renderdoc/qrenderdoc/Code/CaptureContext.cpp

/******************************************************************************
 * The MIT License (MIT)
 *
 * Copyright (c) 2019-2021 Baldur Karlsson
 *
 * 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.
 ******************************************************************************/

#include "CaptureContext.h"
#include <QApplication>
#include <QDir>
#include <QDirIterator>
#include <QElapsedTimer>
#include <QFileInfo>
#include <QFileSystemWatcher>
#include <QLabel>
#include <QMenu>
#include <QMessageBox>
#include <QMetaObject>
#include <QProgressDialog>
#include <QRegularExpression>
#include <QTimer>
#include "Code/Resources.h"
#include "Code/pyrenderdoc/PythonContext.h"
#include "Windows/APIInspector.h"
#include "Windows/BufferViewer.h"
#include "Windows/CommentView.h"
#include "Windows/ConstantBufferPreviewer.h"
#include "Windows/DebugMessageView.h"
#include "Windows/Dialogs/CaptureDialog.h"
#include "Windows/Dialogs/LiveCapture.h"
#include "Windows/Dialogs/SettingsDialog.h"
#include "Windows/EventBrowser.h"
#include "Windows/LogView.h"
#include "Windows/MainWindow.h"
#include "Windows/PerformanceCounterViewer.h"
#include "Windows/PipelineState/PipelineStateViewer.h"
#include "Windows/PixelHistoryView.h"
#include "Windows/PythonShell.h"
#include "Windows/ResourceInspector.h"
#include "Windows/ShaderViewer.h"
#include "Windows/StatisticsViewer.h"
#include "Windows/TextureViewer.h"
#include "Windows/TimelineBar.h"
#include "MiniQtHelper.h"
#include "QRDUtils.h"
#include "RGPInterop.h"
#include "version.h"

#include "pipestate.inl"

CaptureContext::CaptureContext(PersistantConfig &cfg) : m_Config(cfg)
{
  RENDERDOC_PROFILEFUNCTION();

  m_CaptureLoaded = false;
  m_LoadInProgress = false;

  RENDERDOC_RegisterMemoryRegion(this, sizeof(CaptureContext));

  memset(&m_APIProps, 0, sizeof(m_APIProps));

  m_CurD3D11PipelineState = NULL;
  m_CurD3D12PipelineState = NULL;
  m_CurGLPipelineState = NULL;
  m_CurVulkanPipelineState = NULL;
  m_CurPipelineState = &m_DummyPipelineState;

  m_Drawcalls = &m_EmptyDraws;

  m_StructuredFile = &m_DummySDFile;

  m_QtHelper = new MiniQtHelper(*this);

  qApp->setApplicationVersion(QString::fromLatin1(RENDERDOC_GetVersionString()));

  m_Icon = new QIcon();
  m_Icon->addFile(QStringLiteral(":/logo.svg"), QSize(), QIcon::Normal, QIcon::Off);

  m_MainWindow = new MainWindow(*this);

  m_MainWindow->LoadInitialLayout();

  {
    QDir dir(ConfigFilePath("extensions"));

    if(!dir.exists())
      dir.mkpath(dir.absolutePath());
  }

  rdcarray<ExtensionMetadata> exts = CaptureContext::GetInstalledExtensions();

  for(const ExtensionMetadata &e : exts)
  {
    if(cfg.AlwaysLoad_Extensions.contains(e.package))
    {
      qInfo() << "Automatically loading extension" << QString(e.package);
      LoadExtension(e.package);
    }
  }
}

CaptureContext::~CaptureContext()
{
  delete m_QtHelper;
  RENDERDOC_UnregisterMemoryRegion(this);
  delete m_Icon;
  m_Replay.CloseThread();
  delete m_MainWindow;
}

void CaptureContext::Begin(QString paramFilename, QString remoteHost, uint32_t remoteIdent, bool temp)
{
  m_MainWindow->show();

  if(remoteIdent != 0)
  {
    m_MainWindow->ShowLiveCapture(
        new LiveCapture(*this, remoteHost, remoteHost, remoteIdent, m_MainWindow, m_MainWindow));
  }

  if(!paramFilename.isEmpty())
  {
    QFileInfo checkFile(paramFilename);

    if(checkFile.exists() && checkFile.isFile())
    {
      m_MainWindow->LoadFromFilename(paramFilename, temp);
      if(temp)
        m_MainWindow->takeCaptureOwnership();
    }
  }
}

bool CaptureContext::isRunning()
{
  return m_MainWindow && m_MainWindow->isVisible();
}

rdcstr CaptureContext::TempCaptureFilename(const rdcstr &appname)
{
  QString folder = Config().TemporaryCaptureDirectory;

  QDir dir(folder);

  if(folder.isEmpty() || !dir.exists())
  {
    dir = QDir(QDir::tempPath());

    dir.mkdir(lit("RenderDoc"));

    dir = QDir(dir.absoluteFilePath(lit("RenderDoc")));
  }

  return dir.absoluteFilePath(
      QFormatStr("%1_%2.rdc")
          .arg(appname)
          .arg(QDateTime::currentDateTimeUtc().toString(lit("yyyy.MM.dd_HH.mm.ss"))));
}

rdcarray<ExtensionMetadata> CaptureContext::GetInstalledExtensions()
{
  rdcarray<ExtensionMetadata> ret;

  for(QString extensionFolder : PythonContext::GetApplicationExtensionsPaths())
  {
    QDirIterator it(extensionFolder, QDirIterator::Subdirectories);

    while(it.hasNext())
    {
      QFileInfo fileinfo(it.next());

      if(fileinfo.fileName().toLower() == lit("extension.json"))
      {
        QFile f(fileinfo.absoluteFilePath());

        QString package = fileinfo.absolutePath()
                              .replace(extensionFolder, QString())
                              .replace(QLatin1Char('/'), QLatin1Char('.'));

        while(package[0] == QLatin1Char('.'))
          package.remove(0, 1);

        while(package[package.size() - 1] == QLatin1Char('.'))
          package.remove(package.size() - 1, 1);

        if(f.exists() && f.open(QIODevice::ReadOnly | QIODevice::Text))
        {
          QVariantMap json = JSONToVariant(QString::fromUtf8(f.readAll()));

          if(json.empty())
          {
            qCritical() << fileinfo.absoluteFilePath() << "is corrupt, cannot parse json";
            continue;
          }

          ExtensionMetadata ext;

          ext.package = package;
          ext.filePath = fileinfo.absolutePath();

          if(json.contains(lit("name")))
          {
            ext.name = json[lit("name")].toString();
          }
          else
          {
            qCritical() << "Extension" << package << "is corrupt, no name entry";
            continue;
          }

          ext.extensionAPI = 1;
          if(json.contains(lit("extension_api")))
          {
            ext.extensionAPI = json[lit("extension_api")].toInt();
          }
          else
          {
            qCritical() << "Extension" << QString(ext.name) << "is corrupt, no api version entry";
            continue;
          }

          if(json.contains(lit("version")))
          {
            ext.version = json[lit("version")].toString();
          }
          else
          {
            qCritical() << "Extension" << QString(ext.name) << "is corrupt, no version entry";
            continue;
          }

          if(json.contains(lit("description")))
          {
            ext.description = json[lit("description")].toString();
          }
          else
          {
            qCritical() << "Extension" << QString(ext.name) << "is corrupt, no description entry";
            continue;
          }

          if(json.contains(lit("author")))
          {
            ext.author = json[lit("author")].toString();
          }
          else
          {
            qCritical() << "Extension" << QString(ext.name) << "is corrupt, no author entry";
            continue;
          }

          if(json.contains(lit("url")))
          {
            ext.extensionURL = json[lit("url")].toString();
          }
          else
          {
            qCritical() << "Extension" << QString(ext.name) << "is corrupt, no URL entry";
            continue;
          }

          if(json.contains(lit("minimum_renderdoc")))
          {
            QString minVer = json[lit("minimum_renderdoc")].toString();

            QRegularExpression re(lit("([0-9]*).([0-9]*)"));
            QRegularExpressionMatch match = re.match(minVer);

            bool ok = false, badversion = false;

            if(match.hasMatch())
            {
              int major = match.captured(1).toInt(&ok);

              if(ok)
              {
                int minor = match.captured(2).toInt(&ok);

                // if it needs a higher major version, we can't load it
                if(major > RENDERDOC_VERSION_MAJOR)
                  badversion = true;

                // if major versions are the same and it needs a higher minor, we can't load it
                // either
                if(major == RENDERDOC_VERSION_MAJOR && minor > RENDERDOC_VERSION_MINOR)
                  badversion = true;
              }
            }

            if(!ok)
            {
              qCritical() << "Extension" << QString(ext.name)
                          << "is corrupt, minimum_renderdoc doesn't match a MAJOR.MINOR version";
              continue;
            }

            if(badversion)
            {
              qInfo() << "Extension" << QString(ext.name) << "declares minimum_renderdoc" << minVer
                      << "so skipping";
              continue;
            }
          }

          ret.push_back(ext);
        }
      }
    }
  }

  return ret;
}

bool CaptureContext::IsExtensionLoaded(rdcstr name)
{
  return m_ExtensionObjects.contains(name);
}

bool CaptureContext::LoadExtension(rdcstr name)
{
  bool ret = false;

  PythonContext::ProcessExtensionWork([this, &ret, name]() {
    for(QObject *o : m_ExtensionObjects[name])
      delete o;

    m_ExtensionObjects[name].clear();

    ret = PythonContext::LoadExtension(*this, name);

    if(ret)
    {
      m_ExtensionObjects[name].swap(m_PendingExtensionObjects);
    }
    else
    {
      m_ExtensionObjects.remove(name);

      for(QObject *o : m_PendingExtensionObjects)
        delete o;

      m_PendingExtensionObjects.clear();
    }
  });

  for(QAction *a : m_MainWindow->GetMenuActions())
    CleanMenu(a);

  m_RegisteredMenuItems.removeAll(NULL);

  return ret;
}

void CaptureContext::RegisterWindowMenu(WindowMenu base, const rdcarray<rdcstr> &submenus,
                                        ExtensionCallback callback)
{
  if(base == WindowMenu::Unknown)
  {
    qCritical() << "Can't register menu for WindowMenu::Unknown";
    return;
  }

  if(submenus.isEmpty())
  {
    qCritical() << "Empty list of submenus";
    return;
  }

  if(base == WindowMenu::NewMenu && submenus.count() == 1)
  {
    qCritical() << "Need at least two items in submenus for WindowMenu::NewMenu";
    return;
  }

