/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* a presentation of a document, part 1 */ #include "mozilla/ArrayUtils.h" #include "mozilla/DebugOnly.h" #include "base/basictypes.h" #include "nsCOMPtr.h" #include "nsPresContext.h" #include "nsIPresShell.h" #include "nsDocShell.h" #include "nsIContentViewer.h" #include "nsPIDOMWindow.h" #include "nsStyleSet.h" #include "nsIContent.h" #include "nsIFrame.h" #include "nsIDocument.h" #include "nsIPrintSettings.h" #include "nsILanguageAtomService.h" #include "mozilla/LookAndFeel.h" #include "nsIInterfaceRequestorUtils.h" #include "nsIWeakReferenceUtils.h" #include "nsAutoPtr.h" #include "nsEventStateManager.h" #include "nsThreadUtils.h" #include "nsFrameManager.h" #include "nsLayoutUtils.h" #include "nsViewManager.h" #include "RestyleManager.h" #include "nsCSSRuleProcessor.h" #include "nsRuleNode.h" #include "nsEventDispatcher.h" #include "gfxPlatform.h" #include "nsCSSRules.h" #include "nsFontFaceLoader.h" #include "nsEventListenerManager.h" #include "prenv.h" #include "nsObjectFrame.h" #include "nsTransitionManager.h" #include "nsAnimationManager.h" #include "mozilla/MemoryReporting.h" #include "mozilla/dom/Element.h" #include "nsIMessageManager.h" #include "mozilla/dom/MediaQueryList.h" #include "nsSMILAnimationController.h" #include "mozilla/css/ImageLoader.h" #include "mozilla/dom/TabChild.h" #include "nsRefreshDriver.h" #include "Layers.h" #include "nsIDOMEvent.h" #include "gfxPrefs.h" #include "nsContentUtils.h" #include "nsCxPusher.h" #include "nsPIWindowRoot.h" #include "mozilla/Preferences.h" // Needed for Start/Stop of Image Animation #include "imgIContainer.h" #include "nsIImageLoadingContent.h" #include "nsCSSParser.h" #include "nsBidiUtils.h" #include "nsServiceManagerUtils.h" #include "URL.h" using namespace mozilla; using namespace mozilla::dom; using namespace mozilla::layers; // BEGIN temporary diagnostic stuff for bug 946929 struct PCLink; static PCLink* sTopPCLink; struct PCLink { PCLink(const char* w, nsPresContext* aPC) : prev(sTopPCLink), pc(aPC), where(w) { sTopPCLink = this; } ~PCLink() { sTopPCLink = prev; } PCLink* prev; nsPresContext* pc; const char* where; }; // END temporary diagnostic stuff for bug 946929 uint8_t gNotifySubDocInvalidationData; /** * Layer UserData for ContainerLayers that want to be notified * of local invalidations of them and their descendant layers. * Pass a callback to ComputeDifferences to have these called. */ class ContainerLayerPresContext : public LayerUserData { public: nsPresContext* mPresContext; }; namespace { class CharSetChangingRunnable : public nsRunnable { public: CharSetChangingRunnable(nsPresContext* aPresContext, const nsCString& aCharSet) : mPresContext(aPresContext), mCharSet(aCharSet) { } NS_IMETHOD Run() { mPresContext->DoChangeCharSet(mCharSet); return NS_OK; } private: nsRefPtr mPresContext; nsCString mCharSet; }; } // anonymous namespace nscolor nsPresContext::MakeColorPref(const nsString& aColor) { nsCSSParser parser; nsCSSValue value; if (!parser.ParseColorString(aColor, nullptr, 0, value)) { // Any better choices? return NS_RGB(0, 0, 0); } nscolor color; return nsRuleNode::ComputeColor(value, this, nullptr, color) ? color : NS_RGB(0, 0, 0); } static void DumpPresContextState(nsPresContext* aPC) { printf_stderr("PresContext(%p) %s", aPC, aPC->IsRoot()?"ROOT ":""); nsIURI* uri = aPC->Document()->GetDocumentURI(); if (uri) { nsAutoCString uriSpec; nsresult rv = uri->GetSpec(uriSpec); if (NS_SUCCEEDED(rv)) { printf_stderr("%s ", uriSpec.get()); } } nsIPresShell* shell = aPC->GetPresShell(); if (shell) { printf_stderr("PresShell - IsDestroying(%i) IsFrozen(%i) IsActive(%i) IsVisible(%i) IsNeverPainting(%i) GetRootFrame(%p)", shell->IsDestroying(), shell->IsFrozen(), shell->IsActive(), shell->IsVisible(), shell->IsNeverPainting(), shell->GetRootFrame()); } printf_stderr("\n"); } bool nsPresContext::IsDOMPaintEventPending() { if (mFireAfterPaintEvents) { return true; } if (!GetDisplayRootPresContext() || !GetDisplayRootPresContext()->GetRootPresContext()) { printf_stderr("Failed to find root pres context, dumping pres context and ancestors\n"); for (PCLink* p = sTopPCLink; p; p = p->prev) { printf_stderr("%s %p ", p->where, p->pc); } if (sTopPCLink) printf_stderr("\n"); nsPresContext* pc = this; for (;;) { DumpPresContextState(pc); nsPresContext* parent = pc->GetParentPresContext(); if (!parent) { nsIDocument* doc = pc->Document(); if (doc) { doc = doc->GetParentDocument(); if (doc) { nsIPresShell* shell = doc->GetShell(); if (shell) { parent = shell->GetPresContext(); } } } } if (!parent || parent == pc) break; pc = parent; } } if (GetDisplayRootPresContext()->GetRootPresContext()->mRefreshDriver->ViewManagerFlushIsPending()) { // Since we're promising that there will be a MozAfterPaint event // fired, we record an empty invalidation in case display list // invalidation doesn't invalidate anything further. NotifyInvalidation(nsRect(0, 0, 0, 0), 0); NS_ASSERTION(mFireAfterPaintEvents, "Why aren't we planning to fire the event?"); return true; } return false; } void nsPresContext::PrefChangedCallback(const char* aPrefName, void* instance_data) { nsRefPtr presContext = static_cast(instance_data); NS_ASSERTION(nullptr != presContext, "bad instance data"); if (nullptr != presContext) { presContext->PreferenceChanged(aPrefName); } } void nsPresContext::PrefChangedUpdateTimerCallback(nsITimer *aTimer, void *aClosure) { nsPresContext* presContext = (nsPresContext*)aClosure; NS_ASSERTION(presContext != nullptr, "bad instance data"); if (presContext) presContext->UpdateAfterPreferencesChanged(); } #ifdef IBMBIDI static bool IsVisualCharset(const nsCString& aCharset) { if (aCharset.LowerCaseEqualsLiteral("ibm862") // Hebrew || aCharset.LowerCaseEqualsLiteral("iso-8859-8") ) { // Hebrew return true; // visual text type } else { return false; // logical text type } } #endif // IBMBIDI // NOTE! nsPresContext::operator new() zeroes out all members, so don't // bother initializing members to 0. nsPresContext::nsPresContext(nsIDocument* aDocument, nsPresContextType aType) : mType(aType), mDocument(aDocument), mBaseMinFontSize(0), mTextZoom(1.0), mFullZoom(1.0), mLastFontInflationScreenWidth(-1.0), mPageSize(-1, -1), mPPScale(1.0f), mViewportStyleOverflow(NS_STYLE_OVERFLOW_AUTO, NS_STYLE_OVERFLOW_AUTO), mImageAnimationModePref(imgIContainer::kNormalAnimMode), mAllInvalidated(false), mPaintFlashing(false), mPaintFlashingInitialized(false) { // NOTE! nsPresContext::operator new() zeroes out all members, so don't // bother initializing members to 0. mDoScaledTwips = true; SetBackgroundImageDraw(true); // always draw the background SetBackgroundColorDraw(true); mBackgroundColor = NS_RGB(0xFF, 0xFF, 0xFF); mUseDocumentColors = true; mUseDocumentFonts = true; // the minimum font-size is unconstrained by default mLinkColor = NS_RGB(0x00, 0x00, 0xEE); mActiveLinkColor = NS_RGB(0xEE, 0x00, 0x00); mVisitedLinkColor = NS_RGB(0x55, 0x1A, 0x8B); mUnderlineLinks = true; mSendAfterPaintToContent = false; mFocusTextColor = mDefaultColor; mFocusBackgroundColor = mBackgroundColor; mFocusRingWidth = 1; mBodyTextColor = mDefaultColor; if (aType == eContext_Galley) { mMedium = nsGkAtoms::screen; } else { mMedium = nsGkAtoms::print; mPaginated = true; } mMediaEmulated = mMedium; if (!IsDynamic()) { mImageAnimationMode = imgIContainer::kDontAnimMode; mNeverAnimate = true; } else { mImageAnimationMode = imgIContainer::kNormalAnimMode; mNeverAnimate = false; } NS_ASSERTION(mDocument, "Null document"); mUserFontSet = nullptr; mUserFontSetDirty = true; // if text perf logging enabled, init stats struct PRLogModuleInfo *log = gfxPlatform::GetLog(eGfxLog_textperf); if (log && log->level >= PR_LOG_WARNING) { mTextPerf = new gfxTextPerfMetrics(); } PR_INIT_CLIST(&mDOMMediaQueryLists); } nsPresContext::~nsPresContext() { if (sTopPCLink) { printf_stderr("~nsPresContext %p %p\n", this, mShell); } NS_PRECONDITION(!mShell, "Presshell forgot to clear our mShell pointer"); SetShell(nullptr); NS_ABORT_IF_FALSE(PR_CLIST_IS_EMPTY(&mDOMMediaQueryLists), "must not have media query lists left"); // Disconnect the refresh driver *after* the transition manager, which // needs it. if (mRefreshDriver && mRefreshDriver->PresContext() == this) { mRefreshDriver->Disconnect(); } if (mEventManager) { // unclear if these are needed, but can't hurt mEventManager->NotifyDestroyPresContext(this); mEventManager->SetPresContext(nullptr); } if (mPrefChangedTimer) { mPrefChangedTimer->Cancel(); mPrefChangedTimer = nullptr; } // Unregister preference callbacks Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "font.", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "browser.display.", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "browser.underline_anchors", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "browser.anchor_color", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "browser.active_color", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "browser.visited_color", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "image.animation_mode", this); #ifdef IBMBIDI Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "bidi.", this); #endif // IBMBIDI Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "dom.send_after_paint_to_content", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "gfx.font_rendering.", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "layout.css.dpi", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "layout.css.devPixelsPerPx", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "nglayout.debug.paint_flashing", this); Preferences::UnregisterCallback(nsPresContext::PrefChangedCallback, "nglayout.debug.paint_flashing_chrome", this); } NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsPresContext) NS_INTERFACE_MAP_ENTRY(nsISupports) NS_INTERFACE_MAP_ENTRY(nsIObserver) NS_INTERFACE_MAP_END NS_IMPL_CYCLE_COLLECTING_ADDREF(nsPresContext) NS_IMPL_CYCLE_COLLECTING_RELEASE_WITH_LAST_RELEASE(nsPresContext, LastRelease()) void nsPresContext::LastRelease() { if (IsRoot()) { static_cast(this)->CancelDidPaintTimer(); } } NS_IMPL_CYCLE_COLLECTION_CLASS(nsPresContext) NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsPresContext) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mDocument); // NS_IMPL_CYCLE_COLLECTION_TRAVERSE_RAWPTR(mDeviceContext); // not xpcom NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mEventManager); // NS_IMPL_CYCLE_COLLECTION_TRAVERSE_RAWPTR(mLanguage); // an atom // We own only the items in mDOMMediaQueryLists that have listeners; // this reference is managed by their AddListener and RemoveListener // methods. for (PRCList *l = PR_LIST_HEAD(&tmp->mDOMMediaQueryLists); l != &tmp->mDOMMediaQueryLists; l = PR_NEXT_LINK(l)) { MediaQueryList *mql = static_cast(l); if (mql->HasListeners()) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "mDOMMediaQueryLists item"); cb.NoteXPCOMChild(mql); } } // NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mTheme); // a service // NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mLangService); // a service NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mPrintSettings); NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mPrefChangedTimer); NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsPresContext) NS_IMPL_CYCLE_COLLECTION_UNLINK(mDocument); NS_IMPL_CYCLE_COLLECTION_UNLINK(mDeviceContext); // worth bothering? if (tmp->mEventManager) { // unclear if these are needed, but can't hurt tmp->mEventManager->NotifyDestroyPresContext(tmp); tmp->mEventManager->SetPresContext(nullptr); tmp->mEventManager = nullptr; } // We own only the items in mDOMMediaQueryLists that have listeners; // this reference is managed by their AddListener and RemoveListener // methods. for (PRCList *l = PR_LIST_HEAD(&tmp->mDOMMediaQueryLists); l != &tmp->mDOMMediaQueryLists; ) { PRCList *next = PR_NEXT_LINK(l); MediaQueryList *mql = static_cast(l); mql->RemoveAllListeners(); l = next; } // NS_RELEASE(tmp->mLanguage); // an atom // NS_IMPL_CYCLE_COLLECTION_UNLINK(mTheme); // a service // NS_IMPL_CYCLE_COLLECTION_UNLINK(mLangService); // a service NS_IMPL_CYCLE_COLLECTION_UNLINK(mPrintSettings); if (tmp->mPrefChangedTimer) { tmp->mPrefChangedTimer->Cancel(); tmp->mPrefChangedTimer = nullptr; } NS_IMPL_CYCLE_COLLECTION_UNLINK_END #define MAKE_FONT_PREF_KEY(_pref, _s0, _s1) \ _pref.Assign(_s0); \ _pref.Append(_s1); static const char* const kGenericFont[] = { ".variable.", ".fixed.", ".serif.", ".sans-serif.", ".monospace.", ".cursive.", ".fantasy." }; // whether no native theme service exists; // if this gets set to true, we'll stop asking for it. static bool sNoTheme = false; // Set to true when LookAndFeelChanged needs to be called. This is used // because the look and feel is a service, so there's no need to notify it from // more than one prescontext. static bool sLookAndFeelChanged; // Set to true when ThemeChanged needs to be called on mTheme. This is used // because mTheme is a service, so there's no need to notify it from more than // one prescontext. static bool sThemeChanged; const nsPresContext::LangGroupFontPrefs* nsPresContext::GetFontPrefsForLang(nsIAtom *aLanguage) const { // Get language group for aLanguage: nsresult rv = NS_OK; nsIAtom *langGroupAtom = nullptr; if (!aLanguage) { aLanguage = mLanguage; } if (aLanguage && mLangService) { langGroupAtom = mLangService->GetLanguageGroup(aLanguage, &rv); } if (NS_FAILED(rv) || !langGroupAtom) { langGroupAtom = nsGkAtoms::x_western; // Assume x-western is safe... } // Look for cached prefs for this lang group. // Most documents will only use one (or very few) language groups. Rather // than have the overhead of a hash lookup, we simply look along what will // typically be a very short (usually of length 1) linked list. There are 31 // language groups, so in the worst case scenario we'll need to traverse 31 // link items. LangGroupFontPrefs *prefs = const_cast(&mLangGroupFontPrefs); if (prefs->mLangGroup) { // if initialized DebugOnly count = 0; for (;;) { NS_ASSERTION(++count < 35, "Lang group count exceeded!!!"); if (prefs->mLangGroup == langGroupAtom) { return prefs; } if (!prefs->mNext) { break; } prefs = prefs->mNext; } // nothing cached, so go on and fetch the prefs for this lang group: prefs = prefs->mNext = new LangGroupFontPrefs; } prefs->mLangGroup = langGroupAtom; /* Fetch the font prefs to be used -- see bug 61883 for details. Not all prefs are needed upfront. Some are fallback prefs intended for the GFX font sub-system... 1) unit : assumed to be the same for all language groups ------------- font.size.unit = px | pt XXX could be folded in the size... bug 90440 2) attributes for generic fonts -------------------------------------- font.default.[langGroup] = serif | sans-serif - fallback generic font font.name.[generic].[langGroup] = current user' selected font on the pref dialog font.name-list.[generic].[langGroup] = fontname1, fontname2, ... [factory pre-built list] font.size.[generic].[langGroup] = integer - settable by the user font.size-adjust.[generic].[langGroup] = "float" - settable by the user font.minimum-size.[langGroup] = integer - settable by the user */ nsAutoCString langGroup; langGroupAtom->ToUTF8String(langGroup); prefs->mDefaultVariableFont.size = CSSPixelsToAppUnits(16); prefs->mDefaultFixedFont.size = CSSPixelsToAppUnits(13); nsAutoCString pref; // get the current applicable font-size unit enum {eUnit_unknown = -1, eUnit_px, eUnit_pt}; int32_t unit = eUnit_px; nsAdoptingCString cvalue = Preferences::GetCString("font.size.unit"); if (!cvalue.IsEmpty()) { if (cvalue.Equals("px")) { unit = eUnit_px; } else if (cvalue.Equals("pt")) { unit = eUnit_pt; } else { // XXX should really send this warning to the user (Error Console?). // And just default to unit = eUnit_px? NS_WARNING("unexpected font-size unit -- expected: 'px' or 'pt'"); unit = eUnit_unknown; } } // get font.minimum-size.[langGroup] MAKE_FONT_PREF_KEY(pref, "font.minimum-size.", langGroup); int32_t size = Preferences::GetInt(pref.get()); if (unit == eUnit_px) { prefs->mMinimumFontSize = CSSPixelsToAppUnits(size); } else if (unit == eUnit_pt) { prefs->mMinimumFontSize = CSSPointsToAppUnits(size); } nsFont* fontTypes[] = { &prefs->mDefaultVariableFont, &prefs->mDefaultFixedFont, &prefs->mDefaultSerifFont, &prefs->mDefaultSansSerifFont, &prefs->mDefaultMonospaceFont, &prefs->mDefaultCursiveFont, &prefs->mDefaultFantasyFont }; static_assert(MOZ_ARRAY_LENGTH(fontTypes) == eDefaultFont_COUNT, "FontTypes array count is not correct"); // Get attributes specific to each generic font. We do not get the user's // generic-font-name-to-specific-family-name preferences because its the // generic name that should be fed into the cascade. It is up to the GFX // code to look up the font prefs to convert generic names to specific // family names as necessary. nsAutoCString generic_dot_langGroup; for (uint32_t eType = 0; eType < ArrayLength(fontTypes); ++eType) { generic_dot_langGroup.Assign(kGenericFont[eType]); generic_dot_langGroup.Append(langGroup); nsFont* font = fontTypes[eType]; // set the default variable font (the other fonts are seen as 'generic' fonts // in GFX and will be queried there when hunting for alternative fonts) if (eType == eDefaultFont_Variable) { MAKE_FONT_PREF_KEY(pref, "font.name.variable.", langGroup); nsAdoptingString value = Preferences::GetString(pref.get()); if (!value.IsEmpty()) { prefs->mDefaultVariableFont.name.Assign(value); } else { MAKE_FONT_PREF_KEY(pref, "font.default.", langGroup); value = Preferences::GetString(pref.get()); if (!value.IsEmpty()) { prefs->mDefaultVariableFont.name.Assign(value); } } } else { if (eType == eDefaultFont_Monospace) { // This takes care of the confusion whereby people often expect "monospace" // to have the same default font-size as "-moz-fixed" (this tentative // size may be overwritten with the specific value for "monospace" when // "font.size.monospace.[langGroup]" is read -- see below) prefs->mDefaultMonospaceFont.size = prefs->mDefaultFixedFont.size; } else if (eType != eDefaultFont_Fixed) { // all the other generic fonts are initialized with the size of the // variable font, but their specific size can supersede later -- see below font->size = prefs->mDefaultVariableFont.size; } } // Bug 84398: for spec purists, a different font-size only applies to the // .variable. and .fixed. fonts and the other fonts should get |font-size-adjust|. // The problem is that only GfxWin has the support for |font-size-adjust|. So for // parity, we enable the ability to set a different font-size on all platforms. // get font.size.[generic].[langGroup] // size=0 means 'Auto', i.e., generic fonts retain the size of the variable font MAKE_FONT_PREF_KEY(pref, "font.size", generic_dot_langGroup); size = Preferences::GetInt(pref.get()); if (size > 0) { if (unit == eUnit_px) { font->size = CSSPixelsToAppUnits(size); } else if (unit == eUnit_pt) { font->size = CSSPointsToAppUnits(size); } } // get font.size-adjust.[generic].[langGroup] // XXX only applicable on GFX ports that handle |font-size-adjust| MAKE_FONT_PREF_KEY(pref, "font.size-adjust", generic_dot_langGroup); cvalue = Preferences::GetCString(pref.get()); if (!cvalue.IsEmpty()) { font->sizeAdjust = (float)atof(cvalue.get()); } #ifdef DEBUG_rbs printf("%s Family-list:%s size:%d sizeAdjust:%.2f\n", generic_dot_langGroup.get(), NS_ConvertUTF16toUTF8(font->name).get(), font->size, font->sizeAdjust); #endif } return prefs; } void nsPresContext::GetDocumentColorPreferences() { // Make sure the preferences are initialized. In the normal run, // they would already be, because gfxPlatform would have been created, // but in some reference tests, that is not the case. gfxPrefs::GetSingleton(); int32_t useAccessibilityTheme = 0; bool usePrefColors = true; bool isChromeDocShell = false; nsIDocument* doc = mDocument->GetDisplayDocument(); if (doc && doc->GetDocShell()) { isChromeDocShell = nsIDocShellTreeItem::typeChrome == doc->GetDocShell()->ItemType(); } else { nsCOMPtr docShell(mContainer); if (docShell) { isChromeDocShell = nsIDocShellTreeItem::typeChrome == docShell->ItemType(); } } mIsChromeOriginImage = mDocument->IsBeingUsedAsImage() && IsChromeURI(mDocument->GetDocumentURI()); if (isChromeDocShell || mIsChromeOriginImage) { usePrefColors = false; } else { useAccessibilityTheme = LookAndFeel::GetInt(LookAndFeel::eIntID_UseAccessibilityTheme, 0); usePrefColors = !useAccessibilityTheme; } if (usePrefColors) { usePrefColors = !Preferences::GetBool("browser.display.use_system_colors", false); } if (usePrefColors) { nsAdoptingString colorStr = Preferences::GetString("browser.display.foreground_color"); if (!colorStr.IsEmpty()) { mDefaultColor = MakeColorPref(colorStr); } colorStr = Preferences::GetString("browser.display.background_color"); if (!colorStr.IsEmpty()) { mBackgroundColor = MakeColorPref(colorStr); } } else { mDefaultColor = LookAndFeel::GetColor(LookAndFeel::eColorID_WindowForeground, NS_RGB(0x00, 0x00, 0x00)); mBackgroundColor = LookAndFeel::GetColor(LookAndFeel::eColorID_WindowBackground, NS_RGB(0xFF, 0xFF, 0xFF)); } // Wherever we got the default background color from, ensure it is // opaque. mBackgroundColor = NS_ComposeColors(NS_RGB(0xFF, 0xFF, 0xFF), mBackgroundColor); mUseDocumentColors = !useAccessibilityTheme && Preferences::GetBool("browser.display.use_document_colors", mUseDocumentColors); } void nsPresContext::GetUserPreferences() { if (!GetPresShell()) { // No presshell means nothing to do here. We'll do this when we // get a presshell. return; } mAutoQualityMinFontSizePixelsPref = Preferences::GetInt("browser.display.auto_quality_min_font_size"); // * document colors GetDocumentColorPreferences(); mSendAfterPaintToContent = Preferences::GetBool("dom.send_after_paint_to_content", mSendAfterPaintToContent); // * link colors mUnderlineLinks = Preferences::GetBool("browser.underline_anchors", mUnderlineLinks); nsAdoptingString colorStr = Preferences::GetString("browser.anchor_color"); if (!colorStr.IsEmpty()) { mLinkColor = MakeColorPref(colorStr); } colorStr = Preferences::GetString("browser.active_color"); if (!colorStr.IsEmpty()) { mActiveLinkColor = MakeColorPref(colorStr); } colorStr = Preferences::GetString("browser.visited_color"); if (!colorStr.IsEmpty()) { mVisitedLinkColor = MakeColorPref(colorStr); } mUseFocusColors = Preferences::GetBool("browser.display.use_focus_colors", mUseFocusColors); mFocusTextColor = mDefaultColor; mFocusBackgroundColor = mBackgroundColor; colorStr = Preferences::GetString("browser.display.focus_text_color"); if (!colorStr.IsEmpty()) { mFocusTextColor = MakeColorPref(colorStr); } colorStr = Preferences::GetString("browser.display.focus_background_color"); if (!colorStr.IsEmpty()) { mFocusBackgroundColor = MakeColorPref(colorStr); } mFocusRingWidth = Preferences::GetInt("browser.display.focus_ring_width", mFocusRingWidth); mFocusRingOnAnything = Preferences::GetBool("browser.display.focus_ring_on_anything", mFocusRingOnAnything); mFocusRingStyle = Preferences::GetInt("browser.display.focus_ring_style", mFocusRingStyle); mBodyTextColor = mDefaultColor; // * use fonts? mUseDocumentFonts = Preferences::GetInt("browser.display.use_document_fonts") != 0; mPrefScrollbarSide = Preferences::GetInt("layout.scrollbar.side"); ResetCachedFontPrefs(); // * image animation const nsAdoptingCString& animatePref = Preferences::GetCString("image.animation_mode"); if (animatePref.Equals("normal")) mImageAnimationModePref = imgIContainer::kNormalAnimMode; else if (animatePref.Equals("none")) mImageAnimationModePref = imgIContainer::kDontAnimMode; else if (animatePref.Equals("once")) mImageAnimationModePref = imgIContainer::kLoopOnceAnimMode; else // dynamic change to invalid value should act like it does initially mImageAnimationModePref = imgIContainer::kNormalAnimMode; uint32_t bidiOptions = GetBidi(); int32_t prefInt = Preferences::GetInt(IBMBIDI_TEXTDIRECTION_STR, GET_BIDI_OPTION_DIRECTION(bidiOptions)); SET_BIDI_OPTION_DIRECTION(bidiOptions, prefInt); mPrefBidiDirection = prefInt; prefInt = Preferences::GetInt(IBMBIDI_TEXTTYPE_STR, GET_BIDI_OPTION_TEXTTYPE(bidiOptions)); SET_BIDI_OPTION_TEXTTYPE(bidiOptions, prefInt); prefInt = Preferences::GetInt(IBMBIDI_NUMERAL_STR, GET_BIDI_OPTION_NUMERAL(bidiOptions)); SET_BIDI_OPTION_NUMERAL(bidiOptions, prefInt); prefInt = Preferences::GetInt(IBMBIDI_SUPPORTMODE_STR, GET_BIDI_OPTION_SUPPORT(bidiOptions)); SET_BIDI_OPTION_SUPPORT(bidiOptions, prefInt); // We don't need to force reflow: either we are initializing a new // prescontext or we are being called from UpdateAfterPreferencesChanged() // which triggers a reflow anyway. SetBidi(bidiOptions, false); } void nsPresContext::InvalidateThebesLayers() { if (!mShell) return; nsIFrame* rootFrame = mShell->FrameManager()->GetRootFrame(); if (rootFrame) { // FrameLayerBuilder caches invalidation-related values that depend on the // appunits-per-dev-pixel ratio, so ensure that all ThebesLayer drawing // is completely flushed. rootFrame->InvalidateFrameSubtree(); } } void nsPresContext::AppUnitsPerDevPixelChanged() { InvalidateThebesLayers(); if (mDeviceContext) { mDeviceContext->FlushFontCache(); } if (HasCachedStyleData()) { // All cached style data must be recomputed. MediaFeatureValuesChanged(eAlwaysRebuildStyle, NS_STYLE_HINT_REFLOW); } mCurAppUnitsPerDevPixel = AppUnitsPerDevPixel(); } void nsPresContext::PreferenceChanged(const char* aPrefName) { nsDependentCString prefName(aPrefName); if (prefName.EqualsLiteral("layout.css.dpi") || prefName.EqualsLiteral("layout.css.devPixelsPerPx")) { int32_t oldAppUnitsPerDevPixel = AppUnitsPerDevPixel(); if (mDeviceContext->CheckDPIChange() && mShell) { nsCOMPtr shell = mShell; // Re-fetch the view manager's window dimensions in case there's a deferred // resize which hasn't affected our mVisibleArea yet nscoord oldWidthAppUnits, oldHeightAppUnits; nsRefPtr vm = shell->GetViewManager(); if (!vm) { return; } vm->GetWindowDimensions(&oldWidthAppUnits, &oldHeightAppUnits); float oldWidthDevPixels = oldWidthAppUnits/oldAppUnitsPerDevPixel; float oldHeightDevPixels = oldHeightAppUnits/oldAppUnitsPerDevPixel; nscoord width = NSToCoordRound(oldWidthDevPixels*AppUnitsPerDevPixel()); nscoord height = NSToCoordRound(oldHeightDevPixels*AppUnitsPerDevPixel()); vm->SetWindowDimensions(width, height); AppUnitsPerDevPixelChanged(); } return; } if (StringBeginsWith(prefName, NS_LITERAL_CSTRING("font."))) { // Changes to font family preferences don't change anything in the // computed style data, so the style system won't generate a reflow // hint for us. We need to do that manually. // FIXME We could probably also handle changes to // browser.display.auto_quality_min_font_size here, but that // probably also requires clearing the text run cache, so don't // bother (yet, anyway). mPrefChangePendingNeedsReflow = true; } if (StringBeginsWith(prefName, NS_LITERAL_CSTRING("bidi."))) { // Changes to bidi prefs need to trigger a reflow (see bug 443629) mPrefChangePendingNeedsReflow = true; // Changes to bidi.numeral also needs to empty the text run cache. // This is handled in gfxTextRunWordCache.cpp. } if (StringBeginsWith(prefName, NS_LITERAL_CSTRING("gfx.font_rendering."))) { // Changes to font_rendering prefs need to trigger a reflow mPrefChangePendingNeedsReflow = true; } // we use a zero-delay timer to coalesce multiple pref updates if (!mPrefChangedTimer) { mPrefChangedTimer = do_CreateInstance("@mozilla.org/timer;1"); if (!mPrefChangedTimer) return; mPrefChangedTimer->InitWithFuncCallback(nsPresContext::PrefChangedUpdateTimerCallback, (void*)this, 0, nsITimer::TYPE_ONE_SHOT); } if (prefName.EqualsLiteral("nglayout.debug.paint_flashing") || prefName.EqualsLiteral("nglayout.debug.paint_flashing_chrome")) { mPaintFlashingInitialized = false; return; } } void nsPresContext::UpdateAfterPreferencesChanged() { mPrefChangedTimer = nullptr; nsCOMPtr docShell(mContainer); if (docShell && nsIDocShellTreeItem::typeChrome == docShell->ItemType()) { return; } // Initialize our state from the user preferences GetUserPreferences(); // update the presShell: tell it to set the preference style rules up if (mShell) { mShell->SetPreferenceStyleRules(true); } InvalidateThebesLayers(); mDeviceContext->FlushFontCache(); nsChangeHint hint = nsChangeHint(0); if (mPrefChangePendingNeedsReflow) { NS_UpdateHint(hint, NS_STYLE_HINT_REFLOW); } RebuildAllStyleData(hint); } nsresult nsPresContext::Init(nsDeviceContext* aDeviceContext) { NS_ASSERTION(!mInitialized, "attempt to reinit pres context"); NS_ENSURE_ARG(aDeviceContext); mDeviceContext = aDeviceContext; if (mDeviceContext->SetPixelScale(mFullZoom)) mDeviceContext->FlushFontCache(); mCurAppUnitsPerDevPixel = AppUnitsPerDevPixel(); mEventManager = new nsEventStateManager(); mTransitionManager = new nsTransitionManager(this); mAnimationManager = new nsAnimationManager(this); // FIXME: Why is mozilla:: needed? mRestyleManager = new mozilla::RestyleManager(this); if (mDocument->GetDisplayDocument()) { NS_ASSERTION(mDocument->GetDisplayDocument()->GetShell() && mDocument->GetDisplayDocument()->GetShell()->GetPresContext(), "Why are we being initialized?"); mRefreshDriver = mDocument->GetDisplayDocument()->GetShell()-> GetPresContext()->RefreshDriver(); } else { nsIDocument* parent = mDocument->GetParentDocument(); // Unfortunately, sometimes |parent| here has no presshell because // printing screws up things. Assert that in other cases it does, // but whenever the shell is null just fall back on using our own // refresh driver. NS_ASSERTION(!parent || mDocument->IsStaticDocument() || parent->GetShell(), "How did we end up with a presshell if our parent doesn't " "have one?"); if (parent && parent->GetShell()) { NS_ASSERTION(parent->GetShell()->GetPresContext(), "How did we get a presshell?"); // We don't have our container set yet at this point nsCOMPtr ourItem = mDocument->GetDocShell(); if (ourItem) { nsCOMPtr parentItem; ourItem->GetSameTypeParent(getter_AddRefs(parentItem)); if (parentItem) { Element* containingElement = parent->FindContentForSubDocument(mDocument); if (!containingElement->IsXUL() || !containingElement-> HasAttr(kNameSpaceID_None, nsGkAtoms::forceOwnRefreshDriver)) { mRefreshDriver = parent->GetShell()->GetPresContext()->RefreshDriver(); } } } } if (!mRefreshDriver) { mRefreshDriver = new nsRefreshDriver(this); } } // Initialise refresh tick counters for OMTA mLastStyleUpdateForAllAnimations = mLastUpdateThrottledAnimationStyle = mLastUpdateThrottledTransitionStyle = mRefreshDriver->MostRecentRefresh(); mLangService = do_GetService(NS_LANGUAGEATOMSERVICE_CONTRACTID); // Register callbacks so we're notified when the preferences change Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "font.", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "browser.display.", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "browser.underline_anchors", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "browser.anchor_color", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "browser.active_color", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "browser.visited_color", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "image.animation_mode", this); #ifdef IBMBIDI Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "bidi.", this); #endif Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "dom.send_after_paint_to_content", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "gfx.font_rendering.", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "layout.css.dpi", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "layout.css.devPixelsPerPx", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "nglayout.debug.paint_flashing", this); Preferences::RegisterCallback(nsPresContext::PrefChangedCallback, "nglayout.debug.paint_flashing_chrome", this); nsresult rv = mEventManager->Init(); NS_ENSURE_SUCCESS(rv, rv); mEventManager->SetPresContext(this); #ifdef DEBUG mInitialized = true; #endif mBorderWidthTable[NS_STYLE_BORDER_WIDTH_THIN] = CSSPixelsToAppUnits(1); mBorderWidthTable[NS_STYLE_BORDER_WIDTH_MEDIUM] = CSSPixelsToAppUnits(3); mBorderWidthTable[NS_STYLE_BORDER_WIDTH_THICK] = CSSPixelsToAppUnits(5); return NS_OK; } // Note: We don't hold a reference on the shell; it has a reference to // us void nsPresContext::SetShell(nsIPresShell* aShell) { if (mUserFontSet) { // Clear out user font set if we have one mUserFontSet->Destroy(); NS_RELEASE(mUserFontSet); } if (mShell) { // Remove ourselves as the charset observer from the shell's doc, because // this shell may be going away for good. nsIDocument *doc = mShell->GetDocument(); if (doc) { doc->RemoveCharSetObserver(this); } } mShell = aShell; if (mShell) { nsIDocument *doc = mShell->GetDocument(); NS_ASSERTION(doc, "expect document here"); if (doc) { // Have to update PresContext's mDocument before calling any other methods. mDocument = doc; } // Initialize our state from the user preferences, now that we // have a presshell, and hence a document. GetUserPreferences(); if (doc) { nsIURI *docURI = doc->GetDocumentURI(); if (IsDynamic() && docURI) { bool isChrome = false; bool isRes = false; docURI->SchemeIs("chrome", &isChrome); docURI->SchemeIs("resource", &isRes); if (!isChrome && !isRes) mImageAnimationMode = mImageAnimationModePref; else mImageAnimationMode = imgIContainer::kNormalAnimMode; } if (mLangService) { doc->AddCharSetObserver(this); UpdateCharSet(doc->GetDocumentCharacterSet()); } } } else { if (mTransitionManager) { mTransitionManager->Disconnect(); mTransitionManager = nullptr; } if (mAnimationManager) { mAnimationManager->Disconnect(); mAnimationManager = nullptr; } if (mRestyleManager) { mRestyleManager->Disconnect(); mRestyleManager = nullptr; } if (IsRoot()) { // Have to cancel our plugin geometry timer, because the // callback for that depends on a non-null presshell. static_cast(this)->CancelApplyPluginGeometryTimer(); } } } void nsPresContext::DoChangeCharSet(const nsCString& aCharSet) { UpdateCharSet(aCharSet); mDeviceContext->FlushFontCache(); RebuildAllStyleData(NS_STYLE_HINT_REFLOW); } void nsPresContext::UpdateCharSet(const nsCString& aCharSet) { if (mLangService) { mLanguage = mLangService->LookupCharSet(aCharSet.get()); // this will be a language group (or script) code rather than a true language code // bug 39570: moved from nsLanguageAtomService::LookupCharSet() if (mLanguage == nsGkAtoms::Unicode) { mLanguage = mLangService->GetLocaleLanguage(); } ResetCachedFontPrefs(); } #ifdef IBMBIDI //ahmed switch (GET_BIDI_OPTION_TEXTTYPE(GetBidi())) { case IBMBIDI_TEXTTYPE_LOGICAL: SetVisualMode(false); break; case IBMBIDI_TEXTTYPE_VISUAL: SetVisualMode(true); break; case IBMBIDI_TEXTTYPE_CHARSET: default: SetVisualMode(IsVisualCharset(aCharSet)); } #endif // IBMBIDI } NS_IMETHODIMP nsPresContext::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!nsCRT::strcmp(aTopic, "charset")) { nsRefPtr runnable = new CharSetChangingRunnable(this, NS_LossyConvertUTF16toASCII(aData)); return NS_DispatchToCurrentThread(runnable); } NS_WARNING("unrecognized topic in nsPresContext::Observe"); return NS_ERROR_FAILURE; } nsPresContext* nsPresContext::GetParentPresContext() { nsIPresShell* shell = GetPresShell(); if (shell) { nsViewManager* viewManager = shell->GetViewManager(); if (viewManager) { nsView* view = viewManager->GetRootView(); if (view) { view = view->GetParent(); // anonymous inner view if (view) { view = view->GetParent(); // subdocumentframe's view if (view) { nsIFrame* f = view->GetFrame(); if (f) { return f->PresContext(); } } } } } } return nullptr; } nsPresContext* nsPresContext::GetToplevelContentDocumentPresContext() { if (IsChrome()) return nullptr; nsPresContext* pc = this; for (;;) { nsPresContext* parent = pc->GetParentPresContext(); if (!parent || parent->IsChrome()) return pc; pc = parent; } } nsIWidget* nsPresContext::GetNearestWidget(nsPoint* aOffset) { NS_ENSURE_TRUE(mShell, nullptr); nsIFrame* frame = mShell->GetRootFrame(); NS_ENSURE_TRUE(frame, nullptr); return frame->GetView()->GetNearestWidget(aOffset); } nsIWidget* nsPresContext::GetRootWidget() { NS_ENSURE_TRUE(mShell, nullptr); nsViewManager* vm = mShell->GetViewManager(); if (!vm) { return nullptr; } nsCOMPtr widget; vm->GetRootWidget(getter_AddRefs(widget)); return widget.get(); } // We may want to replace this with something faster, maybe caching the root prescontext nsRootPresContext* nsPresContext::GetRootPresContext() { nsPresContext* pc = this; for (;;) { nsPresContext* parent = pc->GetParentPresContext(); if (!parent) break; pc = parent; } return pc->IsRoot() ? static_cast(pc) : nullptr; } nsRootPresContext* nsPresContext::GetDisplayRootPresContext() { nsPresContext* pc = this; for (;;) { nsPresContext* parent = pc->GetParentPresContext(); if (!parent) { // Not sure if this is always strictly the parent, but it works for GetRootPresContext // where the current pres context has no frames. nsIDocument *doc = pc->Document(); if (doc) { doc = doc->GetParentDocument(); if (doc) { nsIPresShell* shell = doc->GetShell(); if (shell) { parent = shell->GetPresContext(); } } } } if (!parent || parent == pc) break; pc = parent; } return pc->IsRoot() ? static_cast(pc) : nullptr; } void nsPresContext::CompatibilityModeChanged() { if (!mShell) return; // enable/disable the QuirkSheet mShell->StyleSet()-> EnableQuirkStyleSheet(CompatibilityMode() == eCompatibility_NavQuirks); } // Helper function for setting Anim Mode on image static void SetImgAnimModeOnImgReq(imgIRequest* aImgReq, uint16_t aMode) { if (aImgReq) { nsCOMPtr imgCon; aImgReq->GetImage(getter_AddRefs(imgCon)); if (imgCon) { imgCon->SetAnimationMode(aMode); } } } // IMPORTANT: Assumption is that all images for a Presentation // have the same Animation Mode (pavlov said this was OK) // // Walks content and set the animation mode // this is a way to turn on/off image animations void nsPresContext::SetImgAnimations(nsIContent *aParent, uint16_t aMode) { nsCOMPtr imgContent(do_QueryInterface(aParent)); if (imgContent) { nsCOMPtr imgReq; imgContent->GetRequest(nsIImageLoadingContent::CURRENT_REQUEST, getter_AddRefs(imgReq)); SetImgAnimModeOnImgReq(imgReq, aMode); } uint32_t count = aParent->GetChildCount(); for (uint32_t i = 0; i < count; ++i) { SetImgAnimations(aParent->GetChildAt(i), aMode); } } void nsPresContext::SetSMILAnimations(nsIDocument *aDoc, uint16_t aNewMode, uint16_t aOldMode) { if (aDoc->HasAnimationController()) { nsSMILAnimationController* controller = aDoc->GetAnimationController(); switch (aNewMode) { case imgIContainer::kNormalAnimMode: case imgIContainer::kLoopOnceAnimMode: if (aOldMode == imgIContainer::kDontAnimMode) controller->Resume(nsSMILTimeContainer::PAUSE_USERPREF); break; case imgIContainer::kDontAnimMode: if (aOldMode != imgIContainer::kDontAnimMode) controller->Pause(nsSMILTimeContainer::PAUSE_USERPREF); break; } } } void nsPresContext::SetImageAnimationModeInternal(uint16_t aMode) { NS_ASSERTION(aMode == imgIContainer::kNormalAnimMode || aMode == imgIContainer::kDontAnimMode || aMode == imgIContainer::kLoopOnceAnimMode, "Wrong Animation Mode is being set!"); // Image animation mode cannot be changed when rendering to a printer. if (!IsDynamic()) return; // Now walk the content tree and set the animation mode // on all the images. if (mShell != nullptr) { nsIDocument *doc = mShell->GetDocument(); if (doc) { doc->StyleImageLoader()->SetAnimationMode(aMode); Element *rootElement = doc->GetRootElement(); if (rootElement) { SetImgAnimations(rootElement, aMode); } SetSMILAnimations(doc, aMode, mImageAnimationMode); } } mImageAnimationMode = aMode; } void nsPresContext::SetImageAnimationModeExternal(uint16_t aMode) { SetImageAnimationModeInternal(aMode); } const nsFont* nsPresContext::GetDefaultFont(uint8_t aFontID, nsIAtom *aLanguage) const { const LangGroupFontPrefs *prefs = GetFontPrefsForLang(aLanguage); const nsFont *font; switch (aFontID) { // Special (our default variable width font and fixed width font) case kPresContext_DefaultVariableFont_ID: font = &prefs->mDefaultVariableFont; break; case kPresContext_DefaultFixedFont_ID: font = &prefs->mDefaultFixedFont; break; // CSS case kGenericFont_serif: font = &prefs->mDefaultSerifFont; break; case kGenericFont_sans_serif: font = &prefs->mDefaultSansSerifFont; break; case kGenericFont_monospace: font = &prefs->mDefaultMonospaceFont; break; case kGenericFont_cursive: font = &prefs->mDefaultCursiveFont; break; case kGenericFont_fantasy: font = &prefs->mDefaultFantasyFont; break; default: font = nullptr; NS_ERROR("invalid arg"); break; } return font; } void nsPresContext::SetFullZoom(float aZoom) { if (!mShell || mFullZoom == aZoom) { return; } // Re-fetch the view manager's window dimensions in case there's a deferred // resize which hasn't affected our mVisibleArea yet nscoord oldWidthAppUnits, oldHeightAppUnits; mShell->GetViewManager()->GetWindowDimensions(&oldWidthAppUnits, &oldHeightAppUnits); float oldWidthDevPixels = oldWidthAppUnits / float(mCurAppUnitsPerDevPixel); float oldHeightDevPixels = oldHeightAppUnits / float(mCurAppUnitsPerDevPixel); mDeviceContext->SetPixelScale(aZoom); NS_ASSERTION(!mSupressResizeReflow, "two zooms happening at the same time? impossible!"); mSupressResizeReflow = true; mFullZoom = aZoom; mShell->GetViewManager()-> SetWindowDimensions(NSToCoordRound(oldWidthDevPixels * AppUnitsPerDevPixel()), NSToCoordRound(oldHeightDevPixels * AppUnitsPerDevPixel())); AppUnitsPerDevPixelChanged(); mSupressResizeReflow = false; } float nsPresContext::ScreenWidthInchesForFontInflation(bool* aChanged) { if (aChanged) { *aChanged = false; } nsDeviceContext *dx = DeviceContext(); nsRect clientRect; dx->GetClientRect(clientRect); // FIXME: GetClientRect looks expensive float deviceWidthInches = float(clientRect.width) / float(dx->AppUnitsPerPhysicalInch()); if (mLastFontInflationScreenWidth == -1.0) { mLastFontInflationScreenWidth = deviceWidthInches; } if (deviceWidthInches != mLastFontInflationScreenWidth && aChanged) { *aChanged = true; mLastFontInflationScreenWidth = deviceWidthInches; } return deviceWidthInches; } void nsPresContext::SetContainer(nsIDocShell* aDocShell) { if (aDocShell) { mContainer = static_cast(aDocShell)->asWeakPtr(); } else { mContainer = WeakPtr(); } UpdateIsChrome(); if (mContainer) { GetDocumentColorPreferences(); } } nsISupports* nsPresContext::GetContainerWeakInternal() const { return static_cast(mContainer); } nsISupports* nsPresContext::GetContainerWeakExternal() const { return GetContainerWeakInternal(); } nsIDocShell* nsPresContext::GetDocShell() const { return mContainer; } /* virtual */ void nsPresContext::Detach() { SetContainer(nullptr); SetLinkHandler(nullptr); if (mShell) { mShell->CancelInvalidatePresShellIfHidden(); } } bool nsPresContext::ThrottledTransitionStyleIsUpToDate() const { return mLastUpdateThrottledTransitionStyle == mRefreshDriver->MostRecentRefresh(); } void nsPresContext::TickLastUpdateThrottledTransitionStyle() { mLastUpdateThrottledTransitionStyle = mRefreshDriver->MostRecentRefresh(); } bool nsPresContext::ThrottledAnimationStyleIsUpToDate() const { return mLastUpdateThrottledAnimationStyle == mRefreshDriver->MostRecentRefresh(); } void nsPresContext::TickLastUpdateThrottledAnimationStyle() { mLastUpdateThrottledAnimationStyle = mRefreshDriver->MostRecentRefresh(); } bool nsPresContext::StyleUpdateForAllAnimationsIsUpToDate() { return mLastStyleUpdateForAllAnimations == mRefreshDriver->MostRecentRefresh(); } void nsPresContext::TickLastStyleUpdateForAllAnimations() { mLastStyleUpdateForAllAnimations = mRefreshDriver->MostRecentRefresh(); } #ifdef IBMBIDI bool nsPresContext::BidiEnabledExternal() const { return BidiEnabledInternal(); } bool nsPresContext::BidiEnabledInternal() const { return Document()->GetBidiEnabled(); } void nsPresContext::SetBidiEnabled() const { if (mShell) { nsIDocument *doc = mShell->GetDocument(); if (doc) { doc->SetBidiEnabled(); } } } void nsPresContext::SetBidi(uint32_t aSource, bool aForceRestyle) { // Don't do all this stuff unless the options have changed. if (aSource == GetBidi()) { return; } NS_ASSERTION(!(aForceRestyle && (GetBidi() == 0)), "ForceReflow on new prescontext"); Document()->SetBidiOptions(aSource); if (IBMBIDI_TEXTDIRECTION_RTL == GET_BIDI_OPTION_DIRECTION(aSource) || IBMBIDI_NUMERAL_HINDI == GET_BIDI_OPTION_NUMERAL(aSource)) { SetBidiEnabled(); } if (IBMBIDI_TEXTTYPE_VISUAL == GET_BIDI_OPTION_TEXTTYPE(aSource)) { SetVisualMode(true); } else if (IBMBIDI_TEXTTYPE_LOGICAL == GET_BIDI_OPTION_TEXTTYPE(aSource)) { SetVisualMode(false); } else { nsIDocument* doc = mShell->GetDocument(); if (doc) { SetVisualMode(IsVisualCharset(doc->GetDocumentCharacterSet())); } } if (aForceRestyle && mShell) { // Reconstruct the root document element's frame and its children, // because we need to trigger frame reconstruction for direction change. RebuildUserFontSet(); mShell->ReconstructFrames(); } } uint32_t nsPresContext::GetBidi() const { return Document()->GetBidiOptions(); } #endif //IBMBIDI bool nsPresContext::IsTopLevelWindowInactive() { nsCOMPtr treeItem(mContainer); if (!treeItem) return false; nsCOMPtr rootItem; treeItem->GetRootTreeItem(getter_AddRefs(rootItem)); nsCOMPtr domWindow(do_GetInterface(rootItem)); return domWindow && !domWindow->IsActive(); } nsITheme* nsPresContext::GetTheme() { if (!sNoTheme && !mTheme) { mTheme = do_GetService("@mozilla.org/chrome/chrome-native-theme;1"); if (!mTheme) sNoTheme = true; } return mTheme; } void nsPresContext::ThemeChanged() { if (!mPendingThemeChanged) { sLookAndFeelChanged = true; sThemeChanged = true; nsCOMPtr ev = NS_NewRunnableMethod(this, &nsPresContext::ThemeChangedInternal); if (NS_SUCCEEDED(NS_DispatchToCurrentThread(ev))) { mPendingThemeChanged = true; } } } void nsPresContext::ThemeChangedInternal() { mPendingThemeChanged = false; // Tell the theme that it changed, so it can flush any handles to stale theme // data. if (mTheme && sThemeChanged) { mTheme->ThemeChanged(); sThemeChanged = false; } // Clear all cached LookAndFeel colors. if (sLookAndFeelChanged) { LookAndFeel::Refresh(); sLookAndFeelChanged = false; } // This will force the system metrics to be generated the next time they're used nsCSSRuleProcessor::FreeSystemMetrics(); // Changes to system metrics can change media queries on them. // Changes in theme can change system colors (whose changes are // properly reflected in computed style data), system fonts (whose // changes are not), and -moz-appearance (whose changes likewise are // not), so we need to reflow. MediaFeatureValuesChanged(eAlwaysRebuildStyle, NS_STYLE_HINT_REFLOW); } void nsPresContext::SysColorChanged() { if (!mPendingSysColorChanged) { sLookAndFeelChanged = true; nsCOMPtr ev = NS_NewRunnableMethod(this, &nsPresContext::SysColorChangedInternal); if (NS_SUCCEEDED(NS_DispatchToCurrentThread(ev))) { mPendingSysColorChanged = true; } } } void nsPresContext::SysColorChangedInternal() { mPendingSysColorChanged = false; if (sLookAndFeelChanged) { // Don't use the cached values for the system colors LookAndFeel::Refresh(); sLookAndFeelChanged = false; } // Reset default background and foreground colors for the document since // they may be using system colors GetDocumentColorPreferences(); // The system color values are computed to colors in the style data, // so normal style data comparison is sufficient here. RebuildAllStyleData(nsChangeHint(0)); } void nsPresContext::UIResolutionChanged() { if (!mPendingUIResolutionChanged) { nsCOMPtr ev = NS_NewRunnableMethod(this, &nsPresContext::UIResolutionChangedInternal); if (NS_SUCCEEDED(NS_DispatchToCurrentThread(ev))) { mPendingUIResolutionChanged = true; } } } /*static*/ bool nsPresContext::UIResolutionChangedSubdocumentCallback(nsIDocument* aDocument, void* aData) { nsIPresShell* shell = aDocument->GetShell(); if (shell) { nsPresContext* pc = shell->GetPresContext(); if (pc) { pc->UIResolutionChangedInternal(); } } return true; } void nsPresContext::UIResolutionChangedInternal() { mPendingUIResolutionChanged = false; mDeviceContext->CheckDPIChange(); if (mCurAppUnitsPerDevPixel != AppUnitsPerDevPixel()) { AppUnitsPerDevPixelChanged(); } mDocument->EnumerateSubDocuments(UIResolutionChangedSubdocumentCallback, nullptr); } void nsPresContext::EmulateMedium(const nsAString& aMediaType) { nsIAtom* previousMedium = Medium(); mIsEmulatingMedia = true; nsAutoString mediaType; nsContentUtils::ASCIIToLower(aMediaType, mediaType); mMediaEmulated = do_GetAtom(mediaType); if (mMediaEmulated != previousMedium && mShell) { MediaFeatureValuesChanged(eRebuildStyleIfNeeded, nsChangeHint(0)); } } void nsPresContext::StopEmulatingMedium() { nsIAtom* previousMedium = Medium(); mIsEmulatingMedia = false; if (Medium() != previousMedium) { MediaFeatureValuesChanged(eRebuildStyleIfNeeded, nsChangeHint(0)); } } void nsPresContext::RebuildAllStyleData(nsChangeHint aExtraHint) { if (!mShell) { // We must have been torn down. Nothing to do here. return; } mUsesRootEMUnits = false; mUsesViewportUnits = false; RebuildUserFontSet(); RestyleManager()->RebuildAllStyleData(aExtraHint); } void nsPresContext::PostRebuildAllStyleDataEvent(nsChangeHint aExtraHint) { if (!mShell) { // We must have been torn down. Nothing to do here. return; } RestyleManager()->PostRebuildAllStyleDataEvent(aExtraHint); } void nsPresContext::MediaFeatureValuesChanged(StyleRebuildType aShouldRebuild, nsChangeHint aChangeHint) { NS_ASSERTION(aShouldRebuild == eAlwaysRebuildStyle || aChangeHint == 0, "If you don't know if we need a rebuild, how can you provide a hint?"); mPendingMediaFeatureValuesChanged = false; // MediumFeaturesChanged updates the applied rules, so it always gets called. bool mediaFeaturesDidChange = mShell ? mShell->StyleSet()->MediumFeaturesChanged(this) : false; if (aShouldRebuild == eAlwaysRebuildStyle || mediaFeaturesDidChange || (mUsesViewportUnits && mPendingViewportChange)) { RebuildAllStyleData(aChangeHint); } mPendingViewportChange = false; if (!nsContentUtils::IsSafeToRunScript()) { NS_ABORT_IF_FALSE(mDocument->IsBeingUsedAsImage(), "How did we get here? Are we failing to notify " "listeners that we should notify?"); return; } // Media query list listeners should be notified from a queued task // (in HTML5 terms), although we also want to notify them on certain // flushes. (We're already running off an event.) // // Note that we do this after the new style from media queries in // style sheets has been computed. if (!PR_CLIST_IS_EMPTY(&mDOMMediaQueryLists)) { // We build a list of all the notifications we're going to send // before we send any of them. (The spec says the notifications // should be a queued task, so any removals that happen during the // notifications shouldn't affect what gets notified.) Furthermore, // we hold strong pointers to everything we're going to make // notification calls to, since each notification involves calling // arbitrary script that might otherwise destroy these objects, or, // for that matter, |this|. // // Note that we intentionally send the notifications to media query // list in the order they were created and, for each list, to the // listeners in the order added. MediaQueryList::NotifyList notifyList; for (PRCList *l = PR_LIST_HEAD(&mDOMMediaQueryLists); l != &mDOMMediaQueryLists; l = PR_NEXT_LINK(l)) { MediaQueryList *mql = static_cast(l); mql->MediumFeaturesChanged(notifyList); } if (!notifyList.IsEmpty()) { nsPIDOMWindow *win = mDocument->GetInnerWindow(); nsCOMPtr et = do_QueryInterface(win); nsCxPusher pusher; for (uint32_t i = 0, i_end = notifyList.Length(); i != i_end; ++i) { if (pusher.RePush(et)) { nsAutoMicroTask mt; MediaQueryList::HandleChangeData &d = notifyList[i]; ErrorResult result; d.callback->Call(*d.mql, result); } } } // NOTE: When |notifyList| goes out of scope, our destructor could run. } } void nsPresContext::PostMediaFeatureValuesChangedEvent() { // FIXME: We should probably replace this event with use of // nsRefreshDriver::AddStyleFlushObserver (except the pres shell would // need to track whether it's been added). if (!mPendingMediaFeatureValuesChanged) { nsCOMPtr ev = NS_NewRunnableMethod(this, &nsPresContext::HandleMediaFeatureValuesChangedEvent); if (NS_SUCCEEDED(NS_DispatchToCurrentThread(ev))) { mPendingMediaFeatureValuesChanged = true; mDocument->SetNeedStyleFlush(); } } } void nsPresContext::HandleMediaFeatureValuesChangedEvent() { // Null-check mShell in case the shell has been destroyed (and the // event is the only thing holding the pres context alive). if (mPendingMediaFeatureValuesChanged && mShell) { MediaFeatureValuesChanged(eRebuildStyleIfNeeded); } } already_AddRefed nsPresContext::MatchMedia(const nsAString& aMediaQueryList) { nsRefPtr result = new MediaQueryList(this, aMediaQueryList); // Insert the new item at the end of the linked list. PR_INSERT_BEFORE(result, &mDOMMediaQueryLists); return result.forget(); } nsCompatibility nsPresContext::CompatibilityMode() const { return Document()->GetCompatibilityMode(); } void nsPresContext::SetPaginatedScrolling(bool aPaginated) { if (mType == eContext_PrintPreview || mType == eContext_PageLayout) mCanPaginatedScroll = aPaginated; } void nsPresContext::SetPrintSettings(nsIPrintSettings *aPrintSettings) { if (mMedium == nsGkAtoms::print) mPrintSettings = aPrintSettings; } bool nsPresContext::EnsureVisible() { nsCOMPtr docShell(mContainer); if (docShell) { nsCOMPtr cv; docShell->GetContentViewer(getter_AddRefs(cv)); // Make sure this is the content viewer we belong with if (cv) { nsRefPtr currentPresContext; cv->GetPresContext(getter_AddRefs(currentPresContext)); if (currentPresContext == this) { // OK, this is us. We want to call Show() on the content viewer. nsresult result = cv->Show(); if (NS_SUCCEEDED(result)) { return true; } } } } return false; } #ifdef MOZ_REFLOW_PERF void nsPresContext::CountReflows(const char * aName, nsIFrame * aFrame) { if (mShell) { mShell->CountReflows(aName, aFrame); } } #endif void nsPresContext::UpdateIsChrome() { mIsChrome = mContainer && nsIDocShellTreeItem::typeChrome == mContainer->ItemType(); } /* virtual */ bool nsPresContext::HasAuthorSpecifiedRules(nsIFrame *aFrame, uint32_t ruleTypeMask) const { return nsRuleNode::HasAuthorSpecifiedRules(aFrame->StyleContext(), ruleTypeMask, UseDocumentColors()); } gfxUserFontSet* nsPresContext::GetUserFontSetInternal() { // We want to initialize the user font set lazily the first time the // user asks for it, rather than building it too early and forcing // rule cascade creation. Thus we try to enforce the invariant that // we *never* build the user font set until the first call to // GetUserFontSet. However, once it's been requested, we can't wait // for somebody to call GetUserFontSet in order to rebuild it (see // comments below in RebuildUserFontSet for why). #ifdef DEBUG bool userFontSetGottenBefore = mGetUserFontSetCalled; #endif // Set mGetUserFontSetCalled up front, so that FlushUserFontSet will actually // flush. mGetUserFontSetCalled = true; if (mUserFontSetDirty) { // If this assertion fails, and there have actually been changes to // @font-face rules, then we will call StyleChangeReflow in // FlushUserFontSet. If we're in the middle of reflow, // that's a bad thing to do, and the caller was responsible for // flushing first. If we're not (e.g., in frame construction), it's // ok. NS_ASSERTION(!userFontSetGottenBefore || !mShell->IsReflowLocked(), "FlushUserFontSet should have been called first"); FlushUserFontSet(); } return mUserFontSet; } gfxUserFontSet* nsPresContext::GetUserFontSetExternal() { return GetUserFontSetInternal(); } void nsPresContext::FlushUserFontSet() { if (!mShell) { return; // we've been torn down } if (!mGetUserFontSetCalled) { return; // No one cares about this font set yet, but we want to be careful // to not unset our mUserFontSetDirty bit, so when someone really // does we'll create it. } if (mUserFontSetDirty) { if (gfxPlatform::GetPlatform()->DownloadableFontsEnabled()) { nsTArray rules; if (!mShell->StyleSet()->AppendFontFaceRules(this, rules)) { if (mUserFontSet) { mUserFontSet->Destroy(); NS_RELEASE(mUserFontSet); } return; } bool changed = false; if (rules.Length() == 0) { if (mUserFontSet) { mUserFontSet->Destroy(); NS_RELEASE(mUserFontSet); changed = true; } } else { if (!mUserFontSet) { mUserFontSet = new nsUserFontSet(this); NS_ADDREF(mUserFontSet); } changed = mUserFontSet->UpdateRules(rules); } // We need to enqueue a style change reflow (for later) to // reflect that we're modifying @font-face rules. (However, // without a reflow, nothing will happen to start any downloads // that are needed.) if (changed) { UserFontSetUpdated(); } } mUserFontSetDirty = false; } } void nsPresContext::RebuildUserFontSet() { if (!mGetUserFontSetCalled) { // We want to lazily build the user font set the first time it's // requested (so we don't force creation of rule cascades too // early), so don't do anything now. return; } mUserFontSetDirty = true; mDocument->SetNeedStyleFlush(); // Somebody has already asked for the user font set, so we need to // post an event to rebuild it. Setting the user font set to be dirty // and lazily rebuilding it isn't sufficient, since it is only the act // of rebuilding it that will trigger the style change reflow that // calls GetUserFontSet. (This reflow causes rebuilding of text runs, // which starts font loads, whose completion causes another style // change reflow). if (!mPostedFlushUserFontSet) { nsCOMPtr ev = NS_NewRunnableMethod(this, &nsPresContext::HandleRebuildUserFontSet); if (NS_SUCCEEDED(NS_DispatchToCurrentThread(ev))) { mPostedFlushUserFontSet = true; } } } void nsPresContext::UserFontSetUpdated() { if (!mShell) return; // Changes to the set of available fonts can cause updates to layout by: // // 1. Changing the font used for text, which changes anything that // depends on text measurement, including line breaking and // intrinsic widths, and any other parts of layout that depend on // font metrics. This requires a style change reflow to update. // // 2. Changing the value of the 'ex' and 'ch' units in style data, // which also depend on font metrics. Updating this information // requires rebuilding the rule tree from the top, avoiding the // reuse of cached data even when no style rules have changed. PostRebuildAllStyleDataEvent(NS_STYLE_HINT_REFLOW); } void nsPresContext::EnsureSafeToHandOutCSSRules() { nsCSSStyleSheet::EnsureUniqueInnerResult res = mShell->StyleSet()->EnsureUniqueInnerOnCSSSheets(); if (res == nsCSSStyleSheet::eUniqueInner_AlreadyUnique) { // Nothing to do. return; } MOZ_ASSERT(res == nsCSSStyleSheet::eUniqueInner_ClonedInner); RebuildAllStyleData(nsChangeHint(0)); } void nsPresContext::FireDOMPaintEvent(nsInvalidateRequestList* aList) { nsPIDOMWindow* ourWindow = mDocument->GetWindow(); if (!ourWindow) return; nsCOMPtr dispatchTarget = do_QueryInterface(ourWindow); nsCOMPtr eventTarget = dispatchTarget; if (!IsChrome() && !mSendAfterPaintToContent) { // Don't tell the window about this event, it should not know that // something happened in a subdocument. Tell only the chrome event handler. // (Events sent to the window get propagated to the chrome event handler // automatically.) dispatchTarget = do_QueryInterface(ourWindow->GetParentTarget()); if (!dispatchTarget) { return; } } // Events sent to the window get propagated to the chrome event handler // automatically. nsCOMPtr event; // This will empty our list in case dispatching the event causes more damage // (hopefully it won't, or we're likely to get an infinite loop! At least // it won't be blocking app execution though). NS_NewDOMNotifyPaintEvent(getter_AddRefs(event), eventTarget, this, nullptr, NS_AFTERPAINT, aList); if (!event) { return; } // Even if we're not telling the window about the event (so eventTarget is // the chrome event handler, not the window), the window is still // logically the event target. event->SetTarget(eventTarget); event->SetTrusted(true); nsEventDispatcher::DispatchDOMEvent(dispatchTarget, nullptr, event, this, nullptr); } static bool MayHavePaintEventListenerSubdocumentCallback(nsIDocument* aDocument, void* aData) { bool *result = static_cast(aData); nsIPresShell* shell = aDocument->GetShell(); if (shell) { nsPresContext* pc = shell->GetPresContext(); if (pc) { *result = pc->MayHavePaintEventListenerInSubDocument(); // If we found a paint event listener, then we can stop enumerating // sub documents. return !*result; } } return true; } static bool MayHavePaintEventListener(nsPIDOMWindow* aInnerWindow) { if (!aInnerWindow) return false; if (aInnerWindow->HasPaintEventListeners()) return true; EventTarget* parentTarget = aInnerWindow->GetParentTarget(); if (!parentTarget) return false; nsEventListenerManager* manager = nullptr; if ((manager = parentTarget->GetExistingListenerManager()) && manager->MayHavePaintEventListener()) { return true; } nsCOMPtr node; if (parentTarget != aInnerWindow->GetChromeEventHandler()) { nsCOMPtr mm = do_QueryInterface(parentTarget); if (mm) { node = mm->GetOwnerContent(); } } if (!node) { node = do_QueryInterface(parentTarget); } if (node) return MayHavePaintEventListener(node->OwnerDoc()->GetInnerWindow()); nsCOMPtr window = do_QueryInterface(parentTarget); if (window) return MayHavePaintEventListener(window); nsCOMPtr root = do_QueryInterface(parentTarget); EventTarget* tabChildGlobal; return root && (tabChildGlobal = root->GetParentTarget()) && (manager = tabChildGlobal->GetExistingListenerManager()) && manager->MayHavePaintEventListener(); } bool nsPresContext::MayHavePaintEventListener() { return ::MayHavePaintEventListener(mDocument->GetInnerWindow()); } bool nsPresContext::MayHavePaintEventListenerInSubDocument() { if (MayHavePaintEventListener()) { return true; } bool result = false; mDocument->EnumerateSubDocuments(MayHavePaintEventListenerSubdocumentCallback, &result); return result; } void nsPresContext::NotifyInvalidation(uint32_t aFlags) { nsIFrame* rootFrame = PresShell()->FrameManager()->GetRootFrame(); NotifyInvalidation(rootFrame->GetVisualOverflowRect(), aFlags); mAllInvalidated = true; } void nsPresContext::NotifyInvalidation(const nsIntRect& aRect, uint32_t aFlags) { nsRect rect(DevPixelsToAppUnits(aRect.x), DevPixelsToAppUnits(aRect.y), DevPixelsToAppUnits(aRect.width), DevPixelsToAppUnits(aRect.height)); NotifyInvalidation(rect, aFlags); } void nsPresContext::NotifyInvalidation(const nsRect& aRect, uint32_t aFlags) { MOZ_ASSERT(GetContainerWeak(), "Invalidation in detached pres context"); // If there is no paint event listener, then we don't need to fire // the asynchronous event. We don't even need to record invalidation. // MayHavePaintEventListener is pretty cheap and we could make it // even cheaper by providing a more efficient // nsPIDOMWindow::GetListenerManager. if (mAllInvalidated) { return; } nsPresContext* pc; for (pc = this; pc; pc = pc->GetParentPresContext()) { if (pc->mFireAfterPaintEvents) break; pc->mFireAfterPaintEvents = true; } if (!pc) { nsRootPresContext* rpc = GetRootPresContext(); if (rpc) { rpc->EnsureEventualDidPaintEvent(); } } nsInvalidateRequestList::Request* request = mInvalidateRequestsSinceLastPaint.mRequests.AppendElement(); if (!request) return; request->mRect = aRect; request->mFlags = aFlags; } /* static */ void nsPresContext::NotifySubDocInvalidation(ContainerLayer* aContainer, const nsIntRegion& aRegion) { ContainerLayerPresContext *data = static_cast( aContainer->GetUserData(&gNotifySubDocInvalidationData)); if (!data) { return; } nsIntPoint topLeft = aContainer->GetVisibleRegion().GetBounds().TopLeft(); nsIntRegionRectIterator iter(aRegion); while (const nsIntRect* r = iter.Next()) { nsIntRect rect = *r; //PresContext coordinate space is relative to the start of our visible // region. Is this really true? This feels like the wrong way to get the right // answer. rect.MoveBy(-topLeft); data->mPresContext->NotifyInvalidation(rect, 0); } } void nsPresContext::SetNotifySubDocInvalidationData(ContainerLayer* aContainer) { ContainerLayerPresContext* pres = new ContainerLayerPresContext; pres->mPresContext = this; aContainer->SetUserData(&gNotifySubDocInvalidationData, pres); } /* static */ void nsPresContext::ClearNotifySubDocInvalidationData(ContainerLayer* aContainer) { aContainer->SetUserData(&gNotifySubDocInvalidationData, nullptr); } struct NotifyDidPaintSubdocumentCallbackClosure { uint32_t mFlags; bool mNeedsAnotherDidPaintNotification; }; static bool NotifyDidPaintSubdocumentCallback(nsIDocument* aDocument, void* aData) { NotifyDidPaintSubdocumentCallbackClosure* closure = static_cast(aData); nsIPresShell* shell = aDocument->GetShell(); if (shell) { nsPresContext* pc = shell->GetPresContext(); if (pc) { PCLink pcl("NotifyDidPaintSubdocumentCallback", pc); pc->NotifyDidPaintForSubtree(closure->mFlags); if (pc->IsDOMPaintEventPending()) { closure->mNeedsAnotherDidPaintNotification = true; } } } return true; } class DelayedFireDOMPaintEvent : public nsRunnable { public: DelayedFireDOMPaintEvent(nsPresContext* aPresContext, nsInvalidateRequestList* aList) : mPresContext(aPresContext) { MOZ_ASSERT(mPresContext->GetContainerWeak(), "DOMPaintEvent requested for a detached pres context"); mList.TakeFrom(aList); } NS_IMETHOD Run() MOZ_OVERRIDE { // The pres context might have been detached during the delay - // that's fine, just don't fire the event. if (mPresContext->GetContainerWeak()) { mPresContext->FireDOMPaintEvent(&mList); } return NS_OK; } nsRefPtr mPresContext; nsInvalidateRequestList mList; }; void nsPresContext::NotifyDidPaintForSubtree(uint32_t aFlags) { if (IsRoot()) { static_cast(this)->CancelDidPaintTimer(); if (!mFireAfterPaintEvents) { return; } } // Non-root prescontexts fire MozAfterPaint to all their descendants // unconditionally, even if no invalidations have been collected. This is // because we don't want to eat the cost of collecting invalidations for // every subdocument (which would require putting every subdocument in its // own layer). if (aFlags & nsIPresShell::PAINT_LAYERS) { mUndeliveredInvalidateRequestsBeforeLastPaint.TakeFrom( &mInvalidateRequestsSinceLastPaint); mAllInvalidated = false; } if (aFlags & nsIPresShell::PAINT_COMPOSITE) { nsCOMPtr ev = new DelayedFireDOMPaintEvent(this, &mUndeliveredInvalidateRequestsBeforeLastPaint); nsContentUtils::AddScriptRunner(ev); } NotifyDidPaintSubdocumentCallbackClosure closure = { aFlags, false }; mDocument->EnumerateSubDocuments(NotifyDidPaintSubdocumentCallback, &closure); if (!closure.mNeedsAnotherDidPaintNotification && mInvalidateRequestsSinceLastPaint.IsEmpty() && mUndeliveredInvalidateRequestsBeforeLastPaint.IsEmpty()) { // Nothing more to do for the moment. mFireAfterPaintEvents = false; } else { if (IsRoot()) { static_cast(this)->EnsureEventualDidPaintEvent(); } } } bool nsPresContext::HasCachedStyleData() { return mShell && mShell->StyleSet()->HasCachedStyleData(); } static bool sGotInterruptEnv = false; enum InterruptMode { ModeRandom, ModeCounter, ModeEvent }; // Controlled by the GECKO_REFLOW_INTERRUPT_MODE env var; allowed values are // "random" (except on Windows) or "counter". If neither is used, the mode is // ModeEvent. static InterruptMode sInterruptMode = ModeEvent; #ifndef XP_WIN // Used for the "random" mode. Controlled by the GECKO_REFLOW_INTERRUPT_SEED // env var. static uint32_t sInterruptSeed = 1; #endif // Used for the "counter" mode. This is the number of unskipped interrupt // checks that have to happen before we interrupt. Controlled by the // GECKO_REFLOW_INTERRUPT_FREQUENCY env var. static uint32_t sInterruptMaxCounter = 10; // Used for the "counter" mode. This counts up to sInterruptMaxCounter and is // then reset to 0. static uint32_t sInterruptCounter; // Number of interrupt checks to skip before really trying to interrupt. // Controlled by the GECKO_REFLOW_INTERRUPT_CHECKS_TO_SKIP env var. static uint32_t sInterruptChecksToSkip = 200; // Number of milliseconds that a reflow should be allowed to run for before we // actually allow interruption. Controlled by the // GECKO_REFLOW_MIN_NOINTERRUPT_DURATION env var. Can't be initialized here, // because TimeDuration/TimeStamp is not safe to use in static constructors.. static TimeDuration sInterruptTimeout; static void GetInterruptEnv() { char *ev = PR_GetEnv("GECKO_REFLOW_INTERRUPT_MODE"); if (ev) { #ifndef XP_WIN if (PL_strcasecmp(ev, "random") == 0) { ev = PR_GetEnv("GECKO_REFLOW_INTERRUPT_SEED"); if (ev) { sInterruptSeed = atoi(ev); } srandom(sInterruptSeed); sInterruptMode = ModeRandom; } else #endif if (PL_strcasecmp(ev, "counter") == 0) { ev = PR_GetEnv("GECKO_REFLOW_INTERRUPT_FREQUENCY"); if (ev) { sInterruptMaxCounter = atoi(ev); } sInterruptCounter = 0; sInterruptMode = ModeCounter; } } ev = PR_GetEnv("GECKO_REFLOW_INTERRUPT_CHECKS_TO_SKIP"); if (ev) { sInterruptChecksToSkip = atoi(ev); } ev = PR_GetEnv("GECKO_REFLOW_MIN_NOINTERRUPT_DURATION"); int duration_ms = ev ? atoi(ev) : 100; sInterruptTimeout = TimeDuration::FromMilliseconds(duration_ms); } bool nsPresContext::HavePendingInputEvent() { switch (sInterruptMode) { #ifndef XP_WIN case ModeRandom: return (random() & 1); #endif case ModeCounter: if (sInterruptCounter < sInterruptMaxCounter) { ++sInterruptCounter; return false; } sInterruptCounter = 0; return true; default: case ModeEvent: { nsIFrame* f = PresShell()->GetRootFrame(); if (f) { nsIWidget* w = f->GetNearestWidget(); if (w) { return w->HasPendingInputEvent(); } } return false; } } } void nsPresContext::ReflowStarted(bool aInterruptible) { #ifdef NOISY_INTERRUPTIBLE_REFLOW if (!aInterruptible) { printf("STARTING NONINTERRUPTIBLE REFLOW\n"); } #endif // We don't support interrupting in paginated contexts, since page // sequences only handle initial reflow mInterruptsEnabled = aInterruptible && !IsPaginated(); // Don't set mHasPendingInterrupt based on HavePendingInputEvent() here. If // we ever change that, then we need to update the code in // PresShell::DoReflow to only add the just-reflown root to dirty roots if // it's actually dirty. Otherwise we can end up adding a root that has no // interruptible descendants, just because we detected an interrupt at reflow // start. mHasPendingInterrupt = false; mInterruptChecksToSkip = sInterruptChecksToSkip; if (mInterruptsEnabled) { mReflowStartTime = TimeStamp::Now(); } } bool nsPresContext::CheckForInterrupt(nsIFrame* aFrame) { if (mHasPendingInterrupt) { mShell->FrameNeedsToContinueReflow(aFrame); return true; } if (!sGotInterruptEnv) { sGotInterruptEnv = true; GetInterruptEnv(); } if (!mInterruptsEnabled) { return false; } if (mInterruptChecksToSkip > 0) { --mInterruptChecksToSkip; return false; } mInterruptChecksToSkip = sInterruptChecksToSkip; // Don't interrupt if it's been less than sInterruptTimeout since we started // the reflow. mHasPendingInterrupt = TimeStamp::Now() - mReflowStartTime > sInterruptTimeout && HavePendingInputEvent() && !IsChrome(); if (mHasPendingInterrupt) { #ifdef NOISY_INTERRUPTIBLE_REFLOW printf("*** DETECTED pending interrupt (time=%lld)\n", PR_Now()); #endif /* NOISY_INTERRUPTIBLE_REFLOW */ mShell->FrameNeedsToContinueReflow(aFrame); } return mHasPendingInterrupt; } nsIFrame* nsPresContext::GetPrimaryFrameFor(nsIContent* aContent) { NS_PRECONDITION(aContent, "Don't do that"); if (GetPresShell() && GetPresShell()->GetDocument() == aContent->GetCurrentDoc()) { return aContent->GetPrimaryFrame(); } return nullptr; } size_t nsPresContext::SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const { return mPropertyTable.SizeOfExcludingThis(aMallocSizeOf); mLangGroupFontPrefs.SizeOfExcludingThis(aMallocSizeOf); // Measurement of other members may be added later if DMD finds it is // worthwhile. } bool nsPresContext::IsRootContentDocument() { // We are a root content document if: we are not a resource doc, we are // not chrome, and we either have no parent or our parent is chrome. if (mDocument->IsResourceDoc()) { return false; } if (IsChrome()) { return false; } // We may not have a root frame, so use views. nsView* view = PresShell()->GetViewManager()->GetRootView(); if (!view) { return false; } view = view->GetParent(); // anonymous inner view if (!view) { return true; } view = view->GetParent(); // subdocumentframe's view if (!view) { return true; } nsIFrame* f = view->GetFrame(); return (f && f->PresContext()->IsChrome()); } bool nsPresContext::IsCrossProcessRootContentDocument() { if (!IsRootContentDocument()) { return false; } if (XRE_GetProcessType() == GeckoProcessType_Default) { return true; } TabChild* tabChild = TabChild::GetFrom(mShell); return (tabChild && tabChild->IsRootContentDocument()); } bool nsPresContext::GetPaintFlashing() const { if (!mPaintFlashingInitialized) { bool pref = Preferences::GetBool("nglayout.debug.paint_flashing"); if (!pref && IsChrome()) { pref = Preferences::GetBool("nglayout.debug.paint_flashing_chrome"); } mPaintFlashing = pref; mPaintFlashingInitialized = true; } return mPaintFlashing; } int32_t nsPresContext::AppUnitsPerDevPixel() const { return mDeviceContext->AppUnitsPerDevPixel(); } nscoord nsPresContext::GfxUnitsToAppUnits(gfxFloat aGfxUnits) const { return mDeviceContext->GfxUnitsToAppUnits(aGfxUnits); } gfxFloat nsPresContext::AppUnitsToGfxUnits(nscoord aAppUnits) const { return mDeviceContext->AppUnitsToGfxUnits(aAppUnits); } bool nsPresContext::IsDeviceSizePageSize() { bool isDeviceSizePageSize = false; nsCOMPtr docShell(mContainer); if (docShell) { isDeviceSizePageSize = docShell->GetDeviceSizeIsPageSize(); } return isDeviceSizePageSize; } nsRootPresContext::nsRootPresContext(nsIDocument* aDocument, nsPresContextType aType) : nsPresContext(aDocument, aType), mDOMGeneration(0) { } nsRootPresContext::~nsRootPresContext() { NS_ASSERTION(mRegisteredPlugins.Count() == 0, "All plugins should have been unregistered"); CancelDidPaintTimer(); CancelApplyPluginGeometryTimer(); } /* virtual */ void nsRootPresContext::Detach() { CancelDidPaintTimer(); // XXXmats maybe also CancelApplyPluginGeometryTimer(); ? nsPresContext::Detach(); } void nsRootPresContext::RegisterPluginForGeometryUpdates(nsIContent* aPlugin) { mRegisteredPlugins.PutEntry(aPlugin); } void nsRootPresContext::UnregisterPluginForGeometryUpdates(nsIContent* aPlugin) { mRegisteredPlugins.RemoveEntry(aPlugin); } static PLDHashOperator SetPluginHidden(nsRefPtrHashKey* aEntry, void* userArg) { nsIFrame* root = static_cast(userArg); nsObjectFrame* f = static_cast(aEntry->GetKey()->GetPrimaryFrame()); if (!f) { NS_WARNING("Null frame in SetPluginHidden"); return PL_DHASH_NEXT; } if (!nsLayoutUtils::IsAncestorFrameCrossDoc(root, f)) { // f is not managed by this frame so we should ignore it. return PL_DHASH_NEXT; } f->SetEmptyWidgetConfiguration(); return PL_DHASH_NEXT; } void nsRootPresContext::ComputePluginGeometryUpdates(nsIFrame* aFrame, nsDisplayListBuilder* aBuilder, nsDisplayList* aList) { if (mRegisteredPlugins.Count() == 0) { return; } // Initially make the next state for each plugin descendant of aFrame be // "hidden". Plugins that are visible will have their next state set to // unhidden by nsDisplayPlugin::ComputeVisibility. mRegisteredPlugins.EnumerateEntries(SetPluginHidden, aFrame); nsIFrame* rootFrame = FrameManager()->GetRootFrame(); if (rootFrame && aBuilder->ContainsPluginItem()) { aBuilder->SetForPluginGeometry(); aBuilder->SetAccurateVisibleRegions(); // Merging and flattening has already been done and we should not do it // again. nsDisplayScroll(Info)Layer doesn't support trying to flatten // again. aBuilder->SetAllowMergingAndFlattening(false); nsRegion region = rootFrame->GetVisualOverflowRectRelativeToSelf(); // nsDisplayPlugin::ComputeVisibility will automatically set a non-hidden // widget configuration for the plugin, if it's visible. aList->ComputeVisibilityForRoot(aBuilder, ®ion); } #ifdef XP_MACOSX // We control painting of Mac plugins, so just apply geometry updates now. // This is not happening during a paint event. ApplyPluginGeometryUpdates(); #else InitApplyPluginGeometryTimer(); #endif } static void ApplyPluginGeometryUpdatesCallback(nsITimer *aTimer, void *aClosure) { static_cast(aClosure)->ApplyPluginGeometryUpdates(); } void nsRootPresContext::InitApplyPluginGeometryTimer() { if (mApplyPluginGeometryTimer) { return; } // We'll apply the plugin geometry updates during the next compositing paint in this // presContext (either from nsPresShell::WillPaintWindow or from // nsPresShell::DidPaintWindow, depending on the platform). But paints might // get optimized away if the old plugin geometry covers the invalid region, // so set a backup timer to do this too. We want to make sure this // won't fire before our normal paint notifications, if those would // update the geometry, so set it for double the refresh driver interval. mApplyPluginGeometryTimer = do_CreateInstance("@mozilla.org/timer;1"); if (mApplyPluginGeometryTimer) { mApplyPluginGeometryTimer-> InitWithFuncCallback(ApplyPluginGeometryUpdatesCallback, this, nsRefreshDriver::DefaultInterval() * 2, nsITimer::TYPE_ONE_SHOT); } } void nsRootPresContext::CancelApplyPluginGeometryTimer() { if (mApplyPluginGeometryTimer) { mApplyPluginGeometryTimer->Cancel(); mApplyPluginGeometryTimer = nullptr; } } static bool HasOverlap(const nsIntPoint& aOffset1, const nsTArray& aClipRects1, const nsIntPoint& aOffset2, const nsTArray& aClipRects2) { nsIntPoint offsetDelta = aOffset1 - aOffset2; for (uint32_t i = 0; i < aClipRects1.Length(); ++i) { for (uint32_t j = 0; j < aClipRects2.Length(); ++j) { if ((aClipRects1[i] + offsetDelta).Intersects(aClipRects2[j])) return true; } } return false; } /** * Given a list of plugin windows to move to new locations, sort the list * so that for each window move, the window moves to a location that * does not intersect other windows. This minimizes flicker and repainting. * It's not always possible to do this perfectly, since in general * we might have cycles. But we do our best. * We need to take into account that windows are clipped to particular * regions and the clip regions change as the windows are moved. */ static void SortConfigurations(nsTArray* aConfigurations) { if (aConfigurations->Length() > 10) { // Give up, we don't want to get bogged down here return; } nsTArray pluginsToMove; pluginsToMove.SwapElements(*aConfigurations); // Our algorithm is quite naive. At each step we try to identify // a window that can be moved to its new location that won't overlap // any other windows at the new location. If there is no such // window, we just move the last window in the list anyway. while (!pluginsToMove.IsEmpty()) { // Find a window whose destination does not overlap any other window uint32_t i; for (i = 0; i + 1 < pluginsToMove.Length(); ++i) { nsIWidget::Configuration* config = &pluginsToMove[i]; bool foundOverlap = false; for (uint32_t j = 0; j < pluginsToMove.Length(); ++j) { if (i == j) continue; nsIntRect bounds; pluginsToMove[j].mChild->GetBounds(bounds); nsAutoTArray clipRects; pluginsToMove[j].mChild->GetWindowClipRegion(&clipRects); if (HasOverlap(bounds.TopLeft(), clipRects, config->mBounds.TopLeft(), config->mClipRegion)) { foundOverlap = true; break; } } if (!foundOverlap) break; } // Note that we always move the last plugin in pluginsToMove, if we // can't find any other plugin to move aConfigurations->AppendElement(pluginsToMove[i]); pluginsToMove.RemoveElementAt(i); } } static PLDHashOperator PluginDidSetGeometryEnumerator(nsRefPtrHashKey* aEntry, void* userArg) { nsObjectFrame* f = static_cast(aEntry->GetKey()->GetPrimaryFrame()); if (!f) { NS_WARNING("Null frame in PluginDidSetGeometryEnumerator"); return PL_DHASH_NEXT; } f->DidSetWidgetGeometry(); return PL_DHASH_NEXT; } struct PluginGetGeometryUpdateClosure { nsTArray mConfigurations; }; static PLDHashOperator PluginGetGeometryUpdate(nsRefPtrHashKey* aEntry, void* userArg) { PluginGetGeometryUpdateClosure* closure = static_cast(userArg); nsObjectFrame* f = static_cast(aEntry->GetKey()->GetPrimaryFrame()); if (!f) { NS_WARNING("Null frame in GetPluginGeometryUpdate"); return PL_DHASH_NEXT; } f->GetWidgetConfiguration(&closure->mConfigurations); return PL_DHASH_NEXT; } void nsRootPresContext::ApplyPluginGeometryUpdates() { CancelApplyPluginGeometryTimer(); PluginGetGeometryUpdateClosure closure; mRegisteredPlugins.EnumerateEntries(PluginGetGeometryUpdate, &closure); // Walk mRegisteredPlugins and ask each plugin for its configuration if (!closure.mConfigurations.IsEmpty()) { nsIWidget* widget = closure.mConfigurations[0].mChild->GetParent(); NS_ASSERTION(widget, "Plugins must have a parent window"); SortConfigurations(&closure.mConfigurations); widget->ConfigureChildren(closure.mConfigurations); } mRegisteredPlugins.EnumerateEntries(PluginDidSetGeometryEnumerator, nullptr); } static void NotifyDidPaintForSubtreeCallback(nsITimer *aTimer, void *aClosure) { nsPresContext* presContext = (nsPresContext*)aClosure; nsAutoScriptBlocker blockScripts; // This is a fallback if we don't get paint events for some reason // so we'll just pretend both layer painting and compositing happened. PCLink pcl("NotifyDidPaintForSubtreeCallback", presContext); presContext->NotifyDidPaintForSubtree( nsIPresShell::PAINT_LAYERS | nsIPresShell::PAINT_COMPOSITE); } void nsRootPresContext::EnsureEventualDidPaintEvent() { if (mNotifyDidPaintTimer) return; mNotifyDidPaintTimer = do_CreateInstance("@mozilla.org/timer;1"); if (!mNotifyDidPaintTimer) return; mNotifyDidPaintTimer->InitWithFuncCallback(NotifyDidPaintForSubtreeCallback, (void*)this, 100, nsITimer::TYPE_ONE_SHOT); } void nsRootPresContext::AddWillPaintObserver(nsIRunnable* aRunnable) { if (!mWillPaintFallbackEvent.IsPending()) { mWillPaintFallbackEvent = new RunWillPaintObservers(this); NS_DispatchToMainThread(mWillPaintFallbackEvent.get()); } mWillPaintObservers.AppendElement(aRunnable); } /** * Run all runnables that need to get called before the next paint. */ void nsRootPresContext::FlushWillPaintObservers() { mWillPaintFallbackEvent = nullptr; nsTArray > observers; observers.SwapElements(mWillPaintObservers); for (uint32_t i = 0; i < observers.Length(); ++i) { observers[i]->Run(); } } size_t nsRootPresContext::SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const { return nsPresContext::SizeOfExcludingThis(aMallocSizeOf); // Measurement of the following members may be added later if DMD finds it is // worthwhile: // - mNotifyDidPaintTimer // - mRegisteredPlugins // - mWillPaintObservers // - mWillPaintFallbackEvent }