#include "store_controller.h" #include "../apps_container.h" #include "../shared/poincare_helpers.h" #include "../constant.h" #include #include using namespace Poincare; namespace Shared { StoreController::ContentView::ContentView(DoublePairStore * store, Responder * parentResponder, TableViewDataSource * dataSource, SelectableTableViewDataSource * selectionDataSource, TextFieldDelegate * textFieldDelegate) : View(), Responder(parentResponder), m_dataView(store, this, dataSource, selectionDataSource), m_formulaInputView(this, textFieldDelegate), m_displayFormulaInputView(false) { m_dataView.setBackgroundColor(Palette::WallScreenDark); m_dataView.setVerticalCellOverlap(0); m_dataView.setMargins(k_margin, k_scrollBarMargin, k_scrollBarMargin, k_margin); } void StoreController::ContentView::displayFormulaInput(bool display) { if (m_displayFormulaInputView != display) { m_displayFormulaInputView = display; layoutSubviews(); markRectAsDirty(bounds()); } } void StoreController::ContentView::didBecomeFirstResponder() { app()->setFirstResponder(m_displayFormulaInputView ? static_cast(&m_formulaInputView) : static_cast(&m_dataView)); } View * StoreController::ContentView::subviewAtIndex(int index) { assert(index >= 0 && index < numberOfSubviews()); View * views[] = {&m_dataView, &m_formulaInputView}; return views[index]; } void StoreController::ContentView::layoutSubviews() { KDRect dataViewFrame(0, 0, bounds().width(), bounds().height() - (m_displayFormulaInputView ? k_formulaInputHeight : 0)); m_dataView.setFrame(dataViewFrame); m_formulaInputView.setFrame(formulaFrame()); } KDRect StoreController::ContentView::formulaFrame() const { return KDRect(0, bounds().height() - k_formulaInputHeight, bounds().width(), m_displayFormulaInputView ? k_formulaInputHeight : 0); } StoreController::StoreController(Responder * parentResponder, DoublePairStore * store, ButtonRowController * header) : EditableCellTableViewController(parentResponder), ButtonRowDelegate(header, nullptr), m_editableCells{}, m_store(store) { } void StoreController::displayFormulaInput() { setFormulaLabel(); contentView()->displayFormulaInput(true); } bool StoreController::textFieldShouldFinishEditing(TextField * textField, Ion::Events::Event event) { if (textField == contentView()->formulaInputView()->textField()) { return event == Ion::Events::OK || event == Ion::Events::EXE; } return EditableCellTableViewController::textFieldShouldFinishEditing(textField, event); } bool StoreController::textFieldDidFinishEditing(TextField * textField, const char * text, Ion::Events::Event event) { if (textField == contentView()->formulaInputView()->textField()) { // Handle formula input Expression * expression = Expression::parse(textField->text()); if (expression == nullptr) { app()->displayWarning(I18n::Message::SyntaxError); return false; } contentView()->displayFormulaInput(false); if (fillColumnWithFormula(expression)) { app()->setFirstResponder(contentView()); } delete expression; return true; } AppsContainer * appsContainer = ((TextFieldDelegateApp *)app())->container(); Context * globalContext = appsContainer->globalContext(); double floatBody = PoincareHelpers::ApproximateToScalar(text, *globalContext); if (std::isnan(floatBody) || std::isinf(floatBody)) { app()->displayWarning(I18n::Message::UndefinedValue); return false; } if (!setDataAtLocation(floatBody, selectedColumn(), selectedRow())) { app()->displayWarning(I18n::Message::ForbiddenValue); return false; } // FIXME Find out if redrawing errors can be suppressed without always reloading all the data selectableTableView()->reloadData(); if (event == Ion::Events::EXE || event == Ion::Events::OK) { selectableTableView()->selectCellAtLocation(selectedColumn(), selectedRow()+1); } else { selectableTableView()->handleEvent(event); } return true; } bool StoreController::textFieldDidAbortEditing(TextField * textField) { if (textField == contentView()->formulaInputView()->textField()) { contentView()->displayFormulaInput(false); app()->setFirstResponder(contentView()); return true; } return EditableCellTableViewController::textFieldDidAbortEditing(textField); } int StoreController::numberOfColumns() { return DoublePairStore::k_numberOfColumnsPerSeries * DoublePairStore::k_numberOfSeries; } KDCoordinate StoreController::columnWidth(int i) { return k_cellWidth; } KDCoordinate StoreController::cumulatedWidthFromIndex(int i) { return i*k_cellWidth; } int StoreController::indexFromCumulatedWidth(KDCoordinate offsetX) { return (offsetX-1) / k_cellWidth; } HighlightCell * StoreController::reusableCell(int index, int type) { assert(index >= 0); switch (type) { case k_titleCellType: assert(index < k_numberOfTitleCells); return titleCells(index); case k_editableCellType: assert(index < k_maxNumberOfEditableCells); return m_editableCells[index]; default: assert(false); return nullptr; } } int StoreController::reusableCellCount(int type) { return type == k_titleCellType ? k_numberOfTitleCells : k_maxNumberOfEditableCells; } int StoreController::typeAtLocation(int i, int j) { return j == 0 ? k_titleCellType : k_editableCellType; } void StoreController::willDisplayCellAtLocation(HighlightCell * cell, int i, int j) { // Handle the separator if (cellAtLocationIsEditable(i, j)) { bool shouldHaveLeftSeparator = i % DoublePairStore::k_numberOfColumnsPerSeries == 0; static_cast(cell)->setSeparatorLeft(shouldHaveLeftSeparator); } // Handle empty cells if (j > 0 && j > m_store->numberOfPairsOfSeries(seriesAtColumn(i)) && j < numberOfRows()) { StoreCell * myCell = static_cast(cell); myCell->editableTextCell()->textField()->setText(""); if (cellShouldBeTransparent(i,j)) { myCell->setHide(true); } else { myCell->setEven(j%2 == 0); myCell->setHide(false); } return; } if (cellAtLocationIsEditable(i, j)) { static_cast(cell)->setHide(false); } willDisplayCellAtLocationWithDisplayMode(cell, i, j, PrintFloat::Mode::Decimal); } const char * StoreController::title() { return I18n::translate(I18n::Message::DataTab); } bool StoreController::handleEvent(Ion::Events::Event event) { if (event == Ion::Events::Up && !static_cast(view())->formulaInputView()->textField()->isEditing()) { selectableTableView()->deselectTable(); assert(selectedRow() == -1); app()->setFirstResponder(tabController()); return true; } assert(selectedColumn() >= 0 && selectedColumn() < numberOfColumns()); int series = seriesAtColumn(selectedColumn()); if ((event == Ion::Events::OK || event == Ion::Events::EXE) && selectedRow() == 0) { storeParameterController()->selectXColumn(selectedColumn()%DoublePairStore::k_numberOfColumnsPerSeries == 0); storeParameterController()->selectSeries(series); StackViewController * stack = ((StackViewController *)parentResponder()->parentResponder()); stack->push(storeParameterController()); return true; } if (event == Ion::Events::Backspace) { if (selectedRow() == 0 || selectedRow() > m_store->numberOfPairsOfSeries(selectedColumn()/DoublePairStore::k_numberOfColumnsPerSeries)) { return false; } m_store->deletePairOfSeriesAtIndex(series, selectedRow()-1); selectableTableView()->reloadData(); return true; } return false; } void StoreController::didBecomeFirstResponder() { if (selectedRow() < 0 || selectedColumn() < 0) { selectCellAtLocation(0, 0); } EditableCellTableViewController::didBecomeFirstResponder(); app()->setFirstResponder(contentView()); } Responder * StoreController::tabController() const { return (parentResponder()->parentResponder()->parentResponder()); } SelectableTableView * StoreController::selectableTableView() { return contentView()->dataView(); } bool StoreController::cellAtLocationIsEditable(int columnIndex, int rowIndex) { if (rowIndex > 0) { return true; } return false; } bool StoreController::setDataAtLocation(double floatBody, int columnIndex, int rowIndex) { m_store->set(floatBody, seriesAtColumn(columnIndex), columnIndex%DoublePairStore::k_numberOfColumnsPerSeries, rowIndex-1); return true; } double StoreController::dataAtLocation(int columnIndex, int rowIndex) { return m_store->get(seriesAtColumn(columnIndex), columnIndex%DoublePairStore::k_numberOfColumnsPerSeries, rowIndex-1); } int StoreController::numberOfElements() { int result = 0; for (int i = 0; i < DoublePairStore::k_numberOfSeries; i++) { result = max(result, m_store->numberOfPairsOfSeries(i)); } return result; } int StoreController::maxNumberOfElements() const { return DoublePairStore::k_maxNumberOfPairs; } View * StoreController::loadView() { ContentView * contentView = new ContentView(m_store, this, this, this, this); for (int i = 0; i < k_maxNumberOfEditableCells; i++) { m_editableCells[i] = new StoreCell(contentView->dataView(), this, m_draftTextBuffer); } return contentView; } void StoreController::unloadView(View * view) { for (int i = 0; i < k_maxNumberOfEditableCells; i++) { delete m_editableCells[i]; m_editableCells[i] = nullptr; } delete view; } bool StoreController::privateFillColumnWithFormula(Expression * formula, Expression::isVariableTest isVariable) { int currentColumn = selectedColumn(); // Fetch the series used in the formula to compute the size of the filled in series char variables[Expression::k_maxNumberOfVariables]; variables[0] = 0; formula->getVariables(isVariable, variables); int numberOfValuesToCompute = -1; int index = 0; while (variables[index] != 0) { const char * seriesName = Symbol::textForSpecialSymbols(variables[index]); assert(strlen(seriesName) == 2); int series = (int)(seriesName[1] - '0') - 1; assert(series >= 0 && series < DoublePairStore::k_numberOfSeries); if (numberOfValuesToCompute == -1) { numberOfValuesToCompute = m_store->numberOfPairsOfSeries(series); } else { numberOfValuesToCompute = min(numberOfValuesToCompute, m_store->numberOfPairsOfSeries(series)); } index++; } if (numberOfValuesToCompute == -1) { numberOfValuesToCompute = m_store->numberOfPairsOfSeries(selectedColumn()/DoublePairStore::k_numberOfColumnsPerSeries); } StoreContext * store = storeContext(); // Make sure no value is undef, else display an error for (int j = 0; j < numberOfValuesToCompute; j++) { // Set the context store->setSeriesPairIndex(j); // Compute the new value using the formula double evaluation = PoincareHelpers::ApproximateToScalar(formula, *store); if (std::isnan(evaluation) || std::isinf(evaluation)) { app()->displayWarning(I18n::Message::DataNotSuitable); return false; } } // Fill in the table with the formula values for (int j = 0; j < numberOfValuesToCompute; j++) { store->setSeriesPairIndex(j); double evaluation = PoincareHelpers::ApproximateToScalar(formula, *store); setDataAtLocation(evaluation, currentColumn, j + 1); } selectableTableView()->reloadData(); return true; } bool StoreController::cellShouldBeTransparent(int i, int j) { int seriesIndex = i/DoublePairStore::k_numberOfColumnsPerSeries; return j > 1 + m_store->numberOfPairsOfSeries(seriesIndex); } }