/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star; ScSolverProgressDialog::ScSolverProgressDialog(weld::Window* pParent) : GenericDialogController(pParent, u"modules/scalc/ui/solverprogressdialog.ui"_ustr, u"SolverProgressDialog"_ustr) , m_xFtTime(m_xBuilder->weld_label(u"progress"_ustr)) { } ScSolverProgressDialog::~ScSolverProgressDialog() { } void ScSolverProgressDialog::HideTimeLimit() { m_xFtTime->hide(); } void ScSolverProgressDialog::SetTimeLimit( sal_Int32 nSeconds ) { OUString aOld = m_xFtTime->get_label(); OUString aNew = aOld.replaceFirst("#", OUString::number(nSeconds)); m_xFtTime->set_label(aNew); } ScSolverNoSolutionDialog::ScSolverNoSolutionDialog(weld::Window* pParent, const OUString& rErrorText) : GenericDialogController(pParent, u"modules/scalc/ui/nosolutiondialog.ui"_ustr, u"NoSolutionDialog"_ustr) , m_xFtErrorText(m_xBuilder->weld_label(u"error"_ustr)) { m_xFtErrorText->set_label(rErrorText); } ScSolverNoSolutionDialog::~ScSolverNoSolutionDialog() { } ScSolverSuccessDialog::ScSolverSuccessDialog(weld::Window* pParent, std::u16string_view rSolution) : GenericDialogController(pParent, u"modules/scalc/ui/solversuccessdialog.ui"_ustr, u"SolverSuccessDialog"_ustr) , m_xFtResult(m_xBuilder->weld_label(u"result"_ustr)) , m_xBtnOk(m_xBuilder->weld_button(u"ok"_ustr)) , m_xBtnCancel(m_xBuilder->weld_button(u"cancel"_ustr)) { m_xBtnOk->connect_clicked(LINK(this, ScSolverSuccessDialog, ClickHdl)); m_xBtnCancel->connect_clicked(LINK(this, ScSolverSuccessDialog, ClickHdl)); OUString aMessage = m_xFtResult->get_label() + " " + rSolution; m_xFtResult->set_label(aMessage); } ScSolverSuccessDialog::~ScSolverSuccessDialog() { } IMPL_LINK(ScSolverSuccessDialog, ClickHdl, weld::Button&, rBtn, void) { if (&rBtn == m_xBtnOk.get()) m_xDialog->response(RET_OK); else m_xDialog->response(RET_CANCEL); } ScCursorRefEdit::ScCursorRefEdit(std::unique_ptr xControl) : formula::RefEdit(std::move(xControl)) { xEntry->connect_key_press(Link()); //acknowledge we first remove the old one xEntry->connect_key_press(LINK(this, ScCursorRefEdit, KeyInputHdl)); } void ScCursorRefEdit::SetCursorLinks( const Link& rUp, const Link& rDown ) { maCursorUpLink = rUp; maCursorDownLink = rDown; } IMPL_LINK(ScCursorRefEdit, KeyInputHdl, const KeyEvent&, rKEvt, bool) { vcl::KeyCode aCode = rKEvt.GetKeyCode(); bool bUp = (aCode.GetCode() == KEY_UP); bool bDown = (aCode.GetCode() == KEY_DOWN); if ( !aCode.IsShift() && !aCode.IsMod1() && !aCode.IsMod2() && ( bUp || bDown ) ) { if ( bUp ) maCursorUpLink.Call( *this ); else maCursorDownLink.Call( *this ); return true; } return formula::RefEdit::KeyInput(rKEvt); } ScOptSolverDlg::ScOptSolverDlg(SfxBindings* pB, SfxChildWindow* pCW, weld::Window* pParent, ScDocShell* pDocSh, const ScAddress& aCursorPos) : ScAnyRefDlgController(pB, pCW, pParent, u"modules/scalc/ui/solverdlg.ui"_ustr, u"SolverDialog"_ustr) , maInputError(ScResId(STR_INVALIDINPUT)) , maConditionError(ScResId(STR_INVALIDCONDITION)) , mpDocShell(pDocSh) , mrDoc(pDocSh->GetDocument()) , mnCurTab(aCursorPos.Tab()) , mbDlgLostFocus(false) , nScrollPos(0) , mpEdActive(nullptr) , m_xFtObjectiveCell(m_xBuilder->weld_label(u"targetlabel"_ustr)) , m_xEdObjectiveCell(new formula::RefEdit(m_xBuilder->weld_entry(u"targetedit"_ustr))) , m_xRBObjectiveCell(new formula::RefButton(m_xBuilder->weld_button(u"targetbutton"_ustr))) , m_xRbMax(m_xBuilder->weld_radio_button(u"max"_ustr)) , m_xRbMin(m_xBuilder->weld_radio_button(u"min"_ustr)) , m_xRbValue(m_xBuilder->weld_radio_button(u"value"_ustr)) , m_xEdTargetValue(new formula::RefEdit(m_xBuilder->weld_entry(u"valueedit"_ustr))) , m_xRBTargetValue(new formula::RefButton(m_xBuilder->weld_button(u"valuebutton"_ustr))) , m_xFtVariableCells(m_xBuilder->weld_label(u"changelabel"_ustr)) , m_xEdVariableCells(new formula::RefEdit(m_xBuilder->weld_entry(u"changeedit"_ustr))) , m_xRBVariableCells(new formula::RefButton(m_xBuilder->weld_button(u"changebutton"_ustr))) , m_xFtCellRef(m_xBuilder->weld_label(u"cellreflabel"_ustr)) , m_xEdLeft1(new ScCursorRefEdit(m_xBuilder->weld_entry(u"ref1edit"_ustr))) , m_xRBLeft1(new formula::RefButton(m_xBuilder->weld_button(u"ref1button"_ustr))) , m_xLbOp1(m_xBuilder->weld_combo_box(u"op1list"_ustr)) , m_xFtConstraint(m_xBuilder->weld_label(u"constraintlabel"_ustr)) , m_xEdRight1(new ScCursorRefEdit(m_xBuilder->weld_entry(u"val1edit"_ustr))) , m_xRBRight1(new formula::RefButton(m_xBuilder->weld_button(u"val1button"_ustr))) , m_xBtnDel1(m_xBuilder->weld_button(u"del1"_ustr)) , m_xEdLeft2(new ScCursorRefEdit(m_xBuilder->weld_entry(u"ref2edit"_ustr))) , m_xRBLeft2(new formula::RefButton(m_xBuilder->weld_button(u"ref2button"_ustr))) , m_xLbOp2(m_xBuilder->weld_combo_box(u"op2list"_ustr)) , m_xEdRight2(new ScCursorRefEdit(m_xBuilder->weld_entry(u"val2edit"_ustr))) , m_xRBRight2(new formula::RefButton(m_xBuilder->weld_button(u"val2button"_ustr))) , m_xBtnDel2(m_xBuilder->weld_button(u"del2"_ustr)) , m_xEdLeft3(new ScCursorRefEdit(m_xBuilder->weld_entry(u"ref3edit"_ustr))) , m_xRBLeft3(new formula::RefButton(m_xBuilder->weld_button(u"ref3button"_ustr))) , m_xLbOp3(m_xBuilder->weld_combo_box(u"op3list"_ustr)) , m_xEdRight3(new ScCursorRefEdit(m_xBuilder->weld_entry(u"val3edit"_ustr))) , m_xRBRight3(new formula::RefButton(m_xBuilder->weld_button(u"val3button"_ustr))) , m_xBtnDel3(m_xBuilder->weld_button(u"del3"_ustr)) , m_xEdLeft4(new ScCursorRefEdit(m_xBuilder->weld_entry(u"ref4edit"_ustr))) , m_xRBLeft4(new formula::RefButton(m_xBuilder->weld_button(u"ref4button"_ustr))) , m_xLbOp4(m_xBuilder->weld_combo_box(u"op4list"_ustr)) , m_xEdRight4(new ScCursorRefEdit(m_xBuilder->weld_entry(u"val4edit"_ustr))) , m_xRBRight4(new formula::RefButton(m_xBuilder->weld_button(u"val4button"_ustr))) , m_xBtnDel4(m_xBuilder->weld_button(u"del4"_ustr)) , m_xScrollBar(m_xBuilder->weld_scrolled_window(u"scrollbar"_ustr, true)) , m_xBtnOpt(m_xBuilder->weld_button(u"options"_ustr)) , m_xBtnClose(m_xBuilder->weld_button(u"close"_ustr)) , m_xBtnSolve(m_xBuilder->weld_button(u"ok"_ustr)) , m_xBtnResetAll(m_xBuilder->weld_button(u"resetall"_ustr)) , m_xResultFT(m_xBuilder->weld_label(u"result"_ustr)) , m_xContents(m_xBuilder->weld_widget(u"grid"_ustr)) , m_pSolverSettings(mrDoc.FetchTable(mnCurTab)->GetSolverSettings()) { m_xEdObjectiveCell->SetReferences(this, m_xFtObjectiveCell.get()); m_xRBObjectiveCell->SetReferences(this, m_xEdObjectiveCell.get()); m_xEdTargetValue->SetReferences(this, m_xResultFT.get()); m_xRBTargetValue->SetReferences(this, m_xEdTargetValue.get()); m_xEdVariableCells->SetReferences(this, m_xFtVariableCells.get()); m_xRBVariableCells->SetReferences(this, m_xEdVariableCells.get()); m_xEdLeft1->SetReferences(this, m_xFtCellRef.get()); m_xRBLeft1->SetReferences(this, m_xEdLeft1.get()); m_xEdRight1->SetReferences(this, m_xFtConstraint.get()); m_xRBRight1->SetReferences(this, m_xEdRight1.get()); m_xEdLeft2->SetReferences(this, m_xFtCellRef.get()); m_xRBLeft2->SetReferences(this, m_xEdLeft2.get()); m_xEdRight2->SetReferences(this, m_xFtConstraint.get()); m_xRBRight2->SetReferences(this, m_xEdRight2.get()); m_xEdLeft3->SetReferences(this, m_xFtCellRef.get()); m_xRBLeft3->SetReferences(this, m_xEdLeft3.get()); m_xEdRight3->SetReferences(this, m_xFtConstraint.get()); m_xRBRight3->SetReferences(this, m_xEdRight3.get()); m_xEdLeft4->SetReferences(this, m_xFtCellRef.get()); m_xRBLeft4->SetReferences(this, m_xEdLeft4.get()); m_xEdRight4->SetReferences(this, m_xFtConstraint.get()); m_xRBRight4->SetReferences(this, m_xEdRight4.get()); mpLeftEdit[0] = m_xEdLeft1.get(); mpLeftButton[0] = m_xRBLeft1.get(); mpRightEdit[0] = m_xEdRight1.get(); mpRightButton[0] = m_xRBRight1.get(); mpOperator[0] = m_xLbOp1.get(); mpDelButton[0] = m_xBtnDel1.get(); mpLeftEdit[1] = m_xEdLeft2.get(); mpLeftButton[1] = m_xRBLeft2.get(); mpRightEdit[1] = m_xEdRight2.get(); mpRightButton[1] = m_xRBRight2.get(); mpOperator[1] = m_xLbOp2.get(); mpDelButton[1] = m_xBtnDel2.get(); mpLeftEdit[2] = m_xEdLeft3.get(); mpLeftButton[2] = m_xRBLeft3.get(); mpRightEdit[2] = m_xEdRight3.get(); mpRightButton[2] = m_xRBRight3.get(); mpOperator[2] = m_xLbOp3.get(); mpDelButton[2] = m_xBtnDel3.get(); mpLeftEdit[3] = m_xEdLeft4.get(); mpLeftButton[3] = m_xRBLeft4.get(); mpRightEdit[3] = m_xEdRight4.get(); mpRightButton[3] = m_xRBRight4.get(); mpOperator[3] = m_xLbOp4.get(); mpDelButton[3] = m_xBtnDel4.get(); Init( aCursorPos ); } ScOptSolverDlg::~ScOptSolverDlg() { } void ScOptSolverDlg::Init(const ScAddress& rCursorPos) { uno::Reference xFrame = GetBindings().GetActiveFrame(); auto xDelNm = vcl::CommandInfoProvider::GetXGraphicForCommand(u".uno:DeleteRows"_ustr, xFrame); for (weld::Button* pButton : mpDelButton) pButton->set_image(xDelNm); m_xBtnOpt->connect_clicked( LINK( this, ScOptSolverDlg, BtnHdl ) ); m_xBtnClose->connect_clicked( LINK( this, ScOptSolverDlg, BtnHdl ) ); m_xBtnSolve->connect_clicked( LINK( this, ScOptSolverDlg, BtnHdl ) ); m_xBtnResetAll->connect_clicked( LINK( this, ScOptSolverDlg, BtnHdl ) ); Link aEditLink = LINK( this, ScOptSolverDlg, GetEditFocusHdl ); Link aButtonLink = LINK( this, ScOptSolverDlg, GetButtonFocusHdl ); m_xEdObjectiveCell->SetGetFocusHdl( aEditLink ); m_xRBObjectiveCell->SetGetFocusHdl( aButtonLink ); m_xEdTargetValue->SetGetFocusHdl( aEditLink ); m_xRBTargetValue->SetGetFocusHdl( aButtonLink ); m_xEdVariableCells->SetGetFocusHdl( aEditLink ); m_xRBVariableCells->SetGetFocusHdl( aButtonLink ); Link aLink = LINK(this, ScOptSolverDlg, GetFocusHdl); m_xRbValue->connect_focus_in(aLink); for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { mpLeftEdit[nRow]->SetGetFocusHdl( aEditLink ); mpLeftButton[nRow]->SetGetFocusHdl( aButtonLink ); mpRightEdit[nRow]->SetGetFocusHdl( aEditLink ); mpRightButton[nRow]->SetGetFocusHdl( aButtonLink ); mpOperator[nRow]->connect_focus_in(aLink); } aEditLink = LINK( this, ScOptSolverDlg, LoseEditFocusHdl ); aButtonLink = LINK( this, ScOptSolverDlg, LoseButtonFocusHdl ); m_xEdObjectiveCell->SetLoseFocusHdl( aEditLink ); m_xRBObjectiveCell->SetLoseFocusHdl( aButtonLink ); m_xEdTargetValue->SetLoseFocusHdl( aEditLink ); m_xRBTargetValue-> SetLoseFocusHdl( aButtonLink ); m_xEdVariableCells->SetLoseFocusHdl( aEditLink ); m_xRBVariableCells->SetLoseFocusHdl( aButtonLink ); for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { mpLeftEdit[nRow]->SetLoseFocusHdl( aEditLink ); mpLeftButton[nRow]->SetLoseFocusHdl( aButtonLink ); mpRightEdit[nRow]->SetLoseFocusHdl( aEditLink ); mpRightButton[nRow]->SetLoseFocusHdl( aButtonLink ); } Link aCursorUp = LINK( this, ScOptSolverDlg, CursorUpHdl ); Link aCursorDown = LINK( this, ScOptSolverDlg, CursorDownHdl ); Link aCondModify = LINK( this, ScOptSolverDlg, CondModifyHdl ); for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { mpLeftEdit[nRow]->SetCursorLinks( aCursorUp, aCursorDown ); mpRightEdit[nRow]->SetCursorLinks( aCursorUp, aCursorDown ); mpLeftEdit[nRow]->SetModifyHdl( aCondModify ); mpRightEdit[nRow]->SetModifyHdl( aCondModify ); mpDelButton[nRow]->connect_clicked( LINK( this, ScOptSolverDlg, DelBtnHdl ) ); mpOperator[nRow]->connect_changed( LINK( this, ScOptSolverDlg, SelectHdl ) ); } m_xEdTargetValue->SetModifyHdl( LINK( this, ScOptSolverDlg, TargetModifyHdl ) ); Size aSize(m_xContents->get_preferred_size()); m_xContents->set_size_request(aSize.Width(), aSize.Height()); m_xScrollBar->connect_vadjustment_changed( LINK( this, ScOptSolverDlg, ScrollHdl ) ); m_xScrollBar->vadjustment_set_page_increment( EDIT_ROW_COUNT ); m_xScrollBar->vadjustment_set_page_size( EDIT_ROW_COUNT ); // Range is set in ShowConditions // get available solver implementations //! sort by descriptions? ScSolverUtil::GetImplementations( maImplNames, maDescriptions ); // Load existing settings stored in the tab LoadSolverSettings(); ShowConditions(); // If no objective cell has been loaded, then use the selected cell if (m_xEdObjectiveCell->GetText().isEmpty()) { OUString aCursorStr; if (!mrDoc.GetRangeAtBlock(ScRange(rCursorPos), aCursorStr)) aCursorStr = rCursorPos.Format(ScRefFlags::ADDR_ABS, nullptr, mrDoc.GetAddressConvention()); m_xEdObjectiveCell->SetRefString(aCursorStr); } m_xEdObjectiveCell->GrabFocus(); mpEdActive = m_xEdObjectiveCell.get(); } void ScOptSolverDlg::ReadConditions() { for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { sc::ModelConstraint aRowEntry; aRowEntry.aLeftStr = mpLeftEdit[nRow]->GetText(); aRowEntry.aRightStr = mpRightEdit[nRow]->GetText(); aRowEntry.nOperator = OperatorIndexToConstraintOperator(mpOperator[nRow]->get_active()); tools::Long nVecPos = nScrollPos + nRow; if ( nVecPos >= static_cast(m_aConditions.size()) && !aRowEntry.IsDefault() ) m_aConditions.resize( nVecPos + 1 ); if ( nVecPos < static_cast(m_aConditions.size()) ) m_aConditions[nVecPos] = std::move(aRowEntry); // remove default entries at the end size_t nSize = m_aConditions.size(); while ( nSize > 0 && m_aConditions[ nSize-1 ].IsDefault() ) --nSize; m_aConditions.resize( nSize ); } } void ScOptSolverDlg::ShowConditions() { for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { sc::ModelConstraint aRowEntry; tools::Long nVecPos = nScrollPos + nRow; if ( nVecPos < static_cast(m_aConditions.size()) ) aRowEntry = m_aConditions[nVecPos]; mpLeftEdit[nRow]->SetRefString( aRowEntry.aLeftStr ); mpRightEdit[nRow]->SetRefString( aRowEntry.aRightStr ); mpOperator[nRow]->set_active( aRowEntry.nOperator - 1); } // allow to scroll one page behind the visible or stored rows tools::Long nVisible = nScrollPos + EDIT_ROW_COUNT; tools::Long nMax = std::max( nVisible, static_cast(m_aConditions.size()) ); m_xScrollBar->vadjustment_configure(nScrollPos, 0, nMax + EDIT_ROW_COUNT, 1, EDIT_ROW_COUNT - 1, EDIT_ROW_COUNT); EnableButtons(); } void ScOptSolverDlg::EnableButtons() { for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { tools::Long nVecPos = nScrollPos + nRow; mpDelButton[nRow]->set_sensitive(nVecPos < static_cast(m_aConditions.size())); } } void ScOptSolverDlg::Close() { if (m_xOptDlg) m_xOptDlg->response(RET_CANCEL); assert(!m_xOptDlg); DoClose( ScOptSolverDlgWrapper::GetChildWindowId() ); } void ScOptSolverDlg::SetActive() { if ( mbDlgLostFocus ) { mbDlgLostFocus = false; if( mpEdActive ) mpEdActive->GrabFocus(); } else { m_xDialog->grab_focus(); } RefInputDone(); } void ScOptSolverDlg::SetReference( const ScRange& rRef, ScDocument& rDocP ) { if( !mpEdActive ) return; if ( rRef.aStart != rRef.aEnd ) RefInputStart(mpEdActive); // "target"/"value": single cell bool bSingle = ( mpEdActive == m_xEdObjectiveCell.get() || mpEdActive == m_xEdTargetValue.get() ); OUString aStr; ScAddress aAdr = rRef.aStart; ScRange aNewRef( rRef ); if ( bSingle ) aNewRef.aEnd = aAdr; OUString aName; if ( rDocP.GetRangeAtBlock( aNewRef, aName ) ) // named range: show name aStr = aName; else // format cell/range reference { ScRefFlags nFmt = ( aAdr.Tab() == mnCurTab ) ? ScRefFlags::ADDR_ABS : ScRefFlags::ADDR_ABS_3D; if ( bSingle ) aStr = aAdr.Format(nFmt, &rDocP, rDocP.GetAddressConvention()); else aStr = rRef.Format(rDocP, nFmt | ScRefFlags::RANGE_ABS, rDocP.GetAddressConvention()); } // variable cells can be several ranges, so only the selection is replaced if ( mpEdActive == m_xEdVariableCells.get() ) { OUString aVal = mpEdActive->GetText(); Selection aSel = mpEdActive->GetSelection(); aSel.Normalize(); aVal = aVal.replaceAt( aSel.Min(), aSel.Len(), aStr ); Selection aNewSel( aSel.Min(), aSel.Min()+aStr.getLength() ); mpEdActive->SetRefString( aVal ); mpEdActive->SetSelection( aNewSel ); } else mpEdActive->SetRefString( aStr ); ReadConditions(); EnableButtons(); // select "Value of" if a ref is input into "target" edit if ( mpEdActive == m_xEdTargetValue.get() ) m_xRbValue->set_active(true); } bool ScOptSolverDlg::IsRefInputMode() const { return mpEdActive != nullptr; } // Loads solver settings into the dialog void ScOptSolverDlg::LoadSolverSettings() { m_xEdObjectiveCell->SetRefString(m_pSolverSettings->GetParameter(sc::SP_OBJ_CELL)); m_xEdTargetValue->SetRefString(m_pSolverSettings->GetParameter(sc::SP_OBJ_VAL)); m_xEdVariableCells->SetRefString(m_pSolverSettings->GetParameter(sc::SP_VAR_CELLS)); // Objective type sc::ObjectiveType eType = m_pSolverSettings->GetObjectiveType(); switch (eType) { case sc::OT_MAXIMIZE : m_xRbMax->set_active(true); break; case sc::OT_MINIMIZE : m_xRbMin->set_active(true); break; case sc::OT_VALUE : m_xRbValue->set_active(true); break; } // Model constraints m_aConditions = m_pSolverSettings->GetConstraints(); // Loads solver engine name // If the solver engine in the current settings are not supported, use the first available maEngine = m_pSolverSettings->GetParameter(sc::SP_LO_ENGINE); if (!IsEngineAvailable(maEngine)) { maEngine = maImplNames[0]; m_pSolverSettings->SetParameter(sc::SP_LO_ENGINE, maEngine); } // Query current engine options maProperties = ScSolverUtil::GetDefaults(maEngine); m_pSolverSettings->GetEngineOptions(maProperties); } // Set solver settings and save them to the file // But first, checks if the settings have changed void ScOptSolverDlg::SaveSolverSettings() { // tdf#160104 If file does not have a solver model and the Solver dialog is set to its // default initial values (maximize is selected; no variable cells; no target value // and no constraints defined) then nothing needs to be saved if (!m_pSolverSettings->TabHasSolverModel() && m_xRbMax->get_active() && m_xEdTargetValue->GetText().isEmpty() && m_xEdVariableCells->GetText().isEmpty() && m_aConditions.size() == 0) return; // The current tab has a model; now we need to determined if it has been modified bool bModified = false; // Check objective cell, objective value and variable cells if (m_pSolverSettings->GetParameter(sc::SP_OBJ_CELL) != m_xEdObjectiveCell->GetText() || m_pSolverSettings->GetParameter(sc::SP_OBJ_VAL) != m_xEdTargetValue->GetText() || m_pSolverSettings->GetParameter(sc::SP_VAR_CELLS) != m_xEdVariableCells->GetText()) bModified = true; // Check selected objective type and save it if changed sc::ObjectiveType aType = sc::OT_MAXIMIZE; if (m_xRbMin->get_active()) aType = sc::OT_MINIMIZE; else if (m_xRbValue->get_active()) aType = sc::OT_VALUE; if (m_pSolverSettings->GetObjectiveType() != aType) bModified = true; // Check if model constraints changed std::vector vCurConditions = m_pSolverSettings->GetConstraints(); if (!bModified && vCurConditions.size() != m_aConditions.size()) bModified = true; else { // Here the size of both vectors is the same // Now it needs to check the contents of the constraints for (size_t i = 0; i < vCurConditions.size(); i++) { if (vCurConditions[i].aLeftStr != m_aConditions[i].aLeftStr || vCurConditions[i].nOperator != m_aConditions[i].nOperator || vCurConditions[i].aRightStr != m_aConditions[i].aRightStr) bModified = true; if (bModified) break; } } // Check if the solver engine name and its options have changed if (m_pSolverSettings->GetParameter(sc::SP_LO_ENGINE) != maEngine) { bModified = true; } else { // The solver engine hasn't changed, so we need to check if engine options changed // Query current engine options; here we start by creating a copy of maProperties // to ensure the order is the same css::uno::Sequence vCurOptions(maProperties); m_pSolverSettings->GetEngineOptions(vCurOptions); for (sal_Int32 i = 0; i < vCurOptions.getLength(); i++) { if (vCurOptions[i].Value != maProperties[i].Value) { bModified = true; break; } } } // Effectively save settings to file if modifications were made if (bModified) { m_pSolverSettings->SetParameter(sc::SP_OBJ_CELL, m_xEdObjectiveCell->GetText()); m_pSolverSettings->SetParameter(sc::SP_OBJ_VAL, m_xEdTargetValue->GetText()); m_pSolverSettings->SetParameter(sc::SP_VAR_CELLS, m_xEdVariableCells->GetText()); m_pSolverSettings->SetObjectiveType(aType); m_pSolverSettings->SetConstraints(m_aConditions); m_pSolverSettings->SetParameter(sc::SP_LO_ENGINE, maEngine); m_pSolverSettings->SetEngineOptions(maProperties); m_pSolverSettings->SaveSolverSettings(); } } // Test if a LO engine implementation exists bool ScOptSolverDlg::IsEngineAvailable(std::u16string_view sEngineName) { auto nIndex = comphelper::findValue(maImplNames, sEngineName); return nIndex != -1; } // Handler: IMPL_LINK(ScOptSolverDlg, BtnHdl, weld::Button&, rBtn, void) { auto xKeepAlive = shared_from_this(); if (&rBtn == m_xBtnSolve.get() || &rBtn == m_xBtnClose.get()) { bool bSolve = ( &rBtn == m_xBtnSolve.get() ); SetDispatcherLock( false ); SwitchToDocument(); bool bClose = true; if ( bSolve ) bClose = CallSolver(); if ( bClose ) { // Close: write dialog settings to DocShell for subsequent calls ReadConditions(); SaveSolverSettings(); response(RET_CLOSE); } else { // no solution -> dialog is kept open SetDispatcherLock( true ); } } else if (&rBtn == m_xBtnOpt.get()) { //! move options dialog to UI lib? m_xOptDlg = std::make_shared(m_xDialog.get(), maImplNames, maDescriptions, maEngine, maProperties); weld::DialogController::runAsync(m_xOptDlg, [this](sal_Int32 nResult){ if (nResult == RET_OK) { maEngine = m_xOptDlg->GetEngine(); maProperties = m_xOptDlg->GetProperties(); } m_xOptDlg.reset(); }); } else if (&rBtn == m_xBtnResetAll.get()) { OUString sEmpty; m_xEdObjectiveCell->SetText(sEmpty); m_xEdTargetValue->SetText(sEmpty); m_xEdVariableCells->SetText(sEmpty); // Get default property values of solver implementations maEngine = maImplNames[0]; maProperties = ScSolverUtil::GetDefaults( maEngine ); // Clear all conditions (Constraints) m_aConditions.clear(); ShowConditions(); m_xRbMax->set_active(true); m_xEdObjectiveCell->GrabFocus(); mpEdActive = m_xEdObjectiveCell.get(); } } IMPL_LINK( ScOptSolverDlg, GetEditFocusHdl, formula::RefEdit&, rCtrl, void ) { formula::RefEdit* pEdit = nullptr; mpEdActive = nullptr; if( &rCtrl == m_xEdObjectiveCell.get() ) pEdit = mpEdActive = m_xEdObjectiveCell.get(); else if( &rCtrl == m_xEdTargetValue.get() ) pEdit = mpEdActive = m_xEdTargetValue.get(); else if( &rCtrl == m_xEdVariableCells.get() ) pEdit = mpEdActive = m_xEdVariableCells.get(); for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { if( &rCtrl == mpLeftEdit[nRow] ) pEdit = mpEdActive = mpLeftEdit[nRow]; else if( &rCtrl == mpRightEdit[nRow] ) pEdit = mpEdActive = mpRightEdit[nRow]; } if( pEdit ) pEdit->SelectAll(); } IMPL_LINK( ScOptSolverDlg, GetButtonFocusHdl, formula::RefButton&, rCtrl, void ) { formula::RefEdit* pEdit = nullptr; mpEdActive = nullptr; if( &rCtrl == m_xRBObjectiveCell.get() ) pEdit = mpEdActive = m_xEdObjectiveCell.get(); else if( &rCtrl == m_xRBTargetValue.get() ) pEdit = mpEdActive = m_xEdTargetValue.get(); else if( &rCtrl == m_xRBVariableCells.get() ) pEdit = mpEdActive = m_xEdVariableCells.get(); for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { if( &rCtrl == mpLeftButton[nRow] ) pEdit = mpEdActive = mpLeftEdit[nRow]; else if( &rCtrl == mpRightButton[nRow] ) pEdit = mpEdActive = mpRightEdit[nRow]; } if( pEdit ) pEdit->SelectAll(); } IMPL_LINK(ScOptSolverDlg, GetFocusHdl, weld::Widget&, rCtrl, void) { if( &rCtrl == m_xRbValue.get() ) // focus on "Value of" radio button mpEdActive = m_xEdTargetValue.get(); // use value edit for ref input, but don't change selection else { for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) { if( &rCtrl == mpOperator[nRow] ) // focus on "operator" list box mpEdActive = mpRightEdit[nRow]; // use right edit for ref input, but don't change selection } } } IMPL_LINK_NOARG(ScOptSolverDlg, LoseEditFocusHdl, formula::RefEdit&, void) { mbDlgLostFocus = !m_xDialog->has_toplevel_focus(); } IMPL_LINK_NOARG(ScOptSolverDlg, LoseButtonFocusHdl, formula::RefButton&, void) { mbDlgLostFocus = !m_xDialog->has_toplevel_focus(); } IMPL_LINK(ScOptSolverDlg, DelBtnHdl, weld::Button&, rBtn, void) { for ( sal_uInt16 nRow = 0; nRow < EDIT_ROW_COUNT; ++nRow ) if (&rBtn == mpDelButton[nRow]) { bool bHadFocus = rBtn.has_focus(); ReadConditions(); tools::Long nVecPos = nScrollPos + nRow; if ( nVecPos < static_cast(m_aConditions.size()) ) { m_aConditions.erase( m_aConditions.begin() + nVecPos ); ShowConditions(); if ( bHadFocus && !rBtn.get_sensitive() ) { // If the button is disabled, focus would normally move to the next control, // (left edit of the next row). Move it to left edit of this row instead. mpEdActive = mpLeftEdit[nRow]; mpEdActive->GrabFocus(); } } } } IMPL_LINK_NOARG(ScOptSolverDlg, TargetModifyHdl, formula::RefEdit&, void) { // modify handler for the target edit: // select "Value of" if something is input into the edit if ( !m_xEdTargetValue->GetText().isEmpty() ) m_xRbValue->set_active(true); } IMPL_LINK_NOARG(ScOptSolverDlg, CondModifyHdl, formula::RefEdit&, void) { // modify handler for the condition edits, just to enable/disable "delete" buttons ReadConditions(); EnableButtons(); } IMPL_LINK_NOARG(ScOptSolverDlg, SelectHdl, weld::ComboBox&, void) { // select handler for operator list boxes, just to enable/disable "delete" buttons ReadConditions(); EnableButtons(); } IMPL_LINK_NOARG(ScOptSolverDlg, ScrollHdl, weld::ScrolledWindow&, void) { ReadConditions(); nScrollPos = m_xScrollBar->vadjustment_get_value(); ShowConditions(); if( mpEdActive ) mpEdActive->SelectAll(); } IMPL_LINK( ScOptSolverDlg, CursorUpHdl, ScCursorRefEdit&, rEdit, void ) { if ( &rEdit == mpLeftEdit[0] || &rEdit == mpRightEdit[0] ) { if ( nScrollPos > 0 ) { ReadConditions(); --nScrollPos; ShowConditions(); if( mpEdActive ) mpEdActive->SelectAll(); } } else { formula::RefEdit* pFocus = nullptr; for ( sal_uInt16 nRow = 1; nRow < EDIT_ROW_COUNT; ++nRow ) // second row or below: move focus { if ( &rEdit == mpLeftEdit[nRow] ) pFocus = mpLeftEdit[nRow-1]; else if ( &rEdit == mpRightEdit[nRow] ) pFocus = mpRightEdit[nRow-1]; } if (pFocus) { mpEdActive = pFocus; pFocus->GrabFocus(); } } } IMPL_LINK( ScOptSolverDlg, CursorDownHdl, ScCursorRefEdit&, rEdit, void ) { if ( &rEdit == mpLeftEdit[EDIT_ROW_COUNT-1] || &rEdit == mpRightEdit[EDIT_ROW_COUNT-1] ) { //! limit scroll position? ReadConditions(); ++nScrollPos; ShowConditions(); if( mpEdActive ) mpEdActive->SelectAll(); } else { formula::RefEdit* pFocus = nullptr; for ( sal_uInt16 nRow = 0; nRow+1 < EDIT_ROW_COUNT; ++nRow ) // before last row: move focus { if ( &rEdit == mpLeftEdit[nRow] ) pFocus = mpLeftEdit[nRow+1]; else if ( &rEdit == mpRightEdit[nRow] ) pFocus = mpRightEdit[nRow+1]; } if (pFocus) { mpEdActive = pFocus; pFocus->GrabFocus(); } } } // Converts the position of the operator in the dropdown menu to a ConstraintOperator type sc::ConstraintOperator ScOptSolverDlg::OperatorIndexToConstraintOperator(sal_Int32 nIndex) { switch(nIndex) { case 0 : return sc::CO_LESS_EQUAL; break; case 1 : return sc::CO_EQUAL; break; case 2 : return sc::CO_GREATER_EQUAL; break; case 3 : return sc::CO_INTEGER; break; case 4 : return sc::CO_BINARY; break; default : return sc::CO_LESS_EQUAL; break; } } void ScOptSolverDlg::ShowError( bool bCondition, formula::RefEdit* pFocus ) { OUString aMessage = bCondition ? maConditionError : maInputError; std::unique_ptr xBox(Application::CreateMessageDialog(m_xDialog.get(), VclMessageType::Warning, VclButtonsType::Ok, aMessage)); xBox->run(); if (pFocus) { mpEdActive = pFocus; pFocus->GrabFocus(); } } bool ScOptSolverDlg::ParseRef( ScRange& rRange, const OUString& rInput, bool bAllowRange ) { ScAddress::Details aDetails(mrDoc.GetAddressConvention(), 0, 0); ScRefFlags nFlags = rRange.ParseAny( rInput, mrDoc, aDetails ); if ( nFlags & ScRefFlags::VALID ) { if ( (nFlags & ScRefFlags::TAB_3D) == ScRefFlags::ZERO) rRange.aStart.SetTab( mnCurTab ); if ( (nFlags & ScRefFlags::TAB2_3D) == ScRefFlags::ZERO) rRange.aEnd.SetTab( rRange.aStart.Tab() ); return ( bAllowRange || rRange.aStart == rRange.aEnd ); } else if ( ScRangeUtil::MakeRangeFromName( rInput, mrDoc, mnCurTab, rRange, RUTL_NAMES, aDetails ) ) return ( bAllowRange || rRange.aStart == rRange.aEnd ); return false; // not recognized } bool ScOptSolverDlg::FindTimeout( sal_Int32& rTimeout ) { bool bFound = false; if ( !maProperties.hasElements() ) maProperties = ScSolverUtil::GetDefaults( maEngine ); // get property defaults from component sal_Int32 nPropCount = maProperties.getLength(); for (sal_Int32 nProp=0; nProp>= rTimeout ); } return bFound; } OUString ScOptSolverDlg::GetCellStrAddress(css::table::CellAddress aUnoAddress) { ScAddress aScAddr; ScUnoConversion::FillScAddress(aScAddr, aUnoAddress); ScRange aRange(aScAddr); return aRange.Format(mrDoc, ScRefFlags::RANGE_ABS); } bool ScOptSolverDlg::CallSolver() // return true -> close dialog after calling { // show progress dialog auto xProgress = std::make_shared(m_xDialog.get()); sal_Int32 nTimeout = 0; if ( FindTimeout( nTimeout ) ) xProgress->SetTimeLimit( nTimeout ); else xProgress->HideTimeLimit(); weld::DialogController::runAsync(xProgress, [](sal_Int32 /*nResult*/){}); // try to make sure the progress dialog is painted before continuing Application::Reschedule(true); // collect solver parameters ReadConditions(); rtl::Reference xDocument( mpDocShell->GetModel() ); ScRange aObjRange; if ( !ParseRef( aObjRange, m_xEdObjectiveCell->GetText(), false ) ) { ShowError( false, m_xEdObjectiveCell.get() ); return false; } table::CellAddress aObjective( aObjRange.aStart.Tab(), aObjRange.aStart.Col(), aObjRange.aStart.Row() ); // "changing cells" can be several ranges ScRangeList aVarRanges; if ( !ParseWithNames( aVarRanges, m_xEdVariableCells->GetText(), mrDoc ) ) { ShowError( false, m_xEdVariableCells.get() ); return false; } uno::Sequence aVariables; sal_Int32 nVarPos = 0; for ( size_t nRangePos=0, nRange = aVarRanges.size(); nRangePos < nRange; ++nRangePos ) { ScRange aRange( aVarRanges[ nRangePos ] ); aRange.PutInOrder(); SCTAB nTab = aRange.aStart.Tab(); // resolve into single cells sal_Int32 nAdd = ( aRange.aEnd.Col() - aRange.aStart.Col() + 1 ) * ( aRange.aEnd.Row() - aRange.aStart.Row() + 1 ); aVariables.realloc( nVarPos + nAdd ); auto pVariables = aVariables.getArray(); for (SCROW nRow = aRange.aStart.Row(); nRow <= aRange.aEnd.Row(); ++nRow) for (SCCOL nCol = aRange.aStart.Col(); nCol <= aRange.aEnd.Col(); ++nCol) pVariables[nVarPos++] = table::CellAddress( nTab, nCol, nRow ); } uno::Sequence aConstraints; sal_Int32 nConstrPos = 0; for ( const auto& rConstr : m_aConditions ) { if ( !rConstr.aLeftStr.isEmpty() ) { sheet::SolverConstraint aConstraint; // Order of list box entries must match enum values. // The enum SolverConstraintOperator starts at zero, whereas ConstraintOperator starts at 1 // hence we need to subtract -1 here aConstraint.Operator = static_cast(rConstr.nOperator - 1); ScRange aLeftRange; if ( !ParseRef( aLeftRange, rConstr.aLeftStr, true ) ) { ShowError( true, nullptr ); return false; } bool bIsRange = false; ScRange aRightRange; if ( ParseRef( aRightRange, rConstr.aRightStr, true ) ) { if ( aRightRange.aStart == aRightRange.aEnd ) aConstraint.Right <<= table::CellAddress( aRightRange.aStart.Tab(), aRightRange.aStart.Col(), aRightRange.aStart.Row() ); else if ( aRightRange.aEnd.Col()-aRightRange.aStart.Col() == aLeftRange.aEnd.Col()-aLeftRange.aStart.Col() && aRightRange.aEnd.Row()-aRightRange.aStart.Row() == aLeftRange.aEnd.Row()-aLeftRange.aStart.Row() ) bIsRange = true; // same size as "left" range, resolve into single cells else { ShowError( true, nullptr ); return false; } } else { sal_uInt32 nFormat = 0; //! explicit language? double fValue = 0.0; if ( mrDoc.GetFormatTable()->IsNumberFormat( rConstr.aRightStr, nFormat, fValue ) ) aConstraint.Right <<= fValue; else if ( aConstraint.Operator != sheet::SolverConstraintOperator_INTEGER && aConstraint.Operator != sheet::SolverConstraintOperator_BINARY ) { ShowError( true, nullptr ); return false; } } // resolve into single cells sal_Int32 nAdd = ( aLeftRange.aEnd.Col() - aLeftRange.aStart.Col() + 1 ) * ( aLeftRange.aEnd.Row() - aLeftRange.aStart.Row() + 1 ); aConstraints.realloc( nConstrPos + nAdd ); auto pConstraints = aConstraints.getArray(); for (SCROW nRow = aLeftRange.aStart.Row(); nRow <= aLeftRange.aEnd.Row(); ++nRow) for (SCCOL nCol = aLeftRange.aStart.Col(); nCol <= aLeftRange.aEnd.Col(); ++nCol) { aConstraint.Left = table::CellAddress( aLeftRange.aStart.Tab(), nCol, nRow ); if ( bIsRange ) aConstraint.Right <<= table::CellAddress( aRightRange.aStart.Tab(), aRightRange.aStart.Col() + ( nCol - aLeftRange.aStart.Col() ), aRightRange.aStart.Row() + ( nRow - aLeftRange.aStart.Row() ) ); pConstraints[nConstrPos++] = aConstraint; } } } bool bMaximize = m_xRbMax->get_active(); if ( m_xRbValue->get_active() ) { // handle "value of" with an additional constraint (and then minimize) sheet::SolverConstraint aConstraint; aConstraint.Left = aObjective; aConstraint.Operator = sheet::SolverConstraintOperator_EQUAL; OUString aValStr = m_xEdTargetValue->GetText(); ScRange aRightRange; if ( ParseRef( aRightRange, aValStr, false ) ) aConstraint.Right <<= table::CellAddress( aRightRange.aStart.Tab(), aRightRange.aStart.Col(), aRightRange.aStart.Row() ); else { sal_uInt32 nFormat = 0; //! explicit language? double fValue = 0.0; if ( mrDoc.GetFormatTable()->IsNumberFormat( aValStr, nFormat, fValue ) ) aConstraint.Right <<= fValue; else { ShowError( false, m_xEdTargetValue.get() ); return false; } } aConstraints.realloc( nConstrPos + 1 ); aConstraints.getArray()[nConstrPos++] = std::move(aConstraint); } // copy old document values sal_Int32 nVarCount = aVariables.getLength(); uno::Sequence aOldValues( nVarCount ); std::transform(std::cbegin(aVariables), std::cend(aVariables), aOldValues.getArray(), [this](const table::CellAddress& rVariable) -> double { ScAddress aCellPos; ScUnoConversion::FillScAddress( aCellPos, rVariable ); return mrDoc.GetValue( aCellPos ); }); // create and initialize solver uno::Reference xSolver = ScSolverUtil::GetSolver( maEngine ); OSL_ENSURE( xSolver.is(), "can't get solver component" ); if ( !xSolver.is() ) return false; xSolver->setDocument( xDocument ); xSolver->setObjective( aObjective ); xSolver->setVariables( aVariables ); xSolver->setConstraints( aConstraints ); xSolver->setMaximize( bMaximize ); // set options uno::Reference xOptProp(xSolver, uno::UNO_QUERY); if ( xOptProp.is() ) { for (const beans::PropertyValue& rValue : maProperties) { try { xOptProp->setPropertyValue( rValue.Name, rValue.Value ); } catch ( uno::Exception & ) { OSL_FAIL("Exception in solver option property"); } } } // tdf#162760 The solver engine may crash unexpectedly, so we need a try...catch here bool bSuccess(false); try { xSolver->solve(); bSuccess = xSolver->getSuccess(); } catch (const uno::RuntimeException&) { std::unique_ptr xBox(Application::CreateMessageDialog(m_xDialog.get(), VclMessageType::Error, VclButtonsType::Ok, ScResId(STR_SOLVER_ENGINE_ERROR))); xBox->run(); } xProgress->response(RET_CLOSE); bool bClose = false; bool bRestore = true; // restore old values unless a solution is accepted if ( bSuccess ) { // put solution into document so it is visible when asking uno::Sequence aSolution = xSolver->getSolution(); if ( aSolution.getLength() == nVarCount ) { mpDocShell->LockPaint(); ScDocFunc &rFunc = mpDocShell->GetDocFunc(); for (nVarPos=0; nVarPosUnlockPaint(); } //! else error? // take formatted result from document (result value from component is ignored) OUString aResultStr = mrDoc.GetString( static_cast(aObjective.Column), static_cast(aObjective.Row), static_cast(aObjective.Sheet)); ScSolverSuccessDialog aDialog(m_xDialog.get(), aResultStr); if (aDialog.run() == RET_OK) { // keep results and close dialog bRestore = false; bClose = true; } } else { OUString aError; uno::Reference xDesc( xSolver, uno::UNO_QUERY ); if ( xDesc.is() ) aError = xDesc->getStatusDescription(); // error description from component ScSolverNoSolutionDialog aDialog(m_xDialog.get(), aError); aDialog.run(); } if ( bRestore ) // restore old values { mpDocShell->LockPaint(); ScDocFunc &rFunc = mpDocShell->GetDocFunc(); for (nVarPos=0; nVarPosUnlockPaint(); } // Generate sensitivity report if user wants it uno::Reference xInfo = xOptProp->getPropertySetInfo(); bool bUserWantsReport = false; if (xInfo->hasPropertyByName("GenSensitivityReport")) xOptProp->getPropertyValue("GenSensitivityReport") >>= bUserWantsReport; if (bSuccess && bUserWantsReport) { // Retrieve the sensitivity analysis report css::sheet::SensitivityReport aSensitivity; bool bHasReportObj = xOptProp->getPropertyValue("SensitivityReport") >>= aSensitivity; if (bHasReportObj && aSensitivity.HasReport) { // Define the Tab name where the sensitivity analysis will be written to OUString sNewTabName; SCTAB nNewTab; mrDoc.GetName(mnCurTab, sNewTabName); sNewTabName += "_" + ScResId(STR_SENSITIVITY); // Check if the new Tab name exists if (mrDoc.GetTable(sNewTabName, nNewTab)) { // Add numbers to the end of the Tab name to make it unique SCTAB i = 1; OUString aName; do { i++; aName = sNewTabName + "_" + OUString::number(static_cast(i)); } while(mrDoc.GetTable(aName, nNewTab)); sNewTabName = aName; } // Insert new sheet to the document and start writing the report ScDocFunc &rFunc = mpDocShell->GetDocFunc(); rFunc.InsertTable(mnCurTab + 1, sNewTabName, false, false); SCTAB nReportTab; if (!mrDoc.GetTable(sNewTabName, nReportTab)) { SAL_WARN("sc", "Could not get the just inserted table!"); return false; } // Used to input data in the new sheet ScAddress aOutputAddress(0, 0, nReportTab); ScAddress::Details mAddressDetails(mrDoc, aOutputAddress); AddressWalkerWriter aOutput(aOutputAddress, mpDocShell, mrDoc, formula::FormulaGrammar::mergeToGrammar(formula::FormulaGrammar::GRAM_ENGLISH, mAddressDetails.eConv)); aOutput.writeBoldString(ScResId(STR_SENSITIVITY_TITLE)); aOutput.newLine(); aOutput.writeString(ScResId(STR_SOLVER_ENGINE) + " " + maEngine); aOutput.newLine(); aOutput.newLine(); // Objective cell section aOutput.writeBoldString(ScResId(STR_SENSITIVITY_OBJCELL)); aOutput.newLine(); aOutput.writeString(ScResId(STR_SENSITIVITY_CELL)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_FINALVALUE)); aOutput.newLine(); aOutput.writeString(GetCellStrAddress(xSolver->getObjective())); aOutput.nextColumn(); aOutput.writeValue(xSolver->getResultValue()); aOutput.newLine(); aOutput.newLine(); // Variable cell section aOutput.writeBoldString(ScResId(STR_SENSITIVITY_VARCELLS)); aOutput.newLine(); aOutput.writeString(ScResId(STR_SENSITIVITY_CELL)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_FINALVALUE)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_REDUCED)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_OBJCOEFF)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_DECREASE)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_INCREASE)); aOutput.newLine(); uno::Sequence aSolution = xSolver->getSolution(); uno::Sequence aObjCoefficients = aSensitivity.ObjCoefficients; uno::Sequence aObjReducedCosts = aSensitivity.ObjReducedCosts; uno::Sequence aObjAllowableDecreases = aSensitivity.ObjAllowableDecreases; uno::Sequence aObjAllowableIncreases = aSensitivity.ObjAllowableIncreases; for (sal_Int32 i = 0; i < aVariables.getLength(); i++) { aOutput.writeString(GetCellStrAddress(aVariables[i])); aOutput.nextColumn(); aOutput.writeValue(aSolution[i]); aOutput.nextColumn(); aOutput.writeValue(aObjReducedCosts[i]); aOutput.nextColumn(); aOutput.writeValue(aObjCoefficients[i]); aOutput.nextColumn(); aOutput.writeValue(aObjAllowableDecreases[i]); aOutput.nextColumn(); aOutput.writeValue(aObjAllowableIncreases[i]); aOutput.newLine(); } aOutput.newLine(); // Constraints section aOutput.writeBoldString(ScResId(STR_SENSITIVITY_CONSTRAINTS)); aOutput.newLine(); aOutput.writeString(ScResId(STR_SENSITIVITY_CELL)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_FINALVALUE)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_SHADOWPRICE)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_RHS)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_DECREASE)); aOutput.nextColumn(); aOutput.writeString(ScResId(STR_SENSITIVITY_INCREASE)); aOutput.newLine(); uno::Sequence aConstrValues = aSensitivity.ConstrValues; uno::Sequence aConstrRHS = aSensitivity.ConstrRHS; uno::Sequence aConstrShadowPrices = aSensitivity.ConstrShadowPrices; uno::Sequence aConstrAllowableDecreases = aSensitivity.ConstrAllowableDecreases; uno::Sequence aConstrAllowableIncreases = aSensitivity.ConstrAllowableIncreases; for (sal_Int32 i = 0; i < aConstraints.getLength(); i++) { aOutput.writeString(GetCellStrAddress(aConstraints[i].Left)); aOutput.nextColumn(); aOutput.writeValue(aConstrValues[i]); aOutput.nextColumn(); aOutput.writeValue(aConstrShadowPrices[i]); aOutput.nextColumn(); aOutput.writeValue(aConstrRHS[i]); aOutput.nextColumn(); aOutput.writeValue(aConstrAllowableDecreases[i]); aOutput.nextColumn(); aOutput.writeValue(aConstrAllowableIncreases[i]); aOutput.newLine(); } } } return bClose; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */