/* -*- 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 "TextAttrs.h" #include "Accessible-inl.h" #include "nsAccUtils.h" #include "nsCoreUtils.h" #include "StyleInfo.h" #include "gfxFont.h" #include "nsFontMetrics.h" #include "nsLayoutUtils.h" #include "nsContainerFrame.h" #include "HyperTextAccessible.h" #include "mozilla/AppUnits.h" #include "mozilla/gfx/2D.h" #if defined(MOZ_WIDGET_GTK) #include "gfxPlatformGtk.h" // xxx - for UseFcFontList #endif using namespace mozilla; using namespace mozilla::a11y; //////////////////////////////////////////////////////////////////////////////// // TextAttrsMgr //////////////////////////////////////////////////////////////////////////////// void TextAttrsMgr::GetAttributes(nsIPersistentProperties* aAttributes, uint32_t* aStartOffset, uint32_t* aEndOffset) { // 1. Hyper text accessible must be specified always. // 2. Offset accessible and result hyper text offsets must be specified in // the case of text attributes. // 3. Offset accessible and result hyper text offsets must not be specified // but include default text attributes flag and attributes list must be // specified in the case of default text attributes. NS_PRECONDITION(mHyperTextAcc && ((mOffsetAcc && mOffsetAccIdx != -1 && aStartOffset && aEndOffset) || (!mOffsetAcc && mOffsetAccIdx == -1 && !aStartOffset && !aEndOffset && mIncludeDefAttrs && aAttributes)), "Wrong usage of TextAttrsMgr!"); // Embedded objects are combined into own range with empty attributes set. if (mOffsetAcc && !mOffsetAcc->IsText()) { for (int32_t childIdx = mOffsetAccIdx - 1; childIdx >= 0; childIdx--) { Accessible* currAcc = mHyperTextAcc->GetChildAt(childIdx); if (currAcc->IsText()) break; (*aStartOffset)--; } uint32_t childCount = mHyperTextAcc->ChildCount(); for (uint32_t childIdx = mOffsetAccIdx + 1; childIdx < childCount; childIdx++) { Accessible* currAcc = mHyperTextAcc->GetChildAt(childIdx); if (currAcc->IsText()) break; (*aEndOffset)++; } return; } // Get the content and frame of the accessible. In the case of document // accessible it's role content and root frame. nsIContent* hyperTextElm = mHyperTextAcc->GetContent(); if (!hyperTextElm) return; // XXX: we don't support text attrs on document with no body nsIFrame* rootFrame = mHyperTextAcc->GetFrame(); MOZ_ASSERT(rootFrame, "No frame for accessible!"); if (!rootFrame) return; nsIContent *offsetNode = nullptr, *offsetElm = nullptr; nsIFrame *frame = nullptr; if (mOffsetAcc) { offsetNode = mOffsetAcc->GetContent(); offsetElm = nsCoreUtils::GetDOMElementFor(offsetNode); MOZ_ASSERT(offsetElm, "No element for offset accessible!"); if (!offsetElm) return; frame = offsetElm->GetPrimaryFrame(); } // "language" text attribute LangTextAttr langTextAttr(mHyperTextAcc, hyperTextElm, offsetNode); // "aria-invalid" text attribute InvalidTextAttr invalidTextAttr(hyperTextElm, offsetNode); // "background-color" text attribute BGColorTextAttr bgColorTextAttr(rootFrame, frame); // "color" text attribute ColorTextAttr colorTextAttr(rootFrame, frame); // "font-family" text attribute FontFamilyTextAttr fontFamilyTextAttr(rootFrame, frame); // "font-size" text attribute FontSizeTextAttr fontSizeTextAttr(rootFrame, frame); // "font-style" text attribute FontStyleTextAttr fontStyleTextAttr(rootFrame, frame); // "font-weight" text attribute FontWeightTextAttr fontWeightTextAttr(rootFrame, frame); // "auto-generated" text attribute AutoGeneratedTextAttr autoGenTextAttr(mHyperTextAcc, mOffsetAcc); // "text-underline(line-through)-style(color)" text attributes TextDecorTextAttr textDecorTextAttr(rootFrame, frame); // "text-position" text attribute TextPosTextAttr textPosTextAttr(rootFrame, frame); TextAttr* attrArray[] = { &langTextAttr, &invalidTextAttr, &bgColorTextAttr, &colorTextAttr, &fontFamilyTextAttr, &fontSizeTextAttr, &fontStyleTextAttr, &fontWeightTextAttr, &autoGenTextAttr, &textDecorTextAttr, &textPosTextAttr }; // Expose text attributes if applicable. if (aAttributes) { for (uint32_t idx = 0; idx < ArrayLength(attrArray); idx++) attrArray[idx]->Expose(aAttributes, mIncludeDefAttrs); } // Expose text attributes range where they are applied if applicable. if (mOffsetAcc) GetRange(attrArray, ArrayLength(attrArray), aStartOffset, aEndOffset); } void TextAttrsMgr::GetRange(TextAttr* aAttrArray[], uint32_t aAttrArrayLen, uint32_t* aStartOffset, uint32_t* aEndOffset) { // Navigate backward from anchor accessible to find start offset. for (int32_t childIdx = mOffsetAccIdx - 1; childIdx >= 0; childIdx--) { Accessible* currAcc = mHyperTextAcc->GetChildAt(childIdx); // Stop on embedded accessible since embedded accessibles are combined into // own range. if (!currAcc->IsText()) break; MOZ_ASSERT(nsCoreUtils::GetDOMElementFor(currAcc->GetContent()), "Text accessible has to have an associated DOM element"); bool offsetFound = false; for (uint32_t attrIdx = 0; attrIdx < aAttrArrayLen; attrIdx++) { TextAttr* textAttr = aAttrArray[attrIdx]; if (!textAttr->Equal(currAcc)) { offsetFound = true; break; } } if (offsetFound) break; *(aStartOffset) -= nsAccUtils::TextLength(currAcc); } // Navigate forward from anchor accessible to find end offset. uint32_t childLen = mHyperTextAcc->ChildCount(); for (uint32_t childIdx = mOffsetAccIdx + 1; childIdx < childLen; childIdx++) { Accessible* currAcc = mHyperTextAcc->GetChildAt(childIdx); if (!currAcc->IsText()) break; MOZ_ASSERT(nsCoreUtils::GetDOMElementFor(currAcc->GetContent()), "Text accessible has to have an associated DOM element"); bool offsetFound = false; for (uint32_t attrIdx = 0; attrIdx < aAttrArrayLen; attrIdx++) { TextAttr* textAttr = aAttrArray[attrIdx]; // Alter the end offset when text attribute changes its value and stop // the search. if (!textAttr->Equal(currAcc)) { offsetFound = true; break; } } if (offsetFound) break; (*aEndOffset) += nsAccUtils::TextLength(currAcc); } } //////////////////////////////////////////////////////////////////////////////// // LangTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::LangTextAttr:: LangTextAttr(HyperTextAccessible* aRoot, nsIContent* aRootElm, nsIContent* aElm) : TTextAttr(!aElm), mRootContent(aRootElm) { aRoot->Language(mRootNativeValue); mIsRootDefined = !mRootNativeValue.IsEmpty(); if (aElm) { nsCoreUtils::GetLanguageFor(aElm, mRootContent, mNativeValue); mIsDefined = !mNativeValue.IsEmpty(); } } TextAttrsMgr::LangTextAttr:: ~LangTextAttr() {} bool TextAttrsMgr::LangTextAttr:: GetValueFor(Accessible* aAccessible, nsString* aValue) { nsCoreUtils::GetLanguageFor(aAccessible->GetContent(), mRootContent, *aValue); return !aValue->IsEmpty(); } void TextAttrsMgr::LangTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nsString& aValue) { nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::language, aValue); } //////////////////////////////////////////////////////////////////////////////// // InvalidTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::InvalidTextAttr:: InvalidTextAttr(nsIContent* aRootElm, nsIContent* aElm) : TTextAttr(!aElm), mRootElm(aRootElm) { mIsRootDefined = GetValue(mRootElm, &mRootNativeValue); if (aElm) mIsDefined = GetValue(aElm, &mNativeValue); } bool TextAttrsMgr::InvalidTextAttr:: GetValueFor(Accessible* aAccessible, uint32_t* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); return elm ? GetValue(elm, aValue) : false; } void TextAttrsMgr::InvalidTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const uint32_t& aValue) { switch (aValue) { case eFalse: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::invalid, NS_LITERAL_STRING("false")); break; case eGrammar: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::invalid, NS_LITERAL_STRING("grammar")); break; case eSpelling: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::invalid, NS_LITERAL_STRING("spelling")); break; case eTrue: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::invalid, NS_LITERAL_STRING("true")); break; } } bool TextAttrsMgr::InvalidTextAttr:: GetValue(nsIContent* aElm, uint32_t* aValue) { nsIContent* elm = aElm; do { if (nsAccUtils::HasDefinedARIAToken(elm, nsGkAtoms::aria_invalid)) { static nsIContent::AttrValuesArray tokens[] = { &nsGkAtoms::_false, &nsGkAtoms::grammar, &nsGkAtoms::spelling, nullptr }; int32_t idx = elm->FindAttrValueIn(kNameSpaceID_None, nsGkAtoms::aria_invalid, tokens, eCaseMatters); switch (idx) { case 0: *aValue = eFalse; return true; case 1: *aValue = eGrammar; return true; case 2: *aValue = eSpelling; return true; default: *aValue = eTrue; return true; } } } while ((elm = elm->GetParent()) && elm != mRootElm); return false; } //////////////////////////////////////////////////////////////////////////////// // BGColorTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::BGColorTextAttr:: BGColorTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame), mRootFrame(aRootFrame) { mIsRootDefined = GetColor(mRootFrame, &mRootNativeValue); if (aFrame) mIsDefined = GetColor(aFrame, &mNativeValue); } bool TextAttrsMgr::BGColorTextAttr:: GetValueFor(Accessible* aAccessible, nscolor* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { return GetColor(frame, aValue); } } return false; } void TextAttrsMgr::BGColorTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nscolor& aValue) { nsAutoString formattedValue; StyleInfo::FormatColor(aValue, formattedValue); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::backgroundColor, formattedValue); } bool TextAttrsMgr::BGColorTextAttr:: GetColor(nsIFrame* aFrame, nscolor* aColor) { const nsStyleBackground* styleBackground = aFrame->StyleBackground(); if (NS_GET_A(styleBackground->mBackgroundColor) > 0) { *aColor = styleBackground->mBackgroundColor; return true; } nsContainerFrame *parentFrame = aFrame->GetParent(); if (!parentFrame) { *aColor = aFrame->PresContext()->DefaultBackgroundColor(); return true; } // Each frame of parents chain for the initially passed 'aFrame' has // transparent background color. So background color isn't changed from // 'mRootFrame' to initially passed 'aFrame'. if (parentFrame == mRootFrame) return false; return GetColor(parentFrame, aColor); } //////////////////////////////////////////////////////////////////////////////// // ColorTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::ColorTextAttr:: ColorTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mRootNativeValue = aRootFrame->StyleColor()->mColor; mIsRootDefined = true; if (aFrame) { mNativeValue = aFrame->StyleColor()->mColor; mIsDefined = true; } } bool TextAttrsMgr::ColorTextAttr:: GetValueFor(Accessible* aAccessible, nscolor* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { *aValue = frame->StyleColor()->mColor; return true; } } return false; } void TextAttrsMgr::ColorTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nscolor& aValue) { nsAutoString formattedValue; StyleInfo::FormatColor(aValue, formattedValue); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::color, formattedValue); } //////////////////////////////////////////////////////////////////////////////// // FontFamilyTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::FontFamilyTextAttr:: FontFamilyTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mIsRootDefined = GetFontFamily(aRootFrame, mRootNativeValue); if (aFrame) mIsDefined = GetFontFamily(aFrame, mNativeValue); } bool