/* -*- 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 #include #include #include #include #include #include #include #include using namespace formula; using ::std::vector; void ScRefTokenHelper::compileRangeRepresentation( vector& rRefTokens, const OUString& rRangeStr, ScDocument* pDoc, const sal_Unicode cSep, FormulaGrammar::Grammar eGrammar, bool bOnly3DRef) { // #i107275# ignore parentheses OUString aRangeStr = rRangeStr; while( (aRangeStr.getLength() >= 2) && (aRangeStr[ 0 ] == '(') && (aRangeStr[ aRangeStr.getLength() - 1 ] == ')') ) aRangeStr = aRangeStr.copy( 1, aRangeStr.getLength() - 2 ); bool bFailure = false; sal_Int32 nOffset = 0; while (nOffset >= 0 && !bFailure) { OUString aToken; ScRangeStringConverter::GetTokenByOffset(aToken, aRangeStr, nOffset, cSep); if (nOffset < 0) break; ScCompiler aCompiler(pDoc, ScAddress(0,0,0), eGrammar); std::unique_ptr pArray(aCompiler.CompileString(aToken)); // There MUST be exactly one reference per range token and nothing // else, and it MUST be a valid reference, not some #REF! sal_uInt16 nLen = pArray->GetLen(); if (!nLen) continue; // Should a missing range really be allowed? if (nLen != 1) { bFailure = true; break; } const FormulaToken* p = pArray->FirstToken(); if (!p) { bFailure = true; break; } switch (p->GetType()) { case svSingleRef: { const ScSingleRefData& rRef = *p->GetSingleRef(); if (!rRef.Valid()) bFailure = true; else if (bOnly3DRef && !rRef.IsFlag3D()) bFailure = true; } break; case svDoubleRef: { const ScComplexRefData& rRef = *p->GetDoubleRef(); if (!rRef.Valid()) bFailure = true; else if (bOnly3DRef && !rRef.Ref1.IsFlag3D()) bFailure = true; } break; case svExternalSingleRef: { if (!p->GetSingleRef()->ValidExternal()) bFailure = true; } break; case svExternalDoubleRef: { if (!p->GetDoubleRef()->ValidExternal()) bFailure = true; } break; case svString: if (p->GetString().isEmpty()) bFailure = true; break; default: bFailure = true; break; } if (!bFailure) rRefTokens.emplace_back(p->Clone()); } if (bFailure) rRefTokens.clear(); } bool ScRefTokenHelper::getRangeFromToken( ScRange& rRange, const ScTokenRef& pToken, const ScAddress& rPos, bool bExternal) { StackVar eType = pToken->GetType(); switch (pToken->GetType()) { case svSingleRef: case svExternalSingleRef: { if ((eType == svExternalSingleRef && !bExternal) || (eType == svSingleRef && bExternal)) return false; const ScSingleRefData& rRefData = *pToken->GetSingleRef(); rRange.aStart = rRefData.toAbs(rPos); rRange.aEnd = rRange.aStart; return true; } case svDoubleRef: case svExternalDoubleRef: { if ((eType == svExternalDoubleRef && !bExternal) || (eType == svDoubleRef && bExternal)) return false; const ScComplexRefData& rRefData = *pToken->GetDoubleRef(); rRange = rRefData.toAbs(rPos); return true; } default: ; // do nothing } return false; } void ScRefTokenHelper::getRangeListFromTokens( ScRangeList& rRangeList, const vector& rTokens, const ScAddress& rPos) { for (const auto& rToken : rTokens) { ScRange aRange; getRangeFromToken(aRange, rToken, rPos); rRangeList.push_back(aRange); } } void ScRefTokenHelper::getTokenFromRange(ScTokenRef& pToken, const ScRange& rRange) { ScComplexRefData aData; aData.InitRange(rRange); aData.Ref1.SetFlag3D(true); // Display sheet name on 2nd reference only when the 1st and 2nd refs are on // different sheets. aData.Ref2.SetFlag3D(rRange.aStart.Tab() != rRange.aEnd.Tab()); pToken.reset(new ScDoubleRefToken(aData)); } void ScRefTokenHelper::getTokensFromRangeList(vector& pTokens, const ScRangeList& rRanges) { vector aTokens; size_t nCount = rRanges.size(); aTokens.reserve(nCount); for (size_t i = 0; i < nCount; ++i) { const ScRange & rRange = rRanges[i]; ScTokenRef pToken; ScRefTokenHelper::getTokenFromRange(pToken, rRange); aTokens.push_back(pToken); } pTokens.swap(aTokens); } bool ScRefTokenHelper::isRef(const ScTokenRef& pToken) { switch (pToken->GetType()) { case svSingleRef: case svDoubleRef: case svExternalSingleRef: case svExternalDoubleRef: return true; default: ; } return false; } bool ScRefTokenHelper::isExternalRef(const ScTokenRef& pToken) { switch (pToken->GetType()) { case svExternalSingleRef: case svExternalDoubleRef: return true; default: ; } return false; } bool ScRefTokenHelper::intersects( const vector& rTokens, const ScTokenRef& pToken, const ScAddress& rPos) { if (!isRef(pToken)) return false; bool bExternal = isExternalRef(pToken); sal_uInt16 nFileId = bExternal ? pToken->GetIndex() : 0; ScRange aRange; getRangeFromToken(aRange, pToken, rPos, bExternal); for (const ScTokenRef& p : rTokens) { if (!isRef(p)) continue; if (bExternal != isExternalRef(p)) continue; ScRange aRange2; getRangeFromToken(aRange2, p, rPos, bExternal); if (bExternal && nFileId != p->GetIndex()) // different external file continue; if (aRange.Intersects(aRange2)) return true; } return false; } namespace { class JoinRefTokenRanges { public: /** * Insert a new reference token into the existing list of reference tokens, * but in that process, try to join as many adjacent ranges as possible. * * @param rTokens existing list of reference tokens * @param rToken new token */ void operator() (vector& rTokens, const ScTokenRef& pToken, const ScAddress& rPos) { join(rTokens, pToken, rPos); } private: /** * Check two 1-dimensional ranges to see if they overlap each other. * * @param nMin1 min value of range 1 * @param nMax1 max value of range 1 * @param nMin2 min value of range 2 * @param nMax2 max value of range 2 * @param rNewMin min value of new range in case they overlap * @param rNewMax max value of new range in case they overlap */ template static bool overlaps(T nMin1, T nMax1, T nMin2, T nMax2, T& rNewMin, T& rNewMax) { bool bDisjoint1 = (nMin1 > nMax2) && (nMin1 - nMax2 > 1); bool bDisjoint2 = (nMin2 > nMax1) && (nMin2 - nMax1 > 1); if (bDisjoint1 || bDisjoint2) // These two ranges cannot be joined. Move on. return false; T nMin = std::min(nMin1, nMin2); T nMax = std::max(nMax1, nMax2); rNewMin = nMin; rNewMax = nMax; return true; } void join(vector& rTokens, const ScTokenRef& pToken, const ScAddress& rPos) { // Normalize the token to a double reference. ScComplexRefData aData; if (!ScRefTokenHelper::getDoubleRefDataFromToken(aData, pToken)) return; // Get the information of the new token. bool bExternal = ScRefTokenHelper::isExternalRef(pToken); sal_uInt16 nFileId = bExternal ? pToken->GetIndex() : 0; svl::SharedString aTabName = bExternal ? pToken->GetString() : svl::SharedString::getEmptyString(); bool bJoined = false; for (ScTokenRef& pOldToken : rTokens) { if (!ScRefTokenHelper::isRef(pOldToken)) // A non-ref token should not have been added here in the first // place! continue; if (bExternal != ScRefTokenHelper::isExternalRef(pOldToken)) // External and internal refs don't mix. continue; if (bExternal) { if (nFileId != pOldToken->GetIndex()) // Different external files. continue; if (aTabName != pOldToken->GetString()) // Different table names. continue; } ScComplexRefData aOldData; if (!ScRefTokenHelper::getDoubleRefDataFromToken(aOldData, pOldToken)) continue; ScRange aOld = aOldData.toAbs(rPos), aNew = aData.toAbs(rPos); if (aNew.aStart.Tab() != aOld.aStart.Tab() || aNew.aEnd.Tab() != aOld.aEnd.Tab()) // Sheet ranges differ. continue; if (aOld.In(aNew)) // This new range is part of an existing range. Skip it. return; bool bSameRows = (aNew.aStart.Row() == aOld.aStart.Row()) && (aNew.aEnd.Row() == aOld.aEnd.Row()); bool bSameCols = (aNew.aStart.Col() == aOld.aStart.Col()) && (aNew.aEnd.Col() == aOld.aEnd.Col()); ScComplexRefData aNewData = aOldData; bool bJoinRanges = false; if (bSameRows) { SCCOL nNewMin, nNewMax; bJoinRanges = overlaps( aNew.aStart.Col(), aNew.aEnd.Col(), aOld.aStart.Col(), aOld.aEnd.Col(), nNewMin, nNewMax); if (bJoinRanges) { aNew.aStart.SetCol(nNewMin); aNew.aEnd.SetCol(nNewMax); aNewData.SetRange(aNew, rPos); } } else if (bSameCols) { SCROW nNewMin, nNewMax; bJoinRanges = overlaps( aNew.aStart.Row(), aNew.aEnd.Row(), aOld.aStart.Row(), aOld.aEnd.Row(), nNewMin, nNewMax); if (bJoinRanges) { aNew.aStart.SetRow(nNewMin); aNew.aEnd.SetRow(nNewMax); aNewData.SetRange(aNew, rPos); } } if (bJoinRanges) { if (bExternal) pOldToken.reset(new ScExternalDoubleRefToken(nFileId, aTabName, aNewData)); else pOldToken.reset(new ScDoubleRefToken(aNewData)); bJoined = true; break; } } if (bJoined) { if (rTokens.size() == 1) // There is only one left. No need to do more joining. return; // Pop the last token from the list, and keep joining recursively. ScTokenRef p = rTokens.back(); rTokens.pop_back(); join(rTokens, p, rPos); } else rTokens.push_back(pToken); } }; } void ScRefTokenHelper::join(vector& rTokens, const ScTokenRef& pToken, const ScAddress& rPos) { JoinRefTokenRanges join; join(rTokens, pToken, rPos); } bool ScRefTokenHelper::getDoubleRefDataFromToken(ScComplexRefData& rData, const ScTokenRef& pToken) { switch (pToken->GetType()) { case svSingleRef: case svExternalSingleRef: { const ScSingleRefData& r = *pToken->GetSingleRef(); rData.Ref1 = r; rData.Ref1.SetFlag3D(true); rData.Ref2 = r; rData.Ref2.SetFlag3D(false); // Don't display sheet name on second reference. } break; case svDoubleRef: case svExternalDoubleRef: rData = *pToken->GetDoubleRef(); break; default: // Not a reference token. Bail out. return false; } return true; } ScTokenRef ScRefTokenHelper::createRefToken(const ScAddress& rAddr) { ScSingleRefData aRefData; aRefData.InitAddress(rAddr); ScTokenRef pRef(new ScSingleRefToken(aRefData)); return pRef; } ScTokenRef ScRefTokenHelper::createRefToken(const ScRange& rRange) { ScComplexRefData aRefData; aRefData.InitRange(rRange); ScTokenRef pRef(new ScDoubleRefToken(aRefData)); return pRef; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */