diff --git a/ChangeLog b/ChangeLog index d4409b079..257cf5f66 100644 --- a/ChangeLog +++ b/ChangeLog @@ -1,267 +1,268 @@ -----2.7----- New features: * Allow to move objects (drag&drop) to different folders in the project explorer * [spreadsheet] allow to insert multiple rows and columns in one step * [spreadsheet] improved the handling of calculated columns (values calculated via a formula): * Allow to automatically update the calculated column on data changes in the variable columns * Invalidate the calculated column if one of the variable columns was deleted * In "Functions Values" dialog highlight the variable column combobox red if the variable column was deleted in the project * In "Functions Values" dialog don't allow to select columns to be calculated as variable columns (avoid circular dependencies) * BUG 406805 - support für directory structures in ROOT files + * Automatically update curves if a data column deleted before was re-added again (during the import or manually) UX improvements: * in the "Import Data" dialog show the history of the recently imported files * Improved the selection of curves in the plot that are near to or behind each other * BUG 408529 - Allow to use DEL to delete cells in spreadsheet and matrix * BUG 408537 - Allow to insert multiple rows and columns in the spreadsheet in one step Performance: * Increased the plotting speed for curves with many data points by removing points which are shown on the same pixel in the scene Bug fixes: * Disable autoscale when zooming, otherwise wrong (= auto scaled) data region is shown after project save&open * [macOS] fix determining number of lines of data files * Bug 408530 - correctly show error bars for data source columns having NANs * Bug 407847 - fixed the broken project import * [data fitting] handle weighted fitting with zero errors correctly * [data fitting] allow weighted fitting with data source from curve * [data fitting] fix function for calculating bounded values * [nsl] fix memory leak in line simplification (Douglas Peuker variant) * [nsl] fix bug in calculating Bessel polynomials on Windows (used in Bessel filter) -----2.6----- New features: * Histogram * Import from MQTT sources * Import of ROOT (CERN) TH1 histograms * Import of Ngspice raw files (ASCII and binary) * Import of data in JSON format (JSON arrays and objects) * Improved import of NetCDF files * Added file type specific summary and content for special file types in info box of import dialog * Convolution/Deconvolution of data sets (sampling interval, linear/circular, normalization, wrap, standard kernel) * Cross-/Autocorrelation of data sets (sampling interval, linear/circular, normalization) * Allow to specify the number format when exporting spreadsheet and matrix * Improved user interface for data fitting (add fit function preview, show parameters directly, make options foldable) * [spreadsheet] when filling a float column with row numbers, automatically convert its type to integer * [spreadsheet] when filling an integer column with function values, automatically convert its type to float * [spreadsheet] data manipulation: add/subtract/multiply/divide for column values * [spreadsheet] export to SQLite * [matrix] data manipulation: add/subtract/multiply/divide for matrix values * [worksheet] Allow to specify different border shapes for labels (rectangle, eclipse, etc.) * [worksheet] Allow to rotate plot legends * [worksheet] Better positioning of rotated axis tick labels * [worksheet] Allow to make plots not-interactive (ignore mouse drag and wheel events) to avoid unwanted occasional panning and zooming * Allow to connect to SQL databases via ODBC * Show the amount of consumed memory in the status bar (optional) * Allow to change the settings for different computer algebra systems (Maxima, etc.) directly in LabPlot (embedd Cantor's settings widgets) Bug fixes: * Fixed several problems in live data support * [spreadsheet] properly calculate function values out of integer x-values * [matrix] fix editing integer values * [import] fix preview update and add missing close of netcdf files * Don't crash when a scaling factor equal to zero was set for axis -----2.5----- New features: * Support for reading and plotting of live-data * Improved data fitting * Automatically guess parameter of custom models * Better result presentation * Support different weight types * Consider given x- and y-error when fitting (can be switched off) * Show t statistics, P > |t| and confidence interval * Calculate p-value for chi-square and F test in nonlinear fitting * added fit models for most statistical distributions * Improved theming * Apply themes to worksheet and to all its children * Respect theme settings also in plot legends and labels * Allow to disable theming in worksheets and plots after a theme was selected * Show currently active theme in the "Apply theme" button * New application option in the settings for the default theme used for new worksheets. * Support different data types * auto detect integer and datetime data in import * support number locale and datetime formats * improved data type support in spreadsheets * Import from SQL databases (tables or custom queries) * Import Origin OPJ projects * Much better support for Windows and macOS * Syntax highlighting for LaTeX in the text label * Allow to set the background color for LaTeX labels * Support Hermite polynomials from GSL 2.4 * Support error functions and related functions from libcerf * "Used in" sub-menu in column contex menu for faster navigation to the curves consuming the column * Direct application of analysis functions (smoothing, interpolating, etc.) on the ploted data via curve's context menu * Direct application of analysis functions on the data in the spreadsheet and plotting of the results via spreadsheet's context menu * Drag columns in the project explorer and drop them on plots (either in a worksheet view or in the project explorer) to create curves * "Show last N points" and "Show first N points" data ranges in cartesian plot * Added CLI option --presenter to start LabPlot directly in the presenter mode * Added CLI parameter to directly open project files (LabPlot or Origin) * Allow drag&drop of projects files (LabPlot and Origin) on the main window to load the project * Allow drag&drop of data files on the main window to import the data * Show tooltips for the supported mathematical functions and constants in the expression text field * Automatically switch to the scientific representation for numbers bigger than 10^4 on the axis tick labels * Automatically allow the latex typesetting in the application after the latex environment was installed later without making the user to go to the settings dialog * Allow to change the color scheme for the application * Smooth and animated zooming in the worksheet view * Allow to add text labels to plots * Improved building with MSVC, Intel and PGI compiler Performance improvements: * Faster copy&paste in the spreadsheet Bug fixes: * Bug 379877 - masked rows in spreadsheet not restored in project * Calculation of fit results corrected * Axes now support values larger than FLT_MAX (~10^38) and smaller than FLT_MIN (~10^-38) * When a LabPlot project is being droped in the main window, load the project directly instead of showing the import file dialog * Correctly save and restore masked cells * Don't crash if the rc-file was not found during the startup -----2.4----- New features: * Support themes for plots * Import and editing of FITS data files * Data reduction by removing data points using multiple algorithms * Numerical differentiation and integration with several options * Many new pre-defined fit models (Gompertz, Weibull, Log-Normal, Gumbel, etc.) sorted in categories * Fit parameter now support fixed values, lower/upper limits and use Unicode * Fit model and random number distribution formulas are now rendered with LaTeX * Support user specified x range in all analysis functions * Allow to enter complete LaTeX documents in text labels * Configuration parameter to use different LaTex engines (LuaLaTex, XeLatex, pdfLaTex, LaTex) * Disable LaTeX typesetting if no LaTex installation (and other required tools) were found at runtime * Presenter mode for worksheets * Support for Mac OS * Support for Julia's vectors and tuples in CAS worksheets (requires Cantor v. 16.12 or higher) * Allow to jump directly to the data source spreadsheet via XYCurve's context menu * Select and delete multiple objects in project explorer * Improved and extended internal parser for mathematical expressions * Copy of worksheet elements as image to the clipboard via CTRL+C Bug fixes: * BUG: 361326 - Allow to select curves with overlapping bounding boxes * Correctly load worksheet sizes from saved templates * Fixed crash when removing columns in spreadsheet * Fixed crash when fitting using GSL >= 2 * List of available functions corrected * Constants are now available with full accuracy * Windows: Import of files and open recent files fixed -----2.3----- New features: * Integration of Cantor - Support for different open-source computer algebra systems * Statistics on spreadsheets and matrices * Export of spreadsheets and matrices to LaTeX tables * Interpolation of data including different splines, cosine, exponential, cubic Hermite (Catmull-Rom, cardinal, Kochanek-Bartels) and rational functions * Data smoothing using moving average (centered or lagged), percentile filter or Savitzky-Golay algorithm * Fourier filter (low pass, high pass, band pass, band reject) with ideal, Butterworth, Chebychev I+II, Legendre or Bessel-Thomson filter * Fourier transform with many window functions (Welch, Hann, Hamming, etc.) calculating magnitude, amplitude, power, phase, dB, etc. and supporting one/two sided spectrum with or without shift and x scaling to frequency, index or period * Filter and search capabilities in the drop down box for the selection of data sources * Sigmoid function as a new pre-defined fit model * Support for compiling on Microsoft Windows Performance improvements: * Faster generation of random values * Global option to enable/disable the double-buffering for faster painting of curves (enabled on default) Bug fixes: * Save and restore last used setting in RandomValuesDialog * Update axis title shape on title rotations correctly * Save and restore custom column widths in the spreadsheet * Fixed sporadic crashes during project close -----2.2----- New features: * Datapicker - tool for extracting curves and data points from imported images * Custom point on the plot with user-defined position and appearance * Accept drag&drop events * Support GSL 2.x * Import and export dialogs save and restore their settings and sizes Performance improvements: * Faster rendering of the image view of the matrix Bug fixes: * BUG: 354744 - make setting of range auto scaling in CartesianPlot undo/redo-able * Removed couple of hard coded sizes given in pixels for better user-experience on hidpi-displays * Fixes the bug with disabled undo/redo-actions in after the undo-history was cleared * Keep the information about the columns to be shown in the project explorer after project close * Fixed some bugs in painting of the selection band on the worksheet * Allow to open gz- and bz2-compressed LabPlot project files on the command line interface -----2.1----- New features: * New Matrix view for handling matrix data. * Workbook - a new container for grouping several objects of type Spreadsheet and/or Matrix. * Import of binary, image, NetCDF and HDF data into spreadsheet or matrix. * Visual HDF and NetCDF parser to view content of files and import data sets. * Preview of all supported file types in import dialog. * Transparently import compressed data files. * In xy-curve the points may not be connected by the line if there are NANs in-between. This behaviour is controlled by the parameter "skip gaps". * Multiplier of Pi format of the plot axis for periodical functions. * New operations on columns in Spreadsheet - reverse, drop values and mask values. * Formula used to generate the values in a column is stored and can be changed/adjusted in the formula dialog afterwards. * Curve filling: the area below, under, left to or right to the curve can be filled. * Support for multiple variables in "Function Values"-dialog - new data in the spreadsheet can be calculated out of multiple columns. Performance improvements: * Speeded up the creation of new columns during the import Bug fixes: * Fixed wrong behaviour when doing "zoom&select" in a plot and then deselecting the plot - it was not possible anymore to select the plot again on the worksheet. -----2.0.2----- New features: * Plot 2D-curves defined by mathematical equations in cartesian and polar coordinates or via a parametric equation. * Linear and non-linear regression analysis. Several predefined fit-models are provided. User-defined models are also possible. * Besides fixed worksheet sizes (predefined sizes like A4 etc. or user-defined), complete view size can be used. All sizes are automatically adjusted on resize. * Different axis arrow types. * "select region and zoom in", "select x-region and zoom in", "select y-region and zoom in" functions for cartesian plot. * Rounded border for several worksheet objects (plot area, legend etc.) * Hover effect for axis, curve and text label. * Added a MessageBox - ask befor deleting worksheet objects. * Added three new types for drop lines - "zero baseline", "min baseline" and "max baseline" * Fill the selection in Spreadsheet with a constant value provided by the user * Fill columns with uniform and non-uniform random numbers, several distributions are available. * Fill columns with function values * Allow custom resolutions for PNG-export * Export of the spreadsheet to a text file. * Simultaneous zooming and navigation accross multiple plots. * Implemented "Powers of 10/2/e" for the axis tick labels Bug fixes: * Don't crash when trying to create a plot in case no rc-file was installed. * Don't allow to select unwanted objects in TreeViewComboBox in ImportDialog and XYCurveDock. * Corrected painting of background images in plot area and legend. * BUG: 330723 - fixed weird selection in spreadsheet. * BUG: 330774 - fixed wrong positioning of axis on orientation changes. * Update main window title when project name is changed -----2.0.1----- Bug fix release. Solved issues: * Fixed wrong scaling of legend's text labels in pdf-export * Fixed memory corruption in CartesianPlotDock that can lead to crashes -----2.0.0----- First stable release of LabPlot2. LabPlot2 is a complete rewrite of LabPlot1 and lacks in this release a lot of features available in the predecessor. On the other hand, the GUI and the usability is more superior as compared to LabPlot1 and there are several new features that were not available in LabPlot1. Brief summary of features and capabilities of LabPlot2 implemented in the first release: * project-based management of data * created objects are organized in a tree and are visualized and accessible in the project explorer * for a better management of objects, additional folders and sub-folders can be created within a project * spreadsheet with very basic functionality is available for manual data entry * "file data source" can be used to import a file and to let LabPlot2 watch for changes in that file * external data from an ascii file can be also directly imported to a spreadsheet for further editing * worksheet is the main object where plots, labels etc. are placed on * several zooming functions for the worksheet * only cartesian plot is implemented in the first release * arbitrary number of freely positionable axes is possible * xy-curve is implemented. As the data source for the x- and y-values columns either from a spreadsheet or from a file data source can be used * several zooming and "movement" functions are available for the plots which help to navigate through data * legend for xy-plots * a lot of properties of the worksheet elements can be edited in a very easy way in the corresponding dock widgets * plots on the worksheet can be put into a horizontal, vertical or grid layouts * export of worksheet (entire worksheet or current seleciton) to pdf, eps, png and svg diff --git a/src/backend/spreadsheet/SpreadsheetModel.cpp b/src/backend/spreadsheet/SpreadsheetModel.cpp index 1c0fd3297..2936bcf33 100644 --- a/src/backend/spreadsheet/SpreadsheetModel.cpp +++ b/src/backend/spreadsheet/SpreadsheetModel.cpp @@ -1,508 +1,507 @@ /*************************************************************************** File : SpreadsheetModel.cpp Project : LabPlot Description : Model for the access to a Spreadsheet -------------------------------------------------------------------- Copyright : (C) 2007 Tilman Benkert (thzs@gmx.net) Copyright : (C) 2009 Knut Franke (knut.franke@gmx.de) Copyright : (C) 2013-2017 Alexander Semke (alexander.semke@web.de) ***************************************************************************/ /*************************************************************************** * * * 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., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "backend/spreadsheet/Spreadsheet.h" #include "backend/spreadsheet/SpreadsheetModel.h" #include "backend/core/datatypes/Double2StringFilter.h" #include #include #include #include /*! \class SpreadsheetModel \brief Model for the access to a Spreadsheet This is a model in the sense of Qt4 model/view framework which is used to access a Spreadsheet object from any of Qt4s view classes, typically a QTableView. Its main purposes are translating Spreadsheet signals into QAbstractItemModel signals and translating calls to the QAbstractItemModel read/write API into calls in the public API of Spreadsheet. In many cases a pointer to the addressed column is obtained by calling Spreadsheet::column() and the manipulation is done using the public API of column. \ingroup backend */ SpreadsheetModel::SpreadsheetModel(Spreadsheet* spreadsheet) : QAbstractItemModel(nullptr), m_spreadsheet(spreadsheet) { updateVerticalHeader(); updateHorizontalHeader(); connect(m_spreadsheet, &Spreadsheet::aspectAboutToBeAdded, this, &SpreadsheetModel::handleAspectAboutToBeAdded); connect(m_spreadsheet, &Spreadsheet::aspectAdded, this, &SpreadsheetModel::handleAspectAdded); connect(m_spreadsheet, &Spreadsheet::aspectAboutToBeRemoved, this, &SpreadsheetModel::handleAspectAboutToBeRemoved); connect(m_spreadsheet, &Spreadsheet::aspectRemoved, this, &SpreadsheetModel::handleAspectRemoved); connect(m_spreadsheet, &Spreadsheet::aspectDescriptionChanged, this, &SpreadsheetModel::handleDescriptionChange); for (int i = 0; i < spreadsheet->columnCount(); ++i) { beginInsertColumns(QModelIndex(), i, i); handleAspectAdded(spreadsheet->column(i)); } m_spreadsheet->setModel(this); } void SpreadsheetModel::suppressSignals(bool value) { m_suppressSignals = value; //update the headers after all the data was added to the model //and we start listening to signals again if (!m_suppressSignals) { updateVerticalHeader(); updateHorizontalHeader(); } } Qt::ItemFlags SpreadsheetModel::flags(const QModelIndex& index) const { if (index.isValid()) return Qt::ItemIsEnabled | Qt::ItemIsSelectable | Qt::ItemIsEditable; else return Qt::ItemIsEnabled; } QVariant SpreadsheetModel::data(const QModelIndex& index, int role) const { if ( !index.isValid() ) return QVariant(); const int row = index.row(); const int col = index.column(); const Column* col_ptr = m_spreadsheet->column(col); if (!col_ptr) return QVariant(); switch (role) { case Qt::ToolTipRole: if (col_ptr->isValid(row)) { if (col_ptr->isMasked(row)) return QVariant(i18n("%1, masked (ignored in all operations)", col_ptr->asStringColumn()->textAt(row))); else return QVariant(col_ptr->asStringColumn()->textAt(row)); } else { if (col_ptr->isMasked(row)) return QVariant(i18n("invalid cell, masked (ignored in all operations)")); else return QVariant(i18n("invalid cell (ignored in all operations)")); } case Qt::EditRole: if (col_ptr->isValid(row)) return QVariant(col_ptr->asStringColumn()->textAt(row)); //m_formula_mode is not used at the moment //if (m_formula_mode) // return QVariant(col_ptr->formula(row)); break; case Qt::DisplayRole: if (!col_ptr->isValid(row)) return QVariant("-"); //m_formula_mode is not used at the moment //if (m_formula_mode) // return QVariant(col_ptr->formula(row)); return QVariant(col_ptr->asStringColumn()->textAt(row)); case Qt::ForegroundRole: if (!col_ptr->isValid(index.row())) return QVariant(QBrush(Qt::red)); break; case MaskingRole: return QVariant(col_ptr->isMasked(row)); case FormulaRole: return QVariant(col_ptr->formula(row)); // case Qt::DecorationRole: // if (m_formula_mode) // return QIcon(QPixmap(":/equals.png")); //TODO } return QVariant(); } QVariant SpreadsheetModel::headerData(int section, Qt::Orientation orientation, int role) const { if ( (orientation == Qt::Horizontal && section > m_spreadsheet->columnCount()-1) || (orientation == Qt::Vertical && section > m_spreadsheet->rowCount()-1) ) return QVariant(); switch (orientation) { case Qt::Horizontal: switch (role) { case Qt::DisplayRole: case Qt::ToolTipRole: case Qt::EditRole: return m_horizontal_header_data.at(section); case Qt::DecorationRole: return m_spreadsheet->child(section)->icon(); case SpreadsheetModel::CommentRole: return m_spreadsheet->child(section)->comment(); } break; case Qt::Vertical: switch (role) { case Qt::DisplayRole: case Qt::ToolTipRole: return m_vertical_header_data.at(section); } } return QVariant(); } int SpreadsheetModel::rowCount(const QModelIndex& parent) const { Q_UNUSED(parent) return m_spreadsheet->rowCount(); } int SpreadsheetModel::columnCount(const QModelIndex& parent) const { Q_UNUSED(parent) return m_spreadsheet->columnCount(); } bool SpreadsheetModel::setData(const QModelIndex& index, const QVariant& value, int role) { - QDEBUG("setting value " << value) if (!index.isValid()) return false; int row = index.row(); Column* column = m_spreadsheet->column(index.column()); //don't do anything if no new value was provided if (column->columnMode() == AbstractColumn::Numeric) { bool ok; QLocale locale; double new_value = locale.toDouble(value.toString(), &ok); if (ok) { if (column->valueAt(row) == new_value ) return false; } else { //an empty (non-numeric value) was provided if (std::isnan(column->valueAt(row))) return false; } } else { if (column->asStringColumn()->textAt(row) == value.toString()) return false; } switch (role) { case Qt::EditRole: { // remark: the validity of the cell is determined by the input filter if (m_formula_mode) column->setFormula(row, value.toString()); else column->asStringColumn()->setTextAt(row, value.toString()); return true; } case MaskingRole: { m_spreadsheet->column(index.column())->setMasked(row, value.toBool()); return true; } case FormulaRole: { m_spreadsheet->column(index.column())->setFormula(row, value.toString()); return true; } } return false; } QModelIndex SpreadsheetModel::index(int row, int column, const QModelIndex& parent) const { Q_UNUSED(parent) return createIndex(row, column); } QModelIndex SpreadsheetModel::parent(const QModelIndex& child) const { Q_UNUSED(child) return QModelIndex{}; } bool SpreadsheetModel::hasChildren(const QModelIndex& parent) const { Q_UNUSED(parent) return false; } void SpreadsheetModel::handleAspectAboutToBeAdded(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* new_child) { if (m_suppressSignals) return; const Column* col = qobject_cast(new_child); if (!col || parent != static_cast(m_spreadsheet)) return; //TODO: breaks undo/redo Q_UNUSED(before); // int index = before ? m_spreadsheet->indexOfChild(before) : 0; //beginInsertColumns(QModelIndex(), index, index); } void SpreadsheetModel::handleAspectAdded(const AbstractAspect* aspect) { const Column* col = qobject_cast(aspect); if (!col || aspect->parentAspect() != static_cast(m_spreadsheet)) return; updateVerticalHeader(); updateHorizontalHeader(); connect(col, &Column::plotDesignationChanged, this, &SpreadsheetModel::handlePlotDesignationChange); connect(col, &Column::modeChanged, this, &SpreadsheetModel::handleDataChange); connect(col, &Column::dataChanged, this, &SpreadsheetModel::handleDataChange); connect(col, &Column::modeChanged, this, &SpreadsheetModel::handleModeChange); connect(col, &Column::rowsInserted, this, &SpreadsheetModel::handleRowsInserted); connect(col, &Column::rowsRemoved, this, &SpreadsheetModel::handleRowsRemoved); connect(col, &Column::maskingChanged, this, &SpreadsheetModel::handleDataChange); connect(col->outputFilter(), &AbstractSimpleFilter::digitsChanged, this, &SpreadsheetModel::handleDigitsChange); beginResetModel(); //TODO: breaks undo/redo //endInsertColumns(); endResetModel(); m_spreadsheet->emitColumnCountChanged(); } void SpreadsheetModel::handleAspectAboutToBeRemoved(const AbstractAspect* aspect) { if (m_suppressSignals) return; const Column* col = qobject_cast(aspect); if (!col || aspect->parentAspect() != static_cast(m_spreadsheet)) return; beginResetModel(); disconnect(col, nullptr, this, nullptr); } void SpreadsheetModel::handleAspectRemoved(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* child) { Q_UNUSED(before) const Column* col = qobject_cast(child); if (!col || parent != static_cast(m_spreadsheet)) return; updateVerticalHeader(); updateHorizontalHeader(); endResetModel(); m_spreadsheet->emitColumnCountChanged(); } void SpreadsheetModel::handleDescriptionChange(const AbstractAspect* aspect) { if (m_suppressSignals) return; const Column* col = qobject_cast(aspect); if (!col || aspect->parentAspect() != static_cast(m_spreadsheet)) return; updateHorizontalHeader(); int index = m_spreadsheet->indexOfChild(col); emit headerDataChanged(Qt::Horizontal, index, index); } void SpreadsheetModel::handleModeChange(const AbstractColumn* col) { if (m_suppressSignals) return; updateHorizontalHeader(); int index = m_spreadsheet->indexOfChild(col); emit headerDataChanged(Qt::Horizontal, index, index); handleDataChange(col); //output filter was changed after the mode change, update the signal-slot connection disconnect(nullptr, SIGNAL(digitsChanged()), this, SLOT(handledigitsChange())); connect(dynamic_cast(col)->outputFilter(), &AbstractSimpleFilter::digitsChanged, this, &SpreadsheetModel::handleDigitsChange); } void SpreadsheetModel::handleDigitsChange() { if (m_suppressSignals) return; const auto* filter = dynamic_cast(QObject::sender()); if (!filter) return; const AbstractColumn* col = filter->output(0); handleDataChange(col); } void SpreadsheetModel::handlePlotDesignationChange(const AbstractColumn* col) { if (m_suppressSignals) return; updateHorizontalHeader(); int index = m_spreadsheet->indexOfChild(col); emit headerDataChanged(Qt::Horizontal, index, m_spreadsheet->columnCount()-1); } void SpreadsheetModel::handleDataChange(const AbstractColumn* col) { if (m_suppressSignals) return; int i = m_spreadsheet->indexOfChild(col); emit dataChanged(index(0, i), index(col->rowCount()-1, i)); } void SpreadsheetModel::handleRowsInserted(const AbstractColumn* col, int before, int count) { if (m_suppressSignals) return; Q_UNUSED(before) Q_UNUSED(count) updateVerticalHeader(); int i = m_spreadsheet->indexOfChild(col); emit dataChanged(index(0, i), index(col->rowCount()-1, i)); m_spreadsheet->emitRowCountChanged(); } void SpreadsheetModel::handleRowsRemoved(const AbstractColumn* col, int first, int count) { if (m_suppressSignals) return; Q_UNUSED(first) Q_UNUSED(count) updateVerticalHeader(); int i = m_spreadsheet->indexOfChild(col); emit dataChanged(index(0, i), index(col->rowCount()-1, i)); m_spreadsheet->emitRowCountChanged(); } void SpreadsheetModel::updateVerticalHeader() { int old_rows = m_vertical_header_data.size(); int new_rows = m_spreadsheet->rowCount(); if (new_rows > old_rows) { beginInsertRows(QModelIndex(), old_rows, new_rows-1); for (int i = old_rows+1; i <= new_rows; i++) m_vertical_header_data << i; endInsertRows(); } else if (new_rows < old_rows) { beginRemoveRows(QModelIndex(), new_rows, old_rows-1); while (m_vertical_header_data.size() > new_rows) m_vertical_header_data.removeLast(); endRemoveRows(); } } void SpreadsheetModel::updateHorizontalHeader() { int column_count = m_spreadsheet->childCount(); while (m_horizontal_header_data.size() < column_count) m_horizontal_header_data << QString(); while (m_horizontal_header_data.size() > column_count) m_horizontal_header_data.removeLast(); for (int i = 0; i < column_count; i++) { Column* col = m_spreadsheet->child(i); QString type; switch (col->columnMode()) { case AbstractColumn::Numeric: type = QLatin1String(" {") + i18n("Numeric") + QLatin1Char('}'); break; case AbstractColumn::Integer: type = QLatin1String(" {") + i18n("Integer") + QLatin1Char('}'); break; case AbstractColumn::Text: type = QLatin1String(" {") + i18n("Text") + QLatin1Char('}'); break; case AbstractColumn::Month: type = QLatin1String(" {") + i18n("Month Names") + QLatin1Char('}'); break; case AbstractColumn::Day: type = QLatin1String(" {") + i18n("Day Names") + QLatin1Char('}'); break; case AbstractColumn::DateTime: type = QLatin1String(" {") + i18n("Date and Time") + QLatin1Char('}'); break; } QString designation; switch (col->plotDesignation()) { case AbstractColumn::NoDesignation: break; case AbstractColumn::X: designation = QLatin1String(" [X]"); break; case AbstractColumn::Y: designation = QLatin1String(" [Y]"); break; case AbstractColumn::Z: designation = QLatin1String(" [Z]"); break; case AbstractColumn::XError: designation = QLatin1String(" [") + i18n("X-error") + QLatin1Char(']'); break; case AbstractColumn::XErrorPlus: designation = QLatin1String(" [") + i18n("X-error +") + QLatin1Char(']'); break; case AbstractColumn::XErrorMinus: designation = QLatin1String(" [") + i18n("X-error -") + QLatin1Char(']'); break; case AbstractColumn::YError: designation = QLatin1String(" [") + i18n("Y-error") + QLatin1Char(']'); break; case AbstractColumn::YErrorPlus: designation = QLatin1String(" [") + i18n("Y-error +") + QLatin1Char(']'); break; case AbstractColumn::YErrorMinus: designation = QLatin1String(" [") + i18n("Y-error -") + QLatin1Char(']'); break; } m_horizontal_header_data.replace(i, col->name() + type + designation); } } Column* SpreadsheetModel::column(int index) { return m_spreadsheet->column(index); } void SpreadsheetModel::activateFormulaMode(bool on) { if (m_formula_mode == on) return; m_formula_mode = on; int rows = m_spreadsheet->rowCount(); int cols = m_spreadsheet->columnCount(); if (rows > 0 && cols > 0) emit dataChanged(index(0,0), index(rows-1,cols-1)); } bool SpreadsheetModel::formulaModeActive() const { return m_formula_mode; } diff --git a/src/kdefrontend/dockwidgets/XYCurveDock.cpp b/src/kdefrontend/dockwidgets/XYCurveDock.cpp index 9993d4864..45ecd4306 100644 --- a/src/kdefrontend/dockwidgets/XYCurveDock.cpp +++ b/src/kdefrontend/dockwidgets/XYCurveDock.cpp @@ -1,2275 +1,2274 @@ /*************************************************************************** File : XYCurveDock.cpp Project : LabPlot Description : widget for XYCurve properties -------------------------------------------------------------------- Copyright : (C) 2010-2018 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2012-2017 Stefan Gerlach (stefan.gerlach@uni-konstanz.de) ***************************************************************************/ /*************************************************************************** * * * 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., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "XYCurveDock.h" #include "backend/worksheet/plots/cartesian/XYCurve.h" #include "backend/worksheet/Worksheet.h" #include "backend/worksheet/plots/cartesian/XYAnalysisCurve.h" #include "backend/worksheet/plots/cartesian/XYFitCurve.h" #include "backend/core/AspectTreeModel.h" #include "backend/core/column/Column.h" #include "backend/core/Project.h" #include "backend/core/datatypes/Double2StringFilter.h" #include "backend/core/datatypes/DateTime2StringFilter.h" #include "commonfrontend/widgets/TreeViewComboBox.h" #include "kdefrontend/TemplateHandler.h" #include "kdefrontend/GuiTools.h" #include #include #include #include #include #include #include #include #include #include /*! \class XYCurveDock \brief Provides a widget for editing the properties of the XYCurves (2D-curves) currently selected in the project explorer. If more than one curves are set, the properties of the first column are shown. The changes of the properties are applied to all curves. The exclusions are the name, the comment and the datasets (columns) of the curves - these properties can only be changed if there is only one single curve. \ingroup kdefrontend */ XYCurveDock::XYCurveDock(QWidget* parent) : BaseDock(parent) { ui.setupUi(this); //Tab "Values" auto* gridLayout = qobject_cast(ui.tabValues->layout()); cbValuesColumn = new TreeViewComboBox(ui.tabValues); gridLayout->addWidget(cbValuesColumn, 2, 2, 1, 1); //Tab "Filling" ui.cbFillingColorStyle->setSizeAdjustPolicy(QComboBox::AdjustToMinimumContentsLengthWithIcon); ui.bFillingOpen->setIcon( QIcon::fromTheme("document-open") ); ui.leFillingFileName->setCompleter(new QCompleter(new QDirModel, this)); //Tab "Error bars" gridLayout = qobject_cast(ui.tabErrorBars->layout()); cbXErrorPlusColumn = new TreeViewComboBox(ui.tabErrorBars); gridLayout->addWidget(cbXErrorPlusColumn, 2, 2, 1, 1); cbXErrorMinusColumn = new TreeViewComboBox(ui.tabErrorBars); gridLayout->addWidget(cbXErrorMinusColumn, 3, 2, 1, 1); cbYErrorPlusColumn = new TreeViewComboBox(ui.tabErrorBars); gridLayout->addWidget(cbYErrorPlusColumn, 7, 2, 1, 1); cbYErrorMinusColumn = new TreeViewComboBox(ui.tabErrorBars); gridLayout->addWidget(cbYErrorMinusColumn, 8, 2, 1, 1); //adjust layouts in the tabs for (int i = 0; i < ui.tabWidget->count(); ++i) { auto* layout = dynamic_cast(ui.tabWidget->widget(i)->layout()); if (!layout) continue; layout->setContentsMargins(2,2,2,2); layout->setHorizontalSpacing(2); layout->setVerticalSpacing(2); } //Slots //Lines connect( ui.cbLineType, SIGNAL(currentIndexChanged(int)), this, SLOT(lineTypeChanged(int)) ); connect( ui.sbLineInterpolationPointsCount, SIGNAL(valueChanged(int)), this, SLOT(lineInterpolationPointsCountChanged(int)) ); connect( ui.chkLineSkipGaps, SIGNAL(clicked(bool)), this, SLOT(lineSkipGapsChanged(bool)) ); connect( ui.chkLineIncreasingXOnly, &QCheckBox::clicked, this, &XYCurveDock::lineIncreasingXOnlyChanged ); connect( ui.cbLineStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(lineStyleChanged(int)) ); connect( ui.kcbLineColor, SIGNAL(changed(QColor)), this, SLOT(lineColorChanged(QColor)) ); connect( ui.sbLineWidth, SIGNAL(valueChanged(double)), this, SLOT(lineWidthChanged(double)) ); connect( ui.sbLineOpacity, SIGNAL(valueChanged(int)), this, SLOT(lineOpacityChanged(int)) ); connect( ui.cbDropLineType, SIGNAL(currentIndexChanged(int)), this, SLOT(dropLineTypeChanged(int)) ); connect( ui.cbDropLineStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(dropLineStyleChanged(int)) ); connect( ui.kcbDropLineColor, SIGNAL(changed(QColor)), this, SLOT(dropLineColorChanged(QColor)) ); connect( ui.sbDropLineWidth, SIGNAL(valueChanged(double)), this, SLOT(dropLineWidthChanged(double)) ); connect( ui.sbDropLineOpacity, SIGNAL(valueChanged(int)), this, SLOT(dropLineOpacityChanged(int)) ); //Symbol connect( ui.cbSymbolStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(symbolsStyleChanged(int)) ); connect( ui.sbSymbolSize, SIGNAL(valueChanged(double)), this, SLOT(symbolsSizeChanged(double)) ); connect( ui.sbSymbolRotation, SIGNAL(valueChanged(int)), this, SLOT(symbolsRotationChanged(int)) ); connect( ui.sbSymbolOpacity, SIGNAL(valueChanged(int)), this, SLOT(symbolsOpacityChanged(int)) ); connect( ui.cbSymbolFillingStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(symbolsFillingStyleChanged(int)) ); connect( ui.kcbSymbolFillingColor, SIGNAL(changed(QColor)), this, SLOT(symbolsFillingColorChanged(QColor)) ); connect( ui.cbSymbolBorderStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(symbolsBorderStyleChanged(int)) ); connect( ui.kcbSymbolBorderColor, SIGNAL(changed(QColor)), this, SLOT(symbolsBorderColorChanged(QColor)) ); connect( ui.sbSymbolBorderWidth, SIGNAL(valueChanged(double)), this, SLOT(symbolsBorderWidthChanged(double)) ); //Values connect( ui.cbValuesType, SIGNAL(currentIndexChanged(int)), this, SLOT(valuesTypeChanged(int)) ); connect( cbValuesColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(valuesColumnChanged(QModelIndex)) ); connect( ui.cbValuesPosition, SIGNAL(currentIndexChanged(int)), this, SLOT(valuesPositionChanged(int)) ); connect( ui.sbValuesDistance, SIGNAL(valueChanged(double)), this, SLOT(valuesDistanceChanged(double)) ); connect( ui.sbValuesRotation, SIGNAL(valueChanged(int)), this, SLOT(valuesRotationChanged(int)) ); connect( ui.sbValuesOpacity, SIGNAL(valueChanged(int)), this, SLOT(valuesOpacityChanged(int)) ); //TODO connect( ui.cbValuesFormat, SIGNAL(currentIndexChanged(int)), this, SLOT(valuesColumnFormatChanged(int)) ); connect( ui.leValuesPrefix, SIGNAL(returnPressed()), this, SLOT(valuesPrefixChanged()) ); connect( ui.leValuesSuffix, SIGNAL(returnPressed()), this, SLOT(valuesSuffixChanged()) ); connect( ui.kfrValuesFont, SIGNAL(fontSelected(QFont)), this, SLOT(valuesFontChanged(QFont)) ); connect( ui.kcbValuesColor, SIGNAL(changed(QColor)), this, SLOT(valuesColorChanged(QColor)) ); //Filling connect( ui.cbFillingPosition, SIGNAL(currentIndexChanged(int)), this, SLOT(fillingPositionChanged(int)) ); connect( ui.cbFillingType, SIGNAL(currentIndexChanged(int)), this, SLOT(fillingTypeChanged(int)) ); connect( ui.cbFillingColorStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(fillingColorStyleChanged(int)) ); connect( ui.cbFillingImageStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(fillingImageStyleChanged(int)) ); connect( ui.cbFillingBrushStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(fillingBrushStyleChanged(int)) ); connect(ui.bFillingOpen, SIGNAL(clicked(bool)), this, SLOT(selectFile())); connect( ui.leFillingFileName, SIGNAL(returnPressed()), this, SLOT(fileNameChanged()) ); connect( ui.leFillingFileName, SIGNAL(textChanged(QString)), this, SLOT(fileNameChanged()) ); connect( ui.kcbFillingFirstColor, SIGNAL(changed(QColor)), this, SLOT(fillingFirstColorChanged(QColor)) ); connect( ui.kcbFillingSecondColor, SIGNAL(changed(QColor)), this, SLOT(fillingSecondColorChanged(QColor)) ); connect( ui.sbFillingOpacity, SIGNAL(valueChanged(int)), this, SLOT(fillingOpacityChanged(int)) ); //Error bars connect( ui.cbXErrorType, SIGNAL(currentIndexChanged(int)), this, SLOT(xErrorTypeChanged(int)) ); connect( cbXErrorPlusColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(xErrorPlusColumnChanged(QModelIndex)) ); connect( cbXErrorMinusColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(xErrorMinusColumnChanged(QModelIndex)) ); connect( ui.cbYErrorType, SIGNAL(currentIndexChanged(int)), this, SLOT(yErrorTypeChanged(int)) ); connect( cbYErrorPlusColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(yErrorPlusColumnChanged(QModelIndex)) ); connect( cbYErrorMinusColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(yErrorMinusColumnChanged(QModelIndex)) ); connect( ui.cbErrorBarsType, SIGNAL(currentIndexChanged(int)), this, SLOT(errorBarsTypeChanged(int)) ); connect( ui.sbErrorBarsCapSize, SIGNAL(valueChanged(double)), this, SLOT(errorBarsCapSizeChanged(double)) ); connect( ui.cbErrorBarsStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(errorBarsStyleChanged(int)) ); connect( ui.kcbErrorBarsColor, SIGNAL(changed(QColor)), this, SLOT(errorBarsColorChanged(QColor)) ); connect( ui.sbErrorBarsWidth, SIGNAL(valueChanged(double)), this, SLOT(errorBarsWidthChanged(double)) ); connect( ui.sbErrorBarsOpacity, SIGNAL(valueChanged(int)), this, SLOT(errorBarsOpacityChanged(int)) ); //template handler auto* frame = new QFrame(this); auto* layout = new QHBoxLayout(frame); layout->setContentsMargins(0, 11, 0, 11); auto* templateHandler = new TemplateHandler(this, TemplateHandler::XYCurve); layout->addWidget(templateHandler); connect(templateHandler, SIGNAL(loadConfigRequested(KConfig&)), this, SLOT(loadConfigFromTemplate(KConfig&))); connect(templateHandler, SIGNAL(saveConfigRequested(KConfig&)), this, SLOT(saveConfigAsTemplate(KConfig&))); connect(templateHandler, SIGNAL(info(QString)), this, SIGNAL(info(QString))); ui.verticalLayout->addWidget(frame); retranslateUi(); init(); } XYCurveDock::~XYCurveDock() { if (m_aspectTreeModel) delete m_aspectTreeModel; } void XYCurveDock::setupGeneral() { QWidget* generalTab = new QWidget(ui.tabGeneral); uiGeneralTab.setupUi(generalTab); m_leName = uiGeneralTab.leName; m_leComment = uiGeneralTab.leComment; auto* layout = new QHBoxLayout(ui.tabGeneral); layout->setMargin(0); layout->addWidget(generalTab); // Tab "General" auto* gridLayout = qobject_cast(generalTab->layout()); cbXColumn = new TreeViewComboBox(generalTab); gridLayout->addWidget(cbXColumn, 2, 2, 1, 1); cbYColumn = new TreeViewComboBox(generalTab); gridLayout->addWidget(cbYColumn, 3, 2, 1, 1); //General connect(uiGeneralTab.leName, &QLineEdit::textChanged, this, &XYCurveDock::nameChanged); connect(uiGeneralTab.leComment, &QLineEdit::textChanged, this, &XYCurveDock::commentChanged); connect(uiGeneralTab.chkVisible, SIGNAL(clicked(bool)), this, SLOT(visibilityChanged(bool))); connect(cbXColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(xColumnChanged(QModelIndex))); connect(cbYColumn, SIGNAL(currentModelIndexChanged(QModelIndex)), this, SLOT(yColumnChanged(QModelIndex))); } void XYCurveDock::init() { m_initializing = true; //Line ui.cbLineType->addItem(i18n("None")); ui.cbLineType->addItem(i18n("Line")); ui.cbLineType->addItem(i18n("Horiz. Start")); ui.cbLineType->addItem(i18n("Vert. Start")); ui.cbLineType->addItem(i18n("Horiz. Midpoint")); ui.cbLineType->addItem(i18n("Vert. Midpoint")); ui.cbLineType->addItem(i18n("2-segments")); ui.cbLineType->addItem(i18n("3-segments")); ui.cbLineType->addItem(i18n("Cubic Spline (Natural)")); ui.cbLineType->addItem(i18n("Cubic Spline (Periodic)")); ui.cbLineType->addItem(i18n("Akima-spline (Natural)")); ui.cbLineType->addItem(i18n("Akima-spline (Periodic)")); QPainter pa; //TODO size of the icon depending on the actual height of the combobox? int iconSize = 20; QPixmap pm(iconSize, iconSize); ui.cbLineType->setIconSize(QSize(iconSize, iconSize)); QPen pen(Qt::SolidPattern, 0); const QColor& color = (palette().color(QPalette::Base).lightness() < 128) ? Qt::white : Qt::black; pen.setColor(color); pa.setPen( pen ); //no line pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.end(); ui.cbLineType->setItemIcon(0, pm); //line pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,17,17); pa.end(); ui.cbLineType->setItemIcon(1, pm); pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,17,3); pa.drawLine(17,3,17,17); pa.end(); ui.cbLineType->setItemIcon(2, pm); pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,3,17); pa.drawLine(3,17,17,17); pa.end(); ui.cbLineType->setItemIcon(3, pm); //horizontal midpoint pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,10,3); pa.drawLine(10,3,10,17); pa.drawLine(10,17,17,17); pa.end(); ui.cbLineType->setItemIcon(4, pm); //vertical midpoint pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,3,10); pa.drawLine(3,10,17,10); pa.drawLine(17,10,17,17); pa.end(); ui.cbLineType->setItemIcon(5, pm); //2-segments pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 8,8,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,10,10); pa.end(); ui.cbLineType->setItemIcon(6, pm); //3-segments pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 8,8,4,4); pa.drawEllipse( 15,15,4,4); pa.drawLine(3,3,17,17); pa.end(); ui.cbLineType->setItemIcon(7, pm); //natural spline pm.fill(Qt::transparent); pa.begin( &pm ); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.drawEllipse( 1,1,4,4); pa.drawEllipse( 15,15,4,4); pa.rotate(45); pa.drawArc(2*sqrt(2),-4,17*sqrt(2),20,30*16,120*16); pa.end(); ui.cbLineType->setItemIcon(8, pm); ui.cbLineType->setItemIcon(9, pm); ui.cbLineType->setItemIcon(10, pm); ui.cbLineType->setItemIcon(11, pm); GuiTools::updatePenStyles(ui.cbLineStyle, Qt::black); //Drop lines ui.cbDropLineType->addItem(i18n("No Drop Lines")); ui.cbDropLineType->addItem(i18n("Drop Lines, X")); ui.cbDropLineType->addItem(i18n("Drop Lines, Y")); ui.cbDropLineType->addItem(i18n("Drop Lines, XY")); ui.cbDropLineType->addItem(i18n("Drop Lines, X, Zero Baseline")); ui.cbDropLineType->addItem(i18n("Drop Lines, X, Min Baseline")); ui.cbDropLineType->addItem(i18n("Drop Lines, X, Max Baseline")); GuiTools::updatePenStyles(ui.cbDropLineStyle, Qt::black); //Symbols GuiTools::updatePenStyles(ui.cbSymbolBorderStyle, Qt::black); ui.cbSymbolStyle->setIconSize(QSize(iconSize, iconSize)); QTransform trafo; trafo.scale(15, 15); ui.cbSymbolStyle->addItem(i18n("None")); for (int i = 1; i < 19; ++i) { //TODO: use enum count const auto style = (Symbol::Style)i; pm.fill(Qt::transparent); pa.begin(&pm); pa.setPen(pen); pa.setRenderHint(QPainter::Antialiasing); pa.translate(iconSize/2,iconSize/2); pa.drawPath(trafo.map(Symbol::pathFromStyle(style))); pa.end(); ui.cbSymbolStyle->addItem(QIcon(pm), Symbol::nameFromStyle(style)); } GuiTools::updateBrushStyles(ui.cbSymbolFillingStyle, Qt::black); m_initializing = false; //Values ui.cbValuesType->addItem(i18n("No Values")); ui.cbValuesType->addItem("x"); ui.cbValuesType->addItem("y"); ui.cbValuesType->addItem("x, y"); ui.cbValuesType->addItem("(x, y)"); ui.cbValuesType->addItem(i18n("Custom Column")); ui.cbValuesPosition->addItem(i18n("Above")); ui.cbValuesPosition->addItem(i18n("Below")); ui.cbValuesPosition->addItem(i18n("Left")); ui.cbValuesPosition->addItem(i18n("Right")); //Filling ui.cbFillingPosition->clear(); ui.cbFillingPosition->addItem(i18n("None")); ui.cbFillingPosition->addItem(i18n("Above")); ui.cbFillingPosition->addItem(i18n("Below")); ui.cbFillingPosition->addItem(i18n("Zero Baseline")); ui.cbFillingPosition->addItem(i18n("Left")); ui.cbFillingPosition->addItem(i18n("Right")); ui.cbFillingType->clear(); ui.cbFillingType->addItem(i18n("Color")); ui.cbFillingType->addItem(i18n("Image")); ui.cbFillingType->addItem(i18n("Pattern")); ui.cbFillingColorStyle->clear(); ui.cbFillingColorStyle->addItem(i18n("Single Color")); ui.cbFillingColorStyle->addItem(i18n("Horizontal Gradient")); ui.cbFillingColorStyle->addItem(i18n("Vertical Gradient")); ui.cbFillingColorStyle->addItem(i18n("Diag. Gradient (From Top Left)")); ui.cbFillingColorStyle->addItem(i18n("Diag. Gradient (From Bottom Left)")); ui.cbFillingColorStyle->addItem(i18n("Radial Gradient")); ui.cbFillingImageStyle->clear(); ui.cbFillingImageStyle->addItem(i18n("Scaled and Cropped")); ui.cbFillingImageStyle->addItem(i18n("Scaled")); ui.cbFillingImageStyle->addItem(i18n("Scaled, Keep Proportions")); ui.cbFillingImageStyle->addItem(i18n("Centered")); ui.cbFillingImageStyle->addItem(i18n("Tiled")); ui.cbFillingImageStyle->addItem(i18n("Center Tiled")); GuiTools::updateBrushStyles(ui.cbFillingBrushStyle, Qt::SolidPattern); //Error-bars pm.fill(Qt::transparent); pa.begin( &pm ); pa.setRenderHint(QPainter::Antialiasing); pa.drawLine(3,10,17,10);//vert. line pa.drawLine(10,3,10,17);//hor. line pa.end(); ui.cbErrorBarsType->addItem(i18n("Bars")); ui.cbErrorBarsType->setItemIcon(0, pm); pm.fill(Qt::transparent); pa.begin( &pm ); pa.setRenderHint(QPainter::Antialiasing); pa.setBrush(Qt::SolidPattern); pa.drawLine(3,10,17,10); //vert. line pa.drawLine(10,3,10,17); //hor. line pa.drawLine(7,3,13,3); //upper cap pa.drawLine(7,17,13,17); //bottom cap pa.drawLine(3,7,3,13); //left cap pa.drawLine(17,7,17,13); //right cap pa.end(); ui.cbErrorBarsType->addItem(i18n("Bars with Ends")); ui.cbErrorBarsType->setItemIcon(1, pm); ui.cbXErrorType->addItem(i18n("No")); ui.cbXErrorType->addItem(i18n("Symmetric")); ui.cbXErrorType->addItem(i18n("Asymmetric")); ui.cbYErrorType->addItem(i18n("No")); ui.cbYErrorType->addItem(i18n("Symmetric")); ui.cbYErrorType->addItem(i18n("Asymmetric")); GuiTools::updatePenStyles(ui.cbErrorBarsStyle, Qt::black); } void XYCurveDock::setModel() { m_aspectTreeModel->enablePlottableColumnsOnly(true); m_aspectTreeModel->enableShowPlotDesignation(true); QList list{AspectType::Folder, AspectType::Workbook, AspectType::Datapicker, AspectType::DatapickerCurve, AspectType::Spreadsheet, AspectType::LiveDataSource, AspectType::Column, AspectType::Worksheet, AspectType::CartesianPlot, AspectType::XYFitCurve, AspectType::CantorWorksheet}; if (cbXColumn) { cbXColumn->setTopLevelClasses(list); cbYColumn->setTopLevelClasses(list); } cbValuesColumn->setTopLevelClasses(list); cbXErrorMinusColumn->setTopLevelClasses(list); cbXErrorPlusColumn->setTopLevelClasses(list); cbYErrorMinusColumn->setTopLevelClasses(list); cbYErrorPlusColumn->setTopLevelClasses(list); list = {AspectType::Column, AspectType::XYCurve}; m_aspectTreeModel->setSelectableAspects(list); if (cbXColumn) { cbXColumn->setModel(m_aspectTreeModel); cbYColumn->setModel(m_aspectTreeModel); } cbValuesColumn->setModel(m_aspectTreeModel); cbXErrorMinusColumn->setModel(m_aspectTreeModel); cbXErrorPlusColumn->setModel(m_aspectTreeModel); cbYErrorMinusColumn->setModel(m_aspectTreeModel); cbYErrorPlusColumn->setModel(m_aspectTreeModel); } /*! sets the curves. The properties of the curves in the list \c list can be edited in this widget. */ void XYCurveDock::setCurves(QList list) { m_initializing = true; m_curvesList = list; m_curve = list.first(); m_aspect = list.first(); Q_ASSERT(m_curve); m_aspectTreeModel = new AspectTreeModel(m_curve->project()); setModel(); initGeneralTab(); initTabs(); m_initializing = false; } void XYCurveDock::initGeneralTab() { DEBUG("XYCurveDock::initGeneralTab()"); //if there are more than one curve in the list, disable the content in the tab "general" if (m_curvesList.size() == 1) { uiGeneralTab.lName->setEnabled(true); uiGeneralTab.leName->setEnabled(true); uiGeneralTab.lComment->setEnabled(true); uiGeneralTab.leComment->setEnabled(true); uiGeneralTab.lXColumn->setEnabled(true); cbXColumn->setEnabled(true); uiGeneralTab.lYColumn->setEnabled(true); cbYColumn->setEnabled(true); DEBUG("setModelIndexFromAspect()"); this->setModelIndexFromAspect(cbXColumn, m_curve->xColumn()); this->setModelIndexFromAspect(cbYColumn, m_curve->yColumn()); uiGeneralTab.leName->setText(m_curve->name()); uiGeneralTab.leComment->setText(m_curve->comment()); } else { uiGeneralTab.lName->setEnabled(false); uiGeneralTab.leName->setEnabled(false); uiGeneralTab.lComment->setEnabled(false); uiGeneralTab.leComment->setEnabled(false); uiGeneralTab.lXColumn->setEnabled(false); cbXColumn->setEnabled(false); uiGeneralTab.lYColumn->setEnabled(false); cbYColumn->setEnabled(false); cbXColumn->setCurrentModelIndex(QModelIndex()); cbYColumn->setCurrentModelIndex(QModelIndex()); uiGeneralTab.leName->setText(QString()); uiGeneralTab.leComment->setText(QString()); } checkColumnAvailability(cbXColumn, m_curve->xColumn(), m_curve->xColumnPath()); checkColumnAvailability(cbYColumn, m_curve->yColumn(), m_curve->yColumnPath()); checkColumnAvailability(cbValuesColumn, m_curve->valuesColumn(), m_curve->valuesColumnPath()); checkColumnAvailability(cbXErrorPlusColumn, m_curve->xErrorPlusColumn(), m_curve->xErrorPlusColumnPath()); checkColumnAvailability(cbXErrorMinusColumn, m_curve->xErrorMinusColumn(), m_curve->xErrorMinusColumnPath()); checkColumnAvailability(cbYErrorPlusColumn, m_curve->yErrorPlusColumn(), m_curve->yErrorPlusColumnPath()); checkColumnAvailability(cbYErrorMinusColumn, m_curve->yErrorMinusColumn(), m_curve->yErrorMinusColumnPath()); //show the properties of the first curve uiGeneralTab.chkVisible->setChecked( m_curve->isVisible() ); //Slots connect(m_curve, SIGNAL(aspectDescriptionChanged(const AbstractAspect*)),this, SLOT(curveDescriptionChanged(const AbstractAspect*))); connect(m_curve, SIGNAL(xColumnChanged(const AbstractColumn*)), this, SLOT(curveXColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(yColumnChanged(const AbstractColumn*)), this, SLOT(curveYColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(visibilityChanged(bool)), this, SLOT(curveVisibilityChanged(bool))); DEBUG("XYCurveDock::initGeneralTab() DONE"); } void XYCurveDock::initTabs() { //if there are more than one curve in the list, disable the tab "general" if (m_curvesList.size() == 1) { this->setModelIndexFromAspect(cbValuesColumn, m_curve->valuesColumn()); this->setModelIndexFromAspect(cbXErrorPlusColumn, m_curve->xErrorPlusColumn()); this->setModelIndexFromAspect(cbXErrorMinusColumn, m_curve->xErrorMinusColumn()); this->setModelIndexFromAspect(cbYErrorPlusColumn, m_curve->yErrorPlusColumn()); this->setModelIndexFromAspect(cbYErrorMinusColumn, m_curve->yErrorMinusColumn()); } else { cbValuesColumn->setCurrentModelIndex(QModelIndex()); cbXErrorPlusColumn->setCurrentModelIndex(QModelIndex()); cbXErrorMinusColumn->setCurrentModelIndex(QModelIndex()); cbYErrorPlusColumn->setCurrentModelIndex(QModelIndex()); cbYErrorMinusColumn->setCurrentModelIndex(QModelIndex()); } //show the properties of the first curve load(); //Slots //Line-Tab connect(m_curve, SIGNAL(lineTypeChanged(XYCurve::LineType)), this, SLOT(curveLineTypeChanged(XYCurve::LineType))); connect(m_curve, SIGNAL(lineSkipGapsChanged(bool)), this, SLOT(curveLineSkipGapsChanged(bool))); connect(m_curve, &XYCurve::lineIncreasingXOnlyChanged, this, &XYCurveDock::curveLineIncreasingXOnlyChanged); connect(m_curve, SIGNAL(lineInterpolationPointsCountChanged(int)), this, SLOT(curveLineInterpolationPointsCountChanged(int))); connect(m_curve, SIGNAL(linePenChanged(QPen)), this, SLOT(curveLinePenChanged(QPen))); connect(m_curve, SIGNAL(lineOpacityChanged(qreal)), this, SLOT(curveLineOpacityChanged(qreal))); connect(m_curve, SIGNAL(dropLineTypeChanged(XYCurve::DropLineType)), this, SLOT(curveDropLineTypeChanged(XYCurve::DropLineType))); connect(m_curve, SIGNAL(dropLinePenChanged(QPen)), this, SLOT(curveDropLinePenChanged(QPen))); connect(m_curve, SIGNAL(dropLineOpacityChanged(qreal)), this, SLOT(curveDropLineOpacityChanged(qreal))); //Symbol-Tab connect(m_curve, SIGNAL(symbolsStyleChanged(Symbol::Style)), this, SLOT(curveSymbolsStyleChanged(Symbol::Style))); connect(m_curve, SIGNAL(symbolsSizeChanged(qreal)), this, SLOT(curveSymbolsSizeChanged(qreal))); connect(m_curve, SIGNAL(symbolsRotationAngleChanged(qreal)), this, SLOT(curveSymbolsRotationAngleChanged(qreal))); connect(m_curve, SIGNAL(symbolsOpacityChanged(qreal)), this, SLOT(curveSymbolsOpacityChanged(qreal))); connect(m_curve, SIGNAL(symbolsBrushChanged(QBrush)), this, SLOT(curveSymbolsBrushChanged(QBrush))); connect(m_curve, SIGNAL(symbolsPenChanged(QPen)), this, SLOT(curveSymbolsPenChanged(QPen))); //Values-Tab connect(m_curve, SIGNAL(valuesTypeChanged(XYCurve::ValuesType)), this, SLOT(curveValuesTypeChanged(XYCurve::ValuesType))); connect(m_curve, SIGNAL(valuesColumnChanged(const AbstractColumn*)), this, SLOT(curveValuesColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(valuesPositionChanged(XYCurve::ValuesPosition)), this, SLOT(curveValuesPositionChanged(XYCurve::ValuesPosition))); connect(m_curve, SIGNAL(valuesDistanceChanged(qreal)), this, SLOT(curveValuesDistanceChanged(qreal))); connect(m_curve, SIGNAL(valuesOpacityChanged(qreal)), this, SLOT(curveValuesOpacityChanged(qreal))); connect(m_curve, SIGNAL(valuesRotationAngleChanged(qreal)), this, SLOT(curveValuesRotationAngleChanged(qreal))); connect(m_curve, SIGNAL(valuesPrefixChanged(QString)), this, SLOT(curveValuesPrefixChanged(QString))); connect(m_curve, SIGNAL(valuesSuffixChanged(QString)), this, SLOT(curveValuesSuffixChanged(QString))); connect(m_curve, SIGNAL(valuesFontChanged(QFont)), this, SLOT(curveValuesFontChanged(QFont))); connect(m_curve, SIGNAL(valuesColorChanged(QColor)), this, SLOT(curveValuesColorChanged(QColor))); //Filling-Tab connect( m_curve, SIGNAL(fillingPositionChanged(XYCurve::FillingPosition)), this, SLOT(curveFillingPositionChanged(XYCurve::FillingPosition)) ); connect( m_curve, SIGNAL(fillingTypeChanged(PlotArea::BackgroundType)), this, SLOT(curveFillingTypeChanged(PlotArea::BackgroundType)) ); connect( m_curve, SIGNAL(fillingColorStyleChanged(PlotArea::BackgroundColorStyle)), this, SLOT(curveFillingColorStyleChanged(PlotArea::BackgroundColorStyle)) ); connect( m_curve, SIGNAL(fillingImageStyleChanged(PlotArea::BackgroundImageStyle)), this, SLOT(curveFillingImageStyleChanged(PlotArea::BackgroundImageStyle)) ); connect( m_curve, SIGNAL(fillingBrushStyleChanged(Qt::BrushStyle)), this, SLOT(curveFillingBrushStyleChanged(Qt::BrushStyle)) ); connect( m_curve, SIGNAL(fillingFirstColorChanged(QColor&)), this, SLOT(curveFillingFirstColorChanged(QColor&)) ); connect( m_curve, SIGNAL(fillingSecondColorChanged(QColor&)), this, SLOT(curveFillingSecondColorChanged(QColor&)) ); connect( m_curve, SIGNAL(fillingFileNameChanged(QString&)), this, SLOT(curveFillingFileNameChanged(QString&)) ); connect( m_curve, SIGNAL(fillingOpacityChanged(float)), this, SLOT(curveFillingOpacityChanged(float)) ); //"Error bars"-Tab connect(m_curve, SIGNAL(xErrorTypeChanged(XYCurve::ErrorType)), this, SLOT(curveXErrorTypeChanged(XYCurve::ErrorType))); connect(m_curve, SIGNAL(xErrorPlusColumnChanged(const AbstractColumn*)), this, SLOT(curveXErrorPlusColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(xErrorMinusColumnChanged(const AbstractColumn*)), this, SLOT(curveXErrorMinusColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(yErrorTypeChanged(XYCurve::ErrorType)), this, SLOT(curveYErrorTypeChanged(XYCurve::ErrorType))); connect(m_curve, SIGNAL(yErrorPlusColumnChanged(const AbstractColumn*)), this, SLOT(curveYErrorPlusColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(yErrorMinusColumnChanged(const AbstractColumn*)), this, SLOT(curveYErrorMinusColumnChanged(const AbstractColumn*))); connect(m_curve, SIGNAL(errorBarsCapSizeChanged(qreal)), this, SLOT(curveErrorBarsCapSizeChanged(qreal))); connect(m_curve, SIGNAL(errorBarsTypeChanged(XYCurve::ErrorBarsType)), this, SLOT(curveErrorBarsTypeChanged(XYCurve::ErrorBarsType))); connect(m_curve, SIGNAL(errorBarsPenChanged(QPen)), this, SLOT(curveErrorBarsPenChanged(QPen))); connect(m_curve, SIGNAL(errorBarsOpacityChanged(qreal)), this, SLOT(curveErrorBarsOpacityChanged(qreal))); } /*! depending on the currently selected values column type (column mode) updates the widgets for the values column format, shows/hides the allowed widgets, fills the corresponding combobox with the possible entries. Called when the values column was changed. synchronize this function with ColumnDock::updateFormat. */ void XYCurveDock::updateValuesFormatWidgets(const AbstractColumn::ColumnMode columnMode) { ui.cbValuesFormat->clear(); switch (columnMode) { case AbstractColumn::Numeric: ui.cbValuesFormat->addItem(i18n("Decimal"), QVariant('f')); ui.cbValuesFormat->addItem(i18n("Scientific (e)"), QVariant('e')); ui.cbValuesFormat->addItem(i18n("Scientific (E)"), QVariant('E')); ui.cbValuesFormat->addItem(i18n("Automatic (e)"), QVariant('g')); ui.cbValuesFormat->addItem(i18n("Automatic (E)"), QVariant('G')); break; case AbstractColumn::Integer: break; case AbstractColumn::Text: ui.cbValuesFormat->addItem(i18n("Text"), QVariant()); break; case AbstractColumn::Month: ui.cbValuesFormat->addItem(i18n("Number without Leading Zero"), QVariant("M")); ui.cbValuesFormat->addItem(i18n("Number with Leading Zero"), QVariant("MM")); ui.cbValuesFormat->addItem(i18n("Abbreviated Month Name"), QVariant("MMM")); ui.cbValuesFormat->addItem(i18n("Full Month Name"), QVariant("MMMM")); break; case AbstractColumn::Day: ui.cbValuesFormat->addItem(i18n("Number without Leading Zero"), QVariant("d")); ui.cbValuesFormat->addItem(i18n("Number with Leading Zero"), QVariant("dd")); ui.cbValuesFormat->addItem(i18n("Abbreviated Day Name"), QVariant("ddd")); ui.cbValuesFormat->addItem(i18n("Full Day Name"), QVariant("dddd")); break; case AbstractColumn::DateTime: { for (const auto& s : AbstractColumn::dateFormats()) ui.cbValuesFormat->addItem(s, QVariant(s)); for (const auto& s : AbstractColumn::timeFormats()) ui.cbValuesFormat->addItem(s, QVariant(s)); for (const auto& s1 : AbstractColumn::dateFormats()) { for (const auto& s2 : AbstractColumn::timeFormats()) ui.cbValuesFormat->addItem(s1 + ' ' + s2, QVariant(s1 + ' ' + s2)); } break; } } if (columnMode == AbstractColumn::Numeric) { ui.lValuesPrecision->show(); ui.sbValuesPrecision->show(); } else { ui.lValuesPrecision->hide(); ui.sbValuesPrecision->hide(); } if (columnMode == AbstractColumn::Text) { ui.lValuesFormatTop->hide(); ui.lValuesFormat->hide(); ui.cbValuesFormat->hide(); } else { ui.lValuesFormatTop->show(); ui.lValuesFormat->show(); ui.cbValuesFormat->show(); } if (columnMode == AbstractColumn::DateTime) { ui.cbValuesFormat->setCurrentItem("yyyy-MM-dd hh:mm:ss.zzz"); ui.cbValuesFormat->setEditable(true); } else { ui.cbValuesFormat->setCurrentIndex(0); ui.cbValuesFormat->setEditable(false); } } void XYCurveDock::checkColumnAvailability(TreeViewComboBox* cb, const AbstractColumn* column, const QString columnPath) { if (!cb) return;// normally it shouldn't be called if (columnPath.isEmpty()) return; // don't make the comboboxes red when initially created curves if (column){ // current index text should be used cb->useCurrentIndexText(true); cb->setInvalid(false); } else { cb->useCurrentIndexText(false); cb->setInvalid(true, i18n("The column \"%1\"\nis not available anymore. It will be automatically used once it is created again.", columnPath)); } cb->setText(columnPath.split("/").last()); } /*! shows the formatting properties of the column \c column. Called, when a new column for the values was selected - either by changing the type of the values (none, x, y, etc.) or by selecting a new custom column for the values. */ void XYCurveDock::showValuesColumnFormat(const Column* column) { if (!column) { // no valid column is available // -> hide all the format properties widgets (equivalent to showing the properties of the column mode "Text") this->updateValuesFormatWidgets(AbstractColumn::Text); } else { AbstractColumn::ColumnMode columnMode = column->columnMode(); //update the format widgets for the new column mode this->updateValuesFormatWidgets(columnMode); //show the actual formatting properties switch (columnMode) { case AbstractColumn::Numeric: { const auto* filter = static_cast(column->outputFilter()); ui.cbValuesFormat->setCurrentIndex(ui.cbValuesFormat->findData(filter->numericFormat())); ui.sbValuesPrecision->setValue(filter->numDigits()); break; } case AbstractColumn::Integer: case AbstractColumn::Text: break; case AbstractColumn::Month: case AbstractColumn::Day: case AbstractColumn::DateTime: { const auto* filter = static_cast(column->outputFilter()); DEBUG(" column values format = " << filter->format().toStdString()); ui.cbValuesFormat->setCurrentIndex(ui.cbValuesFormat->findData(filter->format())); break; } } } } void XYCurveDock::setModelIndexFromAspect(TreeViewComboBox* cb, const AbstractAspect* aspect) { - DEBUG("XYCurveDock::setModelIndexFromAspect()"); if (aspect) cb->setCurrentModelIndex(m_aspectTreeModel->modelIndexOfAspect(aspect)); else cb->setCurrentModelIndex(QModelIndex()); } //************************************************************* //********** SLOTs for changes triggered in XYCurveDock ******** //************************************************************* void XYCurveDock::retranslateUi() { ui.lLineSkipGaps->setToolTip(i18n("If checked, connect neighbour points with lines even if there are gaps (invalid or masked values) between them")); ui.chkLineSkipGaps->setToolTip(i18n("If checked, connect neighbour points with lines even if there are gaps (invalid or masked values) between them")); ui.lLineIncreasingXOnly->setToolTip(i18n("If checked, connect data points only for strictly increasing values of X")); ui.chkLineIncreasingXOnly->setToolTip(i18n("If checked, connect data points only for strictly increasing values of X")); //TODO: // uiGeneralTab.lName->setText(i18n("Name")); // uiGeneralTab.lComment->setText(i18n("Comment")); // uiGeneralTab.chkVisible->setText(i18n("Visible")); // uiGeneralTab.lXColumn->setText(i18n("x-data")); // uiGeneralTab.lYColumn->setText(i18n("y-data")); //TODO updatePenStyles, updateBrushStyles for all comboboxes } void XYCurveDock::xColumnChanged(const QModelIndex& index) { if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); AbstractColumn* column = nullptr; if (aspect) { column = dynamic_cast(aspect); Q_ASSERT(column); } for (auto* curve : m_curvesList) curve->setXColumn(column); } void XYCurveDock::yColumnChanged(const QModelIndex& index) { if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); AbstractColumn* column = nullptr; if (aspect) { column = dynamic_cast(aspect); Q_ASSERT(column); } for (auto* curve : m_curvesList) curve->setYColumn(column); } void XYCurveDock::visibilityChanged(bool state) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setVisible(state); } // "Line"-tab void XYCurveDock::lineTypeChanged(int index) { const auto lineType = XYCurve::LineType(index); if ( lineType == XYCurve::NoLine) { ui.chkLineSkipGaps->setEnabled(false); ui.cbLineStyle->setEnabled(false); ui.kcbLineColor->setEnabled(false); ui.sbLineWidth->setEnabled(false); ui.sbLineOpacity->setEnabled(false); ui.lLineInterpolationPointsCount->hide(); ui.sbLineInterpolationPointsCount->hide(); } else { ui.chkLineSkipGaps->setEnabled(true); ui.cbLineStyle->setEnabled(true); ui.kcbLineColor->setEnabled(true); ui.sbLineWidth->setEnabled(true); ui.sbLineOpacity->setEnabled(true); if (lineType == XYCurve::SplineCubicNatural || lineType == XYCurve::SplineCubicPeriodic || lineType == XYCurve::SplineAkimaNatural || lineType == XYCurve::SplineAkimaPeriodic) { ui.lLineInterpolationPointsCount->show(); ui.sbLineInterpolationPointsCount->show(); ui.lLineSkipGaps->hide(); ui.chkLineSkipGaps->hide(); } else { ui.lLineInterpolationPointsCount->hide(); ui.sbLineInterpolationPointsCount->hide(); ui.lLineSkipGaps->show(); ui.chkLineSkipGaps->show(); } } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setLineType(lineType); } void XYCurveDock::lineSkipGapsChanged(bool skip) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setLineSkipGaps(skip); } void XYCurveDock::lineIncreasingXOnlyChanged(bool incr) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setLineIncreasingXOnly(incr); } void XYCurveDock::lineInterpolationPointsCountChanged(int count) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setLineInterpolationPointsCount(count); } void XYCurveDock::lineStyleChanged(int index) { if (m_initializing) return; const auto penStyle = Qt::PenStyle(index); QPen pen; for (auto* curve : m_curvesList) { pen = curve->linePen(); pen.setStyle(penStyle); curve->setLinePen(pen); } } void XYCurveDock::lineColorChanged(const QColor& color) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->linePen(); pen.setColor(color); curve->setLinePen(pen); } m_initializing = true; GuiTools::updatePenStyles(ui.cbLineStyle, color); m_initializing = false; } void XYCurveDock::lineWidthChanged(double value) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->linePen(); pen.setWidthF( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); curve->setLinePen(pen); } } void XYCurveDock::lineOpacityChanged(int value) { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setLineOpacity(opacity); } void XYCurveDock::dropLineTypeChanged(int index) { const auto dropLineType = XYCurve::DropLineType(index); if ( dropLineType == XYCurve::NoDropLine) { ui.cbDropLineStyle->setEnabled(false); ui.kcbDropLineColor->setEnabled(false); ui.sbDropLineWidth->setEnabled(false); ui.sbDropLineOpacity->setEnabled(false); } else { ui.cbDropLineStyle->setEnabled(true); ui.kcbDropLineColor->setEnabled(true); ui.sbDropLineWidth->setEnabled(true); ui.sbDropLineOpacity->setEnabled(true); } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setDropLineType(dropLineType); } void XYCurveDock::dropLineStyleChanged(int index) { if (m_initializing) return; auto penStyle = Qt::PenStyle(index); QPen pen; for (auto* curve : m_curvesList) { pen = curve->dropLinePen(); pen.setStyle(penStyle); curve->setDropLinePen(pen); } } void XYCurveDock::dropLineColorChanged(const QColor& color) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->dropLinePen(); pen.setColor(color); curve->setDropLinePen(pen); } m_initializing = true; GuiTools::updatePenStyles(ui.cbDropLineStyle, color); m_initializing = false; } void XYCurveDock::dropLineWidthChanged(double value) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->dropLinePen(); pen.setWidthF( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); curve->setDropLinePen(pen); } } void XYCurveDock::dropLineOpacityChanged(int value) { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setDropLineOpacity(opacity); } //"Symbol"-tab void XYCurveDock::symbolsStyleChanged(int index) { const auto style = Symbol::Style(index); if (style == Symbol::NoSymbols) { ui.sbSymbolSize->setEnabled(false); ui.sbSymbolRotation->setEnabled(false); ui.sbSymbolOpacity->setEnabled(false); ui.kcbSymbolFillingColor->setEnabled(false); ui.cbSymbolFillingStyle->setEnabled(false); ui.cbSymbolBorderStyle->setEnabled(false); ui.kcbSymbolBorderColor->setEnabled(false); ui.sbSymbolBorderWidth->setEnabled(false); } else { ui.sbSymbolSize->setEnabled(true); ui.sbSymbolRotation->setEnabled(true); ui.sbSymbolOpacity->setEnabled(true); //enable/disable the symbol filling options in the GUI depending on the currently selected symbol. if (style != Symbol::Line && style != Symbol::Cross) { ui.cbSymbolFillingStyle->setEnabled(true); bool noBrush = (Qt::BrushStyle(ui.cbSymbolFillingStyle->currentIndex()) == Qt::NoBrush); ui.kcbSymbolFillingColor->setEnabled(!noBrush); } else { ui.kcbSymbolFillingColor->setEnabled(false); ui.cbSymbolFillingStyle->setEnabled(false); } ui.cbSymbolBorderStyle->setEnabled(true); bool noLine = (Qt::PenStyle(ui.cbSymbolBorderStyle->currentIndex()) == Qt::NoPen); ui.kcbSymbolBorderColor->setEnabled(!noLine); ui.sbSymbolBorderWidth->setEnabled(!noLine); } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setSymbolsStyle(style); } void XYCurveDock::symbolsSizeChanged(double value) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setSymbolsSize( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); } void XYCurveDock::symbolsRotationChanged(int value) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setSymbolsRotationAngle(value); } void XYCurveDock::symbolsOpacityChanged(int value) { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setSymbolsOpacity(opacity); } void XYCurveDock::symbolsFillingStyleChanged(int index) { const auto brushStyle = Qt::BrushStyle(index); ui.kcbSymbolFillingColor->setEnabled(!(brushStyle == Qt::NoBrush)); if (m_initializing) return; QBrush brush; for (auto* curve : m_curvesList) { brush = curve->symbolsBrush(); brush.setStyle(brushStyle); curve->setSymbolsBrush(brush); } } void XYCurveDock::symbolsFillingColorChanged(const QColor& color) { if (m_initializing) return; QBrush brush; for (auto* curve : m_curvesList) { brush = curve->symbolsBrush(); brush.setColor(color); curve->setSymbolsBrush(brush); } m_initializing = true; GuiTools::updateBrushStyles(ui.cbSymbolFillingStyle, color ); m_initializing = false; } void XYCurveDock::symbolsBorderStyleChanged(int index) { const auto penStyle = Qt::PenStyle(index); if ( penStyle == Qt::NoPen ) { ui.kcbSymbolBorderColor->setEnabled(false); ui.sbSymbolBorderWidth->setEnabled(false); } else { ui.kcbSymbolBorderColor->setEnabled(true); ui.sbSymbolBorderWidth->setEnabled(true); } if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->symbolsPen(); pen.setStyle(penStyle); curve->setSymbolsPen(pen); } } void XYCurveDock::symbolsBorderColorChanged(const QColor& color) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->symbolsPen(); pen.setColor(color); curve->setSymbolsPen(pen); } m_initializing = true; GuiTools::updatePenStyles(ui.cbSymbolBorderStyle, color); m_initializing = false; } void XYCurveDock::symbolsBorderWidthChanged(double value) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->symbolsPen(); pen.setWidthF( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); curve->setSymbolsPen(pen); } } //Values-tab /*! called when the type of the values (none, x, y, (x,y) etc.) was changed. */ void XYCurveDock::valuesTypeChanged(int index) { const auto valuesType = XYCurve::ValuesType(index); if (valuesType == XYCurve::NoValues) { //no values are to paint -> deactivate all the pertinent widgets ui.cbValuesPosition->setEnabled(false); ui.lValuesColumn->hide(); cbValuesColumn->hide(); ui.sbValuesDistance->setEnabled(false); ui.sbValuesRotation->setEnabled(false); ui.sbValuesOpacity->setEnabled(false); ui.cbValuesFormat->setEnabled(false); ui.cbValuesFormat->setEnabled(false); ui.sbValuesPrecision->setEnabled(false); ui.leValuesPrefix->setEnabled(false); ui.leValuesSuffix->setEnabled(false); ui.kfrValuesFont->setEnabled(false); ui.kcbValuesColor->setEnabled(false); } else { ui.cbValuesPosition->setEnabled(true); ui.sbValuesDistance->setEnabled(true); ui.sbValuesRotation->setEnabled(true); ui.sbValuesOpacity->setEnabled(true); ui.cbValuesFormat->setEnabled(true); ui.sbValuesPrecision->setEnabled(true); ui.leValuesPrefix->setEnabled(true); ui.leValuesSuffix->setEnabled(true); ui.kfrValuesFont->setEnabled(true); ui.kcbValuesColor->setEnabled(true); const