TextAttrsMgr::FontFamilyTextAttr:: GetValueFor(Accessible* aAccessible, nsString* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { return GetFontFamily(frame, *aValue); } } return false; } void TextAttrsMgr::FontFamilyTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nsString& aValue) { nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::font_family, aValue); } bool TextAttrsMgr::FontFamilyTextAttr:: GetFontFamily(nsIFrame* aFrame, nsString& aFamily) { RefPtr fm = nsLayoutUtils::GetFontMetricsForFrame(aFrame, 1.0f); gfxFontGroup* fontGroup = fm->GetThebesFontGroup(); gfxFont* font = fontGroup->GetFirstValidFont(); gfxFontEntry* fontEntry = font->GetFontEntry(); aFamily = fontEntry->FamilyName(); return true; } //////////////////////////////////////////////////////////////////////////////// // FontSizeTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::FontSizeTextAttr:: FontSizeTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mDC = aRootFrame->PresContext()->DeviceContext(); mRootNativeValue = aRootFrame->StyleFont()->mSize; mIsRootDefined = true; if (aFrame) { mNativeValue = aFrame->StyleFont()->mSize; mIsDefined = true; } } bool TextAttrsMgr::FontSizeTextAttr:: GetValueFor(Accessible* aAccessible, nscoord* aValue) { nsIContent* el = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (el) { nsIFrame* frame = el->GetPrimaryFrame(); if (frame) { *aValue = frame->StyleFont()->mSize; return true; } } return false; } void TextAttrsMgr::FontSizeTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nscoord& aValue) { // Convert from nscoord to pt. // // Note: according to IA2, "The conversion doesn't have to be exact. // The intent is to give the user a feel for the size of the text." // // ATK does not specify a unit and will likely follow IA2 here. // // XXX todo: consider sharing this code with layout module? (bug 474621) float px = NSAppUnitsToFloatPixels(aValue, mozilla::AppUnitsPerCSSPixel()); // Each pt is 4/3 of a CSS pixel. int pts = NS_lround(px*3/4); nsAutoString value; value.AppendInt(pts); value.AppendLiteral("pt"); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::font_size, value); } //////////////////////////////////////////////////////////////////////////////// // FontStyleTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::FontStyleTextAttr:: FontStyleTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mRootNativeValue = aRootFrame->StyleFont()->mFont.style; mIsRootDefined = true; if (aFrame) { mNativeValue = aFrame->StyleFont()->mFont.style; mIsDefined = true; } } bool TextAttrsMgr::FontStyleTextAttr:: GetValueFor(Accessible* aAccessible, nscoord* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { *aValue = frame->StyleFont()->mFont.style; return true; } } return false; } void TextAttrsMgr::FontStyleTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const nscoord& aValue) { nsAutoString formattedValue; StyleInfo::FormatFontStyle(aValue, formattedValue); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::font_style, formattedValue); } //////////////////////////////////////////////////////////////////////////////// // FontWeightTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::FontWeightTextAttr:: FontWeightTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mRootNativeValue = GetFontWeight(aRootFrame); mIsRootDefined = true; if (aFrame) { mNativeValue = GetFontWeight(aFrame); mIsDefined = true; } } bool TextAttrsMgr::FontWeightTextAttr:: GetValueFor(Accessible* aAccessible, int32_t* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { *aValue = GetFontWeight(frame); return true; } } return false; } void TextAttrsMgr::FontWeightTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const int32_t& aValue) { nsAutoString formattedValue; formattedValue.AppendInt(aValue); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::fontWeight, formattedValue); } int32_t TextAttrsMgr::FontWeightTextAttr:: GetFontWeight(nsIFrame* aFrame) { // nsFont::width isn't suitable here because it's necessary to expose real // value of font weight (used font might not have some font weight values). RefPtr fm = nsLayoutUtils::GetFontMetricsForFrame(aFrame, 1.0f); gfxFontGroup *fontGroup = fm->GetThebesFontGroup(); gfxFont *font = fontGroup->GetFirstValidFont(); // When there doesn't exist a bold font in the family and so the rendering of // a non-bold font face is changed so that the user sees what looks like a // bold font, i.e. synthetic bolding is used. IsSyntheticBold method is only // needed on Mac, but it is "safe" to use on all platforms. (For non-Mac // platforms it always return false.) if (font->IsSyntheticBold()) return 700; bool useFontEntryWeight = true; // Under Linux, when gfxPangoFontGroup code is used, // font->GetStyle()->weight will give the absolute weight requested of the // font face. The gfxPangoFontGroup code uses the gfxFontEntry constructor // which doesn't initialize the weight field. #if defined(MOZ_WIDGET_GTK) useFontEntryWeight = gfxPlatformGtk::UseFcFontList(); #endif if (useFontEntryWeight) { // On Windows, font->GetStyle()->weight will give the same weight as // fontEntry->Weight(), the weight of the first font in the font group, // which may not be the weight of the font face used to render the // characters. On Mac, font->GetStyle()->weight will just give the same // number as getComputedStyle(). fontEntry->Weight() will give the weight // of the font face used. gfxFontEntry *fontEntry = font->GetFontEntry(); return fontEntry->Weight(); } else { return font->GetStyle()->weight; } } //////////////////////////////////////////////////////////////////////////////// // AutoGeneratedTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::AutoGeneratedTextAttr:: AutoGeneratedTextAttr(HyperTextAccessible* aHyperTextAcc, Accessible* aAccessible) : TTextAttr(!aAccessible) { mRootNativeValue = false; mIsRootDefined = false; if (aAccessible) mIsDefined = mNativeValue = (aAccessible->NativeRole() == roles::STATICTEXT); } bool TextAttrsMgr::AutoGeneratedTextAttr:: GetValueFor(Accessible* aAccessible, bool* aValue) { return *aValue = (aAccessible->NativeRole() == roles::STATICTEXT); } void TextAttrsMgr::AutoGeneratedTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const bool& aValue) { nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::auto_generated, aValue ? NS_LITERAL_STRING("true") : NS_LITERAL_STRING("false")); } //////////////////////////////////////////////////////////////////////////////// // TextDecorTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::TextDecorValue:: TextDecorValue(nsIFrame* aFrame) { const nsStyleTextReset* textReset = aFrame->StyleTextReset(); mStyle = textReset->mTextDecorationStyle; mColor = aFrame->StyleColor()-> CalcComplexColor(textReset->mTextDecorationColor); mLine = textReset->mTextDecorationLine & (NS_STYLE_TEXT_DECORATION_LINE_UNDERLINE | NS_STYLE_TEXT_DECORATION_LINE_LINE_THROUGH); } TextAttrsMgr::TextDecorTextAttr:: TextDecorTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mRootNativeValue = TextDecorValue(aRootFrame); mIsRootDefined = mRootNativeValue.IsDefined(); if (aFrame) { mNativeValue = TextDecorValue(aFrame); mIsDefined = mNativeValue.IsDefined(); } } bool TextAttrsMgr::TextDecorTextAttr:: GetValueFor(Accessible* aAccessible, TextDecorValue* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { *aValue = TextDecorValue(frame); return aValue->IsDefined(); } } return false; } void TextAttrsMgr::TextDecorTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const TextDecorValue& aValue) { if (aValue.IsUnderline()) { nsAutoString formattedStyle; StyleInfo::FormatTextDecorationStyle(aValue.Style(), formattedStyle); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textUnderlineStyle, formattedStyle); nsAutoString formattedColor; StyleInfo::FormatColor(aValue.Color(), formattedColor); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textUnderlineColor, formattedColor); return; } if (aValue.IsLineThrough()) { nsAutoString formattedStyle; StyleInfo::FormatTextDecorationStyle(aValue.Style(), formattedStyle); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textLineThroughStyle, formattedStyle); nsAutoString formattedColor; StyleInfo::FormatColor(aValue.Color(), formattedColor); nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textLineThroughColor, formattedColor); } } //////////////////////////////////////////////////////////////////////////////// // TextPosTextAttr //////////////////////////////////////////////////////////////////////////////// TextAttrsMgr::TextPosTextAttr:: TextPosTextAttr(nsIFrame* aRootFrame, nsIFrame* aFrame) : TTextAttr(!aFrame) { mRootNativeValue = GetTextPosValue(aRootFrame); mIsRootDefined = mRootNativeValue != eTextPosNone; if (aFrame) { mNativeValue = GetTextPosValue(aFrame); mIsDefined = mNativeValue != eTextPosNone; } } bool TextAttrsMgr::TextPosTextAttr:: GetValueFor(Accessible* aAccessible, TextPosValue* aValue) { nsIContent* elm = nsCoreUtils::GetDOMElementFor(aAccessible->GetContent()); if (elm) { nsIFrame* frame = elm->GetPrimaryFrame(); if (frame) { *aValue = GetTextPosValue(frame); return *aValue != eTextPosNone; } } return false; } void TextAttrsMgr::TextPosTextAttr:: ExposeValue(nsIPersistentProperties* aAttributes, const TextPosValue& aValue) { switch (aValue) { case eTextPosBaseline: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textPosition, NS_LITERAL_STRING("baseline")); break; case eTextPosSub: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textPosition, NS_LITERAL_STRING("sub")); break; case eTextPosSuper: nsAccUtils::SetAccAttr(aAttributes, nsGkAtoms::textPosition, NS_LITERAL_STRING("super")); break; case eTextPosNone: break; } } TextAttrsMgr::TextPosValue TextAttrsMgr::TextPosTextAttr:: GetTextPosValue(nsIFrame* aFrame) const { const nsStyleCoord& styleCoord = aFrame->StyleDisplay()->mVerticalAlign; switch (styleCoord.GetUnit()) { case eStyleUnit_Enumerated: switch (styleCoord.GetIntValue()) { case NS_STYLE_VERTICAL_ALIGN_BASELINE: return eTextPosBaseline; case NS_STYLE_VERTICAL_ALIGN_SUB: return eTextPosSub; case NS_STYLE_VERTICAL_ALIGN_SUPER: return eTextPosSuper; // No good guess for these: // NS_STYLE_VERTICAL_ALIGN_TOP // NS_STYLE_VERTICAL_ALIGN_TEXT_TOP // NS_STYLE_VERTICAL_ALIGN_MIDDLE // NS_STYLE_VERTICAL_ALIGN_TEXT_BOTTOM // NS_STYLE_VERTICAL_ALIGN_BOTTOM // NS_STYLE_VERTICAL_ALIGN_MIDDLE_WITH_BASELINE // Do not expose value of text-position attribute. default: break; } return eTextPosNone; case eStyleUnit_Percent: { float percentValue = styleCoord.GetPercentValue(); return percentValue > 0 ? eTextPosSuper : (percentValue < 0 ? eTextPosSub : eTextPosBaseline); } case eStyleUnit_Coord: { nscoord coordValue = styleCoord.GetCoordValue(); return coordValue > 0 ? eTextPosSuper : (coordValue < 0 ? eTextPosSub : eTextPosBaseline); } case eStyleUnit_Null: case eStyleUnit_Normal: case eStyleUnit_Auto: case eStyleUnit_None: case eStyleUnit_Factor: case eStyleUnit_Degree: case eStyleUnit_Grad: case eStyleUnit_Radian: case eStyleUnit_Turn: case eStyleUnit_FlexFraction: case eStyleUnit_Integer: case eStyleUnit_Calc: break; } const nsIContent* content = aFrame->GetContent(); if (content) { if (content->IsHTMLElement(nsGkAtoms::sup)) return eTextPosSuper; if (content->IsHTMLElement(nsGkAtoms::sub)) return eTextPosSub; } return eTextPosNone; }