/*************************************************************************** * Copyright (C) 2005 by Niklas Knutsson * * nq@altern.org * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ #include "qalculateinsertmatrixvectordialog.h" #include "qalculate_tde_utils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern PrintOptions printops; class QalculateInsertMatrixTableItem : public TQTableItem { public: QalculateInsertMatrixTableItem(TQTable *table); QalculateInsertMatrixTableItem(TQTable *table, const TQString & text); int alignment() const; }; class QalculateInsertMatrixTable : public TQTable { public: QalculateInsertMatrixTable(TQWidget *parent = 0, const char *name = 0) : TQTable(parent, name) {} QalculateInsertMatrixTable(int numRows, int numCols, TQWidget *parent = 0, const char *name = 0) : TQTable(numRows, numCols, parent, name) {} TQWidget *beginEdit(int row, int col, bool replace) { TQWidget *w = TQTable::beginEdit(row, col, replace); ((TQLineEdit*) w)->selectAll(); return w; } }; QalculateInsertMatrixVectorDialog::QalculateInsertMatrixVectorDialog(TQWidget *parent, const char *name) : KDialogBase(parent, name, true, i18n("Edit Variable"), Ok | Cancel | User1, Ok, true, KGuiItem(i18n("Insert Selection"))) { setMainWidget(new TQWidget(this)); TQGridLayout *grid = new TQGridLayout(mainWidget(), 1, 1, 0, spacingHint()); grid->addWidget(new TQLabel(i18n("Rows:"), mainWidget()), 0, 0); rowsBox = new TQSpinBox(1, 1000, 1, mainWidget()); grid->addWidget(rowsBox, 0, 1); grid->addWidget(new TQLabel(i18n("Columns:"), mainWidget()), 1, 0); columnsBox = new TQSpinBox(1, 1000, 1, mainWidget()); grid->addWidget(columnsBox, 1, 1); TQHBoxLayout *hbox = new TQHBoxLayout(0, 0, spacingHint()); grid->addMultiCellLayout(hbox, 2, 2, 0, 1); hbox->addItem(new TQSpacerItem(0, 0, TQSizePolicy::Expanding, TQSizePolicy::Minimum)); TQButtonGroup *group = new TQButtonGroup(); matrixButton = new TQRadioButton(i18n("Matrix"), mainWidget()); group->insert(matrixButton, 0); hbox->addWidget(matrixButton); vectorButton = new TQRadioButton(i18n("Vector"), mainWidget()); group->insert(vectorButton, 1); hbox->addWidget(vectorButton); elementsLabel = new TQLabel(i18n("Elements:"), mainWidget()); grid->addMultiCellWidget(elementsLabel, 3, 3, 0, 1); elementsTable = new QalculateInsertMatrixTable(0, 0, mainWidget()); grid->addMultiCellWidget(elementsTable, 4, 4, 0, 1); elementsTable->setSelectionMode(TQTable::Single); insertSelectionButton = actionButton(User1); onSelectionChanged(); connect(insertSelectionButton, TQ_SIGNAL(clicked()), this, TQ_SLOT(insertSelection())); connect(elementsTable, TQ_SIGNAL(selectionChanged()), this, TQ_SLOT(onSelectionChanged())); connect(rowsBox, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(rowsChanged(int))); connect(columnsBox, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(columnsChanged(int))); connect(group, TQ_SIGNAL(clicked(int)), this, TQ_SLOT(typeChanged(int))); } QalculateInsertMatrixVectorDialog::~QalculateInsertMatrixVectorDialog() {} void QalculateInsertMatrixVectorDialog::onSelectionChanged() { insertSelectionButton->setEnabled(elementsTable->currentSelection() >= 0); } void QalculateInsertMatrixVectorDialog::typeChanged(int i) { if(i == 0) { elementsLabel->setText(i18n("Elements:")); bool b = true; for(int index_r = elementsTable->numRows() - 1; index_r >= 0 && b; index_r--) { for(int index_c = elementsTable->numCols() - 1; index_c >= 0; index_c--) { if(elementsTable->text(index_r, index_c).isEmpty()) { elementsTable->setText(index_r, index_c, "0"); } else { b = false; break; } } } } else { elementsLabel->setText(i18n("Elements (in horizontal order):")); } } void QalculateInsertMatrixVectorDialog::rowsChanged(int i) { int r = elementsTable->numRows(); elementsTable->setNumRows(i); bool b = matrixButton->isChecked(); for(int index_r = r; index_r < i; index_r++) { for(int index_c = 0; index_c < elementsTable->numCols(); index_c++) { if(b) elementsTable->setItem(index_r, index_c, new QalculateInsertMatrixTableItem(elementsTable, "0")); else elementsTable->setItem(index_r, index_c, new QalculateInsertMatrixTableItem(elementsTable)); } } } void QalculateInsertMatrixVectorDialog::columnsChanged(int i) { int c = elementsTable->numCols(); elementsTable->setNumCols(i); bool b = matrixButton->isChecked(); for(int index_r = 0; index_r < elementsTable->numRows(); index_r++) { for(int index_c = c; index_c < i; index_c++) { if(b) elementsTable->setItem(index_r, index_c, new QalculateInsertMatrixTableItem(elementsTable, "0")); else elementsTable->setItem(index_r, index_c, new QalculateInsertMatrixTableItem(elementsTable)); } } } TQString QalculateInsertMatrixVectorDialog::newVector() { return editMatrixVector(NULL, true); } TQString QalculateInsertMatrixVectorDialog::newMatrix() { return editMatrixVector(NULL, false); } void QalculateInsertMatrixVectorDialog::slotOk() { int r = rowsBox->value(); int c = columnsBox->value(); if(vectorButton->isChecked()) { bool b = false; matrixstr = "["; for(int index_r = 0; index_r < r; index_r++) { for(int index_c = 0; index_c < c; index_c++) { if(!elementsTable->text(index_r, index_c).isEmpty()) { TQString str2 = elementsTable->text(index_r, index_c).stripWhiteSpace(); if(!str2.isEmpty()) { if(b) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b = true; } matrixstr += str2; } } } } matrixstr += "]"; } else { matrixstr = "["; bool b1 = false; for(int index_r = 0; index_r < r; index_r++) { if(b1) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b1 = true; } matrixstr += "["; bool b2 = false; for(int index_c = 0; index_c < c; index_c++) { if(b2) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b2 = true; } matrixstr += elementsTable->text(index_r, index_c).stripWhiteSpace(); } matrixstr += "]"; } matrixstr += "]"; } accept(); } void QalculateInsertMatrixVectorDialog::insertSelection() { TQTableSelection sel = elementsTable->selection(elementsTable->currentSelection()); if(vectorButton->isChecked()) { bool b = false; matrixstr = "["; for(int index_r = sel.topRow(); index_r <= sel.bottomRow(); index_r++) { for(int index_c = sel.leftCol(); index_c <= sel.rightCol(); index_c++) { if(!elementsTable->text(index_r, index_c).isEmpty()) { TQString str2 = elementsTable->text(index_r, index_c).stripWhiteSpace(); if(!str2.isEmpty()) { if(b) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b = true; } matrixstr += str2; } } } } matrixstr += "]"; } else { matrixstr = "["; bool b1 = false; for(int index_r = sel.topRow(); index_r <= sel.bottomRow(); index_r++) { if(b1) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b1 = true; } matrixstr += "["; bool b2 = false; for(int index_c = sel.leftCol(); index_c <= sel.rightCol(); index_c++) { if(b2) { matrixstr += CALCULATOR->getComma().c_str(); matrixstr += " "; } else { b2 = true; } matrixstr += elementsTable->text(index_r, index_c).stripWhiteSpace(); } matrixstr += "]"; } matrixstr += "]"; } accept(); } TQString QalculateInsertMatrixVectorDialog::editMatrixVector(const MathStructure *initial_value, bool create_vector, bool is_text_struct, bool is_result) { if(initial_value && !initial_value->isVector()) { return NULL; } if(initial_value) { create_vector = !initial_value->isMatrix(); } if(create_vector) { vectorButton->setChecked(true); elementsLabel->setText(i18n("Elements (in horizontal order):")); } else { matrixButton->setChecked(true); elementsLabel->setText(i18n("Elements:")); } if(is_result) { #if TDE_VERSION_MAJOR < 4 && TDE_VERSION_MINOR < 2 setButtonOKText(i18n("Insert")); setButtonCancelText(KStdGuiItem::close().text()); #else #if TDE_VERSION_MAJOR < 4 && TDE_VERSION_MINOR < 3 setButtonOK(KGuiItem(i18n("Insert"))); #else setButtonOK(KStdGuiItem::insert()); #endif setButtonCancel(KStdGuiItem::close()); #endif actionButton(Cancel)->setDefault(true); actionButton(Cancel)->setFocus(); if(create_vector) { setCaption(i18n("Vector Result")); } else { setCaption(i18n("Matrix Result")); } } else { #if TDE_VERSION_MAJOR < 4 && TDE_VERSION_MINOR < 2 setButtonOKText(KStdGuiItem::ok().text()); setButtonCancelText(KStdGuiItem::cancel().text()); #else setButtonOK(KStdGuiItem::ok()); setButtonCancel(KStdGuiItem::cancel()); #endif actionButton(Ok)->setDefault(true); elementsTable->setFocus(); if(create_vector) { setCaption(i18n("Vector")); } else { setCaption(i18n("Matrix")); } } int r = 4, c = 4; if(create_vector) { if(initial_value) { r = initial_value->countChildren(); c = (int) ::sqrt(r) + 4; if(r % c > 0) { r = r / c + 1; } else { r = r / c; } } else { c = 4; r = 4; } } else if(initial_value) { c = initial_value->columns(); r = initial_value->rows(); } rowsBox->setValue(r); columnsBox->setValue(c); elementsTable->setNumRows(r); elementsTable->setNumCols(c); int timeout; if(initial_value) timeout = 3000 / (r * c); else timeout = 3000; printops.can_display_unicode_string_arg = (void*) elementsTable; for(int index_r = 0; index_r < r; index_r++) { for(int index_c = 0; index_c < c; index_c++) { if(create_vector) { if(initial_value && index_r * c + index_c < (int) initial_value->countChildren()) { if(is_text_struct) elementsTable->setText(index_r, index_c, initial_value->getChild(index_r * c + index_c + 1)->symbol().c_str()); else elementsTable->setText(index_r, index_c, initial_value->getChild(index_r * c + index_c + 1)->print(printops).c_str()); } else { elementsTable->setText(index_r, index_c, ""); } } else { if(initial_value) { if(is_text_struct) elementsTable->setText(index_r, index_c, initial_value->getElement(index_r + 1, index_c + 1)->symbol().c_str()); else elementsTable->setText(index_r, index_c, initial_value->getElement(index_r + 1, index_c + 1)->print(printops).c_str()); } else { elementsTable->setText(index_r, index_c, "0"); } } } } printops.can_display_unicode_string_arg = NULL; matrixstr = ""; onSelectionChanged(); exec(); return matrixstr; } #if TQT_VERSION >= 0x030200 QalculateInsertMatrixTableItem::QalculateInsertMatrixTableItem(TQTable *table) : TQTableItem(table, TQTableItem::OnTyping) {} #else QalculateInsertMatrixTableItem::QalculateInsertMatrixTableItem(TQTable *table) : TQTableItem(table, TQTableItem::OnTyping, TQString::null) {} #endif QalculateInsertMatrixTableItem::QalculateInsertMatrixTableItem(TQTable *table, const TQString & text) : TQTableItem(table, TQTableItem::OnTyping, text) {} int QalculateInsertMatrixTableItem::alignment() const {return TQt::AlignRight;} #include "qalculateinsertmatrixvectordialog.moc"