/* -*- 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/. * */ #include #include #include #include #include #include ScZTestDialog::ScZTestDialog( SfxBindings* pSfxBindings, SfxChildWindow* pChildWindow, weld::Window* pParent, ScViewData* pViewData ) : ScStatisticsTwoVariableDialog( pSfxBindings, pChildWindow, pParent, pViewData, "modules/scalc/ui/ztestdialog.ui", "ZTestDialog") { m_xDialog->set_title(ScResId(STR_ZTEST)); } ScZTestDialog::~ScZTestDialog() {} void ScZTestDialog::Close() { DoClose( ScZTestDialogWrapper::GetChildWindowId() ); } const char* ScZTestDialog::GetUndoNameId() { return STR_ZTEST_UNDO_NAME; } ScRange ScZTestDialog::ApplyOutput(ScDocShell* pDocShell) { AddressWalkerWriter aOutput(mOutputAddress, pDocShell, mDocument, formula::FormulaGrammar::mergeToGrammar( formula::FormulaGrammar::GRAM_ENGLISH, mAddressDetails.eConv)); FormulaTemplate aTemplate(mDocument); std::unique_ptr pVariable1Iterator; if (mGroupedBy == BY_COLUMN) pVariable1Iterator.reset(new DataRangeByColumnIterator(mVariable1Range)); else pVariable1Iterator.reset(new DataRangeByRowIterator(mVariable1Range)); std::unique_ptr pVariable2Iterator; if (mGroupedBy == BY_COLUMN) pVariable2Iterator.reset(new DataRangeByColumnIterator(mVariable2Range)); else pVariable2Iterator.reset(new DataRangeByRowIterator(mVariable2Range)); aTemplate.autoReplaceRange("%VARIABLE1_RANGE%", pVariable1Iterator->get()); aTemplate.autoReplaceRange("%VARIABLE2_RANGE%", pVariable2Iterator->get()); aOutput.writeBoldString(ScResId(STR_ZTEST)); aOutput.newLine(); // Alpha aOutput.writeString(ScResId(STR_LABEL_ALPHA)); aOutput.nextColumn(); aOutput.writeValue(0.05); aTemplate.autoReplaceAddress("%ALPHA%", aOutput.current()); aOutput.newLine(); // Hypothesized mean difference aOutput.writeString(ScResId(STR_HYPOTHESIZED_MEAN_DIFFERENCE_LABEL)); aOutput.nextColumn(); aOutput.writeValue(0); aTemplate.autoReplaceAddress("%HYPOTHESIZED_MEAN_DIFFERENCE%", aOutput.current()); aOutput.newLine(); // Variable Label aOutput.nextColumn(); aOutput.writeBoldString(ScResId(STR_VARIABLE_1_LABEL)); aOutput.nextColumn(); aOutput.writeBoldString(ScResId(STR_VARIABLE_2_LABEL)); aOutput.newLine(); // Known Variance aOutput.writeString(ScResId(STR_ZTEST_KNOWN_VARIANCE)); aOutput.nextColumn(); aOutput.writeValue(0); aTemplate.autoReplaceAddress("%KNOWN_VARIANCE_VARIABLE1%", aOutput.current()); aOutput.nextColumn(); aOutput.writeValue(0); aTemplate.autoReplaceAddress("%KNOWN_VARIANCE_VARIABLE2%", aOutput.current()); aOutput.newLine(); // Mean aOutput.writeString(ScResId(STRID_CALC_MEAN)); aOutput.nextColumn(); aTemplate.setTemplate("=AVERAGE(%VARIABLE1_RANGE%)"); aTemplate.autoReplaceAddress("%MEAN_VARIABLE1%", aOutput.current()); aOutput.writeFormula(aTemplate.getTemplate()); aOutput.nextColumn(); aTemplate.setTemplate("=AVERAGE(%VARIABLE2_RANGE%)"); aTemplate.autoReplaceAddress("%MEAN_VARIABLE2%", aOutput.current()); aOutput.writeFormula(aTemplate.getTemplate()); aOutput.newLine(); // Observations aOutput.writeString(ScResId(STR_OBSERVATIONS_LABEL)); aOutput.nextColumn(); aTemplate.setTemplate("=COUNT(%VARIABLE1_RANGE%)"); aOutput.writeFormula(aTemplate.getTemplate()); aTemplate.autoReplaceAddress("%OBSERVATION_VARIABLE1%", aOutput.current()); aOutput.nextColumn(); aTemplate.setTemplate("=COUNT(%VARIABLE2_RANGE%)"); aOutput.writeFormula(aTemplate.getTemplate()); aTemplate.autoReplaceAddress("%OBSERVATION_VARIABLE2%", aOutput.current()); aOutput.newLine(); // Observed mean difference aOutput.writeString(ScResId(STR_OBSERVED_MEAN_DIFFERENCE_LABEL)); aOutput.nextColumn(); aTemplate.setTemplate("=%MEAN_VARIABLE1% - %MEAN_VARIABLE2%"); aOutput.writeMatrixFormula(aTemplate.getTemplate()); aTemplate.autoReplaceAddress("%OBSERVED_MEAN_DIFFERENCE%", aOutput.current()); aOutput.newLine(); // z aOutput.writeString(ScResId(STR_ZTEST_Z_VALUE)); aOutput.nextColumn(); aTemplate.setTemplate("=(%OBSERVED_MEAN_DIFFERENCE% - %HYPOTHESIZED_MEAN_DIFFERENCE%) / SQRT( %KNOWN_VARIANCE_VARIABLE1% / %OBSERVATION_VARIABLE1% + %KNOWN_VARIANCE_VARIABLE2% / %OBSERVATION_VARIABLE2% )"); aOutput.writeFormula(aTemplate.getTemplate()); aTemplate.autoReplaceAddress("%Z_STAT%", aOutput.current()); aOutput.newLine(); // P one-tail aOutput.writeString(ScResId(STR_ZTEST_P_ONE_TAIL)); aOutput.nextColumn(); aTemplate.setTemplate("=1 - NORMSDIST(ABS(%Z_STAT%))"); aOutput.writeFormula(aTemplate.getTemplate()); aOutput.newLine(); // z critical one-tail aOutput.writeString(ScResId(STR_ZTEST_Z_CRITICAL_ONE_TAIL)); aOutput.nextColumn(); aTemplate.setTemplate("=-NORMSINV(%ALPHA%)"); aOutput.writeFormula(aTemplate.getTemplate()); aOutput.newLine(); // P two-tail aOutput.writeString(ScResId(STR_ZTEST_P_TWO_TAIL)); aOutput.nextColumn(); aTemplate.setTemplate("=2 * NORMSDIST(-ABS(%Z_STAT%))"); aOutput.writeFormula(aTemplate.getTemplate()); aOutput.newLine(); // z critical two-tail aOutput.writeString(ScResId(STR_ZTEST_Z_CRITICAL_TWO_TAIL)); aOutput.nextColumn(); aTemplate.setTemplate("=-NORMSINV(%ALPHA%/2)"); aOutput.writeFormula(aTemplate.getTemplate()); return ScRange(aOutput.mMinimumAddress, aOutput.mMaximumAddress); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */