Beispiel #1
0
void ToggleFavorites(WindowInfo* win) {
    if (gGlobalPrefs->showFavorites) {
        SetSidebarVisibility(win, win->tocVisible, false);
    } else {
        SetSidebarVisibility(win, win->tocVisible, true);
        SetFocus(win->hwndFavTree);
    }
}
void ToggleTocBox(WindowInfo *win)
{
    if (!win->IsDocLoaded())
        return;
    if (win->tocVisible) {
        SetSidebarVisibility(win, false, gGlobalPrefs->showFavorites);
    } else {
        SetSidebarVisibility(win, true,  gGlobalPrefs->showFavorites);
        if (win->tocVisible)
            SetFocus(win->hwndTocTree);
    }
}
Beispiel #3
0
void UpdateFavoritesTree(WindowInfo* win) {
    HWND hwndTree = win->hwndFavTree;

    if (TreeView_GetCount(hwndTree) > 0) {
        // PopulateFavTreeIfNeeded will re-enable WM_SETREDRAW
        SendMessage(hwndTree, WM_SETREDRAW, FALSE, 0);
        TreeView_DeleteAllItems(hwndTree);
        PopulateFavTreeIfNeeded(win);
    }

    // hide the favorites tree if we've removed the last favorite
    if (0 == TreeView_GetCount(hwndTree)) {
        SetSidebarVisibility(win, win->tocVisible, false);
    }
}
Beispiel #4
0
bool StressTest::OpenFile(const TCHAR *fileName)
{
    bool reuse = rand() % 3 != 1;
    _tprintf(_T("%s\n"), fileName);
    fflush(stdout);
    LoadArgs args(fileName, NULL, true /* show */, reuse);
    WindowInfo *w = LoadDocument(args);
    if (!w)
        return false;

    if (w == win) { // WindowInfo reused
        if (!win->dm)
            return false;
    } else if (!w->dm) { // new WindowInfo
        CloseWindow(w, false, true);
        return false;
    }

    // transfer ownership of stressTest object to a new window and close the
    // current one
    assert(this == win->stressTest);
    if (w != win) {
        if (win->IsDocLoaded()) {
            // try to provoke a crash in RenderCache cleanup code
            ClientRect rect(win->hwndFrame);
            rect.Inflate(rand() % 10, rand() % 10);
            SendMessage(win->hwndFrame, WM_SIZE, 0, MAKELONG(rect.dx, rect.dy));
            win->RenderPage(1);
            win->RepaintAsync();
        }

        WindowInfo *toClose = win;
        w->stressTest = win->stressTest;
        win->stressTest = NULL;
        win = w;
        CloseWindow(toClose, false, false);
    }
    if (!win->dm)
        return false;

    win->dm->ChangeDisplayMode(DM_CONTINUOUS);
    win->dm->ZoomTo(ZOOM_FIT_PAGE);
    win->dm->GoToFirstPage();
    if (win->tocVisible || gGlobalPrefs.favVisible)
        SetSidebarVisibility(win, win->tocVisible, gGlobalPrefs.favVisible);

    currPage = pageRanges.At(0).start;
    win->dm->GoToPage(currPage, 0);
    currPageRenderTime.Start();
    ++filesCount;

    pageForSearchStart = (rand() % win->dm->PageCount()) + 1;
    // search immediately in single page documents
    if (1 == pageForSearchStart) {
        // use text that is unlikely to be found, so that we search all pages
        win::SetText(win->hwndFindBox, _T("!z_yt"));
        FindTextOnThread(win);
    }

    int secs = SecsSinceSystemTime(stressStartTime);
    ScopedMem<TCHAR> tm(FormatTime(secs));
    ScopedMem<TCHAR> s(str::Format(_T("File %d: %s, time: %s"), filesCount, fileName, tm));
    ShowNotification(win, s, false, false, NG_STRESS_TEST_SUMMARY);

    return true;
}
bool StressTest::OpenFile(const WCHAR* fileName) {
    wprintf(L"%s\n", fileName);
    fflush(stdout);

    LoadArgs args(fileName);
    args.forceReuse = rand() % 3 != 1;
    WindowInfo* w = LoadDocument(args);
    if (!w)
        return false;

    if (w == win) { // WindowInfo reused
        if (!win->IsDocLoaded())
            return false;
    } else if (!w->IsDocLoaded()) { // new WindowInfo
        CloseWindow(w, false);
        return false;
    }

    // transfer ownership of stressTest object to a new window and close the
    // current one
    AssertCrash(this == win->stressTest);
    if (w != win) {
        if (win->IsDocLoaded()) {
            // try to provoke a crash in RenderCache cleanup code
            ClientRect rect(win->hwndFrame);
            rect.Inflate(rand() % 10, rand() % 10);
            SendMessage(win->hwndFrame, WM_SIZE, 0, MAKELONG(rect.dx, rect.dy));
            if (win->AsFixed())
                win->cbHandler->RequestRendering(1);
            win->RepaintAsync();
        }

        WindowInfo* toClose = win;
        w->stressTest = win->stressTest;
        win->stressTest = nullptr;
        win = w;
        CloseWindow(toClose, false);
    }
    if (!win->IsDocLoaded())
        return false;

    win->ctrl->SetDisplayMode(DM_CONTINUOUS);
    win->ctrl->SetZoomVirtual(ZOOM_FIT_PAGE, nullptr);
    win->ctrl->GoToFirstPage();
    if (win->tocVisible || gGlobalPrefs->showFavorites)
        SetSidebarVisibility(win, win->tocVisible, gGlobalPrefs->showFavorites);

    currPage = pageRanges.at(0).start;
    win->ctrl->GoToPage(currPage, false);
    currPageRenderTime.Start();
    ++filesCount;

    pageForSearchStart = (rand() % win->ctrl->PageCount()) + 1;
    // search immediately in single page documents
    if (1 == pageForSearchStart) {
        // use text that is unlikely to be found, so that we search all pages
        win::SetText(win->hwndFindBox, L"!z_yt");
        FindTextOnThread(win, TextSearchDirection::Forward, true);
    }

    int secs = SecsSinceSystemTime(stressStartTime);
    AutoFreeW tm(FormatTime(secs));
    AutoFreeW s(str::Format(L"File %d: %s, time: %s", filesCount, fileName, tm));
    win->ShowNotification(s, NOS_PERSIST, NG_STRESS_TEST_SUMMARY);

    return true;
}