  QMenu *menu = m_MainWindow->GetBaseMenu(base, submenus[0]);

  if(!menu)
  {
    qCritical() << "Couldn't get base menu";
    return;
  }

  std::function<void()> slotcallback = [this, callback]() { callback(this, {}); };

  // if it's a new menu, GetBaseMenu already did the work, so skip the 0th element of submenus
  if(base == WindowMenu::NewMenu)
  {
    rdcarray<rdcstr> items = submenus;
    items.erase(0);
    AddSortedMenuItem(menu, false, items, slotcallback);
  }
  else
  {
    AddSortedMenuItem(menu, false, submenus, slotcallback);
  }
}

void CaptureContext::RegisterPanelMenu(PanelMenu base, const rdcarray<rdcstr> &submenus,
                                       ExtensionCallback callback)
{
  if(base == PanelMenu::Unknown)
  {
    qCritical() << "Can't register menu for PanelMenu::Unknown";
    return;
  }

  RegisteredMenuItem *item = new RegisteredMenuItem();
  item->panel = base;
  item->submenus = submenus;
  item->callback = callback;
  m_RegisteredMenuItems.push_back(item);
  m_PendingExtensionObjects.push_back(item);
}

void CaptureContext::RegisterContextMenu(ContextMenu base, const rdcarray<rdcstr> &submenus,
                                         ExtensionCallback callback)
{
  if(base == ContextMenu::Unknown)
  {
    qCritical() << "Can't register menu for ContextMenu::Unknown";
    return;
  }

  RegisteredMenuItem *item = new RegisteredMenuItem();
  item->context = base;
  item->submenus = submenus;
  item->callback = callback;
  m_RegisteredMenuItems.push_back(item);
  m_PendingExtensionObjects.push_back(item);
}

void CaptureContext::MenuDisplaying(ContextMenu contextMenu, QMenu *menu,
                                    const ExtensionCallbackData &data)
{
  ContextMenu contextMenuAlt = contextMenu;

  switch(contextMenu)
  {
    case ContextMenu::MeshPreview_GSOutVertex:
    case ContextMenu::MeshPreview_VSInVertex:
    case ContextMenu::MeshPreview_VSOutVertex:
      contextMenuAlt = ContextMenu::MeshPreview_Vertex;
      break;
    case ContextMenu::TextureViewer_InputThumbnail:
    case ContextMenu::TextureViewer_OutputThumbnail:
      contextMenuAlt = ContextMenu::TextureViewer_Thumbnail;
      break;
    default: break;
  }

  for(RegisteredMenuItem *item : m_RegisteredMenuItems)
  {
    if(item->context == contextMenu || item->context == contextMenuAlt)
    {
      AddSortedMenuItem(menu, true, item->submenus, [this, item, data]() {
        rdcarray<rdcpair<rdcstr, PyObject *>> args;

        PythonContext::ConvertPyArgs(data, args);

        item->callback(this, args);

        PythonContext::FreePyArgs(args);
      });
    }
  }
}

void CaptureContext::MenuDisplaying(PanelMenu panelMenu, QMenu *menu, QWidget *extensionButton,
                                    const ExtensionCallbackData &data)
{
  for(RegisteredMenuItem *item : m_RegisteredMenuItems)
  {
    if(item->panel == panelMenu)
    {
      AddSortedMenuItem(menu, false, item->submenus, [this, item, data]() {
        rdcarray<rdcpair<rdcstr, PyObject *>> args;

        PythonContext::ConvertPyArgs(data, args);

        item->callback(this, args);

        PythonContext::FreePyArgs(args);
      });
    }
  }

  QAction *emptyAction = new QAction(tr("No extension commands configured"), menu);

  if(menu->isEmpty())
  {
    menu->addAction(emptyAction);
    QObject::connect(emptyAction, &QAction::triggered,
                     [this]() { m_MainWindow->showExtensionManager(); });
  }
}

IMiniQtHelper &CaptureContext::GetMiniQtHelper()
{
  return *m_QtHelper;
}

void CaptureContext::MessageDialog(const rdcstr &text, const rdcstr &title)
{
  RDDialog::information(m_MainWindow, title, text);
}

void CaptureContext::ErrorDialog(const rdcstr &text, const rdcstr &title)
{
  RDDialog::critical(m_MainWindow, title, text);
}

DialogButton CaptureContext::QuestionDialog(const rdcstr &text, const rdcarray<DialogButton> &options,
                                            const rdcstr &title)
{
  QMessageBox::StandardButtons buttons;
  for(DialogButton b : options)
    buttons |= (QMessageBox::StandardButton)b;
  return (DialogButton)RDDialog::question(m_MainWindow, title, text, buttons);
}

rdcstr CaptureContext::OpenFileName(const rdcstr &caption, const rdcstr &dir, const rdcstr &filter)
{
  return RDDialog::getOpenFileName(m_MainWindow, caption, dir, filter);
}

rdcstr CaptureContext::OpenDirectoryName(const rdcstr &caption, const rdcstr &dir)
{
  return RDDialog::getExistingDirectory(m_MainWindow, caption, dir);
}

rdcstr CaptureContext::SaveFileName(const rdcstr &caption, const rdcstr &dir, const rdcstr &filter)
{
  return RDDialog::getSaveFileName(m_MainWindow, caption, dir, filter);
}

void CaptureContext::AddSortedMenuItem(QMenu *menu, bool rootMenu, const rdcarray<rdcstr> &items,
                                       std::function<void()> callback)
{
  QAction *beforeAction = NULL;
  bool addIcon = rootMenu;

  // if we're inserting into a pre-existing menu, try to find an __examples__ action which tells us
  // where
  // to be inserting
  {
    QList<QAction *> children = menu->actions();
    int idx = 0;
    for(; idx < children.count(); idx++)
    {
      if(children[idx]->text() == lit("__extensions__"))
        break;
    }

    // if we found it, set beforeAction
    if(idx < children.count())
    {
      // search back to find the right place alphabetically to place this, if there are existing
      // menus

      for(; idx > 0;)
      {
        // if the previous child is a separator, break, there are no more previous menus
        if(children[idx - 1]->isSeparator())
          break;

        // if we should be sorted before the previous child, move backwards
        if(children[idx - 1]->text() > items[0])
        {
          idx--;
          continue;
        }

        // if we found the right place, break
        break;
      }

      beforeAction = children[idx];
      addIcon = true;
    }
  }

  for(int i = 0; i < items.count() - 1; i++)
  {
    QList<QAction *> children = menu->actions();

    bool found = false;

    // see if this submenu already exists, if so just iterate down to it
    for(QAction *a : children)
    {
      if(a->text() == items[i])
      {
        menu = a->menu();
        found = true;
        break;
      }
    }

    if(found)
    {
      addIcon = false;
      beforeAction = NULL;
      continue;
    }

    // create the new submenu
    QMenu *submenu = new QMenu(items[i], m_MainWindow);

    // if we don't have a beforeAction, find where to insert this to keep alphabetical order.
    if(!beforeAction)
    {
      for(QAction *a : children)
      {
        if(submenu->menuAction()->text() < a->text())
        {
          beforeAction = a;
          break;
        }
      }
    }

    if(beforeAction)
      menu->insertMenu(beforeAction, submenu);
    else
      menu->addMenu(submenu);

    if(addIcon)
      submenu->setIcon(Icons::plugin());

    addIcon = false;

    beforeAction = NULL;

    menu = submenu;
  }

  QAction *action = new QAction(m_MainWindow);

  action->setText(items.back());

  QObject::connect(action, &QAction::triggered, callback);

  if(!beforeAction)
  {
    QList<QAction *> children = menu->actions();

    for(QAction *a : children)
    {
      if(action->text() < a->text())
      {
        beforeAction = a;
        break;
      }
    }
  }

  if(beforeAction)
    menu->insertAction(beforeAction, action);
  else
    menu->addAction(action);

  if(addIcon)
    action->setIcon(Icons::plugin());

  m_PendingExtensionObjects.push_back(action);
}

void CaptureContext::CleanMenu(QAction *action)
{
  QMenu *menu = action->menu();

  // if this isn't a menu, nothing to do - return
  if(!menu)
    return;

  // first clean all our children
  for(QAction *a : menu->actions())
    CleanMenu(a);

  // if we no longer have any children in this menu, delete it.
  if(menu->actions().isEmpty())
    delete menu;
}

void CaptureContext::LoadCapture(const rdcstr &captureFile, const ReplayOptions &opts,
                                 const rdcstr &origFilename, bool temporary, bool local)
{
  RENDERDOC_PROFILEFUNCTION();

  CloseCapture();

  PointerTypeRegistry::Init();

  m_LoadInProgress = true;

  if(local)
  {
    m_Config.CrashReport_LastOpenedCapture = origFilename;
    m_Config.Save();
  }

  bool newCapture = (!temporary && !Config().RecentCaptureFiles.contains(origFilename));

  LambdaThread *thread =
      new LambdaThread([this, captureFile, opts, origFilename, temporary, local]() {
        LoadCaptureThreaded(captureFile, opts, origFilename, temporary, local);
      });
  thread->setName(lit("LoadCapture"));
  thread->selfDelete(true);
  thread->start();

  QElapsedTimer loadTimer;
  loadTimer.start();

  ShowProgressDialog(m_MainWindow, tr("Loading Capture: %1").arg(QFileInfo(origFilename).fileName()),
                     [this]() { return !m_LoadInProgress; },
                     [this]() { return UpdateLoadProgress(); });

  if(local)
  {
    m_Watcher = new QFileSystemWatcher({captureFile}, GetMainWindow()->Widget());

    QObject::connect(m_Watcher, &QFileSystemWatcher::fileChanged, [this]() {
      Replay().AsyncInvoke([this](IReplayController *r) {
        r->FileChanged();
        r->SetFrameEvent(m_EventID, true);
        GUIInvoke::call(GetMainWindow()->Widget(), [this]() { RefreshUIStatus({}, true, true); });
      });
    });
  }

#if defined(RELEASE)
  ANALYTIC_ADDAVG(Performance.LoadTime, double(loadTimer.nsecsElapsed() * 1.0e-9));
#endif

  if(m_APIProps.ShaderLinkage)
    ANALYTIC_SET(CaptureFeatures.ShaderLinkage, true);
  if(m_APIProps.YUVTextures)
    ANALYTIC_SET(CaptureFeatures.YUVTextures, true);
  if(m_APIProps.SparseResources)
    ANALYTIC_SET(CaptureFeatures.SparseResources, true);
  if(m_APIProps.MultiGPU)
    ANALYTIC_SET(CaptureFeatures.MultiGPU, true);
  if(m_APIProps.D3D12Bundle)
    ANALYTIC_SET(CaptureFeatures.D3D12Bundle, true);
  if(m_APIProps.DXILShaders)
    ANALYTIC_SET(CaptureFeatures.DXILShaders, true);

  if(m_APIProps.vendor != GPUVendor::Unknown)
  {
    ANALYTIC_ADDUNIQ(GPUVendors, ToQStr(m_APIProps.vendor));
  }

  m_MainWindow->setProgress(-1.0f);

  if(m_CaptureLoaded)
  {
    m_CaptureTemporary = temporary;

    BufferFormatter::Init(m_APIProps.pipelineType);

    m_CaptureMods = CaptureModifications::NoModifications;

    rdcarray<ICaptureViewer *> viewers(m_CaptureViewers);

    // make sure we're on a consistent event before invoking viewer forms
    if(m_LastDrawcall)
      SetEventID(viewers, m_LastDrawcall->eventId, m_LastDrawcall->eventId, true);
    else if(!m_Drawcalls->empty())
      SetEventID(viewers, m_Drawcalls->back().eventId, m_Drawcalls->back().eventId, true);

    GUIInvoke::blockcall(m_MainWindow, [&viewers]() {
      // notify all the registers viewers that a capture has been loaded
      for(ICaptureViewer *viewer : viewers)
      {
        if(viewer)
          viewer->OnCaptureLoaded();
      }
    });

    if(newCapture && m_Notes.contains(lit("comments")) && m_Config.Comments_ShowOnLoad)
    {
      if(!HasCommentView())
        ShowCommentView();
      RaiseDockWindow(GetCommentView()->Widget());
    }

    // refresh the UI without forcing the replay
    SetEventID({}, m_SelectedEventID, m_EventID, false);
  }
}

float CaptureContext::UpdateLoadProgress()
{
  float val = 0.8f * m_LoadProgress + 0.19f * m_PostloadProgress + 0.01f;

  m_MainWindow->setProgress(val);

  return val;
}

void CaptureContext::LoadCaptureThreaded(const QString &captureFile, const ReplayOptions &opts,
                                         const QString &origFilename, bool temporary, bool local)
{
  m_CaptureFile = origFilename;

  m_CaptureLocal = local;

  Config().Save();

  m_LoadProgress = 0.0f;
  m_PostloadProgress = 0.0f;

  // this function call will block until the capture is either loaded, or there's some failure
  m_Replay.OpenCapture(captureFile, opts, [this](float p) { m_LoadProgress = p; });

  // if the renderer isn't running, we hit a failure case so display an error message
  if(!m_Replay.IsRunning())
  {
    QString errmsg = ToQStr(m_Replay.GetCreateStatus());

    QString messageText = tr("%1\nFailed to open capture for replay: %2.\n\n"
                             "Check diagnostic log in Help menu for more details.")
                              .arg(captureFile)
                              .arg(errmsg);

    RDDialog::critical(NULL, tr("Error opening capture"), messageText);

    m_LoadInProgress = false;
    return;
  }

  if(!temporary)
  {
    AddRecentFile(Config().RecentCaptureFiles, origFilename);

    Config().Save();
  }

  m_EventID = 0;

  m_FirstDrawcall = m_LastDrawcall = NULL;

  // fetch initial data like drawcalls, textures and buffers
  m_Replay.BlockInvoke([this](IReplayController *r) {
    if(Config().EventBrowser_AddFake)
      r->AddFakeMarkers();

    m_FrameInfo = r->GetFrameInfo();

    m_APIProps = r->GetAPIProperties();

    m_CustomEncodings = r->GetCustomShaderEncodings();
    m_TargetEncodings = r->GetTargetShaderEncodings();

    m_PostloadProgress = 0.2f;

    m_Drawcalls = &r->GetDrawcalls();

    m_FirstDrawcall = &m_Drawcalls->at(0);
    while(!m_FirstDrawcall->children.empty())
      m_FirstDrawcall = &m_FirstDrawcall->children[0];

    m_LastDrawcall = &m_Drawcalls->back();
    while(!m_LastDrawcall->children.empty())
      m_LastDrawcall = &m_LastDrawcall->children.back();

    m_PostloadProgress = 0.4f;

    m_WinSystems = r->GetSupportedWindowSystems();

#if defined(RENDERDOC_PLATFORM_WIN32)
    m_CurWinSystem = WindowingSystem::Win32;
#elif defined(RENDERDOC_PLATFORM_LINUX)
    m_CurWinSystem = WindowingSystem::Unknown;

    if(QGuiApplication::platformName() == lit("wayland"))
    {
      // if we're using Wayland we must use wayland since we can't get any other surface type
      for(WindowingSystem sys : m_WinSystems)
      {
        if(sys == WindowingSystem::Wayland)
        {
          m_CurWinSystem = WindowingSystem::Wayland;
          m_WaylandDisplay = (wl_display *)AccessWaylandPlatformInterface("display", NULL);
          break;
        }
      }

      if(m_CurWinSystem == WindowingSystem::Unknown)
      {
        RDDialog::critical(NULL, tr("No wayland support"),
                           tr("Replay doesn't support Wayland surfaces - check you compiled this "
                              "build of RenderDoc with Wayland support enabled."));
      }
    }
    else
    {
      m_CurWinSystem = WindowingSystem::Xlib;

      // prefer XCB, if supported
      for(WindowingSystem sys : m_WinSystems)
      {
        if(sys == WindowingSystem::XCB)
        {
          m_CurWinSystem = WindowingSystem::XCB;
          break;
        }
      }

      if(m_CurWinSystem == WindowingSystem::XCB)
        m_XCBConnection = QX11Info::connection();
      else
        m_X11Display = QX11Info::display();
    }

#elif defined(RENDERDOC_PLATFORM_APPLE)
    m_CurWinSystem = WindowingSystem::MacOS;
#elif defined(RENDERDOC_PLATFORM_GGP)
    m_CurWinSystem = WindowingSystem::GGP;
#endif

    m_StructuredFile = &r->GetStructuredFile();

    m_ResourceList = r->GetResources();

    CacheResources();

    m_BufferList = r->GetBuffers();
    for(BufferDescription &b : m_BufferList)
      m_Buffers[b.resourceId] = &b;

    m_PostloadProgress = 0.8f;

    m_TextureList = r->GetTextures();
    for(TextureDescription &t : m_TextureList)
      m_Textures[t.resourceId] = &t;

    m_PostloadProgress = 0.9f;

    m_CurD3D11PipelineState = r->GetD3D11PipelineState();
    m_CurD3D12PipelineState = r->GetD3D12PipelineState();
    m_CurGLPipelineState = r->GetGLPipelineState();
    m_CurVulkanPipelineState = r->GetVulkanPipelineState();
    m_CurPipelineState = &r->GetPipelineState();

    m_UnreadMessageCount = 0;
    AddMessages(m_FrameInfo.debugMessages);

    m_PostloadProgress = 1.0f;
  });

  QThread::msleep(20);

  QDateTime today = QDateTime::currentDateTimeUtc();
  QDateTime compare = today.addDays(-21);

  if(compare > Config().DegradedCapture_LastUpdate && m_APIProps.degraded)
  {
    Config().DegradedCapture_LastUpdate = today;

    RDDialog::critical(
        NULL, tr("Degraded support of capture"),
        tr("%1\nThis capture opened with degraded support - "
           "this could mean missing hardware support caused a fallback to software rendering.\n\n"
           "This warning will not appear every time this happens, "
           "check debug errors/warnings window for more details.")
            .arg(origFilename));
  }

  ICaptureAccess *access = Replay().GetCaptureAccess();

  if(access)
  {
    int idx = access->FindSectionByType(SectionType::ResourceRenames);
    if(idx >= 0)
    {
      bytebuf buf = access->GetSectionContents(idx);
      LoadRenames(QString::fromUtf8((const char *)buf.data(), buf.count()));
    }

    idx = access->FindSectionByType(SectionType::Bookmarks);
    if(idx >= 0)
    {
      bytebuf buf = access->GetSectionContents(idx);
      LoadBookmarks(QString::fromUtf8((const char *)buf.data(), buf.count()));
    }

    idx = access->FindSectionByType(SectionType::Notes);
    if(idx >= 0)
    {
      bytebuf buf = access->GetSectionContents(idx);
      LoadNotes(QString::fromUtf8((const char *)buf.data(), buf.count()));
    }

    idx = access->FindSectionByType(SectionType::EditedShaders);
    if(idx >= 0)
    {
      bytebuf buf = access->GetSectionContents(idx);
      GUIInvoke::call(m_MainWindow, [this, buf]() {
        LoadEdits(QString::fromUtf8((const char *)buf.data(), buf.count()));
      });
    }

    QString driver = access->DriverName();
    if(driver == lit("Image"))
    {
      ANALYTIC_SET(UIFeatures.ImageViewer, true);
    }
    else if(!driver.isEmpty())
    {
      ANALYTIC_ADDUNIQ(APIs, driver);
    }
  }

  m_LoadInProgress = false;
  m_CaptureLoaded = true;
}

void CaptureContext::CacheResources()
{
  m_CustomNameCachedID++;

  m_Resources.clear();

  std::sort(m_ResourceList.begin(), m_ResourceList.end(),
            [this](const ResourceDescription &a, const ResourceDescription &b) {
              return GetResourceNameUnsuffixed(&a) < GetResourceNameUnsuffixed(&b);
            });

  for(ResourceDescription &res : m_ResourceList)
    m_Resources[res.resourceId] = &res;
}

void CaptureContext::RecompressCapture()
{
  QString destFilename = GetCaptureFilename();
  QString tempFilename;

  qint64 oldSize = QFile(destFilename).size();

  ICaptureFile *cap = NULL;
  ICaptureFile *tempCap = NULL;

  bool inplace = false;

  if(IsCaptureTemporary() || !IsCaptureLocal())
  {
    QMessageBox::StandardButton res =
        RDDialog::question(m_MainWindow, tr("Unsaved capture"),
                           tr("To recompress a capture you must save it first. Save this capture?"),
                           QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel);

    if(res == QMessageBox::Cancel || res == QMessageBox::No)
      return;

    destFilename = m_MainWindow->GetSavePath();

    // if it's already local, we'll do the save as part of the recompression convert. If it's
    // remote, we need to copy it first, but we copy it to a temporary so we can do the conversion
    // to the target location

    if(IsCaptureLocal())
    {
      tempFilename = GetCaptureFilename();
    }
    else
    {
      tempFilename = TempCaptureFilename(lit("recompress"));
      Replay().CopyCaptureFromRemote(GetCaptureFilename(), tempFilename, m_MainWindow);

      if(!QFile::exists(tempFilename))
      {
        RDDialog::critical(m_MainWindow, tr("Failed to save capture"),
                           tr("Capture couldn't be saved from remote."));
        return;
      }
    }
  }
  else
  {
    // if we're doing this inplace on an already saved capture, then we need to recompress to a
    // temporary and close/move it afterwards.
    inplace = true;
    destFilename = TempCaptureFilename(lit("recompress"));
  }

  if(IsCaptureLocal())
  {
    // for local files we already have a handle. We'll reuse it, then re-open
    cap = m_Replay.GetCaptureFile();
  }
  else
  {
    // for remote files we open a new short-lived handle on the temporary file
    tempCap = cap = RENDERDOC_OpenCaptureFile();
    cap->OpenFile(tempFilename, "rdc", NULL);
  }

  if(!cap)
  {
    RDDialog::critical(m_MainWindow, tr("Unexpected missing handle"),
                       tr("Couldn't get open handle to file for recompression."));
    return;
  }

  int index = cap->FindSectionByType(SectionType::FrameCapture);
  SectionProperties props = cap->GetSectionProperties(index);

  if(props.flags & SectionFlags::ZstdCompressed)
  {
    RDDialog::information(m_MainWindow, tr("Capture already compressed"),
                          tr("This capture is already compressed as much as is possible."));

    if(tempCap)
      tempCap->Shutdown();
    if(!tempFilename.isEmpty())
    {
      m_MainWindow->RemoveRecentCapture(tempFilename);
      QFile::remove(tempFilename);
    }
    return;
  }

  // convert from the currently open cap to the destination
  float progress = 0.0f;

  LambdaThread *th = new LambdaThread([cap, destFilename, &progress]() {
    cap->Convert(destFilename, "rdc", NULL, [&progress](float p) { progress = p; });
  });
  th->setName(lit("RecompressCapture"));
  th->start();
  // wait a few ms before popping up a progress bar
  th->wait(500);
  if(th->isRunning())
  {
    ShowProgressDialog(m_MainWindow, tr("Recompressing file."), [th]() { return !th->isRunning(); },
                       [&progress]() { return progress; });
  }
  th->deleteLater();

  if(inplace)
  {
    // if we're recompressing "in place", we need to close our capture, move the temporary over
    // the original, then re-open.

    // this releases the hold over the real desired location.
    cap->OpenFile("", "", NULL);

    // now remove the old capture
    QFile::remove(GetCaptureFilename());

    // move the recompressed one over
    QFile::rename(destFilename, GetCaptureFilename());

    // and re-open
    cap->OpenFile(GetCaptureFilename(), "rdc", NULL);
  }
  else
  {
    // we've converted into the desired location. We don't have to do anything else but mark our
    // new locally saved non-temporary status.

    m_CaptureFile = destFilename;
    m_CaptureLocal = true;
    m_CaptureTemporary = false;

    // open the saved capture file. This will let us remove the old file too
    m_Replay.ReopenCaptureFile(m_CaptureFile);

    m_CaptureMods = CaptureModifications::All;

    SaveChanges();
  }

  // close any temporary resources
  if(tempCap)
    tempCap->Shutdown();
  if(!tempFilename.isEmpty())
  {
    m_MainWindow->RemoveRecentCapture(tempFilename);
    QFile::remove(tempFilename);
  }

  qint64 newSize = QFile(m_CaptureFile).size();

  RDDialog::information(
      m_MainWindow, tr("Capture recompressed"),
      tr("Compression successful, capture is %1% of the original size: %2 MB -> %3 MB")
          .arg(double(newSize * 100) / double(oldSize), 0, 'f', 2)
          .arg(double(oldSize) / (1024.0 * 1024.0), 0, 'f', 1)
          .arg(double(newSize) / (1024.0 * 1024.0), 0, 'f', 1));
}

bool CaptureContext::SaveCaptureTo(const rdcstr &captureFile)
{
  bool success = false;
  QString error;

  if(IsCaptureLocal())
  {
    if(QFileInfo(GetCaptureFilename()).exists())
    {
      if(GetCaptureFilename() == captureFile)
      {
        success = true;
      }
      else
      {
        ICaptureFile *capFile = m_Replay.GetCaptureFile();

        if(capFile)
        {
          // this will overwrite
          success = capFile->CopyFileTo(captureFile);
        }
        else
        {
          // QFile::copy won't overwrite, so remove the destination first (the save dialog already
          // prompted for overwrite)
          QFile::remove(captureFile);
          success = QFile::copy(GetCaptureFilename(), captureFile);
        }

        error = tr("Couldn't save to %1").arg(captureFile);
      }
    }
    else
    {
      RDDialog::critical(
          NULL, tr("File not found"),
          error =
              tr("Capture '%1' couldn't be found on disk, cannot save.").arg(GetCaptureFilename()));
      success = false;
    }
  }
  else
  {
    Replay().CopyCaptureFromRemote(GetCaptureFilename(), captureFile, m_MainWindow);
    success = QFile::exists(captureFile);

    error = tr("File couldn't be transferred from remote host");
  }

  if(!success)
  {
    RDDialog::critical(NULL, tr("Error Saving"), error);
    return false;
  }

  // if it was a temporary capture, remove the old instnace
  if(m_CaptureTemporary)
  {
    m_MainWindow->RemoveRecentCapture(m_CaptureFile);
    QFile::remove(m_CaptureFile);
  }

  // Update the filename, and mark that it's local and not temporary now.
  m_CaptureFile = captureFile;
  m_CaptureLocal = true;
  m_CaptureTemporary = false;

  m_Replay.ReopenCaptureFile(captureFile);
  SaveChanges();

  return true;
}

void CaptureContext::CloseCapture()
{
  if(!m_CaptureLoaded)
    return;

  delete m_Watcher;
  m_Watcher = NULL;

  delete m_RGP;
  m_RGP = NULL;

  m_Config.CrashReport_LastOpenedCapture = QString();

  m_CaptureTemporary = false;

  m_CaptureFile = QString();

  memset(&m_APIProps, 0, sizeof(m_APIProps));
  memset(&m_FrameInfo, 0, sizeof(m_FrameInfo));
  m_Buffers.clear();
  m_BufferList.clear();
  m_Textures.clear();
  m_TextureList.clear();
  m_Resources.clear();
  m_ResourceList.clear();
  m_ReplacedResources.clear();

  m_CustomNames.clear();
  m_Bookmarks.clear();
  m_Notes.clear();

  m_Drawcalls = &m_EmptyDraws;
  m_FirstDrawcall = m_LastDrawcall = NULL;

  m_CurD3D11PipelineState = NULL;
  m_CurD3D12PipelineState = NULL;
  m_CurGLPipelineState = NULL;
  m_CurVulkanPipelineState = NULL;
  m_CurPipelineState = &m_DummyPipelineState;

  m_StructuredFile = &m_DummySDFile;

  m_DebugMessages.clear();
  m_UnreadMessageCount = 0;

  m_CaptureLoaded = false;

  rdcarray<ICaptureViewer *> capviewers(m_CaptureViewers);

  for(ICaptureViewer *viewer : capviewers)
  {
    if(viewer && m_CaptureViewers.contains(viewer))
      viewer->OnCaptureClosed();
  }

  m_Replay.CloseThread();
}

bool CaptureContext::ImportCapture(const CaptureFileFormat &fmt, const rdcstr &importfile,
                                   const rdcstr &rdcfile)
{
  CloseCapture();

  QString ext = fmt.extension;

  ReplayStatus status = ReplayStatus::UnknownError;
  QString message;

  // shorten the filename after here for error messages
  QString filename = QFileInfo(importfile).fileName();

  float progress = 0.0f;

  LambdaThread *th = new LambdaThread([rdcfile, importfile, ext, &message, &progress, &status]() {

    ICaptureFile *file = RENDERDOC_OpenCaptureFile();

    status = file->OpenFile(importfile, ext.toUtf8().data(),
                            [&progress](float p) { progress = p * 0.5f; });

    if(status != ReplayStatus::Succeeded)
    {
      message = file->ErrorString();
      file->Shutdown();
      return;
    }

    status =
        file->Convert(rdcfile, "rdc", NULL, [&progress](float p) { progress = 0.5f + p * 0.5f; });
    file->Shutdown();
  });
  th->setName(lit("ImportCapture"));
  th->start();
  // wait a few ms before popping up a progress bar
  th->wait(500);
  if(th->isRunning())
  {
    ShowProgressDialog(m_MainWindow, tr("Importing from %1, please wait...").arg(filename),
                       [th]() { return !th->isRunning(); }, [&progress]() { return progress; });
  }
  th->deleteLater();

  if(status != ReplayStatus::Succeeded)
  {
    QString text = tr("Couldn't convert file '%1'\n").arg(filename);
    if(message.isEmpty())
      text += tr("%1").arg(ToQStr(status));
    else
      text += tr("%1: %2").arg(ToQStr(status)).arg(message);

