/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * 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/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "node.hxx" #include "rect.hxx" #include "symbol.hxx" #include "smmod.hxx" #include "document.hxx" #include "view.hxx" #include "mathtype.hxx" #include "tmpdevice.hxx" #include "visitors.hxx" #include #include #include #include #include #include #include #include #include #include namespace { template void ForEachNonNull(SmNode *pNode, F && f) { sal_uInt16 nSize = pNode->GetNumSubNodes(); for (sal_uInt16 i = 0; i < nSize; i++) { SmNode *pSubNode = pNode->GetSubNode(i); if (pSubNode != nullptr) f(pSubNode); } } } SmNode::SmNode(SmNodeType eNodeType, const SmToken &rNodeToken) : maNodeToken( rNodeToken ) , meType( eNodeType ) , meScaleMode( SCALE_NONE ) , meRectHorAlign( RectHorAlign::Left ) , mnFlags( 0 ) , mnAttributes( 0 ) , mbIsPhantom( false ) , mbIsSelected( false ) , mnAccIndex( -1 ) , mpParentNode( nullptr ) { } SmNode::~SmNode() { } bool SmNode::IsVisible() const { return false; } sal_uInt16 SmNode::GetNumSubNodes() const { return 0; } SmNode * SmNode::GetSubNode(sal_uInt16 /*nIndex*/) { return nullptr; } SmNode * SmNode::GetLeftMost() // returns leftmost node of current subtree. //! (this assumes the one with index 0 is always the leftmost subnode //! for the current node). { SmNode *pNode = GetNumSubNodes() > 0 ? GetSubNode(0) : nullptr; return pNode ? pNode->GetLeftMost() : this; } void SmNode::SetPhantom(bool bIsPhantomP) { if (! (Flags() & FLG_VISIBLE)) mbIsPhantom = bIsPhantomP; bool b = mbIsPhantom; ForEachNonNull(this, [b](SmNode *pNode){pNode->SetPhantom(b);}); } void SmNode::SetColor(const Color& rColor) { if (! (Flags() & FLG_COLOR)) GetFont().SetColor(rColor); ForEachNonNull(this, [&rColor](SmNode *pNode){pNode->SetColor(rColor);}); } void SmNode::SetAttribut(sal_uInt16 nAttrib) { if ( (nAttrib == ATTR_BOLD && !(Flags() & FLG_BOLD)) || (nAttrib == ATTR_ITALIC && !(Flags() & FLG_ITALIC)) ) { mnAttributes |= nAttrib; } ForEachNonNull(this, [nAttrib](SmNode *pNode){pNode->SetAttribut(nAttrib);}); } void SmNode::ClearAttribut(sal_uInt16 nAttrib) { if ( (nAttrib == ATTR_BOLD && !(Flags() & FLG_BOLD)) || (nAttrib == ATTR_ITALIC && !(Flags() & FLG_ITALIC)) ) { mnAttributes &= ~nAttrib; } ForEachNonNull(this, [nAttrib](SmNode *pNode){pNode->ClearAttribut(nAttrib);}); } void SmNode::SetFont(const SmFace &rFace) { if (!(Flags() & FLG_FONT)) GetFont() = rFace; ForEachNonNull(this, [&rFace](SmNode *pNode){pNode->SetFont(rFace);}); } void SmNode::SetFontSize(const Fraction &rSize, FontSizeType nType) //! 'rSize' is in units of pts { Size aFntSize; if (!(Flags() & FLG_SIZE)) { Fraction aVal (SmPtsTo100th_mm(rSize.GetNumerator()), rSize.GetDenominator()); long nHeight = static_cast(aVal); aFntSize = GetFont().GetFontSize(); aFntSize.Width() = 0; switch(nType) { case FontSizeType::ABSOLUT: aFntSize.Height() = nHeight; break; case FontSizeType::PLUS: aFntSize.Height() += nHeight; break; case FontSizeType::MINUS: aFntSize.Height() -= nHeight; break; case FontSizeType::MULTIPLY: aFntSize.Height() = static_cast(Fraction(aFntSize.Height()) * rSize); break; case FontSizeType::DIVIDE: if (rSize != Fraction(0L)) aFntSize.Height() = static_cast(Fraction(aFntSize.Height()) / rSize); break; default: break; } // check the requested size against maximum value static int const nMaxVal = SmPtsTo100th_mm(128); if (aFntSize.Height() > nMaxVal) aFntSize.Height() = nMaxVal; GetFont().SetSize(aFntSize); } ForEachNonNull(this, [&rSize, &nType](SmNode *pNode){pNode->SetFontSize(rSize, nType);}); } void SmNode::SetSize(const Fraction &rSize) { GetFont() *= rSize; ForEachNonNull(this, [&rSize](SmNode *pNode){pNode->SetSize(rSize);}); } void SmNode::SetRectHorAlign(RectHorAlign eHorAlign, bool bApplyToSubTree ) { if (!(Flags() & FLG_HORALIGN)) meRectHorAlign = eHorAlign; if (bApplyToSubTree) ForEachNonNull(this, [eHorAlign](SmNode *pNode){pNode->SetRectHorAlign(eHorAlign);}); } void SmNode::PrepareAttributes() { GetFont().SetWeight((Attributes() & ATTR_BOLD) ? WEIGHT_BOLD : WEIGHT_NORMAL); GetFont().SetItalic((Attributes() & ATTR_ITALIC) ? ITALIC_NORMAL : ITALIC_NONE); } void SmNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { mbIsPhantom = false; mnFlags = 0; mnAttributes = 0; switch (rFormat.GetHorAlign()) { case AlignLeft: meRectHorAlign = RectHorAlign::Left; break; case AlignCenter: meRectHorAlign = RectHorAlign::Center; break; case AlignRight: meRectHorAlign = RectHorAlign::Right; break; } GetFont() = rFormat.GetFont(FNT_MATH); OSL_ENSURE( GetFont().GetCharSet() == RTL_TEXTENCODING_UNICODE, "unexpected CharSet" ); GetFont().SetWeight(WEIGHT_NORMAL); GetFont().SetItalic(ITALIC_NONE); ForEachNonNull(this, [&rFormat, &rDocShell](SmNode *pNode){pNode->Prepare(rFormat, rDocShell);}); } void SmNode::Move(const Point& rPosition) { if (rPosition.X() == 0 && rPosition.Y() == 0) return; SmRect::Move(rPosition); ForEachNonNull(this, [&rPosition](SmNode *pNode){pNode->Move(rPosition);}); } void SmNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { ForEachNonNull(this, [&rDev, &rFormat](SmNode *pNode){pNode->Arrange(rDev, rFormat);}); } void SmNode::CreateTextFromNode(OUString &rText) { sal_uInt16 nSize = GetNumSubNodes(); if (nSize > 1) rText += "{"; ForEachNonNull(this, [&rText](SmNode *pNode){pNode->CreateTextFromNode(rText);}); if (nSize > 1) { rText = comphelper::string::stripEnd(rText, ' '); rText += "} "; } } void SmNode::AdaptToX(OutputDevice &/*rDev*/, sal_uLong /*nWidth*/) { } void SmNode::AdaptToY(OutputDevice &/*rDev*/, sal_uLong /*nHeight*/) { } const SmNode * SmNode::FindTokenAt(sal_uInt16 nRow, sal_uInt16 nCol) const // returns (first) ** visible ** (sub)node with the tokens text at // position 'nRow', 'nCol'. //! (there should be exactly one such node if any) { if ( IsVisible() && nRow == GetToken().nRow && nCol >= GetToken().nCol && nCol < GetToken().nCol + GetToken().aText.getLength()) return this; else { sal_uInt16 nNumSubNodes = GetNumSubNodes(); for (sal_uInt16 i = 0; i < nNumSubNodes; i++) { const SmNode *pNode = GetSubNode(i); if (!pNode) continue; const SmNode *pResult = pNode->FindTokenAt(nRow, nCol); if (pResult) return pResult; } } return nullptr; } const SmNode * SmNode::FindRectClosestTo(const Point &rPoint) const { long nDist = LONG_MAX; const SmNode *pResult = nullptr; if (IsVisible()) pResult = this; else { sal_uInt16 nNumSubNodes = GetNumSubNodes(); for (sal_uInt16 i = 0; i < nNumSubNodes; i++) { const SmNode *pNode = GetSubNode(i); if (!pNode) continue; long nTmp; const SmNode *pFound = pNode->FindRectClosestTo(rPoint); if (pFound && (nTmp = pFound->OrientedDist(rPoint)) < nDist) { nDist = nTmp; pResult = pFound; // quit immediately if 'rPoint' is inside the *should not // overlap with other rectangles* part. // This (partly) serves for getting the attributes in eg // "bar overstrike a". // ('nDist < 0' is used as *quick shot* to avoid evaluation of // the following expression, where the result is already determined) if (nDist < 0 && pFound->IsInsideRect(rPoint)) break; } } } return pResult; } const SmNode * SmNode::FindNodeWithAccessibleIndex(sal_Int32 nAccIdx) const { const SmNode *pResult = nullptr; sal_Int32 nIdx = GetAccessibleIndex(); OUStringBuffer aTxt; if (nIdx >= 0) GetAccessibleText( aTxt ); // get text if used in following 'if' statement if (nIdx >= 0 && nIdx <= nAccIdx && nAccIdx < nIdx + aTxt.getLength()) pResult = this; else { sal_uInt16 nNumSubNodes = GetNumSubNodes(); for (sal_uInt16 i = 0; i < nNumSubNodes; i++) { const SmNode *pNode = GetSubNode(i); if (!pNode) continue; pResult = pNode->FindNodeWithAccessibleIndex(nAccIdx); if (pResult) return pResult; } } return pResult; } long SmNode::GetFormulaBaseline() const { SAL_WARN("starmath", "This dummy implementation should not have been called."); return 0; } SmStructureNode::~SmStructureNode() { ForEachNonNull(this, boost::checked_deleter()); } void SmStructureNode::SetSubNodes(SmNode *pFirst, SmNode *pSecond, SmNode *pThird) { size_t nSize = pThird ? 3 : (pSecond ? 2 : (pFirst ? 1 : 0)); aSubNodes.resize( nSize ); if (pFirst) aSubNodes[0] = pFirst; if (pSecond) aSubNodes[1] = pSecond; if (pThird) aSubNodes[2] = pThird; ClaimPaternity(); } void SmStructureNode::SetSubNodes(const SmNodeArray &rNodeArray) { aSubNodes = rNodeArray; ClaimPaternity(); } bool SmStructureNode::IsVisible() const { return false; } sal_uInt16 SmStructureNode::GetNumSubNodes() const { return sal::static_int_cast(aSubNodes.size()); } SmNode * SmStructureNode::GetSubNode(sal_uInt16 nIndex) { return aSubNodes[nIndex]; } void SmStructureNode::GetAccessibleText( OUStringBuffer &rText ) const { sal_uInt16 nNodes = GetNumSubNodes(); for (sal_uInt16 i = 0; i < nNodes; ++i) { SmNode *pNode = const_cast(this)->GetSubNode(i); if (pNode) { if (pNode->IsVisible()) static_cast(pNode)->mnAccIndex = rText.getLength(); pNode->GetAccessibleText( rText ); } } } void SmStructureNode::ClaimPaternity() { ForEachNonNull(this, [this](SmNode *pNode){pNode->SetParent(this);}); } bool SmVisibleNode::IsVisible() const { return true; } sal_uInt16 SmVisibleNode::GetNumSubNodes() const { return 0; } SmNode * SmVisibleNode::GetSubNode(sal_uInt16 /*nIndex*/) { return nullptr; } void SmGraphicNode::GetAccessibleText( OUStringBuffer &rText ) const { rText.append(GetToken().aText); } void SmExpressionNode::CreateTextFromNode(OUString &rText) { sal_uInt16 nSize = GetNumSubNodes(); if (nSize > 1) rText += "{"; for (sal_uInt16 i = 0; i < nSize; i++) { SmNode *pNode = GetSubNode(i); if (pNode) { pNode->CreateTextFromNode(rText); //Just a bit of foo to make unary +asd -asd +-asd -+asd look nice if (pNode->GetType() == NMATH) if ((nSize != 2) || ( !rText.endsWith("+") && !rText.endsWith("-") )) rText += " "; } } if (nSize > 1) { rText = comphelper::string::stripEnd(rText, ' '); rText += "} "; } } void SmTableNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) // arranges all subnodes in one column { SmNode *pNode; sal_uInt16 nSize = GetNumSubNodes(); // make distance depend on font size long nDist = +(rFormat.GetDistance(DIS_VERTICAL) * GetFont().GetFontSize().Height()) / 100L; if (nSize < 1) return; // arrange subnodes and get maximum width of them long nMaxWidth = 0, nTmp; sal_uInt16 i; for (i = 0; i < nSize; i++) if (nullptr != (pNode = GetSubNode(i))) { pNode->Arrange(rDev, rFormat); if ((nTmp = pNode->GetItalicWidth()) > nMaxWidth) nMaxWidth = nTmp; } Point aPos; SmRect::operator = (SmRect(nMaxWidth, 1)); for (i = 0; i < nSize; i++) { if (nullptr != (pNode = GetSubNode(i))) { const SmRect &rNodeRect = pNode->GetRect(); const SmNode *pCoNode = pNode->GetLeftMost(); RectHorAlign eHorAlign = pCoNode->GetRectHorAlign(); aPos = rNodeRect.AlignTo(*this, RectPos::Bottom, eHorAlign, RectVerAlign::Baseline); if (i) aPos.Y() += nDist; pNode->MoveTo(aPos); ExtendBy(rNodeRect, nSize > 1 ? RectCopyMBL::None : RectCopyMBL::Arg); } } // #i972# if (HasBaseline()) nFormulaBaseline = GetBaseline(); else { SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect aRect = (SmRect(aTmpDev, &rFormat, OUString("a"), GetFont().GetBorderWidth())); nFormulaBaseline = GetAlignM(); // move from middle position by constant - distance // between middle and baseline for single letter nFormulaBaseline += aRect.GetBaseline() - aRect.GetAlignM(); } } SmNode * SmTableNode::GetLeftMost() { return this; } long SmTableNode::GetFormulaBaseline() const { return nFormulaBaseline; } /**************************************************************************/ void SmLineNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); // Here we use the 'FNT_VARIABLE' font since it's ascent and descent in general fit better // to the rest of the formula compared to the 'FNT_MATH' font. GetFont() = rFormat.GetFont(FNT_VARIABLE); Flags() |= FLG_FONT; } /**************************************************************************/ void SmLineNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) // arranges all subnodes in one row with some extra space between { SmNode *pNode; sal_uInt16 nSize = GetNumSubNodes(); sal_uInt16 i; for (i = 0; i < nSize; i++) if (nullptr != (pNode = GetSubNode(i))) pNode->Arrange(rDev, rFormat); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); if (nSize < 1) { // provide an empty rectangle with alignment parameters for the "current" // font (in order to make "a^1 {}_2^3 a_4" work correct, that is, have the // same sub-/supscript positions.) //! be sure to use a character that has explicitly defined HiAttribut //! line in rect.cxx such as 'a' in order to make 'vec a' look same to //! 'vec {a}'. SmRect::operator = (SmRect(aTmpDev, &rFormat, OUString("a"), GetFont().GetBorderWidth())); // make sure that the rectangle occupies (almost) no space SetWidth(1); SetItalicSpaces(0, 0); return; } // make distance depend on font size long nDist = (rFormat.GetDistance(DIS_HORIZONTAL) * GetFont().GetFontSize().Height()) / 100L; if (!IsUseExtraSpaces()) nDist = 0; Point aPos; // copy the first node into LineNode and extend by the others if (nullptr != (pNode = GetSubNode(0))) SmRect::operator = (pNode->GetRect()); for (i = 1; i < nSize; i++) if (nullptr != (pNode = GetSubNode(i))) { aPos = pNode->AlignTo(*this, RectPos::Right, RectHorAlign::Center, RectVerAlign::Baseline); // add horizontal space to the left for each but the first sub node aPos.X() += nDist; pNode->MoveTo(aPos); ExtendBy( *pNode, RectCopyMBL::Xor ); } } /**************************************************************************/ void SmExpressionNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) // as 'SmLineNode::Arrange' but keeps alignment of leftmost subnode { SmLineNode::Arrange(rDev, rFormat); // copy alignment of leftmost subnode if any SmNode *pNode = GetLeftMost(); if (pNode) SetRectHorAlign(pNode->GetRectHorAlign(), false); } /**************************************************************************/ void SmUnHorNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { bool bIsPostfix = GetToken().eType == TFACT; SmNode *pOper = GetSubNode(bIsPostfix ? 1 : 0), *pBody = GetSubNode(bIsPostfix ? 0 : 1); assert(pOper); assert(pBody); pOper->SetSize(Fraction (rFormat.GetRelSize(SIZ_OPERATOR), 100)); pOper->Arrange(rDev, rFormat); pBody->Arrange(rDev, rFormat); Point aPos = pOper->AlignTo(*pBody, bIsPostfix ? RectPos::Right : RectPos::Left, RectHorAlign::Center, RectVerAlign::Baseline); // add a bit space between operator and argument // (worst case -{1 over 2} where - and over have almost no space inbetween) long nDelta = pOper->GetFont().GetFontSize().Height() / 20; if (bIsPostfix) aPos.X() += nDelta; else aPos.X() -= nDelta; pOper->MoveTo(aPos); SmRect::operator = (*pBody); long nOldBot = GetBottom(); ExtendBy(*pOper, RectCopyMBL::Xor); // workaround for Bug 50865: "a^2 a^+2" have different baselines // for exponents (if size of exponent is large enough) SetBottom(nOldBot); } /**************************************************************************/ void SmRootNode::GetHeightVerOffset(const SmRect &rRect, long &rHeight, long &rVerOffset) // calculate height and vertical offset of root sign suitable for 'rRect' { rVerOffset = (rRect.GetBottom() - rRect.GetAlignB()) / 2; rHeight = rRect.GetHeight() - rVerOffset; OSL_ENSURE(rHeight >= 0, "Sm : Ooops..."); OSL_ENSURE(rVerOffset >= 0, "Sm : Ooops..."); } Point SmRootNode::GetExtraPos(const SmRect &rRootSymbol, const SmRect &rExtra) { const Size &rSymSize = rRootSymbol.GetSize(); Point aPos = rRootSymbol.GetTopLeft() + Point((rSymSize.Width() * 70) / 100, (rSymSize.Height() * 52) / 100); // from this calculate topleft edge of 'rExtra' aPos.X() -= rExtra.GetWidth() + rExtra.GetItalicRightSpace(); aPos.Y() -= rExtra.GetHeight(); // if there's enough space move a bit less to the right // examples: "nroot i a", "nroot j a" // (it looks better if we don't use italic-spaces here) long nX = rRootSymbol.GetLeft() + (rSymSize.Width() * 30) / 100; if (aPos.X() > nX) aPos.X() = nX; return aPos; } void SmRootNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { //! pExtra needs to have the smaller index than pRootSym in order to //! not to get the root symbol but the pExtra when clicking on it in the //! GraphicWindow. (That is because of the simplicity of the algorithm //! that finds the node corresponding to a mouseclick in the window.) SmNode *pExtra = GetSubNode(0), *pRootSym = GetSubNode(1), *pBody = GetSubNode(2); assert(pRootSym); assert(pBody); pBody->Arrange(rDev, rFormat); long nHeight, nVerOffset; GetHeightVerOffset(*pBody, nHeight, nVerOffset); nHeight += rFormat.GetDistance(DIS_ROOT) * GetFont().GetFontSize().Height() / 100L; // font specialist advised to change the width first pRootSym->AdaptToY(rDev, nHeight); pRootSym->AdaptToX(rDev, pBody->GetItalicWidth()); pRootSym->Arrange(rDev, rFormat); Point aPos = pRootSym->AlignTo(*pBody, RectPos::Left, RectHorAlign::Center, RectVerAlign::Baseline); //! override calculated vertical position aPos.Y() = pRootSym->GetTop() + pBody->GetBottom() - pRootSym->GetBottom(); aPos.Y() -= nVerOffset; pRootSym->MoveTo(aPos); if (pExtra) { pExtra->SetSize(Fraction(rFormat.GetRelSize(SIZ_INDEX), 100)); pExtra->Arrange(rDev, rFormat); aPos = GetExtraPos(*pRootSym, *pExtra); pExtra->MoveTo(aPos); } SmRect::operator = (*pBody); ExtendBy(*pRootSym, RectCopyMBL::This); if (pExtra) ExtendBy(*pExtra, RectCopyMBL::This, true); } void SmRootNode::CreateTextFromNode(OUString &rText) { SmNode *pExtra = GetSubNode(0); if (pExtra) { rText += "nroot "; pExtra->CreateTextFromNode(rText); } else rText += "sqrt "; if (!pExtra && GetSubNode(2)->GetNumSubNodes() > 1) rText += "{ "; GetSubNode(2)->CreateTextFromNode(rText); if (!pExtra && GetSubNode(2)->GetNumSubNodes() > 1) rText += "} "; } /**************************************************************************/ void SmDynIntegralNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pDynIntegralSym = Symbol(), *pBody = Body(); assert(pDynIntegralSym); assert(pBody); pBody->Arrange(rDev, rFormat); long nHeight = pBody->GetHeight(); pDynIntegralSym->AdaptToY(rDev, nHeight); pDynIntegralSym->Arrange(rDev, rFormat); Point aPos = pDynIntegralSym->AlignTo(*pBody, RectPos::Left, RectHorAlign::Center, RectVerAlign::Baseline); //! override calculated vertical position aPos.Y() = pDynIntegralSym->GetTop() + pBody->GetBottom() - pDynIntegralSym->GetBottom(); pDynIntegralSym->MoveTo(aPos); // override its own rectangle with pBody's SmRect::operator = (*pBody); // extends this rectangle with the symbol's one ExtendBy(*pDynIntegralSym, RectCopyMBL::This); } void SmDynIntegralNode::CreateTextFromNode(OUString &rText) { rText += "intd "; SmNode *pBody = GetSubNode(1); if (pBody->GetNumSubNodes() > 1) rText += "{ "; pBody->CreateTextFromNode(rText); if (pBody->GetNumSubNodes() > 1) rText += "} "; } /**************************************************************************/ void SmBinHorNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pLeft = GetSubNode(0), *pOper = GetSubNode(1), *pRight = GetSubNode(2); assert(pLeft); assert(pOper); assert(pRight); pOper->SetSize(Fraction (rFormat.GetRelSize(SIZ_OPERATOR), 100)); pLeft ->Arrange(rDev, rFormat); pOper ->Arrange(rDev, rFormat); pRight->Arrange(rDev, rFormat); const SmRect &rOpRect = pOper->GetRect(); long nDist = (rOpRect.GetWidth() * rFormat.GetDistance(DIS_HORIZONTAL)) / 100L; SmRect::operator = (*pLeft); Point aPos; aPos = pOper->AlignTo(*this, RectPos::Right, RectHorAlign::Center, RectVerAlign::Baseline); aPos.X() += nDist; pOper->MoveTo(aPos); ExtendBy(*pOper, RectCopyMBL::Xor); aPos = pRight->AlignTo(*this, RectPos::Right, RectHorAlign::Center, RectVerAlign::Baseline); aPos.X() += nDist; pRight->MoveTo(aPos); ExtendBy(*pRight, RectCopyMBL::Xor); } /**************************************************************************/ void SmBinVerNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pNum = GetSubNode(0), *pLine = GetSubNode(1), *pDenom = GetSubNode(2); assert(pNum); assert(pLine); assert(pDenom); bool bIsTextmode = rFormat.IsTextmode(); if (bIsTextmode) { Fraction aFraction(rFormat.GetRelSize(SIZ_INDEX), 100); pNum ->SetSize(aFraction); pLine ->SetSize(aFraction); pDenom->SetSize(aFraction); } pNum ->Arrange(rDev, rFormat); pDenom->Arrange(rDev, rFormat); long nFontHeight = GetFont().GetFontSize().Height(), nExtLen = nFontHeight * rFormat.GetDistance(DIS_FRACTION) / 100L, nThick = nFontHeight * rFormat.GetDistance(DIS_STROKEWIDTH) / 100L, nWidth = std::max(pNum->GetItalicWidth(), pDenom->GetItalicWidth()), nNumDist = bIsTextmode ? 0 : nFontHeight * rFormat.GetDistance(DIS_NUMERATOR) / 100L, nDenomDist = bIsTextmode ? 0 : nFontHeight * rFormat.GetDistance(DIS_DENOMINATOR) / 100L; // font specialist advised to change the width first pLine->AdaptToY(rDev, nThick); pLine->AdaptToX(rDev, nWidth + 2 * nExtLen); pLine->Arrange(rDev, rFormat); // get horizontal alignment for numerator const SmNode *pLM = pNum->GetLeftMost(); RectHorAlign eHorAlign = pLM->GetRectHorAlign(); // move numerator to its position Point aPos = pNum->AlignTo(*pLine, RectPos::Top, eHorAlign, RectVerAlign::Baseline); aPos.Y() -= nNumDist; pNum->MoveTo(aPos); // get horizontal alignment for denominator pLM = pDenom->GetLeftMost(); eHorAlign = pLM->GetRectHorAlign(); // move denominator to its position aPos = pDenom->AlignTo(*pLine, RectPos::Bottom, eHorAlign, RectVerAlign::Baseline); aPos.Y() += nDenomDist; pDenom->MoveTo(aPos); SmRect::operator = (*pNum); ExtendBy(*pDenom, RectCopyMBL::None).ExtendBy(*pLine, RectCopyMBL::None, pLine->GetCenterY()); } void SmBinVerNode::CreateTextFromNode(OUString &rText) { SmNode *pNum = GetSubNode(0), *pDenom = GetSubNode(2); pNum->CreateTextFromNode(rText); rText += "over "; pDenom->CreateTextFromNode(rText); } SmNode * SmBinVerNode::GetLeftMost() { return this; } namespace { /// @return value of the determinant formed by the two points double Det(const Point &rHeading1, const Point &rHeading2) { return rHeading1.X() * rHeading2.Y() - rHeading1.Y() * rHeading2.X(); } /// Is true iff the point 'rPoint1' belongs to the straight line through 'rPoint2' /// and has the direction vector 'rHeading2' bool IsPointInLine(const Point &rPoint1, const Point &rPoint2, const Point &rHeading2) { OSL_ENSURE(rHeading2 != Point(), "Sm : 0 vector"); bool bRes = false; static const double eps = 5.0 * DBL_EPSILON; double fLambda; if (labs(rHeading2.X()) > labs(rHeading2.Y())) { fLambda = (rPoint1.X() - rPoint2.X()) / static_cast(rHeading2.X()); bRes = fabs(rPoint1.Y() - (rPoint2.Y() + fLambda * rHeading2.Y())) < eps; } else { fLambda = (rPoint1.Y() - rPoint2.Y()) / static_cast(rHeading2.Y()); bRes = fabs(rPoint1.X() - (rPoint2.X() + fLambda * rHeading2.X())) < eps; } return bRes; } sal_uInt16 GetLineIntersectionPoint(Point &rResult, const Point& rPoint1, const Point &rHeading1, const Point& rPoint2, const Point &rHeading2) { OSL_ENSURE(rHeading1 != Point(), "Sm : 0 vector"); OSL_ENSURE(rHeading2 != Point(), "Sm : 0 vector"); sal_uInt16 nRes = 1; static const double eps = 5.0 * DBL_EPSILON; // are the direction vectors linearly dependent? double fDet = Det(rHeading1, rHeading2); if (fabs(fDet) < eps) { nRes = IsPointInLine(rPoint1, rPoint2, rHeading2) ? USHRT_MAX : 0; rResult = nRes ? rPoint1 : Point(); } else { // here we do not pay attention to the computational accuracy // (that would be more complicated and is not really worth it in this case) double fLambda = ( (rPoint1.Y() - rPoint2.Y()) * rHeading2.X() - (rPoint1.X() - rPoint2.X()) * rHeading2.Y()) / fDet; rResult = Point(rPoint1.X() + static_cast(fLambda * rHeading1.X()), rPoint1.Y() + static_cast(fLambda * rHeading1.Y())); } return nRes; } } SmBinDiagonalNode::SmBinDiagonalNode(const SmToken &rNodeToken) : SmStructureNode(NBINDIAGONAL, rNodeToken) { bAscending = false; SetNumSubNodes(3); } /// @return position and size of the diagonal line /// premise: SmRect of the node defines the limitation(!) consequently it has to be known upfront void SmBinDiagonalNode::GetOperPosSize(Point &rPos, Size &rSize, const Point &rDiagPoint, double fAngleDeg) const { static const double fPi = 3.1415926535897932384626433; double fAngleRad = fAngleDeg / 180.0 * fPi; long nRectLeft = GetItalicLeft(), nRectRight = GetItalicRight(), nRectTop = GetTop(), nRectBottom = GetBottom(); Point aRightHdg (100, 0), aDownHdg (0, 100), aDiagHdg ( static_cast(100.0 * cos(fAngleRad)), static_cast(-100.0 * sin(fAngleRad)) ); long nLeft, nRight, nTop, nBottom; // margins of the rectangle for the diagonal Point aPoint; if (IsAscending()) { // determine top right corner GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectTop), aRightHdg, rDiagPoint, aDiagHdg); // is there a point of intersection with the top border? if (aPoint.X() <= nRectRight) { nRight = aPoint.X(); nTop = nRectTop; } else { // there has to be a point of intersection with the right border! GetLineIntersectionPoint(aPoint, Point(nRectRight, nRectTop), aDownHdg, rDiagPoint, aDiagHdg); nRight = nRectRight; nTop = aPoint.Y(); } // determine bottom left corner GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectBottom), aRightHdg, rDiagPoint, aDiagHdg); // is there a point of intersection with the bottom border? if (aPoint.X() >= nRectLeft) { nLeft = aPoint.X(); nBottom = nRectBottom; } else { // there has to be a point of intersection with the left border! GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectTop), aDownHdg, rDiagPoint, aDiagHdg); nLeft = nRectLeft; nBottom = aPoint.Y(); } } else { // determine top left corner GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectTop), aRightHdg, rDiagPoint, aDiagHdg); // is there a point of intersection with the top border? if (aPoint.X() >= nRectLeft) { nLeft = aPoint.X(); nTop = nRectTop; } else { // there has to be a point of intersection with the left border! GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectTop), aDownHdg, rDiagPoint, aDiagHdg); nLeft = nRectLeft; nTop = aPoint.Y(); } // determine bottom right corner GetLineIntersectionPoint(aPoint, Point(nRectLeft, nRectBottom), aRightHdg, rDiagPoint, aDiagHdg); // is there a point of intersection with the bottom border? if (aPoint.X() <= nRectRight) { nRight = aPoint.X(); nBottom = nRectBottom; } else { // there has to be a point of intersection with the right border! GetLineIntersectionPoint(aPoint, Point(nRectRight, nRectTop), aDownHdg, rDiagPoint, aDiagHdg); nRight = nRectRight; nBottom = aPoint.Y(); } } rSize = Size(nRight - nLeft + 1, nBottom - nTop + 1); rPos.X() = nLeft; rPos.Y() = nTop; } void SmBinDiagonalNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { // Both arguments have to get into the SubNodes before the Operator so that clicking // within the GraphicWindow sets the FormulaCursor correctly (cf. SmRootNode) SmNode *pLeft = GetSubNode(0), *pRight = GetSubNode(1); assert(pLeft); assert(pRight); OSL_ENSURE(GetSubNode(2)->GetType() == NPOLYLINE, "Sm : wrong node type"); SmPolyLineNode *pOper = static_cast(GetSubNode(2)); assert(pOper); //! some routines being called extract some info from the OutputDevice's //! font (eg the space to be used for borders OR the font name(!!)). //! Thus the font should reflect the needs and has to be set! SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); pLeft->Arrange(aTmpDev, rFormat); pRight->Arrange(aTmpDev, rFormat); // determine implicitly the values (incl. the margin) of the diagonal line pOper->Arrange(aTmpDev, rFormat); long nDelta = pOper->GetWidth() * 8 / 10; // determine TopLeft position from the right argument Point aPos; aPos.X() = pLeft->GetItalicRight() + nDelta + pRight->GetItalicLeftSpace(); if (IsAscending()) aPos.Y() = pLeft->GetBottom() + nDelta; else aPos.Y() = pLeft->GetTop() - nDelta - pRight->GetHeight(); pRight->MoveTo(aPos); // determine new baseline long nTmpBaseline = IsAscending() ? (pLeft->GetBottom() + pRight->GetTop()) / 2 : (pLeft->GetTop() + pRight->GetBottom()) / 2; Point aLogCenter ((pLeft->GetItalicRight() + pRight->GetItalicLeft()) / 2, nTmpBaseline); SmRect::operator = (*pLeft); ExtendBy(*pRight, RectCopyMBL::None); // determine position and size of diagonal line Size aTmpSize; GetOperPosSize(aPos, aTmpSize, aLogCenter, IsAscending() ? 60.0 : -60.0); // font specialist advised to change the width first pOper->AdaptToY(aTmpDev, aTmpSize.Height()); pOper->AdaptToX(aTmpDev, aTmpSize.Width()); // and make it active pOper->Arrange(aTmpDev, rFormat); pOper->MoveTo(aPos); ExtendBy(*pOper, RectCopyMBL::None, nTmpBaseline); } /**************************************************************************/ void SmSubSupNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { OSL_ENSURE(GetNumSubNodes() == 1 + SUBSUP_NUM_ENTRIES, "Sm: wrong number of subnodes"); SmNode *pBody = GetBody(); assert(pBody); long nOrigHeight = pBody->GetFont().GetFontSize().Height(); pBody->Arrange(rDev, rFormat); const SmRect &rBodyRect = pBody->GetRect(); SmRect::operator = (rBodyRect); // line that separates sub- and supscript rectangles long nDelimLine = SmFromTo(GetAlignB(), GetAlignT(), 0.4); Point aPos; long nDelta, nDist; // iterate over all possible sub-/supscripts SmRect aTmpRect (rBodyRect); for (int i = 0; i < SUBSUP_NUM_ENTRIES; i++) { SmSubSup eSubSup = (SmSubSup) i; // cast SmNode *pSubSup = GetSubSup(eSubSup); if (!pSubSup) continue; // switch position of limits if we are in textmode if (rFormat.IsTextmode() && (GetToken().nGroup & TGLIMIT)) switch (eSubSup) { case CSUB: eSubSup = RSUB; break; case CSUP: eSubSup = RSUP; break; default: break; } // prevent sub-/supscripts from diminishing in size // (as would be in "a_{1_{2_{3_4}}}") if (GetFont().GetFontSize().Height() > rFormat.GetBaseSize().Height() / 3) { sal_uInt16 nIndex = (eSubSup == CSUB || eSubSup == CSUP) ? SIZ_LIMITS : SIZ_INDEX; Fraction aFraction ( rFormat.GetRelSize(nIndex), 100 ); pSubSup->SetSize(aFraction); } pSubSup->Arrange(rDev, rFormat); bool bIsTextmode = rFormat.IsTextmode(); nDist = 0; //! be sure that CSUB, CSUP are handled before the other cases! switch (eSubSup) { case RSUB : case LSUB : if (!bIsTextmode) nDist = nOrigHeight * rFormat.GetDistance(DIS_SUBSCRIPT) / 100L; aPos = pSubSup->GetRect().AlignTo(aTmpRect, eSubSup == LSUB ? RectPos::Left : RectPos::Right, RectHorAlign::Center, RectVerAlign::Bottom); aPos.Y() += nDist; nDelta = nDelimLine - aPos.Y(); if (nDelta > 0) aPos.Y() += nDelta; break; case RSUP : case LSUP : if (!bIsTextmode) nDist = nOrigHeight * rFormat.GetDistance(DIS_SUPERSCRIPT) / 100L; aPos = pSubSup->GetRect().AlignTo(aTmpRect, eSubSup == LSUP ? RectPos::Left : RectPos::Right, RectHorAlign::Center, RectVerAlign::Top); aPos.Y() -= nDist; nDelta = aPos.Y() + pSubSup->GetHeight() - nDelimLine; if (nDelta > 0) aPos.Y() -= nDelta; break; case CSUB : if (!bIsTextmode) nDist = nOrigHeight * rFormat.GetDistance(DIS_LOWERLIMIT) / 100L; aPos = pSubSup->GetRect().AlignTo(rBodyRect, RectPos::Bottom, RectHorAlign::Center, RectVerAlign::Baseline); aPos.Y() += nDist; break; case CSUP : if (!bIsTextmode) nDist = nOrigHeight * rFormat.GetDistance(DIS_UPPERLIMIT) / 100L; aPos = pSubSup->GetRect().AlignTo(rBodyRect, RectPos::Top, RectHorAlign::Center, RectVerAlign::Baseline); aPos.Y() -= nDist; break; } pSubSup->MoveTo(aPos); ExtendBy(*pSubSup, RectCopyMBL::This, true); // update rectangle to which RSUB, RSUP, LSUB, LSUP // will be aligned to if (eSubSup == CSUB || eSubSup == CSUP) aTmpRect = *this; } } void SmSubSupNode::CreateTextFromNode(OUString &rText) { SmNode *pNode; GetSubNode(0)->CreateTextFromNode(rText); if (nullptr != (pNode = GetSubNode(LSUB+1))) { rText += "lsub "; pNode->CreateTextFromNode(rText); } if (nullptr != (pNode = GetSubNode(LSUP+1))) { rText += "lsup "; pNode->CreateTextFromNode(rText); } if (nullptr != (pNode = GetSubNode(CSUB+1))) { rText += "csub "; pNode->CreateTextFromNode(rText); } if (nullptr != (pNode = GetSubNode(CSUP+1))) { rText += "csup "; pNode->CreateTextFromNode(rText); } if (nullptr != (pNode = GetSubNode(RSUB+1))) { rText = comphelper::string::stripEnd(rText, ' '); rText += "_"; pNode->CreateTextFromNode(rText); } if (nullptr != (pNode = GetSubNode(RSUP+1))) { rText = comphelper::string::stripEnd(rText, ' '); rText += "^"; pNode->CreateTextFromNode(rText); } } /**************************************************************************/ void SmBraceNode::CreateTextFromNode(OUString &rText) { if (GetScaleMode() == SCALE_HEIGHT) rText += "left "; { OUString aStr; GetSubNode(0)->CreateTextFromNode(aStr); aStr = comphelper::string::strip(aStr, ' '); aStr = comphelper::string::stripStart(aStr, '\\'); if (!aStr.isEmpty()) { if (aStr == "divides") rText += "lline"; else if (aStr == "parallel") rText += "ldline"; else if (aStr == "<") rText += "langle"; else rText += aStr; rText += " "; } else rText += "none "; } GetSubNode(1)->CreateTextFromNode(rText); if (GetScaleMode() == SCALE_HEIGHT) rText += "right "; { OUString aStr; GetSubNode(2)->CreateTextFromNode(aStr); aStr = comphelper::string::strip(aStr, ' '); aStr = comphelper::string::stripStart(aStr, '\\'); if (!aStr.isEmpty()) { if (aStr == "divides") rText += "rline"; else if (aStr == "parallel") rText += "rdline"; else if (aStr == ">") rText += "rangle"; else rText += aStr; rText += " "; } else rText += "none "; } rText += " "; } void SmBraceNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pLeft = GetSubNode(0), *pBody = GetSubNode(1), *pRight = GetSubNode(2); assert(pLeft); assert(pBody); assert(pRight); pBody->Arrange(rDev, rFormat); bool bIsScaleNormal = rFormat.IsScaleNormalBrackets(), bScale = pBody->GetHeight() > 0 && (GetScaleMode() == SCALE_HEIGHT || bIsScaleNormal), bIsABS = GetToken().eType == TABS; long nFaceHeight = GetFont().GetFontSize().Height(); // determine oversize in % sal_uInt16 nPerc = 0; if (!bIsABS && bScale) { // in case of oversize braces... sal_uInt16 nIndex = GetScaleMode() == SCALE_HEIGHT ? DIS_BRACKETSIZE : DIS_NORMALBRACKETSIZE; nPerc = rFormat.GetDistance(nIndex); } // determine the height for the braces long nBraceHeight; if (bScale) { nBraceHeight = pBody->GetType() == NBRACEBODY ? static_cast(pBody)->GetBodyHeight() : pBody->GetHeight(); nBraceHeight += 2 * (nBraceHeight * nPerc / 100L); } else nBraceHeight = nFaceHeight; // distance to the argument nPerc = bIsABS ? 0 : rFormat.GetDistance(DIS_BRACKETSPACE); long nDist = nFaceHeight * nPerc / 100L; // if wanted, scale the braces to the wanted size if (bScale) { Size aTmpSize (pLeft->GetFont().GetFontSize()); OSL_ENSURE(pRight->GetFont().GetFontSize() == aTmpSize, "Sm : different font sizes"); aTmpSize.Width() = std::min(nBraceHeight * 60L / 100L, rFormat.GetBaseSize().Height() * 3L / 2L); // correction factor since change from StarMath to OpenSymbol font // because of the different font width in the FontMetric aTmpSize.Width() *= 182; aTmpSize.Width() /= 267; sal_Unicode cChar = pLeft->GetToken().cMathChar; if (cChar != MS_LINE && cChar != MS_DLINE && cChar != MS_VERTLINE && cChar != MS_DVERTLINE) pLeft ->GetFont().SetSize(aTmpSize); cChar = pRight->GetToken().cMathChar; if (cChar != MS_LINE && cChar != MS_DLINE && cChar != MS_VERTLINE && cChar != MS_DVERTLINE) pRight->GetFont().SetSize(aTmpSize); pLeft ->AdaptToY(rDev, nBraceHeight); pRight->AdaptToY(rDev, nBraceHeight); } pLeft ->Arrange(rDev, rFormat); pRight->Arrange(rDev, rFormat); // required in order to make "\(a\) - (a) - left ( a right )" look alright RectVerAlign eVerAlign = bScale ? RectVerAlign::CenterY : RectVerAlign::Baseline; Point aPos; aPos = pLeft->AlignTo(*pBody, RectPos::Left, RectHorAlign::Center, eVerAlign); aPos.X() -= nDist; pLeft->MoveTo(aPos); aPos = pRight->AlignTo(*pBody, RectPos::Right, RectHorAlign::Center, eVerAlign); aPos.X() += nDist; pRight->MoveTo(aPos); SmRect::operator = (*pBody); ExtendBy(*pLeft, RectCopyMBL::This).ExtendBy(*pRight, RectCopyMBL::This); } /**************************************************************************/ void SmBracebodyNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { sal_uInt16 nNumSubNodes = GetNumSubNodes(); if (nNumSubNodes == 0) return; // arrange arguments sal_uInt16 i; for (i = 0; i < nNumSubNodes; i += 2) GetSubNode(i)->Arrange(rDev, rFormat); // build reference rectangle with necessary info for vertical alignment SmRect aRefRect (*GetSubNode(0)); for (i = 0; i < nNumSubNodes; i += 2) { SmRect aTmpRect (*GetSubNode(i)); Point aPos = aTmpRect.AlignTo(aRefRect, RectPos::Right, RectHorAlign::Center, RectVerAlign::Baseline); aTmpRect.MoveTo(aPos); aRefRect.ExtendBy(aTmpRect, RectCopyMBL::Xor); } nBodyHeight = aRefRect.GetHeight(); // scale separators to required height and arrange them bool bScale = GetScaleMode() == SCALE_HEIGHT || rFormat.IsScaleNormalBrackets(); long nHeight = bScale ? aRefRect.GetHeight() : GetFont().GetFontSize().Height(); sal_uInt16 nIndex = GetScaleMode() == SCALE_HEIGHT ? DIS_BRACKETSIZE : DIS_NORMALBRACKETSIZE; sal_uInt16 nPerc = rFormat.GetDistance(nIndex); if (bScale) nHeight += 2 * (nHeight * nPerc / 100L); for (i = 1; i < nNumSubNodes; i += 2) { SmNode *pNode = GetSubNode(i); pNode->AdaptToY(rDev, nHeight); pNode->Arrange(rDev, rFormat); } // horizontal distance between argument and brackets or separators long nDist = GetFont().GetFontSize().Height() * rFormat.GetDistance(DIS_BRACKETSPACE) / 100L; SmNode *pLeft = GetSubNode(0); SmRect::operator = (*pLeft); for (i = 1; i < nNumSubNodes; i++) { bool bIsSeparator = i % 2 != 0; RectVerAlign eVerAlign = bIsSeparator ? RectVerAlign::CenterY : RectVerAlign::Baseline; SmNode *pRight = GetSubNode(i); Point aPosX = pRight->AlignTo(*pLeft, RectPos::Right, RectHorAlign::Center, eVerAlign), aPosY = pRight->AlignTo(aRefRect, RectPos::Right, RectHorAlign::Center, eVerAlign); aPosX.X() += nDist; pRight->MoveTo(Point(aPosX.X(), aPosY.Y())); ExtendBy(*pRight, bIsSeparator ? RectCopyMBL::This : RectCopyMBL::Xor); pLeft = pRight; } } /**************************************************************************/ void SmVerticalBraceNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pBody = GetSubNode(0), *pBrace = GetSubNode(1), *pScript = GetSubNode(2); assert(pBody); assert(pBrace); assert(pScript); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); pBody->Arrange(aTmpDev, rFormat); // size is the same as for limits for this part pScript->SetSize( Fraction( rFormat.GetRelSize(SIZ_LIMITS), 100 ) ); // braces are a bit taller than usually pBrace ->SetSize( Fraction(3, 2) ); long nItalicWidth = pBody->GetItalicWidth(); if (nItalicWidth > 0) pBrace->AdaptToX(aTmpDev, nItalicWidth); pBrace ->Arrange(aTmpDev, rFormat); pScript->Arrange(aTmpDev, rFormat); // determine the relative position and the distances between each other RectPos eRectPos; long nFontHeight = pBody->GetFont().GetFontSize().Height(); long nDistBody = nFontHeight * rFormat.GetDistance(DIS_ORNAMENTSIZE), nDistScript = nFontHeight; if (GetToken().eType == TOVERBRACE) { eRectPos = RectPos::Top; nDistBody = - nDistBody; nDistScript *= - rFormat.GetDistance(DIS_UPPERLIMIT); } else // TUNDERBRACE { eRectPos = RectPos::Bottom; nDistScript *= + rFormat.GetDistance(DIS_LOWERLIMIT); } nDistBody /= 100L; nDistScript /= 100L; Point aPos = pBrace->AlignTo(*pBody, eRectPos, RectHorAlign::Center, RectVerAlign::Baseline); aPos.Y() += nDistBody; pBrace->MoveTo(aPos); aPos = pScript->AlignTo(*pBrace, eRectPos, RectHorAlign::Center, RectVerAlign::Baseline); aPos.Y() += nDistScript; pScript->MoveTo(aPos); SmRect::operator = (*pBody); ExtendBy(*pBrace, RectCopyMBL::This).ExtendBy(*pScript, RectCopyMBL::This); } /**************************************************************************/ SmNode * SmOperNode::GetSymbol() { SmNode *pNode = GetSubNode(0); assert(pNode); if (pNode->GetType() == NSUBSUP) pNode = static_cast(pNode)->GetBody(); OSL_ENSURE(pNode, "Sm: NULL pointer!"); return pNode; } long SmOperNode::CalcSymbolHeight(const SmNode &rSymbol, const SmFormat &rFormat) const // returns the font height to be used for operator-symbol { long nHeight = GetFont().GetFontSize().Height(); SmTokenType eTmpType = GetToken().eType; if (eTmpType == TLIM || eTmpType == TLIMINF || eTmpType == TLIMSUP) return nHeight; if (!rFormat.IsTextmode()) { // set minimum size () nHeight += (nHeight * 20L) / 100L; nHeight += nHeight * rFormat.GetDistance(DIS_OPERATORSIZE) / 100L; nHeight = nHeight * 686L / 845L; } // correct user-defined symbols to match height of sum from used font if (rSymbol.GetToken().eType == TSPECIAL) nHeight = nHeight * 845L / 686L; return nHeight; } void SmOperNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pOper = GetSubNode(0); SmNode *pBody = GetSubNode(1); assert(pOper); assert(pBody); pBody->Arrange(rDev,rFormat); long nHeight = pBody->GetHeight(); SmNode *pSymbol = GetSymbol(); pOper->Arrange(rDev, rFormat); pSymbol->AdaptToY(rDev,nHeight); pSymbol->Arrange(rDev, rFormat); Point aPos= pSymbol->AlignTo(*pBody, RectPos::Left, RectHorAlign::Center, RectVerAlign::Mid); aPos.Y() = pSymbol->GetTop()+pBody->GetBottom() - pSymbol->GetBottom(); pSymbol->MoveTo(aPos); SmRect::operator = (*pBody); ExtendBy(*pSymbol, RectCopyMBL::This); } /**************************************************************************/ void SmAlignNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) // set alignment within the entire subtree (including current node) { assert(GetNumSubNodes() == 1); SmNode *pNode = GetSubNode(0); assert(pNode); RectHorAlign eHorAlign = RectHorAlign::Center; switch (GetToken().eType) { case TALIGNL: eHorAlign = RectHorAlign::Left; break; case TALIGNC: eHorAlign = RectHorAlign::Center; break; case TALIGNR: eHorAlign = RectHorAlign::Right; break; default: break; } SetRectHorAlign(eHorAlign); pNode->Arrange(rDev, rFormat); SmRect::operator = (pNode->GetRect()); } /**************************************************************************/ void SmAttributNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pAttr = GetSubNode(0), *pBody = GetSubNode(1); assert(pBody); assert(pAttr); pBody->Arrange(rDev, rFormat); if (GetScaleMode() == SCALE_WIDTH) pAttr->AdaptToX(rDev, pBody->GetItalicWidth()); pAttr->Arrange(rDev, rFormat); // get relative position of attribute RectVerAlign eVerAlign; long nDist = 0; switch (GetToken().eType) { case TUNDERLINE : eVerAlign = RectVerAlign::AttributeLo; break; case TOVERSTRIKE : eVerAlign = RectVerAlign::AttributeMid; break; default : eVerAlign = RectVerAlign::AttributeHi; if (pBody->GetType() == NATTRIBUT) nDist = GetFont().GetFontSize().Height() * rFormat.GetDistance(DIS_ORNAMENTSPACE) / 100L; } Point aPos = pAttr->AlignTo(*pBody, RectPos::Attribute, RectHorAlign::Center, eVerAlign); aPos.Y() -= nDist; pAttr->MoveTo(aPos); SmRect::operator = (*pBody); ExtendBy(*pAttr, RectCopyMBL::This, true); } void SmFontNode::CreateTextFromNode(OUString &rText) { switch (GetToken().eType) { case TBOLD: rText += "bold "; break; case TNBOLD: rText += "nbold "; break; case TITALIC: rText += "italic "; break; case TNITALIC: rText += "nitalic "; break; case TPHANTOM: rText += "phantom "; break; case TSIZE: { rText += "size "; switch (nSizeType) { case FontSizeType::PLUS: rText += "+"; break; case FontSizeType::MINUS: rText += "-"; break; case FontSizeType::MULTIPLY: rText += "*"; break; case FontSizeType::DIVIDE: rText += "/"; break; case FontSizeType::ABSOLUT: default: break; } rText += ::rtl::math::doubleToUString( static_cast(aFontSize), rtl_math_StringFormat_Automatic, rtl_math_DecimalPlaces_Max, '.', true); rText += " "; } break; case TBLACK: rText += "color black "; break; case TWHITE: rText += "color white "; break; case TRED: rText += "color red "; break; case TGREEN: rText += "color green "; break; case TBLUE: rText += "color blue "; break; case TCYAN: rText += "color cyan "; break; case TMAGENTA: rText += "color magenta "; break; case TYELLOW: rText += "color yellow "; break; case TTEAL: rText += "color teal"; break; case TSILVER: rText += "color silver"; break; case TGRAY: rText += "color gray"; break; case TMAROON: rText += "color maroon"; break; case TPURPLE: rText += "color purple"; break; case TLIME: rText += "color lime"; break; case TOLIVE: rText += "color olive"; break; case TNAVY: rText += "color navy"; break; case TAQUA: rText += "color aqua"; break; case TFUCHSIA: rText += "color fuchsia"; break; case TSANS: rText += "font sans "; break; case TSERIF: rText += "font serif "; break; case TFIXED: rText += "font fixed "; break; default: break; } if(GetNumSubNodes() > 1) GetSubNode(1)->CreateTextFromNode(rText); } void SmFontNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { //! prepare subnodes first SmNode::Prepare(rFormat, rDocShell); int nFnt = -1; switch (GetToken().eType) { case TFIXED: nFnt = FNT_FIXED; break; case TSANS: nFnt = FNT_SANS; break; case TSERIF: nFnt = FNT_SERIF; break; default: break; } if (nFnt != -1) { GetFont() = rFormat.GetFont( sal::static_int_cast< sal_uInt16 >(nFnt) ); SetFont(GetFont()); } //! prevent overwrites of this font by 'Arrange' or 'SetFont' calls of //! other font nodes (those with lower depth in the tree) Flags() |= FLG_FONT; } void SmFontNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pNode = GetSubNode(1); assert(pNode); switch (GetToken().eType) { case TSIZE : pNode->SetFontSize(aFontSize, nSizeType); break; case TSANS : case TSERIF : case TFIXED : pNode->SetFont(GetFont()); break; case TUNKNOWN : break; // no assertion on "font " case TPHANTOM : SetPhantom(true); break; case TBOLD : SetAttribut(ATTR_BOLD); break; case TITALIC : SetAttribut(ATTR_ITALIC); break; case TNBOLD : ClearAttribut(ATTR_BOLD); break; case TNITALIC : ClearAttribut(ATTR_ITALIC); break; case TBLACK : SetColor(Color(COL_BLACK)); break; case TWHITE : SetColor(Color(COL_WHITE)); break; case TRED : SetColor(Color(COL_LIGHTRED)); break; case TGREEN : SetColor(Color(COL_GREEN)); break; case TBLUE : SetColor(Color(COL_LIGHTBLUE)); break; case TCYAN : SetColor(Color(COL_LIGHTCYAN)); break; // as in Calc case TMAGENTA : SetColor(Color(COL_LIGHTMAGENTA)); break; // as in Calc case TYELLOW : SetColor(Color(COL_YELLOW)); break; case TTEAL : SetColor(Color(COL_CYAN)); break; case TSILVER : SetColor(Color(COL_LIGHTGRAY)); break; case TGRAY : SetColor(Color(COL_GRAY)); break; case TMAROON : SetColor(Color(COL_RED)); break; case TPURPLE : SetColor(Color(COL_MAGENTA)); break; case TLIME : SetColor(Color(COL_LIGHTGREEN)); break; case TOLIVE : SetColor(Color(COL_BROWN)); break; case TNAVY : SetColor(Color(COL_BLUE)); break; case TAQUA : SetColor(Color(COL_LIGHTCYAN)); break; case TFUCHSIA : SetColor(Color(COL_LIGHTMAGENTA)); break; default: SAL_WARN("starmath", "unknown case"); } pNode->Arrange(rDev, rFormat); SmRect::operator = (pNode->GetRect()); } void SmFontNode::SetSizeParameter(const Fraction& rValue, FontSizeType Type) { nSizeType = Type; aFontSize = rValue; } /**************************************************************************/ SmPolyLineNode::SmPolyLineNode(const SmToken &rNodeToken) : SmGraphicNode(NPOLYLINE, rNodeToken) { aPoly.SetSize(2); nWidth = 0; } void SmPolyLineNode::AdaptToX(OutputDevice &/*rDev*/, sal_uLong nNewWidth) { aToSize.Width() = nNewWidth; } void SmPolyLineNode::AdaptToY(OutputDevice &/*rDev*/, sal_uLong nNewHeight) { GetFont().FreezeBorderWidth(); aToSize.Height() = nNewHeight; } void SmPolyLineNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { //! some routines being called extract some info from the OutputDevice's //! font (eg the space to be used for borders OR the font name(!!)). //! Thus the font should reflect the needs and has to be set! SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); long nBorderwidth = GetFont().GetBorderWidth(); // create polygon using both endpoints OSL_ENSURE(aPoly.GetSize() == 2, "Sm : wrong number of points"); Point aPointA, aPointB; if (GetToken().eType == TWIDESLASH) { aPointA.X() = nBorderwidth; aPointA.Y() = aToSize.Height() - nBorderwidth; aPointB.X() = aToSize.Width() - nBorderwidth; aPointB.Y() = nBorderwidth; } else { OSL_ENSURE(GetToken().eType == TWIDEBACKSLASH, "Sm : unexpected token"); aPointA.X() = aPointA.Y() = nBorderwidth; aPointB.X() = aToSize.Width() - nBorderwidth; aPointB.Y() = aToSize.Height() - nBorderwidth; } aPoly.SetPoint(aPointA, 0); aPoly.SetPoint(aPointB, 1); long nThick = GetFont().GetFontSize().Height() * rFormat.GetDistance(DIS_STROKEWIDTH) / 100L; nWidth = nThick + 2 * nBorderwidth; SmRect::operator = (SmRect(aToSize.Width(), aToSize.Height())); } /**************************************************************************/ void SmRootSymbolNode::AdaptToX(OutputDevice &/*rDev*/, sal_uLong nWidth) { nBodyWidth = nWidth; } void SmRootSymbolNode::AdaptToY(OutputDevice &rDev, sal_uLong nHeight) { // some additional length so that the horizontal // bar will be positioned above the argument SmMathSymbolNode::AdaptToY(rDev, nHeight + nHeight / 10L); } /**************************************************************************/ void SmDynIntegralSymbolNode::AdaptToY(OutputDevice &rDev, sal_uLong nHeight) { static const long nFactor = 12L; // The new height equals (1 + nFactor) * oldHeight // nFactor was chosen for keeping the integral sign from becoming too "fat". SmMathSymbolNode::AdaptToY(rDev, nHeight + nHeight / nFactor); // keep the ratio long nCurWidth = GetSize().Width(); SmMathSymbolNode::AdaptToX(rDev, nCurWidth + nCurWidth / nFactor); } /**************************************************************************/ void SmRectangleNode::AdaptToX(OutputDevice &/*rDev*/, sal_uLong nWidth) { aToSize.Width() = nWidth; } void SmRectangleNode::AdaptToY(OutputDevice &/*rDev*/, sal_uLong nHeight) { GetFont().FreezeBorderWidth(); aToSize.Height() = nHeight; } void SmRectangleNode::Arrange(OutputDevice &rDev, const SmFormat &/*rFormat*/) { long nFontHeight = GetFont().GetFontSize().Height(); long nWidth = aToSize.Width(), nHeight = aToSize.Height(); if (nHeight == 0) nHeight = nFontHeight / 30; if (nWidth == 0) nWidth = nFontHeight / 3; SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); // add some borderspace sal_uLong nTmpBorderWidth = GetFont().GetBorderWidth(); nHeight += 2 * nTmpBorderWidth; //! use this method in order to have 'SmRect::HasAlignInfo() == true' //! and thus having the attribute-fences updated in 'SmRect::ExtendBy' SmRect::operator = (SmRect(nWidth, nHeight)); } /**************************************************************************/ SmTextNode::SmTextNode( SmNodeType eNodeType, const SmToken &rNodeToken, sal_uInt16 nFontDescP ) : SmVisibleNode(eNodeType, rNodeToken) , nFontDesc(nFontDescP) , nSelectionStart(0) , nSelectionEnd(0) { } SmTextNode::SmTextNode( const SmToken &rNodeToken, sal_uInt16 nFontDescP ) : SmVisibleNode(NTEXT, rNodeToken) , nFontDesc(nFontDescP) , nSelectionStart(0) , nSelectionEnd(0) { } void SmTextNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); // default setting for horizontal alignment of nodes with TTEXT // content is as alignl (cannot be done in Arrange since it would // override the settings made by an SmAlignNode before) if (TTEXT == GetToken().eType) SetRectHorAlign( RectHorAlign::Left ); aText = GetToken().aText; GetFont() = rFormat.GetFont(GetFontDesc()); if (IsItalic( GetFont() )) Attributes() |= ATTR_ITALIC; if (IsBold( GetFont() )) Attributes() |= ATTR_BOLD; // special handling for ':' where it is a token on it's own and is likely // to be used for mathematical notations. (E.g. a:b = 2:3) // In that case it should not be displayed in italic. if (GetToken().aText.getLength() == 1 && GetToken().aText[0] == ':') Attributes() &= ~ATTR_ITALIC; }; void SmTextNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { PrepareAttributes(); sal_uInt16 nSizeDesc = GetFontDesc() == FNT_FUNCTION ? SIZ_FUNCTION : SIZ_TEXT; GetFont() *= Fraction (rFormat.GetRelSize(nSizeDesc), 100); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect::operator = (SmRect(aTmpDev, &rFormat, aText, GetFont().GetBorderWidth())); } void SmTextNode::CreateTextFromNode(OUString &rText) { bool bQuoted=false; if (GetToken().eType == TTEXT) { rText += "\""; bQuoted=true; } else { SmParser aParseTest; SmNode *pTable = aParseTest.Parse(GetToken().aText); bQuoted=true; if ( (pTable->GetType() == NTABLE) && (pTable->GetNumSubNodes() == 1) ) { SmNode *pResult = pTable->GetSubNode(0); if ( (pResult->GetType() == NLINE) && (pResult->GetNumSubNodes() == 1) ) { pResult = pResult->GetSubNode(0); if (pResult->GetType() == NTEXT) bQuoted=false; } } delete pTable; if ((GetToken().eType == TIDENT) && (GetFontDesc() == FNT_FUNCTION)) { //Search for existing functions and remove extraneous keyword rText += "func "; } else if (bQuoted) rText += "italic "; if (bQuoted) rText += "\""; } rText += GetToken().aText; if (bQuoted) rText += "\""; rText += " "; } void SmTextNode::GetAccessibleText( OUStringBuffer &rText ) const { rText.append(aText); } void SmTextNode::AdjustFontDesc() { if (GetToken().eType == TTEXT) nFontDesc = FNT_TEXT; else if(GetToken().eType == TFUNC) nFontDesc = FNT_FUNCTION; else { SmTokenType nTok; const SmTokenTableEntry *pEntry = SmParser::GetTokenTableEntry( aText ); if (pEntry && pEntry->nGroup == TGFUNCTION) { nTok = pEntry->eType; nFontDesc = FNT_FUNCTION; } else { sal_Unicode firstChar = aText[0]; if( ('0' <= firstChar && firstChar <= '9') || firstChar == '.' || firstChar == ',') { nFontDesc = FNT_NUMBER; nTok = TNUMBER; } else if (aText.getLength() > 1) { nFontDesc = FNT_VARIABLE; nTok = TIDENT; } else { nFontDesc = FNT_VARIABLE; nTok = TCHARACTER; } } SmToken tok = GetToken(); tok.eType = nTok; SetToken(tok); } } sal_Unicode SmTextNode::ConvertSymbolToUnicode(sal_Unicode nIn) { //Find the best match in accepted unicode for our private area symbols static const sal_Unicode aStarMathPrivateToUnicode[] = { 0x2030, 0xF613, 0xF612, 0x002B, 0x003C, 0x003E, 0xE425, 0xE421, 0xE088, 0x2208, 0x0192, 0x2026, 0x2192, 0x221A, 0x221A, 0x221A, 0xE090, 0x005E, 0x02C7, 0x02D8, 0x00B4, 0x0060, 0x02DC, 0x00AF, 0x0362, 0xE099, 0xE09A, 0x20DB, 0xE09C, 0xE09D, 0x0028, 0x0029, 0x2220, 0x22AF, 0xE0A2, 0xE0A3, 0xE0A4, 0xE0A5, 0xE0A6, 0xE0A7, 0x002F, 0x005C, 0x274F, 0xE0AB, 0x0393, 0x0394, 0x0398, 0x039b, 0x039e, 0x03A0, 0x03a3, 0x03a5, 0x03a6, 0x03a8, 0x03A9, 0x03B1, 0x03B2, 0x03b3, 0x03b4, 0x03b5, 0x03b6, 0x03b7, 0x03b8, 0x03b9, 0x03ba, 0x03bb, 0x03bc, 0x03bd, 0x03be, 0x03bf, 0x03c0, 0x03c1, 0x03c3, 0x03c4, 0x03c5, 0x03c6, 0x03c7, 0x03c8, 0x03c9, 0x03b5, 0x03d1, 0x03d6, 0xE0D2, 0x03db, 0x2118, 0x2202, 0x2129, 0xE0D7, 0xE0D8, 0x22A4, 0xE0DA, 0x2190, 0x2191, 0x2193 }; if ((nIn >= 0xE080) && (nIn <= 0xE0DD)) nIn = aStarMathPrivateToUnicode[nIn-0xE080]; //For whatever unicode glyph that equation editor doesn't ship with that //we have a possible match we can munge it to. switch (nIn) { case 0x2223: nIn = '|'; break; default: break; } return nIn; } /**************************************************************************/ void SmMatrixNode::CreateTextFromNode(OUString &rText) { rText += "matrix {"; for (sal_uInt16 i = 0; i < nNumRows; i++) { for (sal_uInt16 j = 0; j < nNumCols; j++) { SmNode *pNode = GetSubNode(i * nNumCols + j); if (pNode) pNode->CreateTextFromNode(rText); if (j != nNumCols-1) rText += "# "; } if (i != nNumRows-1) rText += "## "; } rText = comphelper::string::stripEnd(rText, ' '); rText += "} "; } void SmMatrixNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmNode *pNode; sal_uInt16 i, j; // initialize array that is to hold the maximum widths of all // elements (subnodes) in that column. std::vector aColWidth(nNumCols); // arrange subnodes and calculate the above arrays contents sal_uInt16 nNodes = GetNumSubNodes(); for (i = 0; i < nNodes; i++) { sal_uInt16 nIdx = nNodes - 1 - i; if (nullptr != (pNode = GetSubNode(nIdx))) { pNode->Arrange(rDev, rFormat); int nCol = nIdx % nNumCols; aColWidth[nCol] = std::max(aColWidth[nCol], pNode->GetItalicWidth()); } } // norm distance from which the following two are calculated const long nNormDist = 3 * GetFont().GetFontSize().Height(); // define horizontal and vertical minimal distances that separate // the elements long nHorDist = nNormDist * rFormat.GetDistance(DIS_MATRIXCOL) / 100L, nVerDist = nNormDist * rFormat.GetDistance(DIS_MATRIXROW) / 100L; // build array that holds the leftmost position for each column std::vector aColLeft(nNumCols); long nX = 0; for (j = 0; j < nNumCols; j++) { aColLeft[j] = nX; nX += aColWidth[j] + nHorDist; } SmRect::operator = (SmRect()); for (i = 0; i < nNumRows; i++) { Point aPos; SmRect aLineRect; for (j = 0; j < nNumCols; j++) { SmNode *pTmpNode = GetSubNode(i * nNumCols + j); assert(pTmpNode); const SmRect &rNodeRect = pTmpNode->GetRect(); // align all baselines in that row if possible aPos = rNodeRect.AlignTo(aLineRect, RectPos::Right, RectHorAlign::Center, RectVerAlign::Baseline); aPos.X() += nHorDist; // get horizontal alignment const SmNode *pCoNode = pTmpNode->GetLeftMost(); RectHorAlign eHorAlign = pCoNode->GetRectHorAlign(); // calculate horizontal position of element depending on column // and horizontal alignment switch (eHorAlign) { case RectHorAlign::Left: aPos.X() = rNodeRect.GetLeft() + aColLeft[j]; break; case RectHorAlign::Center: aPos.X() = rNodeRect.GetLeft() + aColLeft[j] + aColWidth[j] / 2 - rNodeRect.GetItalicCenterX(); break; case RectHorAlign::Right: aPos.X() = rNodeRect.GetLeft() + aColLeft[j] + aColWidth[j] - rNodeRect.GetItalicWidth(); break; default: assert(false); } pTmpNode->MoveTo(aPos); aLineRect.ExtendBy(rNodeRect, RectCopyMBL::Xor); } aPos = aLineRect.AlignTo(*this, RectPos::Bottom, RectHorAlign::Center, RectVerAlign::Baseline); aPos.Y() += nVerDist; // move 'aLineRect' and rectangles in that line to final position Point aDelta(0, // since horizontal alignment is already done aPos.Y() - aLineRect.GetTop()); aLineRect.Move(aDelta); for (j = 0; j < nNumCols; j++) if (nullptr != (pNode = GetSubNode(i * nNumCols + j))) pNode->Move(aDelta); ExtendBy(aLineRect, RectCopyMBL::None); } } void SmMatrixNode::SetRowCol(sal_uInt16 nMatrixRows, sal_uInt16 nMatrixCols) { nNumRows = nMatrixRows; nNumCols = nMatrixCols; } SmNode * SmMatrixNode::GetLeftMost() { return this; } /**************************************************************************/ SmMathSymbolNode::SmMathSymbolNode(const SmToken &rNodeToken) : SmSpecialNode(NMATH, rNodeToken, FNT_MATH) { sal_Unicode cChar = GetToken().cMathChar; if (sal_Unicode('\0') != cChar) SetText(OUString(cChar)); } void SmMathSymbolNode::AdaptToX(OutputDevice &rDev, sal_uLong nWidth) { // Since there is no function to do this, we try to approximate it: Size aFntSize (GetFont().GetFontSize()); //! however the result is a bit better with 'nWidth' as initial font width aFntSize.Width() = nWidth; GetFont().SetSize(aFntSize); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); // get denominator of error factor for width long nTmpBorderWidth = GetFont().GetBorderWidth(); long nDenom = SmRect(aTmpDev, nullptr, GetText(), nTmpBorderWidth).GetItalicWidth(); // scale fontwidth with this error factor aFntSize.Width() *= nWidth; aFntSize.Width() /= nDenom ? nDenom : 1; GetFont().SetSize(aFntSize); } void SmMathSymbolNode::AdaptToY(OutputDevice &rDev, sal_uLong nHeight) { GetFont().FreezeBorderWidth(); Size aFntSize (GetFont().GetFontSize()); // Since we only want to scale the height, we might have // to determine the font width in order to keep it if (aFntSize.Width() == 0) { rDev.Push(PushFlags::FONT | PushFlags::MAPMODE); rDev.SetFont(GetFont()); aFntSize.Width() = rDev.GetFontMetric().GetFontSize().Width(); rDev.Pop(); } OSL_ENSURE(aFntSize.Width() != 0, "Sm: "); //! however the result is a bit better with 'nHeight' as initial //! font height aFntSize.Height() = nHeight; GetFont().SetSize(aFntSize); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); // get denominator of error factor for height long nTmpBorderWidth = GetFont().GetBorderWidth(); long nDenom = SmRect(aTmpDev, nullptr, GetText(), nTmpBorderWidth).GetHeight(); // scale fontwidth with this error factor aFntSize.Height() *= nHeight; aFntSize.Height() /= nDenom ? nDenom : 1; GetFont().SetSize(aFntSize); } void SmMathSymbolNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); GetFont() = rFormat.GetFont(GetFontDesc()); // use same font size as is used for variables GetFont().SetSize( rFormat.GetFont( FNT_VARIABLE ).GetFontSize() ); OSL_ENSURE(GetFont().GetCharSet() == RTL_TEXTENCODING_SYMBOL || GetFont().GetCharSet() == RTL_TEXTENCODING_UNICODE, "wrong charset for character from StarMath/OpenSymbol font"); Flags() |= FLG_FONT | FLG_ITALIC; }; void SmMathSymbolNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { const OUString &rText = GetText(); if (rText.isEmpty() || rText[0] == '\0') { SmRect::operator = (SmRect()); return; } PrepareAttributes(); GetFont() *= Fraction (rFormat.GetRelSize(SIZ_TEXT), 100); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect::operator = (SmRect(aTmpDev, &rFormat, rText, GetFont().GetBorderWidth())); } void SmMathSymbolNode::CreateTextFromNode(OUString &rText) { OUString sStr; MathType::LookupChar(GetToken().cMathChar, sStr); rText += sStr; } void SmRectangleNode::CreateTextFromNode(OUString &rText) { switch (GetToken().eType) { case TUNDERLINE: rText += "underline "; break; case TOVERLINE: rText += "overline "; break; case TOVERSTRIKE: rText += "overstrike "; break; default: break; } } void SmAttributNode::CreateTextFromNode(OUString &rText) { SmNode *pNode; sal_uInt16 nSize = GetNumSubNodes(); OSL_ENSURE(nSize == 2, "Node missing members"); rText += "{"; sal_Unicode nLast=0; if (nullptr != (pNode = GetSubNode(0))) { OUString aStr; pNode->CreateTextFromNode(aStr); if (aStr.getLength() > 1) rText += aStr; else { nLast = aStr[0]; switch (nLast) { case MS_BAR: // MACRON rText += "overline "; break; case MS_DOT: // DOT ABOVE rText += "dot "; break; case 0x2dc: // SMALL TILDE rText += "widetilde "; break; case MS_DDOT: // DIAERESIS rText += "ddot "; break; case 0xE082: break; case 0xE09B: case MS_DDDOT: // COMBINING THREE DOTS ABOVE rText += "dddot "; break; case MS_ACUTE: // ACUTE ACCENT case MS_COMBACUTE: // COMBINING ACUTE ACCENT rText += "acute "; break; case MS_GRAVE: // GRAVE ACCENT case MS_COMBGRAVE: // COMBINING GRAVE ACCENT rText += "grave "; break; case MS_CHECK: // CARON case MS_COMBCHECK: // COMBINING CARON rText += "check "; break; case MS_BREVE: // BREVE case MS_COMBBREVE: // COMBINING BREVE rText += "breve "; break; case MS_CIRCLE: // RING ABOVE case MS_COMBCIRCLE: // COMBINING RING ABOVE rText += "circle "; break; case MS_RIGHTARROW: // RIGHTWARDS ARROW case MS_VEC: // COMBINING RIGHT ARROW ABOVE rText += "vec "; break; case MS_TILDE: // TILDE case MS_COMBTILDE: // COMBINING TILDE rText += "tilde "; break; case MS_HAT: // CIRCUMFLEX ACCENT case MS_COMBHAT: // COMBINING CIRCUMFLEX ACCENT rText += "hat "; break; case MS_COMBBAR: // COMBINING MACRON rText += "bar "; break; default: rText += OUString( nLast ); break; } } } if (nSize == 2) if (nullptr != (pNode = GetSubNode(1))) pNode->CreateTextFromNode(rText); rText = comphelper::string::stripEnd(rText, ' '); if (nLast == 0xE082) rText += " overbrace {}"; rText += "} "; } /**************************************************************************/ static bool lcl_IsFromGreekSymbolSet( const OUString &rTokenText ) { bool bRes = false; // valid symbol name needs to have a '%' at pos 0 and at least an additional char if (rTokenText.getLength() > 2 && rTokenText[0] == sal_Unicode('%')) { OUString aName( rTokenText.copy(1) ); SmSym *pSymbol = SM_MOD()->GetSymbolManager().GetSymbolByName( aName ); if (pSymbol && SmLocalizedSymbolData::GetExportSymbolSetName(pSymbol->GetSymbolSetName()) == "Greek") bRes = true; } return bRes; } SmSpecialNode::SmSpecialNode(SmNodeType eNodeType, const SmToken &rNodeToken, sal_uInt16 _nFontDesc) : SmTextNode(eNodeType, rNodeToken, _nFontDesc) { bIsFromGreekSymbolSet = lcl_IsFromGreekSymbolSet( rNodeToken.aText ); } SmSpecialNode::SmSpecialNode(const SmToken &rNodeToken) : SmTextNode(NSPECIAL, rNodeToken, FNT_MATH) // default Font isn't always correct! { bIsFromGreekSymbolSet = lcl_IsFromGreekSymbolSet( rNodeToken.aText ); } void SmSpecialNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); const SmSym *pSym; SmModule *pp = SM_MOD(); OUString aName(GetToken().aText.copy(1)); if (nullptr != (pSym = pp->GetSymbolManager().GetSymbolByName( aName ))) { sal_UCS4 cChar = pSym->GetCharacter(); OUString aTmp( &cChar, 1 ); SetText( aTmp ); GetFont() = pSym->GetFace(); } else { SetText( GetToken().aText ); GetFont() = rFormat.GetFont(FNT_VARIABLE); } // use same font size as is used for variables GetFont().SetSize( rFormat.GetFont( FNT_VARIABLE ).GetFontSize() ); // Actually only WEIGHT_NORMAL and WEIGHT_BOLD should occur... However, the sms-file also // contains e.g. 'WEIGHT_ULTRALIGHT'. Consequently, compare here with '>' instead of '!='. // (In the long term the necessity for 'PrepareAttribut' and thus also for this here should be dropped) //! see also SmFontStyles::GetStyleName if (IsItalic( GetFont() )) SetAttribut(ATTR_ITALIC); if (IsBold( GetFont() )) SetAttribut(ATTR_BOLD); Flags() |= FLG_FONT; if (bIsFromGreekSymbolSet) { OSL_ENSURE( GetText().getLength() == 1, "a symbol should only consist of 1 char!" ); bool bItalic = false; sal_Int16 nStyle = rFormat.GetGreekCharStyle(); OSL_ENSURE( nStyle >= 0 && nStyle <= 2, "unexpected value for GreekCharStyle" ); if (nStyle == 1) bItalic = true; else if (nStyle == 2) { const OUString& rTmp(GetText()); if (rTmp.isEmpty()) { static const sal_Unicode cUppercaseAlpha = 0x0391; static const sal_Unicode cUppercaseOmega = 0x03A9; sal_Unicode cChar = rTmp[0]; // uppercase letters should be straight and lowercase letters italic bItalic = !(cUppercaseAlpha <= cChar && cChar <= cUppercaseOmega); } } if (bItalic) Attributes() |= ATTR_ITALIC; else Attributes() &= ~ATTR_ITALIC; } }; void SmSpecialNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { PrepareAttributes(); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect::operator = (SmRect(aTmpDev, &rFormat, GetText(), GetFont().GetBorderWidth())); } /**************************************************************************/ void SmGlyphSpecialNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { PrepareAttributes(); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect::operator = (SmRect(aTmpDev, &rFormat, GetText(), GetFont().GetBorderWidth()).AsGlyphRect()); } /**************************************************************************/ void SmPlaceNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); GetFont().SetColor(COL_GRAY); Flags() |= FLG_COLOR | FLG_FONT | FLG_ITALIC; }; void SmPlaceNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { PrepareAttributes(); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); SmRect::operator = (SmRect(aTmpDev, &rFormat, GetText(), GetFont().GetBorderWidth())); } /**************************************************************************/ void SmErrorNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); GetFont().SetColor(COL_RED); Flags() |= FLG_VISIBLE | FLG_BOLD | FLG_ITALIC | FLG_COLOR | FLG_FONT | FLG_SIZE; } void SmErrorNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { PrepareAttributes(); SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); const OUString &rText = GetText(); SmRect::operator = (SmRect(aTmpDev, &rFormat, rText, GetFont().GetBorderWidth())); } /**************************************************************************/ void SmBlankNode::IncreaseBy(const SmToken &rToken) { switch(rToken.eType) { case TBLANK: nNum += 4; break; case TSBLANK: nNum += 1; break; default: break; } } void SmBlankNode::Prepare(const SmFormat &rFormat, const SmDocShell &rDocShell) { SmNode::Prepare(rFormat, rDocShell); // Here it need/should not be the StarMath font, so that for the character // used in Arrange a normal (non-clipped) rectangle is generated GetFont() = rFormat.GetFont(FNT_VARIABLE); Flags() |= FLG_FONT | FLG_BOLD | FLG_ITALIC; } void SmBlankNode::Arrange(OutputDevice &rDev, const SmFormat &rFormat) { SmTmpDevice aTmpDev (rDev, true); aTmpDev.SetFont(GetFont()); // make distance depend on the font height // (so that it increases when scaling (e.g. size *2 {a ~ b}) long nDist = GetFont().GetFontSize().Height() / 10L, nSpace = nNum * nDist; // get a SmRect with Baseline and all the bells and whistles SmRect::operator = (SmRect(aTmpDev, &rFormat, OUString(' '), GetFont().GetBorderWidth())); // and resize it to the requested size SetItalicSpaces(0, 0); SetWidth(nSpace); } /**************************************************************************/ //Implementation of all accept methods for SmVisitor void SmTableNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBraceNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBracebodyNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmOperNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmAlignNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmAttributNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmFontNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmUnHorNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBinHorNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBinVerNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBinDiagonalNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmSubSupNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmMatrixNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmPlaceNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmTextNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmSpecialNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmGlyphSpecialNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmMathSymbolNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmBlankNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmErrorNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmLineNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmExpressionNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmPolyLineNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmRootNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmRootSymbolNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmDynIntegralNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmDynIntegralSymbolNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmRectangleNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } void SmVerticalBraceNode::Accept(SmVisitor* pVisitor) { pVisitor->Visit(this); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */