue(profiler::thread_id_t _thread_id, uint32_t _value_index, const profiler::ArbitraryValue& _value) { onEditBlocksClicked(true); m_dialogDescTree->dataViewer()->rebuild(_thread_id, _value_index, _value.id()); } void DialogWithGeometry::create(QWidget* content, QWidget* parent) { #ifdef WIN32 const WindowHeader::Buttons buttons = WindowHeader::AllButtons; #else const WindowHeader::Buttons buttons {WindowHeader::MaximizeButton | WindowHeader::CloseButton}; #endif ptr = new Dialog(parent, EASY_DEFAULT_WINDOW_TITLE, content, buttons, QMessageBox::NoButton); ptr->setProperty("stayVisible", true); ptr->setAttribute(Qt::WA_DeleteOnClose, true); } void DialogWithGeometry::saveGeometry() { geometry = ptr->saveGeometry(); } void DialogWithGeometry::restoreGeometry() { if (!geometry.isEmpty()) ptr->restoreGeometry(geometry); } ////////////////////////////////////////////////////////////////////////// SocketListener::SocketListener() : m_receivedSize(0), m_port(0), m_regime(ListenerRegime::Idle) { m_bInterrupt = ATOMIC_VAR_INIT(false); m_bConnected = ATOMIC_VAR_INIT(false); m_bStopReceive = ATOMIC_VAR_INIT(false); m_bFrameTimeReady = ATOMIC_VAR_INIT(false); m_bCaptureReady = ATOMIC_VAR_INIT(false); m_frameMax = ATOMIC_VAR_INIT(0); m_frameAvg = ATOMIC_VAR_INIT(0); } SocketListener::~SocketListener() { m_bInterrupt.store(true, std::memory_order_release); if (m_thread.joinable()) m_thread.join(); } bool SocketListener::connected() const { return m_bConnected.load(std::memory_order_acquire); } bool SocketListener::captured() const { return m_bCaptureReady.load(std::memory_order_acquire); } ListenerRegime SocketListener::regime() const { return m_regime; } uint64_t SocketListener::size() const { return m_receivedSize; } std::stringstream& SocketListener::data() { return m_receivedData; } const std::string& SocketListener::address() const { return m_address; } uint16_t SocketListener::port() const { return m_port; } void SocketListener::clearData() { clear_stream(m_receivedData); m_receivedSize = 0; } void SocketListener::disconnect() { if (connected()) { m_bInterrupt.store(true, std::memory_order_release); if (m_thread.joinable()) m_thread.join(); m_bConnected.store(false, std::memory_order_release); m_bInterrupt.store(false, std::memory_order_release); m_bCaptureReady.store(false, std::memory_order_release); m_bStopReceive.store(false, std::memory_order_release); } m_address.clear(); m_port = 0; closeSocket(); } void SocketListener::closeSocket() { m_easySocket.flush(); m_easySocket.init(); } bool SocketListener::connect(const char* _ipaddress, uint16_t _port, profiler::net::EasyProfilerStatus& _reply, bool _disconnectFirst) { if (connected()) { m_bInterrupt.store(true, std::memory_order_release); if (m_thread.joinable()) m_thread.join(); m_bConnected.store(false, std::memory_order_release); m_bInterrupt.store(false, std::memory_order_release); m_bCaptureReady.store(false, std::memory_order_release); m_bStopReceive.store(false, std::memory_order_release); } m_address.clear(); m_port = 0; if (_disconnectFirst) closeSocket(); int res = m_easySocket.setAddress(_ipaddress, _port); res = m_easySocket.connect(); const bool isConnected = res == 0; if (isConnected) { static const size_t buffer_size = sizeof(profiler::net::EasyProfilerStatus) << 1; char buffer[buffer_size] = {}; int bytes = 0; while (true) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) return false; bytes = 0; continue; } break; } if (bytes == 0) { m_address = _ipaddress; m_port = _port; m_bConnected.store(isConnected, std::memory_order_release); return isConnected; } size_t seek = bytes; while (seek < sizeof(profiler::net::EasyProfilerStatus)) { bytes = m_easySocket.receive(buffer + seek, buffer_size - seek); if (bytes == -1) { if (m_easySocket.isDisconnected()) return false; break; } seek += bytes; } auto message = reinterpret_cast(buffer); if (message->isEasyNetMessage() && message->type == profiler::net::MessageType::Connection_Accepted) _reply = *message; m_address = _ipaddress; m_port = _port; } m_bConnected.store(isConnected, std::memory_order_release); return isConnected; } bool SocketListener::reconnect(const char* _ipaddress, uint16_t _port, profiler::net::EasyProfilerStatus& _reply) { return connect(_ipaddress, _port, _reply, true); } bool SocketListener::startCapture() { //if (m_thread.joinable()) //{ // m_bInterrupt.store(true, std::memory_order_release); // m_thread.join(); // m_bInterrupt.store(false, std::memory_order_release); //} clearData(); profiler::net::Message request(profiler::net::MessageType::Request_Start_Capture); m_easySocket.send(&request, sizeof(request)); if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); return false; } m_regime = ListenerRegime::Capture; m_bCaptureReady.store(false, std::memory_order_release); //m_thread = std::thread(&SocketListener::listenCapture, this); return true; } void SocketListener::stopCapture() { //if (!m_thread.joinable() || m_regime != ListenerRegime::Capture) // return; if (m_regime != ListenerRegime::Capture) return; //m_bStopReceive.store(true, std::memory_order_release); profiler::net::Message request(profiler::net::MessageType::Request_Stop_Capture); m_easySocket.send(&request, sizeof(request)); //m_thread.join(); if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); m_bStopReceive.store(false, std::memory_order_release); m_regime = ListenerRegime::Idle; m_bCaptureReady.store(true, std::memory_order_release); return; } m_regime = ListenerRegime::Capture_Receive; if (m_thread.joinable()) { m_bInterrupt.store(true, std::memory_order_release); m_thread.join(); m_bInterrupt.store(false, std::memory_order_release); } m_thread = std::thread(&SocketListener::listenCapture, this); //m_regime = ListenerRegime::Idle; //m_bStopReceive.store(false, std::memory_order_release); } void SocketListener::finalizeCapture() { if (m_thread.joinable()) { m_bInterrupt.store(true, std::memory_order_release); m_thread.join(); m_bInterrupt.store(false, std::memory_order_release); } m_regime = ListenerRegime::Idle; m_bCaptureReady.store(false, std::memory_order_release); m_bStopReceive.store(false, std::memory_order_release); } void SocketListener::requestBlocksDescription() { if (m_thread.joinable()) { m_bInterrupt.store(true, std::memory_order_release); m_thread.join(); m_bInterrupt.store(false, std::memory_order_release); } clearData(); profiler::net::Message request(profiler::net::MessageType::Request_Blocks_Description); m_easySocket.send(&request, sizeof(request)); if(m_easySocket.isDisconnected() ){ m_bConnected.store(false, std::memory_order_release); } m_regime = ListenerRegime::Descriptors; listenDescription(); m_regime = ListenerRegime::Idle; } bool SocketListener::frameTime(uint32_t& _maxTime, uint32_t& _avgTime) { if (m_bFrameTimeReady.exchange(false, std::memory_order_acquire)) { _maxTime = m_frameMax.load(std::memory_order_acquire); _avgTime = m_frameAvg.load(std::memory_order_acquire); return true; } return false; } bool SocketListener::requestFrameTime() { if (m_regime != ListenerRegime::Idle && m_regime != ListenerRegime::Capture) return false; if (m_thread.joinable()) { m_bInterrupt.store(true, std::memory_order_release); m_thread.join(); m_bInterrupt.store(false, std::memory_order_release); } profiler::net::Message request(profiler::net::MessageType::Request_MainThread_FPS); m_easySocket.send(&request, sizeof(request)); if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); return false; } m_bFrameTimeReady.store(false, std::memory_order_release); m_thread = std::thread(&SocketListener::listenFrameTime, this); return true; } ////////////////////////////////////////////////////////////////////////// void SocketListener::listenCapture() { EASY_STATIC_CONSTEXPR int buffer_size = 8 * 1024 * 1024; char* buffer = new char[buffer_size]; int seek = 0, bytes = 0; auto timeBegin = std::chrono::system_clock::now(); bool isListen = true, disconnected = false; while (isListen && !m_bInterrupt.load(std::memory_order_acquire)) { if (m_bStopReceive.load(std::memory_order_acquire)) { profiler::net::Message request(profiler::net::MessageType::Request_Stop_Capture); m_easySocket.send(&request, sizeof(request)); m_bStopReceive.store(false, std::memory_order_release); } if ((bytes - seek) == 0) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); isListen = false; disconnected = true; } seek = 0; bytes = 0; continue; } seek = 0; } if (bytes == 0) { isListen = false; break; } char* buf = buffer + seek; if (bytes > 0) { auto message = reinterpret_cast(buf); if (!message->isEasyNetMessage()) continue; switch (message->type) { case profiler::net::MessageType::Connection_Accepted: { qInfo() << "Receive MessageType::Connection_Accepted"; //m_easySocket.send(&request, sizeof(request)); seek += sizeof(profiler::net::Message); break; } case profiler::net::MessageType::Reply_Capturing_Started: { qInfo() << "Receive MessageType::Reply_Capturing_Started"; seek += sizeof(profiler::net::Message); break; } case profiler::net::MessageType::Reply_Blocks_End: { qInfo() << "Receive MessageType::Reply_Blocks_End"; seek += sizeof(profiler::net::Message); const auto dt = std::chrono::duration_cast(std::chrono::system_clock::now() - timeBegin); const auto bytesNumber = m_receivedData.str().size(); qInfo() << "recieved " << bytesNumber << " bytes, " << dt.count() << " ms, average speed = " << double(bytesNumber) * 1e3 / double(dt.count()) / 1024. << " kBytes/sec"; seek = 0; bytes = 0; isListen = false; break; } case profiler::net::MessageType::Reply_Blocks: { qInfo() << "Receive MessageType::Reply_Blocks"; seek += sizeof(profiler::net::DataMessage); auto dm = (profiler::net::DataMessage*)message; timeBegin = std::chrono::system_clock::now(); int neededSize = dm->size; buf = buffer + seek; auto bytesNumber = std::min((int)dm->size, bytes - seek); m_receivedSize += bytesNumber; m_receivedData.write(buf, bytesNumber); neededSize -= bytesNumber; if (neededSize == 0) seek += bytesNumber; else { seek = 0; bytes = 0; } int loaded = 0; while (neededSize > 0) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); isListen = false; disconnected = true; neededSize = 0; } break; } buf = buffer; int toWrite = std::min(bytes, neededSize); m_receivedSize += toWrite; m_receivedData.write(buf, toWrite); neededSize -= toWrite; loaded += toWrite; seek = toWrite; } if (m_bStopReceive.load(std::memory_order_acquire)) { profiler::net::Message request(profiler::net::MessageType::Request_Stop_Capture); m_easySocket.send(&request, sizeof(request)); m_bStopReceive.store(false, std::memory_order_release); } break; } default: //qInfo() << "Receive unknown " << message->type; break; } } } if (disconnected) clearData(); delete [] buffer; m_bCaptureReady.store(true, std::memory_order_release); } void SocketListener::listenDescription() { EASY_STATIC_CONSTEXPR int buffer_size = 8 * 1024 * 1024; char* buffer = new char[buffer_size]; int seek = 0, bytes = 0; bool isListen = true, disconnected = false; while (isListen && !m_bInterrupt.load(std::memory_order_acquire)) { if ((bytes - seek) == 0) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); isListen = false; disconnected = true; } seek = 0; bytes = 0; continue; } seek = 0; } if (bytes == 0) { isListen = false; break; } char* buf = buffer + seek; if (bytes > 0) { auto message = reinterpret_cast(buf); if (!message->isEasyNetMessage()) continue; switch (message->type) { case profiler::net::MessageType::Connection_Accepted: { qInfo() << "Receive MessageType::Connection_Accepted"; seek += sizeof(profiler::net::Message); break; } case profiler::net::MessageType::Reply_Blocks_Description_End: { qInfo() << "Receive MessageType::Reply_Blocks_Description_End"; seek += sizeof(profiler::net::Message); seek = 0; bytes = 0; isListen = false; break; } case profiler::net::MessageType::Reply_Blocks_Description: { qInfo() << "Receive MessageType::Reply_Blocks_Description"; seek += sizeof(profiler::net::DataMessage); auto dm = (profiler::net::DataMessage*)message; int neededSize = dm->size; buf = buffer + seek; auto bytesNumber = std::min((int)dm->size, bytes - seek); m_receivedSize += bytesNumber; m_receivedData.write(buf, bytesNumber); neededSize -= bytesNumber; if (neededSize == 0) seek += bytesNumber; else{ seek = 0; bytes = 0; } int loaded = 0; while (neededSize > 0) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); isListen = false; disconnected = true; neededSize = 0; } break; } buf = buffer; int toWrite = std::min(bytes, neededSize); m_receivedSize += toWrite; m_receivedData.write(buf, toWrite); neededSize -= toWrite; loaded += toWrite; seek = toWrite; } break; } default: break; } } } if (disconnected) clearData(); delete[] buffer; } void SocketListener::listenFrameTime() { EASY_STATIC_CONSTEXPR size_t buffer_size = sizeof(profiler::net::TimestampMessage) << 2; char buffer[buffer_size] = {}; int seek = 0, bytes = 0; bool isListen = true; while (isListen && !m_bInterrupt.load(std::memory_order_acquire)) { if ((bytes - seek) == 0) { bytes = m_easySocket.receive(buffer, buffer_size); if (bytes == -1) { if (m_easySocket.isDisconnected()) { m_bConnected.store(false, std::memory_order_release); isListen = false; } seek = 0; bytes = 0; continue; } seek = 0; } if (bytes == 0) { isListen = false; break; } char* buf = buffer + seek; if (bytes > 0) { auto message = reinterpret_cast(buf); if (!message->isEasyNetMessage()) continue; switch (message->type) { case profiler::net::MessageType::Connection_Accepted: case profiler::net::MessageType::Reply_Capturing_Started: { seek += sizeof(profiler::net::Message); break; } case profiler::net::MessageType::Reply_MainThread_FPS: { //qInfo() << "Receive MessageType::Reply_MainThread_FPS"; seek += sizeof(profiler::net::TimestampMessage); if (seek <= buffer_size) { auto timestampMessage = (profiler::net::TimestampMessage*)message; m_frameMax.store(timestampMessage->maxValue, std::memory_order_release); m_frameAvg.store(timestampMessage->avgValue, std::memory_order_release); m_bFrameTimeReady.store(true, std::memory_order_release); } isListen = false; break; } default: break; } } } } //////////////////////////////////////////////////////////////////////////