    RDDialog::critical(m_MainWindow, tr("Error converting capture"), text);
    return false;
  }

  return true;
}

void CaptureContext::ExportCapture(const CaptureFileFormat &fmt, const rdcstr &exportfile)
{
  if(!m_CaptureLocal)
    return;

  QString ext = fmt.extension;

  ICaptureFile *local = NULL;
  ICaptureFile *file = NULL;
  ReplayStatus status = ReplayStatus::Succeeded;

  const SDFile *sdfile = NULL;

  // if we don't need buffers, we can export directly from our existing capture file
  if(!fmt.requiresBuffers)
  {
    file = m_Replay.GetCaptureFile();
    sdfile = m_StructuredFile;
  }

  if(!file)
  {
    local = file = RENDERDOC_OpenCaptureFile();
    status = file->OpenFile(m_CaptureFile, "rdc", NULL);
  }

  QString filename = QFileInfo(m_CaptureFile).fileName();

  if(status != ReplayStatus::Succeeded)
  {
    QString text = tr("Couldn't open file '%1' for export\n").arg(filename);
    QString message = file->ErrorString();
    if(message.isEmpty())
      text += tr("%1").arg(ToQStr(status));
    else
      text += tr("%1: %2").arg(ToQStr(status)).arg(message);

    RDDialog::critical(m_MainWindow, tr("Error opening file"), text);

    if(local)
      local->Shutdown();
    return;
  }

  float progress = 0.0f;

  LambdaThread *th = new LambdaThread([file, sdfile, ext, exportfile, &progress, &status]() {
    status = file->Convert(exportfile, ext, sdfile, [&progress](float p) { progress = p; });
  });
  th->setName(lit("ExportCapture"));
  th->start();
  // wait a few ms before popping up a progress bar
  th->wait(500);
  if(th->isRunning())
  {
    ShowProgressDialog(m_MainWindow,
                       tr("Exporting %1 to %2, please wait...").arg(filename).arg(QString(fmt.name)),
                       [th]() { return !th->isRunning(); }, [&progress]() { return progress; });
  }
  th->deleteLater();

  QString message = file->ErrorString();
  if(local)
    local->Shutdown();

  if(status != ReplayStatus::Succeeded)
  {
    QString text = tr("Couldn't convert file '%1'\n").arg(filename);
    if(message.isEmpty())
      text += tr("%1").arg(ToQStr(status));
    else
      text += tr("%1: %2").arg(ToQStr(status)).arg(message);

    RDDialog::critical(m_MainWindow, tr("Error converting capture"), text);
  }
}

void CaptureContext::SetEventID(const rdcarray<ICaptureViewer *> &exclude, uint32_t selectedEventID,
                                uint32_t eventId, bool force)
{
  RENDERDOC_PROFILEFUNCTION();

  if(!IsCaptureLoaded())
    return;

  if(eventId > m_LastDrawcall->eventId)
  {
    qCritical() << "Invalid EID being selected " << eventId;
    return;
  }

  uint32_t prevSelectedEventID = m_SelectedEventID;
  m_SelectedEventID = selectedEventID;
  uint32_t prevEventID = m_EventID;
  m_EventID = eventId;

  bool done = false;

  QString tag = lit("replaySetEvent");

  // we can't return until the event is selected, but a blocking invoke on the UI thread can cause
  // the UI to stall. We ideally want to have at least an interactive UI and a progress bar.
  m_Replay.AsyncInvoke(tag, [this, eventId, force, &done](IReplayController *r) {
    r->SetFrameEvent(eventId, force);
    m_CurD3D11PipelineState = r->GetD3D11PipelineState();
    m_CurD3D12PipelineState = r->GetD3D12PipelineState();
    m_CurGLPipelineState = r->GetGLPipelineState();
    m_CurVulkanPipelineState = r->GetVulkanPipelineState();
    m_CurPipelineState = &r->GetPipelineState();

    done = true;
  });

  // wait a short while before displaying the progress dialog (which won't show if we're already
  // done by the time we reach it).
  // Keep waiting if the current tag is a set event, we don't want to be popping up progress bars
  // when the user is browsing the frame if it's going slow. If that's the case we'll just block the
  // UI thread. Instead only pop up the progress bar if some other large task is blocking.
  for(int i = 0; !done && (i < 100 || m_Replay.GetCurrentProcessingTag().isEmpty() ||
                           m_Replay.GetCurrentProcessingTag() == tag);
      i++)
    QThread::msleep(5);

  ShowProgressDialog(m_MainWindow->Widget(), tr("Please wait, working..."),
                     [&done]() { return done; });

  bool updateSelectedEvent = force || prevSelectedEventID != selectedEventID;
  bool updateEvent = force || prevEventID != eventId;

  RefreshUIStatus(exclude, updateSelectedEvent, updateEvent);
}

void CaptureContext::ConnectToRemoteServer(RemoteHost host)
{
  rdcarray<RemoteHost> hosts = Config().GetRemoteHosts();

  int hostIdx = -1;
  for(int32_t i = 0; i < hosts.count(); i++)
  {
    if(hosts[i].Hostname() == host.Hostname())
    {
      hostIdx = i;
      break;
    }
  }

  if(hostIdx >= 0)
    m_MainWindow->setRemoteHost(hostIdx);
}

void CaptureContext::SetRemoteHost(int hostIdx)
{
  m_MainWindow->setRemoteHost(hostIdx);
}

bool CaptureContext::IsResourceReplaced(ResourceId id)
{
  return m_ReplacedResources.contains(id);
}

void CaptureContext::RegisterReplacement(ResourceId id)
{
  if(!m_ReplacedResources.contains(id))
    m_ReplacedResources.push_back(id);

  CacheResources();

  RefreshUIStatus({}, true, true);
}

void CaptureContext::UnregisterReplacement(ResourceId id)
{
  m_ReplacedResources.removeOne(id);

  CacheResources();

  RefreshUIStatus({}, true, true);
}

void CaptureContext::RefreshUIStatus(const rdcarray<ICaptureViewer *> &exclude,
                                     bool updateSelectedEvent, bool updateEvent)
{
  // cache and assign pointer type IDs for any known pointer types in current shaders
  for(ShaderStage stage : {ShaderStage::Vertex, ShaderStage::Hull, ShaderStage::Domain,
                           ShaderStage::Geometry, ShaderStage::Pixel, ShaderStage::Compute})
  {
    const ShaderReflection *refl = m_CurPipelineState->GetShaderReflection(stage);
    if(refl)
      PointerTypeRegistry::CacheShader(refl);
  }

  rdcarray<ICaptureViewer *> capviewers(m_CaptureViewers);

  for(ICaptureViewer *viewer : capviewers)
  {
    if(!viewer || exclude.contains(viewer) || !m_CaptureViewers.contains(viewer))
      continue;

    if(updateSelectedEvent)
      viewer->OnSelectedEventChanged(m_SelectedEventID);
    if(updateEvent)
      viewer->OnEventChanged(m_EventID);
  }
}

void CaptureContext::AddMessages(const rdcarray<DebugMessage> &msgs)
{
  m_UnreadMessageCount += msgs.count();
  for(const DebugMessage &msg : msgs)
    m_DebugMessages.push_back(msg);

  if(m_DebugMessageView)
  {
    GUIInvoke::call(m_DebugMessageView, [this]() { m_DebugMessageView->RefreshMessageList(); });
  }
}

void CaptureContext::SetNotes(const rdcstr &key, const rdcstr &contents)
{
  // ignore no-op changes
  if(m_Notes.contains(key) && m_Notes[key] == contents)
    return;

  m_Notes[key] = contents;

  SetModification(CaptureModifications::Notes);

  RefreshUIStatus({}, true, true);
}

void CaptureContext::SetBookmark(const EventBookmark &mark)
{
  ANALYTIC_SET(UIFeatures.Bookmarks, true);

  int index = m_Bookmarks.indexOf(mark);
  if(index >= 0)
  {
    // ignore no-op bookmarks
    if(m_Bookmarks[index].text == mark.text)
      return;

    m_Bookmarks[index] = mark;
  }
  else
  {
    m_Bookmarks.push_back(mark);
  }

  SetModification(CaptureModifications::Bookmarks);

  RefreshUIStatus({}, true, true);
}

void CaptureContext::RemoveBookmark(uint32_t EID)
{
  m_Bookmarks.removeOne(EventBookmark(EID));

  SetModification(CaptureModifications::Bookmarks);

  RefreshUIStatus({}, true, true);
}

void CaptureContext::SetModification(CaptureModifications mod)
{
  m_CaptureMods |= mod;
  m_MainWindow->captureModified();
}

void CaptureContext::SaveChanges()
{
  bool success = true;

  if(m_CaptureMods & CaptureModifications::Renames)
    success &= SaveRenames();

  if(m_CaptureMods & CaptureModifications::Bookmarks)
    success &= SaveBookmarks();

  if(m_CaptureMods & CaptureModifications::Notes)
    success &= SaveNotes();

  if(m_CaptureMods & CaptureModifications::EditedShaders)
    success &= SaveEdits();

  if(!success)
  {
    RDDialog::critical(m_MainWindow, tr("Can't save file"),
                       tr("Error saving file.\n"
                          "Check for permissions and that it's not open elsewhere"));
  }

  m_CaptureMods = CaptureModifications::NoModifications;
}

bool CaptureContext::SaveRenames()
{
  QVariantMap resources;
  for(ResourceId id : m_CustomNames.keys())
  {
    resources[ToQStr(id)] = m_CustomNames[id];
  }

  QVariantMap root;
  root[lit("CustomResourceNames")] = resources;

  QString json = VariantToJSON(root);

  SectionProperties props;
  props.type = SectionType::ResourceRenames;
  props.version = 1;

  return Replay().GetCaptureAccess()->WriteSection(props, json.toUtf8());
}

void CaptureContext::LoadRenames(const QString &data)
{
  QVariantMap root = JSONToVariant(data);

  if(root.contains(lit("CustomResourceNames")))
  {
    QVariantMap resources = root[lit("CustomResourceNames")].toMap();

    for(const QString &str : resources.keys())
    {
      ResourceId id;

      if(str.startsWith(lit("ResourceId::")))
      {
        qulonglong num = str.mid(sizeof("ResourceId::") - 1).toULongLong();
        memcpy(&id, &num, sizeof(num));
      }
      else
      {
        qCritical() << "Unrecognised resourceid encoding" << str;
      }

      if(id != ResourceId())
        m_CustomNames[id] = resources[str].toString();
    }
  }
}

bool CaptureContext::SaveBookmarks()
{
  QVariantList bookmarks;
  for(const EventBookmark &mark : m_Bookmarks)
  {
    QVariantMap variantmark;
    variantmark[lit("eventId")] = mark.eventId;
    variantmark[lit("text")] = mark.text;

    bookmarks.push_back(variantmark);
  }

  QVariantMap root;
  root[lit("Bookmarks")] = bookmarks;

  QString json = VariantToJSON(root);

  SectionProperties props;
  props.type = SectionType::Bookmarks;
  props.version = 1;

  return Replay().GetCaptureAccess()->WriteSection(props, json.toUtf8());
}

void CaptureContext::LoadBookmarks(const QString &data)
{
  QVariantMap root = JSONToVariant(data);

  if(root.contains(lit("Bookmarks")))
  {
    QVariantList bookmarks = root[lit("Bookmarks")].toList();

    for(QVariant v : bookmarks)
    {
      QVariantMap variantmark = v.toMap();

      EventBookmark mark;
      mark.eventId = variantmark[lit("eventId")].toUInt();
      mark.text = variantmark[lit("text")].toString();

      if(mark.eventId != 0)
        m_Bookmarks.push_back(mark);
    }
  }
}

bool CaptureContext::SaveNotes()
{
  // make sure this format matches SetCaptureFileComments in app_api.cpp if it changes
  QVariantMap root;
  for(const QString &key : m_Notes.keys())
    root[key] = m_Notes[key];

  QString json = VariantToJSON(root);

  SectionProperties props;
  props.type = SectionType::Notes;
  props.version = 1;

  ANALYTIC_SET(UIFeatures.CaptureComments, true);

  return Replay().GetCaptureAccess()->WriteSection(props, json.toUtf8());
}

void CaptureContext::LoadNotes(const QString &data)
{
  QVariantMap root = JSONToVariant(data);

  for(QString key : root.keys())
  {
    if(!key.isEmpty())
      m_Notes[key] = root[key].toString();
  }
}

bool CaptureContext::SaveEdits()
{
  // make sure this format matches SetCaptureFileComments in app_api.cpp if it changes
  QVariantList editors;

  for(ShaderViewer *e : m_ShaderEditors)
  {
    QVariantMap editor = e->SaveEditor();
    if(!editor.isEmpty())
      editors.push_back(e->SaveEditor());
  }

  QVariantMap root;
  root[lit("editors")] = editors;

  QString json = VariantToJSON(root);

  SectionProperties props;
  props.type = SectionType::EditedShaders;
  props.version = 1;

  return Replay().GetCaptureAccess()->WriteSection(props, json.toUtf8());
}

void CaptureContext::LoadEdits(const QString &data)
{
  QVariantMap root = JSONToVariant(data);

  QVariantList editors = root[lit("editors")].toList();

  auto replaceSaveCallback = [this](ICaptureContext *ctx, IShaderViewer *viewer, ResourceId id,
                                    ShaderStage stage, ShaderEncoding shaderEncoding,
                                    ShaderCompileFlags flags, rdcstr entryFunc, bytebuf shaderBytes) {

    ApplyShaderEdit(viewer, id, stage, shaderEncoding, flags, entryFunc, shaderBytes);
  };

  auto replaceCloseCallback = [this](ICaptureContext *ctx, IShaderViewer *view, ResourceId id) {
    RevertShaderEdit(view, id);
  };

  for(QVariant e : editors)
  {
    ShaderViewer *edit =
        ShaderViewer::LoadEditor(*this, e.toMap(), replaceSaveCallback, replaceCloseCallback,
                                 [this](ShaderViewer *view, bool closed) {
                                   SetModification(CaptureModifications::EditedShaders);
                                   if(closed)
                                     m_ShaderEditors.removeOne(view);
                                 },
                                 m_MainWindow->Widget());

    if(edit)
    {
      AddDockWindow(edit->Widget(), DockReference::MainToolArea, NULL);
      m_ShaderEditors.push_back(edit);
    }
  }
}

bool CaptureContext::OpenRGPProfile(const rdcstr &filename)
{
  delete m_RGP;
  m_RGP = NULL;

  if(!m_CaptureLoaded)
  {
    RDDialog::critical(m_MainWindow, tr("Error opening RGP"),
                       tr("Can't open RGP profile with no capture open"));
    return false;
  }

  if(!m_StructuredFile)
  {
    RDDialog::critical(m_MainWindow, tr("Error opening RGP"),
                       tr("Open capture has no structured data - can't initialise RGP interop."));
    return false;
  }

  if(filename.isEmpty() || !QFileInfo(filename).exists())
  {
    RDDialog::critical(m_MainWindow, tr("Error opening RGP"),
                       tr("Invalid filename specified to open as RGP Profile\n%1\n"
                          "Please restart RenderDoc and try again.")
                           .arg(QString(filename)));
    return false;
  }

  QString RGPPath = m_Config.ExternalTool_RadeonGPUProfiler;

  while(!QFileInfo(RGPPath).exists())
  {
    QMessageBox::StandardButton res = RDDialog::question(
        m_MainWindow, tr("Error opening RGP"),
        tr("Path to RGP is incorrectly configured\n\nOpen settings window to configure path?"),
        QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel);

    if(res == QMessageBox::Cancel || res == QMessageBox::No)
      return false;

    SettingsDialog settings(*this, m_MainWindow);
    settings.focusItem(lit("ExternalTool_RadeonGPUProfiler"));
    RDDialog::show(&settings);

    RGPPath = m_Config.ExternalTool_RadeonGPUProfiler;
  }

  // Make sure the version of RGP specified supports interop. If not, bail.
  // Some older versions of RGP don't have command line support and will crash
  if(!RGPInterop::RGPSupportsInterop(RGPPath))
  {
    QMessageBox::StandardButton res = RDDialog::question(
        m_MainWindow, tr("RGP Version"),
        tr("This version of RGP does not support interop. Please download RGP v1.2 or newer."),
        QMessageBox::Ok);
    return false;
  }

  QString portStr = QString::number(RGPInterop::Port);

  if(!QProcess::startDetached(RGPPath, QStringList() << QString(filename) << portStr))
  {
    RDDialog::critical(m_MainWindow, tr("Error opening RGP"), tr("Failed to launch RGP."));
    return false;
  }

  m_RGP = new RGPInterop(*this);

  return true;
}

rdcstr CaptureContext::GetResourceNameUnsuffixed(ResourceId id)
{
  if(id == ResourceId())
    return tr("No Resource");

  ResourceDescription *desc = GetResource(id);

  if(desc)
    return GetResourceNameUnsuffixed(desc);

  uint64_t num;
  memcpy(&num, &id, sizeof(num));
  return tr("Unknown Resource %1").arg(num);
}

rdcstr CaptureContext::GetResourceNameUnsuffixed(const ResourceDescription *desc)
{
  if(m_CustomNames.contains(desc->resourceId))
    return m_CustomNames[desc->resourceId];

  return desc->name;
}

rdcstr CaptureContext::GetResourceName(ResourceId id)
{
  rdcstr ret = GetResourceNameUnsuffixed(id);

  if(m_ReplacedResources.contains(id))
    ret += tr(" (Edited)");

  return ret;
}

bool CaptureContext::IsAutogeneratedName(ResourceId id)
{
  if(id == ResourceId())
    return true;

  if(m_CustomNames.contains(id))
    return false;

  ResourceDescription *desc = GetResource(id);

  if(desc)
    return desc->autogeneratedName;

  return true;
}

bool CaptureContext::HasResourceCustomName(ResourceId id)
{
  return m_CustomNames.contains(id);
}

void CaptureContext::SetResourceCustomName(ResourceId id, const rdcstr &name)
{
  if(name.isEmpty())
  {
    if(m_CustomNames.contains(id))
      m_CustomNames.remove(id);
  }
  else
  {
    m_CustomNames[id] = name;
  }

  SetModification(CaptureModifications::Renames);

  CacheResources();

  RefreshUIStatus({}, true, true);
}

#if defined(RENDERDOC_PLATFORM_APPLE)
extern "C" void *makeNSViewMetalCompatible(void *handle);
#endif

WindowingData CaptureContext::CreateWindowingData(QWidget *window)
{
  if(!GUIInvoke::onUIThread())
    qCritical() << "CreateWindowingData called on non-UI thread";

#if defined(WIN32)

  return CreateWin32WindowingData((HWND)window->winId());

#elif defined(RENDERDOC_PLATFORM_LINUX)

  if(m_CurWinSystem == WindowingSystem::Wayland)
  {
    // we don't need this, we just need to force creation of a window handle
    window->winId();
    wl_surface *surface =
        (wl_surface *)AccessWaylandPlatformInterface("surface", window->windowHandle());
    return CreateWaylandWindowingData(m_WaylandDisplay, surface);
  }
  else if(m_CurWinSystem == WindowingSystem::XCB)
  {
    return CreateXCBWindowingData(m_XCBConnection, (xcb_window_t)window->winId());
  }
  else if(m_CurWinSystem == WindowingSystem::Xlib)
  {
    return CreateXlibWindowingData(m_X11Display, (Drawable)window->winId());
  }
  else
  {
    return CreateHeadlessWindowingData(1, 1);
  }