Column* column; if (valuesType == XYCurve::ValuesCustomColumn) { ui.lValuesColumn->show(); cbValuesColumn->show(); column = static_cast(cbValuesColumn->currentModelIndex().internalPointer()); } else { ui.lValuesColumn->hide(); cbValuesColumn->hide(); if (valuesType == XYCurve::ValuesY) column = static_cast(m_curve->yColumn()); else column = static_cast(m_curve->xColumn()); } this->showValuesColumnFormat(column); } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setValuesType(valuesType); } /*! called when the custom column for the values was changed. */ void XYCurveDock::valuesColumnChanged(const QModelIndex& index) { if (m_initializing) return; auto* column = static_cast(index.internalPointer()); this->showValuesColumnFormat(column); for (auto* curve : m_curvesList) { //TODO save also the format of the currently selected column for the values (precision etc.) curve->setValuesColumn(column); } } void XYCurveDock::valuesPositionChanged(int index) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setValuesPosition(XYCurve::ValuesPosition(index)); } void XYCurveDock::valuesDistanceChanged(double value) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setValuesDistance( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); } void XYCurveDock::valuesRotationChanged(int value) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setValuesRotationAngle(value); } void XYCurveDock::valuesOpacityChanged(int value) { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setValuesOpacity(opacity); } void XYCurveDock::valuesPrefixChanged() { if (m_initializing) return; QString prefix = ui.leValuesPrefix->text(); for (auto* curve : m_curvesList) curve->setValuesPrefix(prefix); } void XYCurveDock::valuesSuffixChanged() { if (m_initializing) return; QString suffix = ui.leValuesSuffix->text(); for (auto* curve : m_curvesList) curve->setValuesSuffix(suffix); } void XYCurveDock::valuesFontChanged(const QFont& font) { if (m_initializing) return; QFont valuesFont = font; valuesFont.setPixelSize( Worksheet::convertToSceneUnits(font.pointSizeF(), Worksheet::Point) ); for (auto* curve : m_curvesList) curve->setValuesFont(valuesFont); } void XYCurveDock::valuesColorChanged(const QColor& color) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setValuesColor(color); } //Filling-tab void XYCurveDock::fillingPositionChanged(int index) { const auto fillingPosition = XYCurve::FillingPosition(index); bool b = (fillingPosition != XYCurve::NoFilling); ui.cbFillingType->setEnabled(b); ui.cbFillingColorStyle->setEnabled(b); ui.cbFillingBrushStyle->setEnabled(b); ui.cbFillingImageStyle->setEnabled(b); ui.kcbFillingFirstColor->setEnabled(b); ui.kcbFillingSecondColor->setEnabled(b); ui.leFillingFileName->setEnabled(b); ui.bFillingOpen->setEnabled(b); ui.sbFillingOpacity->setEnabled(b); if (m_initializing) return; for (auto* curve : m_curvesList) curve->setFillingPosition(fillingPosition); } void XYCurveDock::fillingTypeChanged(int index) { const auto type = (PlotArea::BackgroundType)index; if (type == PlotArea::Color) { ui.lFillingColorStyle->show(); ui.cbFillingColorStyle->show(); ui.lFillingImageStyle->hide(); ui.cbFillingImageStyle->hide(); ui.lFillingBrushStyle->hide(); ui.cbFillingBrushStyle->hide(); ui.lFillingFileName->hide(); ui.leFillingFileName->hide(); ui.bFillingOpen->hide(); ui.lFillingFirstColor->show(); ui.kcbFillingFirstColor->show(); auto style = (PlotArea::BackgroundColorStyle) ui.cbFillingColorStyle->currentIndex(); if (style == PlotArea::SingleColor) { ui.lFillingFirstColor->setText(i18n("Color:")); ui.lFillingSecondColor->hide(); ui.kcbFillingSecondColor->hide(); } else { ui.lFillingFirstColor->setText(i18n("First color:")); ui.lFillingSecondColor->show(); ui.kcbFillingSecondColor->show(); } } else if (type == PlotArea::Image) { ui.lFillingColorStyle->hide(); ui.cbFillingColorStyle->hide(); ui.lFillingImageStyle->show(); ui.cbFillingImageStyle->show(); ui.lFillingBrushStyle->hide(); ui.cbFillingBrushStyle->hide(); ui.lFillingFileName->show(); ui.leFillingFileName->show(); ui.bFillingOpen->show(); ui.lFillingFirstColor->hide(); ui.kcbFillingFirstColor->hide(); ui.lFillingSecondColor->hide(); ui.kcbFillingSecondColor->hide(); } else if (type == PlotArea::Pattern) { ui.lFillingFirstColor->setText(i18n("Color:")); ui.lFillingColorStyle->hide(); ui.cbFillingColorStyle->hide(); ui.lFillingImageStyle->hide(); ui.cbFillingImageStyle->hide(); ui.lFillingBrushStyle->show(); ui.cbFillingBrushStyle->show(); ui.lFillingFileName->hide(); ui.leFillingFileName->hide(); ui.bFillingOpen->hide(); ui.lFillingFirstColor->show(); ui.kcbFillingFirstColor->show(); ui.lFillingSecondColor->hide(); ui.kcbFillingSecondColor->hide(); } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setFillingType(type); } void XYCurveDock::fillingColorStyleChanged(int index) { const auto style = (PlotArea::BackgroundColorStyle)index; if (style == PlotArea::SingleColor) { ui.lFillingFirstColor->setText(i18n("Color:")); ui.lFillingSecondColor->hide(); ui.kcbFillingSecondColor->hide(); } else { ui.lFillingFirstColor->setText(i18n("First color:")); ui.lFillingSecondColor->show(); ui.kcbFillingSecondColor->show(); ui.lFillingBrushStyle->hide(); ui.cbFillingBrushStyle->hide(); } if (m_initializing) return; for (auto* curve : m_curvesList) curve->setFillingColorStyle(style); } void XYCurveDock::fillingImageStyleChanged(int index) { if (m_initializing) return; auto style = (PlotArea::BackgroundImageStyle)index; for (auto* curve : m_curvesList) curve->setFillingImageStyle(style); } void XYCurveDock::fillingBrushStyleChanged(int index) { if (m_initializing) return; auto style = (Qt::BrushStyle)index; for (auto* curve : m_curvesList) curve->setFillingBrushStyle(style); } void XYCurveDock::fillingFirstColorChanged(const QColor& c) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setFillingFirstColor(c); m_initializing = true; GuiTools::updateBrushStyles(ui.cbFillingBrushStyle, c); m_initializing = false; } void XYCurveDock::fillingSecondColorChanged(const QColor& c) { if (m_initializing) return; for (auto* curve : m_curvesList) curve->setFillingSecondColor(c); } /*! opens a file dialog and lets the user select the image file. */ void XYCurveDock::selectFile() { KConfigGroup conf(KSharedConfig::openConfig(), "XYCurveDock"); QString dir = conf.readEntry("LastImageDir", ""); QString formats; for (const QByteArray& format : QImageReader::supportedImageFormats()) { QString f = "*." + QString(format.constData()); formats.isEmpty() ? formats += f : formats += ' ' + f; } QString path = QFileDialog::getOpenFileName(this, i18n("Select the image file"), dir, i18n("Images (%1)", formats)); if (path.isEmpty()) return; //cancel was clicked in the file-dialog int pos = path.lastIndexOf(QDir::separator()); if (pos != -1) { QString newDir = path.left(pos); if (newDir != dir) conf.writeEntry("LastImageDir", newDir); } ui.leFillingFileName->setText( path ); for (auto* curve : m_curvesList) curve->setFillingFileName(path); } void XYCurveDock::fileNameChanged() { if (m_initializing) return; QString fileName = ui.leFillingFileName->text(); for (auto* curve : m_curvesList) curve->setFillingFileName(fileName); } void XYCurveDock::fillingOpacityChanged(int value) { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setFillingOpacity(opacity); } //"Error bars"-Tab void XYCurveDock::xErrorTypeChanged(int index) const { if (index == 0) { //no error ui.lXErrorDataPlus->setVisible(false); cbXErrorPlusColumn->setVisible(false); ui.lXErrorDataMinus->setVisible(false); cbXErrorMinusColumn->setVisible(false); } else if (index == 1) { //symmetric error ui.lXErrorDataPlus->setVisible(true); cbXErrorPlusColumn->setVisible(true); ui.lXErrorDataMinus->setVisible(false); cbXErrorMinusColumn->setVisible(false); ui.lXErrorDataPlus->setText(i18n("Data, +-")); } else if (index == 2) { //asymmetric error ui.lXErrorDataPlus->setVisible(true); cbXErrorPlusColumn->setVisible(true); ui.lXErrorDataMinus->setVisible(true); cbXErrorMinusColumn->setVisible(true); ui.lXErrorDataPlus->setText(i18n("Data, +")); } bool b = (index!=0 || ui.cbYErrorType->currentIndex()!=0); ui.lErrorFormat->setVisible(b); ui.lErrorBarsType->setVisible(b); ui.cbErrorBarsType->setVisible(b); ui.lErrorBarsStyle->setVisible(b); ui.cbErrorBarsStyle->setVisible(b); ui.lErrorBarsColor->setVisible(b); ui.kcbErrorBarsColor->setVisible(b); ui.lErrorBarsWidth->setVisible(b); ui.sbErrorBarsWidth->setVisible(b); ui.lErrorBarsOpacity->setVisible(b); ui.sbErrorBarsOpacity->setVisible(b); if (m_initializing) return; for (auto* curve : m_curvesList) curve->setXErrorType(XYCurve::ErrorType(index)); } void XYCurveDock::xErrorPlusColumnChanged(const QModelIndex& index) const { Q_UNUSED(index); if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); auto* column = dynamic_cast(aspect); Q_ASSERT(column); for (auto* curve : m_curvesList) curve->setXErrorPlusColumn(column); } void XYCurveDock::xErrorMinusColumnChanged(const QModelIndex& index) const { Q_UNUSED(index); if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); auto* column = dynamic_cast(aspect); Q_ASSERT(column); for (auto* curve : m_curvesList) curve->setXErrorMinusColumn(column); } void XYCurveDock::yErrorTypeChanged(int index) const { if (index == 0) { //no error ui.lYErrorDataPlus->setVisible(false); cbYErrorPlusColumn->setVisible(false); ui.lYErrorDataMinus->setVisible(false); cbYErrorMinusColumn->setVisible(false); } else if (index == 1) { //symmetric error ui.lYErrorDataPlus->setVisible(true); cbYErrorPlusColumn->setVisible(true); ui.lYErrorDataMinus->setVisible(false); cbYErrorMinusColumn->setVisible(false); ui.lYErrorDataPlus->setText(i18n("Data, +-")); } else if (index == 2) { //asymmetric error ui.lYErrorDataPlus->setVisible(true); cbYErrorPlusColumn->setVisible(true); ui.lYErrorDataMinus->setVisible(true); cbYErrorMinusColumn->setVisible(true); ui.lYErrorDataPlus->setText(i18n("Data, +")); } bool b = (index!=0 || ui.cbXErrorType->currentIndex()!=0); ui.lErrorFormat->setVisible(b); ui.lErrorBarsType->setVisible(b); ui.cbErrorBarsType->setVisible(b); ui.lErrorBarsStyle->setVisible(b); ui.cbErrorBarsStyle->setVisible(b); ui.lErrorBarsColor->setVisible(b); ui.kcbErrorBarsColor->setVisible(b); ui.lErrorBarsWidth->setVisible(b); ui.sbErrorBarsWidth->setVisible(b); ui.lErrorBarsOpacity->setVisible(b); ui.sbErrorBarsOpacity->setVisible(b); if (m_initializing) return; for (auto* curve : m_curvesList) curve->setYErrorType(XYCurve::ErrorType(index)); } void XYCurveDock::yErrorPlusColumnChanged(const QModelIndex& index) const { Q_UNUSED(index); if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); auto* column = dynamic_cast(aspect); Q_ASSERT(column); for (auto* curve : m_curvesList) curve->setYErrorPlusColumn(column); } void XYCurveDock::yErrorMinusColumnChanged(const QModelIndex& index) const { Q_UNUSED(index); if (m_initializing) return; auto* aspect = static_cast(index.internalPointer()); auto* column = dynamic_cast(aspect); Q_ASSERT(column); for (auto* curve : m_curvesList) curve->setYErrorMinusColumn(column); } void XYCurveDock::errorBarsTypeChanged(int index) const { auto type = XYCurve::ErrorBarsType(index); bool b = (type == XYCurve::ErrorBarsWithEnds); ui.lErrorBarsCapSize->setVisible(b); ui.sbErrorBarsCapSize->setVisible(b); if (m_initializing) return; for (auto* curve : m_curvesList) curve->setErrorBarsType(type); } void XYCurveDock::errorBarsCapSizeChanged(double value) const { if (m_initializing) return; float size = Worksheet::convertToSceneUnits(value, Worksheet::Point); for (auto* curve : m_curvesList) curve->setErrorBarsCapSize(size); } void XYCurveDock::errorBarsStyleChanged(int index) const { if (m_initializing) return; auto penStyle = Qt::PenStyle(index); QPen pen; for (auto* curve : m_curvesList) { pen = curve->errorBarsPen(); pen.setStyle(penStyle); curve->setErrorBarsPen(pen); } } void XYCurveDock::errorBarsColorChanged(const QColor& color) { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->errorBarsPen(); pen.setColor(color); curve->setErrorBarsPen(pen); } m_initializing = true; GuiTools::updatePenStyles(ui.cbErrorBarsStyle, color); m_initializing = false; } void XYCurveDock::errorBarsWidthChanged(double value) const { if (m_initializing) return; QPen pen; for (auto* curve : m_curvesList) { pen = curve->errorBarsPen(); pen.setWidthF( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); curve->setErrorBarsPen(pen); } } void XYCurveDock::errorBarsOpacityChanged(int value) const { if (m_initializing) return; qreal opacity = (float)value/100.; for (auto* curve : m_curvesList) curve->setErrorBarsOpacity(opacity); } //************************************************************* //*********** SLOTs for changes triggered in XYCurve ********** //************************************************************* //General-Tab void XYCurveDock::curveDescriptionChanged(const AbstractAspect* aspect) { if (m_curve != aspect) return; m_initializing = true; if (aspect->name() != uiGeneralTab.leName->text()) uiGeneralTab.leName->setText(aspect->name()); else if (aspect->comment() != uiGeneralTab.leComment->text()) uiGeneralTab.leComment->setText(aspect->comment()); m_initializing = false; } void XYCurveDock::curveXColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbXColumn, column); cbXColumn->useCurrentIndexText(true); cbXColumn->setInvalid(false); m_initializing = false; } void XYCurveDock::curveYColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbYColumn, column); cbYColumn->useCurrentIndexText(true); cbYColumn->setInvalid(false); m_initializing = false; } void XYCurveDock::curveVisibilityChanged(bool on) { m_initializing = true; uiGeneralTab.chkVisible->setChecked(on); m_initializing = false; } //Line-Tab void XYCurveDock::curveLineTypeChanged(XYCurve::LineType type) { m_initializing = true; ui.cbLineType->setCurrentIndex( (int) type); m_initializing = false; } void XYCurveDock::curveLineSkipGapsChanged(bool skip) { m_initializing = true; ui.chkLineSkipGaps->setChecked(skip); m_initializing = false; } void XYCurveDock::curveLineIncreasingXOnlyChanged(bool incr) { m_initializing = true; ui.chkLineIncreasingXOnly->setChecked(incr); m_initializing = false; } void XYCurveDock::curveLineInterpolationPointsCountChanged(int count) { m_initializing = true; ui.sbLineInterpolationPointsCount->setValue(count); m_initializing = false; } void XYCurveDock::curveLinePenChanged(const QPen& pen) { m_initializing = true; ui.cbLineStyle->setCurrentIndex( (int)pen.style()); ui.kcbLineColor->setColor( pen.color()); GuiTools::updatePenStyles(ui.cbLineStyle, pen.color()); ui.sbLineWidth->setValue( Worksheet::convertFromSceneUnits( pen.widthF(), Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveLineOpacityChanged(qreal opacity) { m_initializing = true; ui.sbLineOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } void XYCurveDock::curveDropLineTypeChanged(XYCurve::DropLineType type) { m_initializing = true; ui.cbDropLineType->setCurrentIndex( (int)type ); m_initializing = false; } void XYCurveDock::curveDropLinePenChanged(const QPen& pen) { m_initializing = true; ui.cbDropLineStyle->setCurrentIndex( (int) pen.style()); ui.kcbDropLineColor->setColor( pen.color()); GuiTools::updatePenStyles(ui.cbDropLineStyle, pen.color()); ui.sbDropLineWidth->setValue( Worksheet::convertFromSceneUnits(pen.widthF(),Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveDropLineOpacityChanged(qreal opacity) { m_initializing = true; ui.sbDropLineOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } //Symbol-Tab void XYCurveDock::curveSymbolsStyleChanged(Symbol::Style style) { m_initializing = true; ui.cbSymbolStyle->setCurrentIndex((int)style); m_initializing = false; } void XYCurveDock::curveSymbolsSizeChanged(qreal size) { m_initializing = true; ui.sbSymbolSize->setValue( Worksheet::convertFromSceneUnits(size, Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveSymbolsRotationAngleChanged(qreal angle) { m_initializing = true; ui.sbSymbolRotation->setValue(angle); m_initializing = false; } void XYCurveDock::curveSymbolsOpacityChanged(qreal opacity) { m_initializing = true; ui.sbSymbolOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } void XYCurveDock::curveSymbolsBrushChanged(const QBrush& brush) { m_initializing = true; ui.cbSymbolFillingStyle->setCurrentIndex((int) brush.style()); ui.kcbSymbolFillingColor->setColor(brush.color()); GuiTools::updateBrushStyles(ui.cbSymbolFillingStyle, brush.color()); m_initializing = false; } void XYCurveDock::curveSymbolsPenChanged(const QPen& pen) { m_initializing = true; ui.cbSymbolBorderStyle->setCurrentIndex( (int) pen.style()); ui.kcbSymbolBorderColor->setColor( pen.color()); GuiTools::updatePenStyles(ui.cbSymbolBorderStyle, pen.color()); ui.sbSymbolBorderWidth->setValue( Worksheet::convertFromSceneUnits(pen.widthF(), Worksheet::Point)); m_initializing = false; } //Values-Tab void XYCurveDock::curveValuesTypeChanged(XYCurve::ValuesType type) { m_initializing = true; ui.cbValuesType->setCurrentIndex((int) type); m_initializing = false; } void XYCurveDock::curveValuesColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbValuesColumn, column); m_initializing = false; } void XYCurveDock::curveValuesPositionChanged(XYCurve::ValuesPosition position) { m_initializing = true; ui.cbValuesPosition->setCurrentIndex((int) position); m_initializing = false; } void XYCurveDock::curveValuesDistanceChanged(qreal distance) { m_initializing = true; ui.sbValuesDistance->setValue( Worksheet::convertFromSceneUnits(distance, Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveValuesRotationAngleChanged(qreal angle) { m_initializing = true; ui.sbValuesRotation->setValue(angle); m_initializing = false; } void XYCurveDock::curveValuesOpacityChanged(qreal opacity) { m_initializing = true; ui.sbValuesOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } void XYCurveDock::curveValuesPrefixChanged(const QString& prefix) { m_initializing = true; ui.leValuesPrefix->setText(prefix); m_initializing = false; } void XYCurveDock::curveValuesSuffixChanged(const QString& suffix) { m_initializing = true; ui.leValuesSuffix->setText(suffix); m_initializing = false; } void XYCurveDock::curveValuesFontChanged(QFont font) { m_initializing = true; font.setPointSizeF( round(Worksheet::convertFromSceneUnits(font.pixelSize(), Worksheet::Point)) ); ui.kfrValuesFont->setFont(font); m_initializing = false; } void XYCurveDock::curveValuesColorChanged(QColor color) { m_initializing = true; ui.kcbValuesColor->setColor(color); m_initializing = false; } //Filling void XYCurveDock::curveFillingPositionChanged(XYCurve::FillingPosition position) { m_initializing = true; ui.cbFillingPosition->setCurrentIndex((int)position); m_initializing = false; } void XYCurveDock::curveFillingTypeChanged(PlotArea::BackgroundType type) { m_initializing = true; ui.cbFillingType->setCurrentIndex(type); m_initializing = false; } void XYCurveDock::curveFillingColorStyleChanged(PlotArea::BackgroundColorStyle style) { m_initializing = true; ui.cbFillingColorStyle->setCurrentIndex(style); m_initializing = false; } void XYCurveDock::curveFillingImageStyleChanged(PlotArea::BackgroundImageStyle style) { m_initializing = true; ui.cbFillingImageStyle->setCurrentIndex(style); m_initializing = false; } void XYCurveDock::curveFillingBrushStyleChanged(Qt::BrushStyle style) { m_initializing = true; ui.cbFillingBrushStyle->setCurrentIndex(style); m_initializing = false; } void XYCurveDock::curveFillingFirstColorChanged(QColor& color) { m_initializing = true; ui.kcbFillingFirstColor->setColor(color); GuiTools::updateBrushStyles(ui.cbFillingBrushStyle, color); m_initializing = false; } void XYCurveDock::curveFillingSecondColorChanged(QColor& color) { m_initializing = true; ui.kcbFillingSecondColor->setColor(color); m_initializing = false; } void XYCurveDock::curveFillingFileNameChanged(QString& filename) { m_initializing = true; ui.leFillingFileName->setText(filename); m_initializing = false; } void XYCurveDock::curveFillingOpacityChanged(float opacity) { m_initializing = true; ui.sbFillingOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } //"Error bars"-Tab void XYCurveDock::curveXErrorTypeChanged(XYCurve::ErrorType type) { m_initializing = true; ui.cbXErrorType->setCurrentIndex((int) type); m_initializing = false; } void XYCurveDock::curveXErrorPlusColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbXErrorPlusColumn, column); m_initializing = false; } void XYCurveDock::curveXErrorMinusColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbXErrorMinusColumn, column); m_initializing = false; } void XYCurveDock::curveYErrorTypeChanged(XYCurve::ErrorType type) { m_initializing = true; ui.cbYErrorType->setCurrentIndex((int) type); m_initializing = false; } void XYCurveDock::curveYErrorPlusColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbYErrorPlusColumn, column); m_initializing = false; } void XYCurveDock::curveYErrorMinusColumnChanged(const AbstractColumn* column) { m_initializing = true; this->setModelIndexFromAspect(cbYErrorMinusColumn, column); m_initializing = false; } void XYCurveDock::curveErrorBarsCapSizeChanged(qreal size) { m_initializing = true; ui.sbErrorBarsCapSize->setValue( Worksheet::convertFromSceneUnits(size, Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveErrorBarsTypeChanged(XYCurve::ErrorBarsType type) { m_initializing = true; ui.cbErrorBarsType->setCurrentIndex( (int) type); m_initializing = false; } void XYCurveDock::curveErrorBarsPenChanged(const QPen& pen) { m_initializing = true; ui.cbErrorBarsStyle->setCurrentIndex( (int) pen.style()); ui.kcbErrorBarsColor->setColor( pen.color()); GuiTools::updatePenStyles(ui.cbErrorBarsStyle, pen.color()); ui.sbErrorBarsWidth->setValue( Worksheet::convertFromSceneUnits(pen.widthF(),Worksheet::Point) ); m_initializing = false; } void XYCurveDock::curveErrorBarsOpacityChanged(qreal opacity) { m_initializing = true; ui.sbErrorBarsOpacity->setValue( round(opacity*100.0) ); m_initializing = false; } //************************************************************* //************************* Settings ************************** //************************************************************* void XYCurveDock::load() { //General //This data is read in XYCurveDock::setCurves(). //Line ui.cbLineType->setCurrentIndex( (int) m_curve->lineType() ); ui.chkLineSkipGaps->setChecked( m_curve->lineSkipGaps() ); ui.sbLineInterpolationPointsCount->setValue( m_curve->lineInterpolationPointsCount() ); ui.cbLineStyle->setCurrentIndex( (int) m_curve->linePen().style() ); ui.kcbLineColor->setColor( m_curve->linePen().color() ); ui.sbLineWidth->setValue( Worksheet::convertFromSceneUnits(m_curve->linePen().widthF(), Worksheet::Point) ); ui.sbLineOpacity->setValue( round(m_curve->lineOpacity()*100.0) ); //Drop lines ui.cbDropLineType->setCurrentIndex( (int) m_curve->dropLineType() ); ui.cbDropLineStyle->setCurrentIndex( (int) m_curve->dropLinePen().style() ); ui.kcbDropLineColor->setColor( m_curve->dropLinePen().color() ); ui.sbDropLineWidth->setValue( Worksheet::convertFromSceneUnits(m_curve->dropLinePen().widthF(),Worksheet::Point) ); ui.sbDropLineOpacity->setValue( round(m_curve->dropLineOpacity()*100.0) ); //Symbols ui.cbSymbolStyle->setCurrentIndex( (int)m_curve->symbolsStyle() ); ui.sbSymbolSize->setValue( Worksheet::convertFromSceneUnits(m_curve->symbolsSize(), Worksheet::Point) ); ui.sbSymbolRotation->setValue( m_curve->symbolsRotationAngle() ); ui.sbSymbolOpacity->setValue( round(m_curve->symbolsOpacity()*100.0) ); ui.cbSymbolFillingStyle->setCurrentIndex( (int) m_curve->symbolsBrush().style() ); ui.kcbSymbolFillingColor->setColor( m_curve->symbolsBrush().color() ); ui.cbSymbolBorderStyle->setCurrentIndex( (int) m_curve->symbolsPen().style() ); ui.kcbSymbolBorderColor->setColor( m_curve->symbolsPen().color() ); ui.sbSymbolBorderWidth->setValue( Worksheet::convertFromSceneUnits(m_curve->symbolsPen().widthF(), Worksheet::Point) ); //Values ui.cbValuesType->setCurrentIndex( (int) m_curve->valuesType() ); ui.cbValuesPosition->setCurrentIndex( (int) m_curve->valuesPosition() ); ui.sbValuesDistance->setValue( Worksheet::convertFromSceneUnits(m_curve->valuesDistance(), Worksheet::Point) ); ui.sbValuesRotation->setValue( m_curve->valuesRotationAngle() ); ui.sbValuesOpacity->setValue( round(m_curve->valuesOpacity()*100.0) ); ui.leValuesPrefix->setText( m_curve->valuesPrefix() ); ui.leValuesSuffix->setText( m_curve->valuesSuffix() ); QFont valuesFont = m_curve->valuesFont(); valuesFont.setPointSizeF( round(Worksheet::convertFromSceneUnits(valuesFont.pixelSize(), Worksheet::Point)) ); ui.kfrValuesFont->setFont(valuesFont); ui.kcbValuesColor->setColor( m_curve->valuesColor() ); //Filling ui.cbFillingPosition->setCurrentIndex( (int) m_curve->fillingPosition() ); ui.cbFillingType->setCurrentIndex( (int)m_curve->fillingType() ); ui.cbFillingColorStyle->setCurrentIndex( (int) m_curve->fillingColorStyle() ); ui.cbFillingImageStyle->setCurrentIndex( (int) m_curve->fillingImageStyle() ); ui.cbFillingBrushStyle->setCurrentIndex( (int) m_curve->fillingBrushStyle() ); ui.leFillingFileName->setText( m_curve->fillingFileName() ); ui.kcbFillingFirstColor->setColor( m_curve->fillingFirstColor() ); ui.kcbFillingSecondColor->setColor( m_curve->fillingSecondColor() ); ui.sbFillingOpacity->setValue( round(m_curve->fillingOpacity()*100.0) ); //Error bars ui.cbXErrorType->setCurrentIndex( (int) m_curve->xErrorType() ); ui.cbYErrorType->setCurrentIndex( (int) m_curve->yErrorType() ); ui.cbErrorBarsType->setCurrentIndex( (int) m_curve->errorBarsType() ); ui.sbErrorBarsCapSize->setValue( Worksheet::convertFromSceneUnits(m_curve->errorBarsCapSize(), Worksheet::Point) ); ui.cbErrorBarsStyle->setCurrentIndex( (int) m_curve->errorBarsPen().style() ); ui.kcbErrorBarsColor->setColor( m_curve->errorBarsPen().color() ); ui.sbErrorBarsWidth->setValue( Worksheet::convertFromSceneUnits(m_curve->errorBarsPen().widthF(),Worksheet::Point) ); ui.sbErrorBarsOpacity->setValue( round(m_curve->errorBarsOpacity()*100.0) ); m_initializing = true; GuiTools::updatePenStyles(ui.cbLineStyle, ui.kcbLineColor->color()); GuiTools::updatePenStyles(ui.cbDropLineStyle, ui.kcbDropLineColor->color()); GuiTools::updateBrushStyles(ui.cbSymbolFillingStyle, ui.kcbSymbolFillingColor->color()); GuiTools::updatePenStyles(ui.cbSymbolBorderStyle, ui.kcbSymbolBorderColor->color()); GuiTools::updatePenStyles(ui.cbErrorBarsStyle, ui.kcbErrorBarsColor->color()); m_initializing = false; } void XYCurveDock::loadConfigFromTemplate(KConfig& config) { //extract the name of the template from the file name QString name; int index = config.name().lastIndexOf(QDir::separator()); if (index != -1) name = config.name().right(config.name().size() - index - 1); else name = config.name(); int size = m_curvesList.size(); if (size > 1) m_curve->beginMacro(i18n("%1 xy-curves: template \"%2\" loaded", size, name)); else m_curve->beginMacro(i18n("%1: template \"%2\" loaded", m_curve->name(), name)); this->loadConfig(config); m_curve->endMacro(); } void XYCurveDock::loadConfig(KConfig& config) { KConfigGroup group = config.group( "XYCurve" ); //General //we don't load/save the settings in the general-tab, since they are not style related. //It doesn't make sense to load/save them in the template. //This data is read in XYCurveDock::setCurves(). //Line ui.cbLineType->setCurrentIndex( group.readEntry("LineType", (int) m_curve->lineType()) ); ui.chkLineSkipGaps->setChecked( group.readEntry("LineSkipGaps", m_curve->lineSkipGaps()) ); ui.sbLineInterpolationPointsCount->setValue( group.readEntry("LineInterpolationPointsCount", m_curve->lineInterpolationPointsCount()) ); ui.cbLineStyle->setCurrentIndex( group.readEntry("LineStyle", (int) m_curve->linePen().style()) ); ui.kcbLineColor->setColor( group.readEntry("LineColor", m_curve->linePen().color()) ); ui.sbLineWidth->setValue( Worksheet::convertFromSceneUnits(group.readEntry("LineWidth", m_curve->linePen().widthF()), Worksheet::Point) ); ui.sbLineOpacity->setValue( round(group.readEntry("LineOpacity", m_curve->lineOpacity())*100.0) ); //Drop lines ui.cbDropLineType->setCurrentIndex( group.readEntry("DropLineType", (int) m_curve->dropLineType()) ); ui.cbDropLineStyle->setCurrentIndex( group.readEntry("DropLineStyle", (int) m_curve->dropLinePen().style()) ); ui.kcbDropLineColor->setColor( group.readEntry("DropLineColor", m_curve->dropLinePen().color()) ); ui.sbDropLineWidth->setValue( Worksheet::convertFromSceneUnits(group.readEntry("DropLineWidth", m_curve->dropLinePen().widthF()),Worksheet::Point) ); ui.sbDropLineOpacity->setValue( round(group.readEntry("DropLineOpacity", m_curve->dropLineOpacity())*100.0) ); //Symbols ui.cbSymbolStyle->setCurrentIndex( group.readEntry("SymbolStyle", (int)m_curve->symbolsStyle()) ); ui.sbSymbolSize->setValue( Worksheet::convertFromSceneUnits(group.readEntry("SymbolSize", m_curve->symbolsSize()), Worksheet::Point) ); ui.sbSymbolRotation->setValue( group.readEntry("SymbolRotation", m_curve->symbolsRotationAngle()) ); ui.sbSymbolOpacity->setValue( round(group.readEntry("SymbolOpacity", m_curve->symbolsOpacity())*100.0) ); ui.cbSymbolFillingStyle->setCurrentIndex( group.readEntry("SymbolFillingStyle", (int) m_curve->symbolsBrush().style()) ); ui.kcbSymbolFillingColor->setColor( group.readEntry("SymbolFillingColor", m_curve->symbolsBrush().color()) ); ui.cbSymbolBorderStyle->setCurrentIndex( group.readEntry("SymbolBorderStyle", (int) m_curve->symbolsPen().style()) ); ui.kcbSymbolBorderColor->setColor( group.readEntry("SymbolBorderColor", m_curve->symbolsPen().color()) ); ui.sbSymbolBorderWidth->setValue( Worksheet::convertFromSceneUnits(group.readEntry("SymbolBorderWidth",m_curve->symbolsPen().widthF()), Worksheet::Point) ); //Values ui.cbValuesType->setCurrentIndex( group.readEntry("ValuesType", (int) m_curve->valuesType()) ); ui.cbValuesPosition->setCurrentIndex( group.readEntry("ValuesPosition", (int) m_curve->valuesPosition()) ); ui.sbValuesDistance->setValue( Worksheet::convertFromSceneUnits(group.readEntry("ValuesDistance", m_curve->valuesDistance()), Worksheet::Point) ); ui.sbValuesRotation->setValue( group.readEntry("ValuesRotation", m_curve->valuesRotationAngle()) ); ui.sbValuesOpacity->setValue( round(group.readEntry("ValuesOpacity",m_curve->valuesOpacity())*100.0) ); ui.leValuesPrefix->setText( group.readEntry("ValuesPrefix", m_curve->valuesPrefix()) ); ui.leValuesSuffix->setText( group.readEntry("ValuesSuffix", m_curve->valuesSuffix()) ); QFont valuesFont = m_curve->valuesFont(); valuesFont.setPointSizeF( round(Worksheet::convertFromSceneUnits(valuesFont.pixelSize(), Worksheet::Point)) ); ui.kfrValuesFont->setFont( group.readEntry("ValuesFont", valuesFont) ); ui.kcbValuesColor->setColor( group.readEntry("ValuesColor", m_curve->valuesColor()) ); //Filling ui.cbFillingPosition->setCurrentIndex( group.readEntry("FillingPosition", (int) m_curve->fillingPosition()) ); ui.cbFillingType->setCurrentIndex( group.readEntry("FillingType", (int) m_curve->fillingType()) ); ui.cbFillingColorStyle->setCurrentIndex( group.readEntry("FillingColorStyle", (int) m_curve->fillingColorStyle()) ); ui.cbFillingImageStyle->setCurrentIndex( group.readEntry("FillingImageStyle", (int) m_curve->fillingImageStyle()) ); ui.cbFillingBrushStyle->setCurrentIndex( group.readEntry("FillingBrushStyle", (int) m_curve->fillingBrushStyle()) ); ui.leFillingFileName->setText( group.readEntry("FillingFileName", m_curve->fillingFileName()) ); ui.kcbFillingFirstColor->setColor( group.readEntry("FillingFirstColor", m_curve->fillingFirstColor()) ); ui.kcbFillingSecondColor->setColor( group.readEntry("FillingSecondColor", m_curve->fillingSecondColor()) ); ui.sbFillingOpacity->setValue( round(group.readEntry("FillingOpacity", m_curve->fillingOpacity())*100.0) ); //Error bars ui.cbXErrorType->setCurrentIndex( group.readEntry("XErrorType", (int) m_curve->xErrorType()) ); ui.cbYErrorType->setCurrentIndex( group.readEntry("YErrorType", (int) m_curve->yErrorType()) ); ui.cbErrorBarsType->setCurrentIndex( group.readEntry("ErrorBarsType", (int) m_curve->errorBarsType()) ); ui.sbErrorBarsCapSize->setValue( Worksheet::convertFromSceneUnits(group.readEntry("ErrorBarsCapSize", m_curve->errorBarsCapSize()), Worksheet::Point) ); ui.cbErrorBarsStyle->setCurrentIndex( group.readEntry("ErrorBarsStyle", (int) m_curve->errorBarsPen().style()) ); ui.kcbErrorBarsColor->setColor( group.readEntry("ErrorBarsColor", m_curve->errorBarsPen().color()) ); ui.sbErrorBarsWidth->setValue( Worksheet::convertFromSceneUnits(group.readEntry("ErrorBarsWidth", m_curve->errorBarsPen().widthF()),Worksheet::Point) ); ui.sbErrorBarsOpacity->setValue( round(group.readEntry("ErrorBarsOpacity", m_curve->errorBarsOpacity())*100.0) ); m_initializing = true; GuiTools::updatePenStyles(ui.cbLineStyle, ui.kcbLineColor->color()); GuiTools::updatePenStyles(ui.cbDropLineStyle, ui.kcbDropLineColor->color()); GuiTools::updateBrushStyles(ui.cbSymbolFillingStyle, ui.kcbSymbolFillingColor->color()); GuiTools::updatePenStyles(ui.cbSymbolBorderStyle, ui.kcbSymbolBorderColor->color()); GuiTools::updatePenStyles(ui.cbErrorBarsStyle, ui.kcbErrorBarsColor->color()); GuiTools::updateBrushStyles(ui.cbFillingBrushStyle, ui.kcbFillingFirstColor->color()); m_initializing = false; } void XYCurveDock::saveConfigAsTemplate(KConfig& config) { KConfigGroup group = config.group( "XYCurve" ); //General //we don't load/save the settings in the general-tab, since they are not style related. //It doesn't make sense to load/save them in the template. group.writeEntry("LineType", ui.cbLineType->currentIndex()); group.writeEntry("LineSkipGaps", ui.chkLineSkipGaps->isChecked()); group.writeEntry("LineInterpolationPointsCount", ui.sbLineInterpolationPointsCount->value() ); group.writeEntry("LineStyle", ui.cbLineStyle->currentIndex()); group.writeEntry("LineColor", ui.kcbLineColor->color()); group.writeEntry("LineWidth", Worksheet::convertToSceneUnits(ui.sbLineWidth->value(),Worksheet::Point) ); group.writeEntry("LineOpacity", ui.sbLineOpacity->value()/100 ); //Drop Line group.writeEntry("DropLineType", ui.cbDropLineType->currentIndex()); group.writeEntry("DropLineStyle", ui.cbDropLineStyle->currentIndex()); group.writeEntry("DropLineColor", ui.kcbDropLineColor->color()); group.writeEntry("DropLineWidth", Worksheet::convertToSceneUnits(ui.sbDropLineWidth->value(),Worksheet::Point) ); group.writeEntry("DropLineOpacity", ui.sbDropLineOpacity->value()/100 ); //Symbol (TODO: character) group.writeEntry("SymbolStyle", ui.cbSymbolStyle->currentIndex()); group.writeEntry("SymbolSize", Worksheet::convertToSceneUnits(ui.sbSymbolSize->value(),Worksheet::Point)); group.writeEntry("SymbolRotation", ui.sbSymbolRotation->value()); group.writeEntry("SymbolOpacity", ui.sbSymbolOpacity->value()/100 ); group.writeEntry("SymbolFillingStyle", ui.cbSymbolFillingStyle->currentIndex()); group.writeEntry("SymbolFillingColor", ui.kcbSymbolFillingColor->color()); group.writeEntry("SymbolBorderStyle", ui.cbSymbolBorderStyle->currentIndex()); group.writeEntry("SymbolBorderColor", ui.kcbSymbolBorderColor->color()); group.writeEntry("SymbolBorderWidth", Worksheet::convertToSceneUnits(ui.sbSymbolBorderWidth->value(),Worksheet::Point)); //Values group.writeEntry("ValuesType", ui.cbValuesType->currentIndex()); group.writeEntry("ValuesPosition", ui.cbValuesPosition->currentIndex()); group.writeEntry("ValuesDistance", Worksheet::convertToSceneUnits(ui.sbValuesDistance->value(),Worksheet::Point)); group.writeEntry("ValuesRotation", ui.sbValuesRotation->value()); group.writeEntry("ValuesOpacity", ui.sbValuesOpacity->value()/100); group.writeEntry("ValuesPrefix", ui.leValuesPrefix->text()); group.writeEntry("ValuesSuffix", ui.leValuesSuffix->text()); group.writeEntry("ValuesFont", ui.kfrValuesFont->font()); group.writeEntry("ValuesColor", ui.kcbValuesColor->color()); //Filling group.writeEntry("FillingPosition", ui.cbFillingPosition->currentIndex()); group.writeEntry("FillingType", ui.cbFillingType->currentIndex()); group.writeEntry("FillingColorStyle", ui.cbFillingColorStyle->currentIndex()); group.writeEntry("FillingImageStyle", ui.cbFillingImageStyle->currentIndex()); group.writeEntry("FillingBrushStyle", ui.cbFillingBrushStyle->currentIndex()); group.writeEntry("FillingFileName", ui.leFillingFileName->text()); group.writeEntry("FillingFirstColor", ui.kcbFillingFirstColor->color()); group.writeEntry("FillingSecondColor", ui.kcbFillingSecondColor->color()); group.writeEntry("FillingOpacity", ui.sbFillingOpacity->value()/100.0); //Error bars group.writeEntry("XErrorType", ui.cbXErrorType->currentIndex()); group.writeEntry("YErrorType", ui.cbYErrorType->currentIndex()); group.writeEntry("ErrorBarsType", ui.cbErrorBarsType->currentIndex()); group.writeEntry("ErrorBarsCapSize", Worksheet::convertToSceneUnits(ui.sbErrorBarsCapSize->value(),Worksheet::Point) ); group.writeEntry("ErrorBarsStyle", ui.cbErrorBarsStyle->currentIndex()); group.writeEntry("ErrorBarsColor", ui.kcbErrorBarsColor->color()); group.writeEntry("ErrorBarsWidth", Worksheet::convertToSceneUnits(ui.sbErrorBarsWidth->value(),Worksheet::Point) ); group.writeEntry("ErrorBarsOpacity", ui.sbErrorBarsOpacity->value()/100 ); config.sync(); } diff --git a/src/kdefrontend/widgets/FitOptionsWidget.cpp b/src/kdefrontend/widgets/FitOptionsWidget.cpp index 7add28462..5c549f900 100644 --- a/src/kdefrontend/widgets/FitOptionsWidget.cpp +++ b/src/kdefrontend/widgets/FitOptionsWidget.cpp @@ -1,193 +1,192 @@ /*************************************************************************** File : FitOptionsWidget.cc Project : LabPlot Description : widget for editing advanced fit options -------------------------------------------------------------------- Copyright : (C) 2014 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2017-2018 Stefan Gerlach (stefan.gerlach@uni.kn) ***************************************************************************/ /*************************************************************************** * * * 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., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "FitOptionsWidget.h" /*! \class FitOptionsWidget \brief Widget for editing advanced fit options. \ingroup kdefrontend */ FitOptionsWidget::FitOptionsWidget(QWidget *parent, XYFitCurve::FitData* fitData, XYFitCurve* fitCurve) : QWidget(parent), m_fitData(fitData), m_fitCurve(fitCurve) { ui.setupUi(this); ui.pbApply->setIcon(QIcon::fromTheme("dialog-ok-apply")); ui.pbCancel->setIcon(QIcon::fromTheme("dialog-cancel")); //TODO: show "robust" option when robust fitting is possible // ui.cbRobust->addItem(i18n("on")); // ui.cbRobust->addItem(i18n("off")); ui.lRobust->setVisible(false); ui.cbRobust->setVisible(false); ui.leEps->setValidator( new QDoubleValidator(ui.leEps) ); ui.leMaxIterations->setValidator( new QIntValidator(ui.leMaxIterations) ); ui.leEvaluatedPoints->setValidator( new QIntValidator(ui.leEvaluatedPoints) ); ui.leEps->setText(QString::number(m_fitData->eps)); ui.leMaxIterations->setText(QString::number(m_fitData->maxIterations)); ui.leEvaluatedPoints->setText(QString::number(m_fitData->evaluatedPoints)); ui.cbAutoRange->setChecked(m_fitData->autoRange); ui.cbAutoEvalRange->setChecked(m_fitData->autoEvalRange); ui.leMin->setText(QString::number(m_fitData->fitRange.first())); ui.leMax->setText(QString::number(m_fitData->fitRange.last())); ui.leEvalMin->setText(QString::number(m_fitData->evalRange.first())); ui.leEvalMax->setText(QString::number(m_fitData->evalRange.last())); this->autoRangeChanged(); this->autoEvalRangeChanged(); ui.cbUseDataErrors->setChecked(m_fitData->useDataErrors); ui.cbUseResults->setChecked(m_fitData->useResults); ui.cbPreview->setChecked(m_fitData->previewEnabled); //SLOTS connect(ui.leEps, &QLineEdit::textChanged, this, &FitOptionsWidget::changed); connect(ui.leMaxIterations, &QLineEdit::textChanged, this, &FitOptionsWidget::changed); connect(ui.leEvaluatedPoints, &QLineEdit::textChanged, this, &FitOptionsWidget::changed); connect(ui.cbUseDataErrors, &QCheckBox::clicked, this, &FitOptionsWidget::changed); connect(ui.cbUseResults, &QCheckBox::clicked, this, &FitOptionsWidget::changed); connect(ui.cbPreview, &QCheckBox::clicked, this, &FitOptionsWidget::changed); connect(ui.pbApply, &QPushButton::clicked, this, &FitOptionsWidget::applyClicked); connect(ui.pbCancel, &QPushButton::clicked, this, &FitOptionsWidget::finished); connect(ui.cbAutoRange, &QCheckBox::clicked, this, &FitOptionsWidget::autoRangeChanged); connect(ui.cbAutoEvalRange, &QCheckBox::clicked, this, &FitOptionsWidget::autoEvalRangeChanged); connect(ui.leMin, &QLineEdit::textChanged, this, &FitOptionsWidget::fitRangeMinChanged); connect(ui.leMax, &QLineEdit::textChanged, this, &FitOptionsWidget::fitRangeMaxChanged); connect(ui.leEvalMin, &QLineEdit::textChanged, this, &FitOptionsWidget::evalRangeMinChanged); connect(ui.leEvalMax, &QLineEdit::textChanged, this, &FitOptionsWidget::evalRangeMaxChanged); } void FitOptionsWidget::autoRangeChanged() { const bool autoRange = ui.cbAutoRange->isChecked(); m_fitData->autoRange = autoRange; if (autoRange) { ui.leMin->setEnabled(false); ui.lXRange->setEnabled(false); ui.leMax->setEnabled(false); const AbstractColumn* xDataColumn = nullptr; if (m_fitCurve->dataSourceType() == XYAnalysisCurve::DataSourceSpreadsheet) xDataColumn = m_fitCurve->xDataColumn(); else { if (m_fitCurve->dataSourceCurve()) xDataColumn = m_fitCurve->dataSourceCurve()->xColumn(); } if (xDataColumn) { const double xMin = xDataColumn->minimum(); const double xMax = xDataColumn->maximum(); ui.leMin->setText(QString::number(xMin)); ui.leMax->setText(QString::number(xMax)); m_fitData->fitRange.last() = xMax; m_fitData->fitRange.first() = xMin; } } else { ui.leMin->setEnabled(true); ui.lXRange->setEnabled(true); ui.leMax->setEnabled(true); } } void FitOptionsWidget::autoEvalRangeChanged() { const bool autoRange = ui.cbAutoEvalRange->isChecked(); m_fitData->autoEvalRange = autoRange; if (autoRange) { ui.leEvalMin->setEnabled(false); ui.lEvalRange->setEnabled(false); ui.leEvalMax->setEnabled(false); const AbstractColumn* xDataColumn = nullptr; if (m_fitCurve->dataSourceType() == XYAnalysisCurve::DataSourceSpreadsheet) xDataColumn = m_fitCurve->xDataColumn(); else { if (m_fitCurve->dataSourceCurve()) xDataColumn = m_fitCurve->dataSourceCurve()->xColumn(); } if (xDataColumn) { const double xMin = xDataColumn->minimum(); const double xMax = xDataColumn->maximum(); ui.leEvalMin->setText(QString::number(xMin)); ui.leEvalMax->setText(QString::number(xMax)); m_fitData->evalRange.last() = xMax; m_fitData->evalRange.first() = xMin; } } else { ui.leEvalMin->setEnabled(true); ui.lEvalRange->setEnabled(true); ui.leEvalMax->setEnabled(true); } } void FitOptionsWidget::fitRangeMinChanged() { const double xMin = ui.leMin->text().toDouble(); m_fitData->fitRange.first() = xMin; changed(); } void FitOptionsWidget::fitRangeMaxChanged() { const double xMax = ui.leMax->text().toDouble(); m_fitData->fitRange.last() = xMax; changed(); } void FitOptionsWidget::evalRangeMinChanged() { const double xMin = ui.leEvalMin->text().toDouble(); m_fitData->evalRange.first() = xMin; changed(); } void FitOptionsWidget::evalRangeMaxChanged() { const double xMax = ui.leEvalMax->text().toDouble(); m_fitData->evalRange.last() = xMax; changed(); } void FitOptionsWidget::applyClicked() { m_fitData->maxIterations = ui.leMaxIterations->text().toFloat(); m_fitData->eps = ui.leEps->text().toFloat(); m_fitData->evaluatedPoints = ui.leEvaluatedPoints->text().toInt(); m_fitData->useDataErrors = ui.cbUseDataErrors->isChecked(); m_fitData->useResults = ui.cbUseResults->isChecked(); m_fitData->previewEnabled = ui.cbPreview->isChecked(); - DEBUG("saving " << m_fitData->evalRange.first() << " " << m_fitData->evalRange.last()) if (m_changed) emit optionsChanged(); emit finished(); } void FitOptionsWidget::changed() { m_changed = true; }