/* -*- 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/. */ #include "nsLookAndFeel.h" #include #include #include "nsStyleConsts.h" #include "nsUXThemeData.h" #include "nsUXThemeConstants.h" #include "WinUtils.h" #include "mozilla/Telemetry.h" #include "mozilla/WindowsVersion.h" #include "gfxFontConstants.h" using namespace mozilla; using namespace mozilla::widget; //static LookAndFeel::OperatingSystemVersion nsLookAndFeel::GetOperatingSystemVersion() { static OperatingSystemVersion version = eOperatingSystemVersion_Unknown; if (version != eOperatingSystemVersion_Unknown) { return version; } if (IsWin10OrLater()) { version = eOperatingSystemVersion_Windows10; } else if (IsWin8OrLater()) { version = eOperatingSystemVersion_Windows8; } else { version = eOperatingSystemVersion_Windows7; } return version; } static nsresult GetColorFromTheme(nsUXThemeClass cls, int32_t aPart, int32_t aState, int32_t aPropId, nscolor &aColor) { COLORREF color; HRESULT hr = GetThemeColor(nsUXThemeData::GetTheme(cls), aPart, aState, aPropId, &color); if (hr == S_OK) { aColor = COLOREF_2_NSRGB(color); return NS_OK; } return NS_ERROR_FAILURE; } static int32_t GetSystemParam(long flag, int32_t def) { DWORD value; return ::SystemParametersInfo(flag, 0, &value, 0) ? value : def; } nsLookAndFeel::nsLookAndFeel() : nsXPLookAndFeel() , mUseAccessibilityTheme(0) , mUseDefaultTheme(0) , mNativeThemeId(eWindowsTheme_Generic) , mCaretBlinkTime(-1) , mHasColorMenuHoverText(false) , mHasColorAccent(false) , mHasColorAccentText(false) , mHasColorMediaText(false) , mHasColorCommunicationsText(false) , mInitialized(false) { mozilla::Telemetry::Accumulate(mozilla::Telemetry::TOUCH_ENABLED_DEVICE, WinUtils::IsTouchDeviceSupportPresent()); } nsLookAndFeel::~nsLookAndFeel() { } void nsLookAndFeel::NativeInit() { EnsureInit(); } /* virtual */ void nsLookAndFeel::RefreshImpl() { nsXPLookAndFeel::RefreshImpl(); for (auto e = mSystemFontCache.begin(), end = mSystemFontCache.end(); e != end; ++e) { e->mCacheValid = false; } mCaretBlinkTime = -1; mInitialized = false; } nsresult nsLookAndFeel::NativeGetColor(ColorID aID, nscolor &aColor) { EnsureInit(); nsresult res = NS_OK; int idx; switch (aID) { case eColorID_WindowBackground: idx = COLOR_WINDOW; break; case eColorID_WindowForeground: idx = COLOR_WINDOWTEXT; break; case eColorID_WidgetBackground: idx = COLOR_BTNFACE; break; case eColorID_WidgetForeground: idx = COLOR_BTNTEXT; break; case eColorID_WidgetSelectBackground: idx = COLOR_HIGHLIGHT; break; case eColorID_WidgetSelectForeground: idx = COLOR_HIGHLIGHTTEXT; break; case eColorID_Widget3DHighlight: idx = COLOR_BTNHIGHLIGHT; break; case eColorID_Widget3DShadow: idx = COLOR_BTNSHADOW; break; case eColorID_TextBackground: idx = COLOR_WINDOW; break; case eColorID_TextForeground: idx = COLOR_WINDOWTEXT; break; case eColorID_TextSelectBackground: case eColorID_IMESelectedRawTextBackground: case eColorID_IMESelectedConvertedTextBackground: idx = COLOR_HIGHLIGHT; break; case eColorID_TextSelectForeground: case eColorID_IMESelectedRawTextForeground: case eColorID_IMESelectedConvertedTextForeground: idx = COLOR_HIGHLIGHTTEXT; break; case eColorID_IMERawInputBackground: case eColorID_IMEConvertedTextBackground: aColor = NS_TRANSPARENT; return NS_OK; case eColorID_IMERawInputForeground: case eColorID_IMEConvertedTextForeground: aColor = NS_SAME_AS_FOREGROUND_COLOR; return NS_OK; case eColorID_IMERawInputUnderline: case eColorID_IMEConvertedTextUnderline: aColor = NS_SAME_AS_FOREGROUND_COLOR; return NS_OK; case eColorID_IMESelectedRawTextUnderline: case eColorID_IMESelectedConvertedTextUnderline: aColor = NS_TRANSPARENT; return NS_OK; case eColorID_SpellCheckerUnderline: aColor = NS_RGB(0xff, 0, 0); return NS_OK; // New CSS 2 Color definitions case eColorID_activeborder: idx = COLOR_ACTIVEBORDER; break; case eColorID_activecaption: idx = COLOR_ACTIVECAPTION; break; case eColorID_appworkspace: idx = COLOR_APPWORKSPACE; break; case eColorID_background: idx = COLOR_BACKGROUND; break; case eColorID_buttonface: case eColorID__moz_buttonhoverface: idx = COLOR_BTNFACE; break; case eColorID_buttonhighlight: idx = COLOR_BTNHIGHLIGHT; break; case eColorID_buttonshadow: idx = COLOR_BTNSHADOW; break; case eColorID_buttontext: case eColorID__moz_buttonhovertext: idx = COLOR_BTNTEXT; break; case eColorID_captiontext: idx = COLOR_CAPTIONTEXT; break; case eColorID_graytext: idx = COLOR_GRAYTEXT; break; case eColorID_highlight: case eColorID__moz_html_cellhighlight: case eColorID__moz_menuhover: idx = COLOR_HIGHLIGHT; break; case eColorID__moz_menubarhovertext: if (!IsAppThemed()) { idx = nsUXThemeData::sFlatMenus ? COLOR_HIGHLIGHTTEXT : COLOR_MENUTEXT; break; } // Fall through case eColorID__moz_menuhovertext: if (mHasColorMenuHoverText) { aColor = mColorMenuHoverText; return NS_OK; } // Fall through case eColorID_highlighttext: case eColorID__moz_html_cellhighlighttext: idx = COLOR_HIGHLIGHTTEXT; break; case eColorID_inactiveborder: idx = COLOR_INACTIVEBORDER; break; case eColorID_inactivecaption: idx = COLOR_INACTIVECAPTION; break; case eColorID_inactivecaptiontext: idx = COLOR_INACTIVECAPTIONTEXT; break; case eColorID_infobackground: idx = COLOR_INFOBK; break; case eColorID_infotext: idx = COLOR_INFOTEXT; break; case eColorID_menu: idx = COLOR_MENU; break; case eColorID_menutext: case eColorID__moz_menubartext: idx = COLOR_MENUTEXT; break; case eColorID_scrollbar: idx = COLOR_SCROLLBAR; break; case eColorID_threeddarkshadow: idx = COLOR_3DDKSHADOW; break; case eColorID_threedface: idx = COLOR_3DFACE; break; case eColorID_threedhighlight: idx = COLOR_3DHIGHLIGHT; break; case eColorID_threedlightshadow: idx = COLOR_3DLIGHT; break; case eColorID_threedshadow: idx = COLOR_3DSHADOW; break; case eColorID_window: idx = COLOR_WINDOW; break; case eColorID_windowframe: idx = COLOR_WINDOWFRAME; break; case eColorID_windowtext: idx = COLOR_WINDOWTEXT; break; case eColorID__moz_eventreerow: case eColorID__moz_oddtreerow: case eColorID__moz_field: case eColorID__moz_combobox: idx = COLOR_WINDOW; break; case eColorID__moz_fieldtext: case eColorID__moz_comboboxtext: idx = COLOR_WINDOWTEXT; break; case eColorID__moz_dialog: case eColorID__moz_cellhighlight: idx = COLOR_3DFACE; break; case eColorID__moz_win_accentcolor: if (mHasColorAccent) { aColor = mColorAccent; } else { // Seems to be the default color (hardcoded because of bug 1065998) aColor = NS_RGB(158, 158, 158); } return NS_OK; case eColorID__moz_win_accentcolortext: if (mHasColorAccentText) { aColor = mColorAccentText; } else { aColor = NS_RGB(0, 0, 0); } return NS_OK; case eColorID__moz_win_mediatext: if (mHasColorMediaText) { aColor = mColorMediaText; return NS_OK; } // if we've gotten here just return -moz-dialogtext instead idx = COLOR_WINDOWTEXT; break; case eColorID__moz_win_communicationstext: if (mHasColorCommunicationsText) { aColor = mColorCommunicationsText; return NS_OK; } // if we've gotten here just return -moz-dialogtext instead idx = COLOR_WINDOWTEXT; break; case eColorID__moz_dialogtext: case eColorID__moz_cellhighlighttext: idx = COLOR_WINDOWTEXT; break; case eColorID__moz_dragtargetzone: idx = COLOR_HIGHLIGHTTEXT; break; case eColorID__moz_buttondefault: idx = COLOR_3DDKSHADOW; break; case eColorID__moz_nativehyperlinktext: idx = COLOR_HOTLIGHT; break; default: NS_WARNING("Unknown color for nsLookAndFeel"); idx = COLOR_WINDOW; res = NS_ERROR_FAILURE; break; } aColor = GetColorForSysColorIndex(idx); return res; } nsresult nsLookAndFeel::GetIntImpl(IntID aID, int32_t &aResult) { nsresult res = nsXPLookAndFeel::GetIntImpl(aID, aResult); if (NS_SUCCEEDED(res)) return res; res = NS_OK; switch (aID) { case eIntID_CaretBlinkTime: // eIntID_CaretBlinkTime is often called by updating editable text // that has focus. So it should be cached to improve performance. if (mCaretBlinkTime < 0) { mCaretBlinkTime = static_cast(::GetCaretBlinkTime()); } aResult = mCaretBlinkTime; break; case eIntID_CaretWidth: aResult = 1; break; case eIntID_ShowCaretDuringSelection: aResult = 0; break; case eIntID_SelectTextfieldsOnKeyFocus: // Select textfield content when focused by kbd // used by EventStateManager::sTextfieldSelectModel aResult = 1; break; case eIntID_SubmenuDelay: // This will default to the Windows' default // (400ms) on error. aResult = GetSystemParam(SPI_GETMENUSHOWDELAY, 400); break; case eIntID_TooltipDelay: aResult = 500; break; case eIntID_MenusCanOverlapOSBar: // we want XUL popups to be able to overlap the task bar. aResult = 1; break; case eIntID_DragThresholdX: // The system metric is the number of pixels at which a drag should // start. Our look and feel metric is the number of pixels you can // move before starting a drag, so subtract 1. aResult = ::GetSystemMetrics(SM_CXDRAG) - 1; break; case eIntID_DragThresholdY: aResult = ::GetSystemMetrics(SM_CYDRAG) - 1; break; case eIntID_UseAccessibilityTheme: // High contrast is a misnomer under Win32 -- any theme can be used with it, // e.g. normal contrast with large fonts, low contrast, etc. // The high contrast flag really means -- use this theme and don't override it. if (XRE_IsContentProcess()) { // If we're running in the content process, then the parent should // have sent us the accessibility state when nsLookAndFeel // initialized, and stashed it in the mUseAccessibilityTheme cache. aResult = mUseAccessibilityTheme; } else { // Otherwise, we can ask the OS to see if we're using High Contrast // mode. aResult = nsUXThemeData::IsHighContrastOn(); } break; case eIntID_ScrollArrowStyle: aResult = eScrollArrowStyle_Single; break; case eIntID_ScrollSliderStyle: aResult = eScrollThumbStyle_Proportional; break; case eIntID_TreeOpenDelay: aResult = 1000; break; case eIntID_TreeCloseDelay: aResult = 0; break; case eIntID_TreeLazyScrollDelay: aResult = 150; break; case eIntID_TreeScrollDelay: aResult = 100; break; case eIntID_TreeScrollLinesMax: aResult = 3; break; case eIntID_WindowsClassic: aResult = !IsAppThemed(); break; case eIntID_TouchEnabled: aResult = WinUtils::IsTouchDeviceSupportPresent(); break; case eIntID_WindowsDefaultTheme: if (XRE_IsContentProcess()) { aResult = mUseDefaultTheme; } else { aResult = nsUXThemeData::IsDefaultWindowTheme(); } break; case eIntID_WindowsThemeIdentifier: if (XRE_IsContentProcess()) { aResult = mNativeThemeId; } else { aResult = nsUXThemeData::GetNativeThemeId(); } break; case eIntID_OperatingSystemVersionIdentifier: { aResult = GetOperatingSystemVersion(); break; } case eIntID_MacGraphiteTheme: aResult = 0; res = NS_ERROR_NOT_IMPLEMENTED; break; case eIntID_DWMCompositor: aResult = nsUXThemeData::CheckForCompositor(); break; case eIntID_WindowsAccentColorInTitlebar: { nscolor unused; if (NS_WARN_IF(NS_FAILED(GetAccentColor(unused)))) { aResult = 0; break; } uint32_t colorPrevalence; nsresult rv = mDwmKey->Open(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER, NS_LITERAL_STRING("SOFTWARE\\Microsoft\\Windows\\DWM"), nsIWindowsRegKey::ACCESS_QUERY_VALUE); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } // The ColorPrevalence value is set to 1 when the "Show color on title bar" // setting in the Color section of Window's Personalization settings is // turned on. aResult = (NS_SUCCEEDED(mDwmKey->ReadIntValue(NS_LITERAL_STRING("ColorPrevalence"), &colorPrevalence)) && colorPrevalence == 1) ? 1 : 0; mDwmKey->Close(); } break; case eIntID_WindowsGlass: // Aero Glass is only available prior to Windows 8 when DWM is used. aResult = (nsUXThemeData::CheckForCompositor() && !IsWin8OrLater()); break; case eIntID_AlertNotificationOrigin: aResult = 0; { // Get task bar window handle HWND shellWindow = FindWindowW(L"Shell_TrayWnd", nullptr); if (shellWindow != nullptr) { // Determine position APPBARDATA appBarData; appBarData.hWnd = shellWindow; appBarData.cbSize = sizeof(appBarData); if (SHAppBarMessage(ABM_GETTASKBARPOS, &appBarData)) { // Set alert origin as a bit field - see LookAndFeel.h // 0 represents bottom right, sliding vertically. switch(appBarData.uEdge) { case ABE_LEFT: aResult = NS_ALERT_HORIZONTAL | NS_ALERT_LEFT; break; case ABE_RIGHT: aResult = NS_ALERT_HORIZONTAL; break; case ABE_TOP: aResult = NS_ALERT_TOP; // fall through for the right-to-left handling. case ABE_BOTTOM: // If the task bar is right-to-left, // move the origin to the left if (::GetWindowLong(shellWindow, GWL_EXSTYLE) & WS_EX_LAYOUTRTL) aResult |= NS_ALERT_LEFT; break; } } } } break; case eIntID_IMERawInputUnderlineStyle: case eIntID_IMEConvertedTextUnderlineStyle: aResult = NS_STYLE_TEXT_DECORATION_STYLE_DASHED; break; case eIntID_IMESelectedRawTextUnderlineStyle: case eIntID_IMESelectedConvertedTextUnderline: aResult = NS_STYLE_TEXT_DECORATION_STYLE_NONE; break; case eIntID_SpellCheckerUnderlineStyle: aResult = NS_STYLE_TEXT_DECORATION_STYLE_WAVY; break; case eIntID_ScrollbarButtonAutoRepeatBehavior: aResult = 0; break; case eIntID_SwipeAnimationEnabled: aResult = 0; break; case eIntID_UseOverlayScrollbars: aResult = false; break; case eIntID_AllowOverlayScrollbarsOverlap: aResult = 0; break; case eIntID_ScrollbarDisplayOnMouseMove: aResult = 1; break; case eIntID_ScrollbarFadeBeginDelay: aResult = 2500; break; case eIntID_ScrollbarFadeDuration: aResult = 350; break; case eIntID_ContextMenuOffsetVertical: case eIntID_ContextMenuOffsetHorizontal: aResult = 2; break; default: aResult = 0; res = NS_ERROR_FAILURE; } return res; } nsresult nsLookAndFeel::GetFloatImpl(FloatID aID, float &aResult) { nsresult res = nsXPLookAndFeel::GetFloatImpl(aID, aResult); if (NS_SUCCEEDED(res)) return res; res = NS_OK; switch (aID) { case eFloatID_IMEUnderlineRelativeSize: aResult = 1.0f; break; case eFloatID_SpellCheckerUnderlineRelativeSize: aResult = 1.0f; break; default: aResult = -1.0; res = NS_ERROR_FAILURE; } return res; } static bool GetSysFontInfo(HDC aHDC, LookAndFeel::FontID anID, nsString &aFontName, gfxFontStyle &aFontStyle) { const LOGFONTW* ptrLogFont = nullptr; LOGFONTW logFont; NONCLIENTMETRICSW ncm; char16_t name[LF_FACESIZE]; bool useShellDlg = false; // Depending on which stock font we want, there are a couple of // places we might have to look it up. switch (anID) { case LookAndFeel::eFont_Icon: if (!::SystemParametersInfoW(SPI_GETICONTITLELOGFONT, sizeof(logFont), (PVOID)&logFont, 0)) return false; ptrLogFont = &logFont; break; default: ncm.cbSize = sizeof(NONCLIENTMETRICSW); if (!::SystemParametersInfoW(SPI_GETNONCLIENTMETRICS, sizeof(ncm), (PVOID)&ncm, 0)) return false; switch (anID) { case LookAndFeel::eFont_Menu: case LookAndFeel::eFont_PullDownMenu: ptrLogFont = &ncm.lfMenuFont; break; case LookAndFeel::eFont_Caption: ptrLogFont = &ncm.lfCaptionFont; break; case LookAndFeel::eFont_SmallCaption: ptrLogFont = &ncm.lfSmCaptionFont; break; case LookAndFeel::eFont_StatusBar: case LookAndFeel::eFont_Tooltips: ptrLogFont = &ncm.lfStatusFont; break; case LookAndFeel::eFont_Widget: case LookAndFeel::eFont_Dialog: case LookAndFeel::eFont_Button: case LookAndFeel::eFont_Field: case LookAndFeel::eFont_List: // XXX It's not clear to me whether this is exactly the right // set of LookAndFeel values to map to the dialog font; we may // want to add or remove cases here after reviewing the visual // results under various Windows versions. useShellDlg = true; // Fall through so that we can get size from lfMessageFont; // but later we'll use the (virtual) "MS Shell Dlg 2" font name // instead of the LOGFONT's. default: ptrLogFont = &ncm.lfMessageFont; break; } break; } // Get scaling factor from physical to logical pixels double pixelScale = 1.0 / WinUtils::SystemScaleFactor(); // The lfHeight is in pixels, and it needs to be adjusted for the // device it will be displayed on. // Screens and Printers will differ in DPI // // So this accounts for the difference in the DeviceContexts // The pixelScale will typically be 1.0 for the screen // (though larger for hi-dpi screens where the Windows resolution // scale factor is 125% or 150% or even more), and could be // any value when going to a printer, for example pixelScale is // 6.25 when going to a 600dpi printer. float pixelHeight = -ptrLogFont->lfHeight; if (pixelHeight < 0) { HFONT hFont = ::CreateFontIndirectW(ptrLogFont); if (!hFont) return false; HGDIOBJ hObject = ::SelectObject(aHDC, hFont); TEXTMETRIC tm; ::GetTextMetrics(aHDC, &tm); ::SelectObject(aHDC, hObject); ::DeleteObject(hFont); pixelHeight = tm.tmAscent; } pixelHeight *= pixelScale; // we have problem on Simplified Chinese system because the system // report the default font size is 8 points. but if we use 8, the text // display very ugly. force it to be at 9 points (12 pixels) on that // system (cp936), but leave other sizes alone. if (pixelHeight < 12 && ::GetACP() == 936) pixelHeight = 12; aFontStyle.size = pixelHeight; // FIXME: What about oblique? aFontStyle.style = (ptrLogFont->lfItalic) ? NS_FONT_STYLE_ITALIC : NS_FONT_STYLE_NORMAL; // FIXME: Other weights? aFontStyle.weight = (ptrLogFont->lfWeight == FW_BOLD ? NS_FONT_WEIGHT_BOLD : NS_FONT_WEIGHT_NORMAL); // FIXME: Set aFontStyle->stretch correctly! aFontStyle.stretch = NS_FONT_STRETCH_NORMAL; aFontStyle.systemFont = true; if (useShellDlg) { aFontName = NS_LITERAL_STRING("MS Shell Dlg 2"); } else { memcpy(name, ptrLogFont->lfFaceName, LF_FACESIZE*sizeof(char16_t)); aFontName = name; } return true; } bool nsLookAndFeel::GetFontImpl(FontID anID, nsString &aFontName, gfxFontStyle &aFontStyle, float aDevPixPerCSSPixel) { CachedSystemFont &cacheSlot = mSystemFontCache[anID]; bool status; if (cacheSlot.mCacheValid) { status = cacheSlot.mHaveFont; if (status) { aFontName = cacheSlot.mFontName; aFontStyle = cacheSlot.mFontStyle; } } else { HDC tdc = GetDC(nullptr); status = GetSysFontInfo(tdc, anID, aFontName, aFontStyle); ReleaseDC(nullptr, tdc); cacheSlot.mCacheValid = true; cacheSlot.mHaveFont = status; if (status) { cacheSlot.mFontName = aFontName; cacheSlot.mFontStyle = aFontStyle; } } // now convert the logical font size from GetSysFontInfo into device pixels for layout aFontStyle.size *= aDevPixPerCSSPixel; return status; } /* virtual */ char16_t nsLookAndFeel::GetPasswordCharacterImpl() { #define UNICODE_BLACK_CIRCLE_CHAR 0x25cf return UNICODE_BLACK_CIRCLE_CHAR; } nsTArray nsLookAndFeel::GetIntCacheImpl() { nsTArray lookAndFeelIntCache = nsXPLookAndFeel::GetIntCacheImpl(); LookAndFeelInt lafInt; lafInt.id = eIntID_UseAccessibilityTheme; lafInt.value = GetInt(eIntID_UseAccessibilityTheme); lookAndFeelIntCache.AppendElement(lafInt); lafInt.id = eIntID_WindowsDefaultTheme; lafInt.value = GetInt(eIntID_WindowsDefaultTheme); lookAndFeelIntCache.AppendElement(lafInt); lafInt.id = eIntID_WindowsThemeIdentifier; lafInt.value = GetInt(eIntID_WindowsThemeIdentifier); lookAndFeelIntCache.AppendElement(lafInt); return lookAndFeelIntCache; } void nsLookAndFeel::SetIntCacheImpl(const nsTArray& aLookAndFeelIntCache) { for (auto entry : aLookAndFeelIntCache) { switch (entry.id) { case eIntID_UseAccessibilityTheme: mUseAccessibilityTheme = entry.value; break; case eIntID_WindowsDefaultTheme: mUseDefaultTheme = entry.value; break; case eIntID_WindowsThemeIdentifier: mNativeThemeId = entry.value; break; } } } /* static */ nsresult nsLookAndFeel::GetAccentColor(nscolor& aColor) { nsresult rv; if (!mDwmKey) { mDwmKey = do_CreateInstance("@mozilla.org/windows-registry-key;1", &rv); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } } rv = mDwmKey->Open(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER, NS_LITERAL_STRING("SOFTWARE\\Microsoft\\Windows\\DWM"), nsIWindowsRegKey::ACCESS_QUERY_VALUE); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } uint32_t accentColor; if (NS_SUCCEEDED(mDwmKey->ReadIntValue(NS_LITERAL_STRING("AccentColor"), &accentColor))) { // The order of the color components in the DWORD stored in the registry // happens to be the same order as we store the components in nscolor // so we can just assign directly here. aColor = accentColor; rv = NS_OK; } else { rv = NS_ERROR_NOT_AVAILABLE; } mDwmKey->Close(); return rv; } /* static */ nsresult nsLookAndFeel::GetAccentColorText(nscolor& aColor) { nscolor accentColor; nsresult rv = GetAccentColor(accentColor); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } // We want the color that we return for text that will be drawn over // a background that has the accent color to have good contrast with // the accent color. Windows itself uses either white or black text // depending on how light or dark the accent color is. We do the same // here based on the luminance of the accent color with a threshhold // value. This algorithm should match what Windows does. It comes from: // // https://docs.microsoft.com/en-us/windows/uwp/style/color float luminance = (NS_GET_R(accentColor) * 2 + NS_GET_G(accentColor) * 5 + NS_GET_B(accentColor)) / 8; aColor = (luminance <= 128) ? NS_RGB(255, 255, 255) : NS_RGB(0, 0, 0); return NS_OK; } nscolor nsLookAndFeel::GetColorForSysColorIndex(int index) { MOZ_ASSERT(index >= SYS_COLOR_MIN && index <= SYS_COLOR_MAX); return mSysColorTable[index - SYS_COLOR_MIN]; } void nsLookAndFeel::EnsureInit() { if (mInitialized) { return; } mInitialized = true; nsresult res; res = GetAccentColor(mColorAccent); mHasColorAccent = NS_SUCCEEDED(res); res = GetAccentColorText(mColorAccentText); mHasColorAccentText = NS_SUCCEEDED(res); if (IsAppThemed()) { res = ::GetColorFromTheme(eUXMenu, MENU_POPUPITEM, MPI_HOT, TMT_TEXTCOLOR, mColorMenuHoverText); mHasColorMenuHoverText = NS_SUCCEEDED(res); res = ::GetColorFromTheme(eUXMediaToolbar, TP_BUTTON, TS_NORMAL, TMT_TEXTCOLOR, mColorMediaText); mHasColorMediaText = NS_SUCCEEDED(res); res = ::GetColorFromTheme(eUXCommunicationsToolbar, TP_BUTTON, TS_NORMAL, TMT_TEXTCOLOR, mColorCommunicationsText); mHasColorCommunicationsText = NS_SUCCEEDED(res); } // Fill out the sys color table. for (int i = SYS_COLOR_MIN; i <= SYS_COLOR_MAX; ++i) { DWORD color = ::GetSysColor(i); mSysColorTable[i - SYS_COLOR_MIN] = COLOREF_2_NSRGB(color); } }