#elif defined(RENDERDOC_PLATFORM_APPLE)

  void *view = (void *)window->winId();

  void *layer = makeNSViewMetalCompatible(view);

  return CreateMacOSWindowingData(view, layer);

#elif defined(RENDERDOC_PLATFORM_APPLE)

  WindowingData ret = {WindowingSystem::Unknown};
  return ret;

#elif defined(RENDERDOC_PLATFORM_GGP)

  WindowingData ret = {WindowingSystem::GGP};
  return ret;

#else

#error "Unknown platform"

#endif
}

IMainWindow *CaptureContext::GetMainWindow()
{
  return m_MainWindow;
}

IEventBrowser *CaptureContext::GetEventBrowser()
{
  if(m_EventBrowser)
    return m_EventBrowser;

  m_EventBrowser = new EventBrowser(*this, m_MainWindow);
  m_EventBrowser->setObjectName(lit("eventBrowser"));
  setupDockWindow(m_EventBrowser);

  return m_EventBrowser;
}

IAPIInspector *CaptureContext::GetAPIInspector()
{
  if(m_APIInspector)
    return m_APIInspector;

  m_APIInspector = new APIInspector(*this, m_MainWindow);
  m_APIInspector->setObjectName(lit("apiInspector"));
  setupDockWindow(m_APIInspector);

  return m_APIInspector;
}

ITextureViewer *CaptureContext::GetTextureViewer()
{
  if(m_TextureViewer)
    return m_TextureViewer;

  m_TextureViewer = new TextureViewer(*this, m_MainWindow);
  m_TextureViewer->setObjectName(lit("textureViewer"));
  setupDockWindow(m_TextureViewer);

  return m_TextureViewer;
}

IBufferViewer *CaptureContext::GetMeshPreview()
{
  if(m_MeshPreview)
    return m_MeshPreview;

  m_MeshPreview = new BufferViewer(*this, true, m_MainWindow);
  m_MeshPreview->setObjectName(lit("meshPreview"));
  setupDockWindow(m_MeshPreview);

  return m_MeshPreview;
}

IPipelineStateViewer *CaptureContext::GetPipelineViewer()
{
  if(m_PipelineViewer)
    return m_PipelineViewer;

  m_PipelineViewer = new PipelineStateViewer(*this, m_MainWindow);
  m_PipelineViewer->setObjectName(lit("pipelineViewer"));
  setupDockWindow(m_PipelineViewer);

  return m_PipelineViewer;
}

ICaptureDialog *CaptureContext::GetCaptureDialog()
{
  if(m_CaptureDialog)
    return m_CaptureDialog;

  m_CaptureDialog = new CaptureDialog(
      *this,
      [this](const QString &exe, const QString &workingDir, const QString &cmdLine,
             const rdcarray<EnvironmentModification> &env, CaptureOptions opts,
             std::function<void(LiveCapture *)> callback) {
        return m_MainWindow->OnCaptureTrigger(exe, workingDir, cmdLine, env, opts, callback);
      },
      [this](uint32_t PID, const rdcarray<EnvironmentModification> &env, const QString &name,
             CaptureOptions opts, std::function<void(LiveCapture *)> callback) {
        return m_MainWindow->OnInjectTrigger(PID, env, name, opts, callback);
      },
      m_MainWindow, m_MainWindow);
  m_CaptureDialog->setObjectName(lit("capDialog"));
  m_CaptureDialog->setWindowIcon(*m_Icon);

  return m_CaptureDialog;
}

IDebugMessageView *CaptureContext::GetDebugMessageView()
{
  if(m_DebugMessageView)
    return m_DebugMessageView;

  m_DebugMessageView = new DebugMessageView(*this, m_MainWindow);
  m_DebugMessageView->setObjectName(lit("debugMessageView"));
  setupDockWindow(m_DebugMessageView);

  return m_DebugMessageView;
}

IDiagnosticLogView *CaptureContext::GetDiagnosticLogView()
{
  if(m_DiagnosticLogView)
    return m_DiagnosticLogView;

  m_DiagnosticLogView = new LogView(*this, m_MainWindow);
  m_DiagnosticLogView->setObjectName(lit("diagnosticLogView"));
  setupDockWindow(m_DiagnosticLogView);

  return m_DiagnosticLogView;
}

ICommentView *CaptureContext::GetCommentView()
{
  if(m_CommentView)
    return m_CommentView;

  m_CommentView = new CommentView(*this, m_MainWindow);
  m_CommentView->setObjectName(lit("commentView"));
  setupDockWindow(m_CommentView);

  return m_CommentView;
}

IPerformanceCounterViewer *CaptureContext::GetPerformanceCounterViewer()
{
  if(m_PerformanceCounterViewer)
    return m_PerformanceCounterViewer;

  m_PerformanceCounterViewer = new PerformanceCounterViewer(*this, m_MainWindow);
  m_PerformanceCounterViewer->setObjectName(lit("performanceCounterViewer"));
  setupDockWindow(m_PerformanceCounterViewer);

  return m_PerformanceCounterViewer;
}

IStatisticsViewer *CaptureContext::GetStatisticsViewer()
{
  if(m_StatisticsViewer)
    return m_StatisticsViewer;

  m_StatisticsViewer = new StatisticsViewer(*this, m_MainWindow);
  m_StatisticsViewer->setObjectName(lit("statisticsViewer"));
  setupDockWindow(m_StatisticsViewer);

  return m_StatisticsViewer;
}

ITimelineBar *CaptureContext::GetTimelineBar()
{
  if(m_TimelineBar)
    return m_TimelineBar;

  m_TimelineBar = new TimelineBar(*this, m_MainWindow);
  m_TimelineBar->setObjectName(lit("timelineBar"));
  setupDockWindow(m_TimelineBar);

  return m_TimelineBar;
}

IPythonShell *CaptureContext::GetPythonShell()
{
  if(m_PythonShell)
    return m_PythonShell;

  m_PythonShell = new PythonShell(*this, m_MainWindow);
  m_PythonShell->setObjectName(lit("pythonShell"));
  setupDockWindow(m_PythonShell);

  return m_PythonShell;
}

IResourceInspector *CaptureContext::GetResourceInspector()
{
  if(m_ResourceInspector)
    return m_ResourceInspector;

  m_ResourceInspector = new ResourceInspector(*this, m_MainWindow);
  m_ResourceInspector->setObjectName(lit("resourceInspector"));
  setupDockWindow(m_ResourceInspector);

  return m_ResourceInspector;
}

void CaptureContext::ShowEventBrowser()
{
  m_MainWindow->showEventBrowser();
}

void CaptureContext::ShowAPIInspector()
{
  m_MainWindow->showAPIInspector();
}

void CaptureContext::ShowTextureViewer()
{
  m_MainWindow->showTextureViewer();
}

void CaptureContext::ShowMeshPreview()
{
  m_MainWindow->showMeshPreview();
}

void CaptureContext::ShowPipelineViewer()
{
  m_MainWindow->showPipelineViewer();
}

void CaptureContext::ShowCaptureDialog()
{
  m_MainWindow->showCaptureDialog();
}

void CaptureContext::ShowDebugMessageView()
{
  m_MainWindow->showDebugMessageView();
}

void CaptureContext::ShowDiagnosticLogView()
{
  m_MainWindow->showDiagnosticLogView();
}

void CaptureContext::ShowCommentView()
{
  m_MainWindow->showCommentView();
}

void CaptureContext::ShowPerformanceCounterViewer()
{
  m_MainWindow->showPerformanceCounterViewer();
}

void CaptureContext::ShowStatisticsViewer()
{
  m_MainWindow->showStatisticsViewer();
}

void CaptureContext::ShowTimelineBar()
{
  m_MainWindow->showTimelineBar();
}

void CaptureContext::ShowPythonShell()
{
  m_MainWindow->showPythonShell();
}

void CaptureContext::ShowResourceInspector()
{
  m_MainWindow->showResourceInspector();
}

IShaderViewer *CaptureContext::EditShader(ResourceId id, ShaderStage stage,
                                          const rdcstr &entryPoint, const rdcstrpairs &files,
                                          ShaderEncoding shaderEncoding, ShaderCompileFlags flags,
                                          IShaderViewer::SaveCallback saveCallback,
                                          IShaderViewer::CloseCallback closeCallback)
{
  ShaderViewer *viewer = NULL;

  if(id != ResourceId())
  {
    auto replaceSaveCallback = [this, saveCallback](
        ICaptureContext *ctx, IShaderViewer *viewer, ResourceId id, ShaderStage stage,
        ShaderEncoding shaderEncoding, ShaderCompileFlags flags, rdcstr entryFunc,
        bytebuf shaderBytes) {

      ApplyShaderEdit(viewer, id, stage, shaderEncoding, flags, entryFunc, shaderBytes);

      if(saveCallback)
        saveCallback(ctx, viewer, id, stage, shaderEncoding, flags, entryFunc, shaderBytes);
    };

    auto replaceCloseCallback = [this, closeCallback](ICaptureContext *ctx, IShaderViewer *view,
                                                      ResourceId id) {
      RevertShaderEdit(view, id);

      if(closeCallback)
        closeCallback(ctx, view, id);
    };

    viewer = ShaderViewer::EditShader(*this, id, stage, entryPoint, files, shaderEncoding, flags,
                                      replaceSaveCallback, replaceCloseCallback,
                                      [this](ShaderViewer *view, bool closed) {
                                        SetModification(CaptureModifications::EditedShaders);
                                        if(closed)
                                          m_ShaderEditors.removeOne(view);
                                      },
                                      m_MainWindow->Widget());

    m_ShaderEditors.push_back(viewer);
    SetModification(CaptureModifications::EditedShaders);
  }
  else
  {
    viewer = ShaderViewer::EditShader(*this, id, stage, entryPoint, files, shaderEncoding, flags,
                                      saveCallback, closeCallback, NULL, m_MainWindow->Widget());
  }

  return viewer;
}

void CaptureContext::ApplyShaderEdit(IShaderViewer *viewer, ResourceId id, ShaderStage stage,
                                     ShaderEncoding shaderEncoding, ShaderCompileFlags flags,
                                     const rdcstr &entryFunc, const bytebuf &shaderBytes)
{
  if(shaderBytes.isEmpty())
    return;

  ANALYTIC_SET(UIFeatures.ShaderEditing, true);

  QPointer<QObject> ptr(viewer->Widget());

  // invoke off to the ReplayController to replace the capture's shader
  // with our edited one
  Replay().AsyncInvoke([this, entryFunc, shaderBytes, shaderEncoding, flags, stage, id, ptr,
                        viewer](IReplayController *r) {
    rdcstr errs;

    ResourceId from = id;
    ResourceId to;

    rdctie(to, errs) = r->BuildTargetShader(entryFunc, shaderEncoding, shaderBytes, flags, stage);

    if(to == ResourceId())
    {
      r->RemoveReplacement(from);

      // this GUIInvoke call always needs to go through even if the viewer has been closed.
      GUIInvoke::call(GetMainWindow()->Widget(), [this, from]() { UnregisterReplacement(from); });
    }
    else
    {
      r->ReplaceResource(from, to);

      GUIInvoke::call(GetMainWindow()->Widget(), [this, from]() { RegisterReplacement(from); });
    }
    if(ptr)
      GUIInvoke::call(ptr, [viewer, errs]() { viewer->ShowErrors(errs); });
  });
}

void CaptureContext::RevertShaderEdit(IShaderViewer *viewer, ResourceId id)
{
  // remove the replacement on close (we could make this more sophisticated if there
  // was a place to control replaced resources/shaders).
  Replay().AsyncInvoke([this, id](IReplayController *r) {
    if(IsCaptureLoaded())
      r->RemoveReplacement(id);
    GUIInvoke::call(GetMainWindow()->Widget(), [this, id] { UnregisterReplacement(id); });
  });
}

IShaderViewer *CaptureContext::DebugShader(const ShaderBindpointMapping *bind,
                                           const ShaderReflection *shader, ResourceId pipeline,
                                           ShaderDebugTrace *trace, const rdcstr &debugContext)
{
  return ShaderViewer::DebugShader(*this, bind, shader, pipeline, trace, debugContext,
                                   m_MainWindow->Widget());
}

IShaderViewer *CaptureContext::ViewShader(const ShaderReflection *shader, ResourceId pipeline)
{
  return ShaderViewer::ViewShader(*this, shader, pipeline, m_MainWindow->Widget());
}

IBufferViewer *CaptureContext::ViewBuffer(uint64_t byteOffset, uint64_t byteSize, ResourceId id,
                                          const rdcstr &format)
{
  BufferViewer *viewer = new BufferViewer(*this, false, m_MainWindow);

  viewer->ViewBuffer(byteOffset, byteSize, id, format);

  return viewer;
}

IBufferViewer *CaptureContext::ViewTextureAsBuffer(ResourceId id, const Subresource &sub,
                                                   const rdcstr &format)
{
  BufferViewer *viewer = new BufferViewer(*this, false, m_MainWindow);

  viewer->ViewTexture(id, sub, format);

  return viewer;
}

IConstantBufferPreviewer *CaptureContext::ViewConstantBuffer(ShaderStage stage, uint32_t slot,
                                                             uint32_t idx)
{
  ConstantBufferPreviewer *existing = ConstantBufferPreviewer::has(stage, slot, idx);
  if(existing != NULL)
    return existing;

  return new ConstantBufferPreviewer(*this, stage, slot, idx, m_MainWindow);
}

IPixelHistoryView *CaptureContext::ViewPixelHistory(ResourceId texID, uint32_t x, uint32_t y,
                                                    const TextureDisplay &display)
{
  return new PixelHistoryView(*this, texID, QPoint(x, y), display, m_MainWindow);
}

QWidget *CaptureContext::CreateBuiltinWindow(const rdcstr &objectName)
{
  if(objectName == "textureViewer")
  {
    return GetTextureViewer()->Widget();
  }
  else if(objectName == "eventBrowser")
  {
    return GetEventBrowser()->Widget();
  }
  else if(objectName == "pipelineViewer")
  {
    return GetPipelineViewer()->Widget();
  }
  else if(objectName == "meshPreview")
  {
    return GetMeshPreview()->Widget();
  }
  else if(objectName == "apiInspector")
  {
    return GetAPIInspector()->Widget();
  }
  else if(objectName == "capDialog")
  {
    return GetCaptureDialog()->Widget();
  }
  else if(objectName == "debugMessageView")
  {
    return GetDebugMessageView()->Widget();
  }
  else if(objectName == "diagnosticLogView")
  {
    return GetDiagnosticLogView()->Widget();
  }
  else if(objectName == "commentView")
  {
    return GetCommentView()->Widget();
  }
  else if(objectName == "statisticsViewer")
  {
    return GetStatisticsViewer()->Widget();
  }
  else if(objectName == "timelineBar")
  {
    return GetTimelineBar()->Widget();
  }
  else if(objectName == "pythonShell")
  {
    return GetPythonShell()->Widget();
  }
  else if(objectName == "resourceInspector")
  {
    return GetResourceInspector()->Widget();
  }
  else if(objectName == "performanceCounterViewer")
  {
    return GetPerformanceCounterViewer()->Widget();
  }

  return NULL;
}

void CaptureContext::BuiltinWindowClosed(QWidget *window)
{
  if(m_EventBrowser && m_EventBrowser->Widget() == window)
    m_EventBrowser = NULL;
  else if(m_TextureViewer && m_TextureViewer->Widget() == window)
    m_TextureViewer = NULL;
  else if(m_CaptureDialog && m_CaptureDialog->Widget() == window)
    m_CaptureDialog = NULL;
  else if(m_APIInspector && m_APIInspector->Widget() == window)
    m_APIInspector = NULL;
  else if(m_PipelineViewer && m_PipelineViewer->Widget() == window)
    m_PipelineViewer = NULL;
  else if(m_MeshPreview && m_MeshPreview->Widget() == window)
    m_MeshPreview = NULL;
  else if(m_DebugMessageView && m_DebugMessageView->Widget() == window)
    m_DebugMessageView = NULL;
  else if(m_DiagnosticLogView && m_DiagnosticLogView->Widget() == window)
    m_DiagnosticLogView = NULL;
  else if(m_CommentView && m_CommentView->Widget() == window)
    m_CommentView = NULL;
  else if(m_StatisticsViewer && m_StatisticsViewer->Widget() == window)
    m_StatisticsViewer = NULL;
  else if(m_TimelineBar && m_TimelineBar->Widget() == window)
    m_TimelineBar = NULL;
  else if(m_PythonShell && m_PythonShell->Widget() == window)
    m_PythonShell = NULL;
  else if(m_ResourceInspector && m_ResourceInspector->Widget() == window)
    m_ResourceInspector = NULL;
  else if(m_PerformanceCounterViewer && m_PerformanceCounterViewer->Widget() == window)
    m_PerformanceCounterViewer = NULL;
  else
    qCritical() << "Unrecognised window being closed: " << window;
}

void CaptureContext::setupDockWindow(QWidget *shad)
{
  shad->setWindowIcon(*m_Icon);
}

void CaptureContext::RaiseDockWindow(QWidget *dockWindow)
{
  ToolWindowManager::raiseToolWindow(dockWindow);
}

void CaptureContext::AddDockWindow(QWidget *newWindow, DockReference ref, QWidget *refWindow,
                                   float percentage)
{
  if(!newWindow)
  {
    qCritical() << "Unexpected NULL newWindow in AddDockWindow";
    return;
  }
  setupDockWindow(newWindow);

  if(ref == DockReference::MainToolArea)
  {
    m_MainWindow->mainToolManager()->addToolWindow(newWindow, m_MainWindow->mainToolArea());
    return;
  }
  else if(ref == DockReference::LeftToolArea)
  {
    m_MainWindow->mainToolManager()->addToolWindow(newWindow, m_MainWindow->leftToolArea());
    return;
  }
  else if(ref == DockReference::NewFloatingArea)
  {
    m_MainWindow->mainToolManager()->addToolWindow(
        newWindow, ToolWindowManager::AreaReference(ToolWindowManager::NewFloatingArea));
    return;
  }
  else if(ref == DockReference::LastUsedArea)
  {
    m_MainWindow->mainToolManager()->addToolWindow(
        newWindow, ToolWindowManager::AreaReference(ToolWindowManager::LastUsedArea));
    return;
  }

  if(!refWindow)
  {
    qCritical() << "Unexpected NULL refWindow in AddDockWindow";
    return;
  }

  if(ref == DockReference::TransientPopupArea)
  {
    if(qobject_cast<ConstantBufferPreviewer *>(newWindow))
    {
      ToolWindowManager *manager = ToolWindowManager::managerOf(refWindow);

      ConstantBufferPreviewer *cb = manager->findChild<ConstantBufferPreviewer *>();
      if(cb)
      {
        manager->addToolWindow(newWindow, ToolWindowManager::AreaReference(ToolWindowManager::AddTo,
                                                                           manager->areaOf(cb)));
        return;
      }
    }

    if(qobject_cast<PixelHistoryView *>(newWindow))
    {
      ToolWindowManager *manager = ToolWindowManager::managerOf(refWindow);

      PixelHistoryView *hist = manager->findChild<PixelHistoryView *>();
      if(hist)
      {
        manager->addToolWindow(newWindow, ToolWindowManager::AreaReference(ToolWindowManager::AddTo,
                                                                           manager->areaOf(hist)));
        return;
      }
    }

    ref = DockReference::RightOf;
  }

  ToolWindowManager *manager = ToolWindowManager::managerOf(refWindow);

  ToolWindowManager::AreaReference areaRef((ToolWindowManager::AreaReferenceType)ref,
                                           manager->areaOf(refWindow), percentage);
  manager->addToolWindow(newWindow, areaRef);
}